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Nasinov 9024

Fanning honeybee exposes Nasonov gland (white-at tip of abdomen) releasing pheromone to entice swarm into an empty hive

A pheromone (from Greek φέρω phero "to bear" and hormone, from Greek ὁρμή "impetus") is a secreted or excreted chemical factor that triggers a social response in members of the same species. Pheromones are chemicals capable of acting outside the body of the secreting individual to impact the behavior of the receiving individual.[1] There are alarm pheromones, food trail pheromones, sex pheromones, and many others that affect behavior or physiology. Pheromones are used from basic unicellular prokaryotes to complex multicellular eukaryotes.[2] Their use among insects has been particularly well documented. In addition, some vertebrates and plants communicate by using pheromones.

Background[]

The term "pheromone" was introduced by Peter Karlson and Martin Lüscher in 1959, based on the Greek word pherein (to transport) and hormone (to stimulate). They are also sometimes classified as ecto-hormones. They were researched earlier by various scientists, including Jean-Henri Fabre, Joseph A. Lintner, Adolph Butenandt, and the prominent ethologist Karl von Frisch who called them various names like "alarm substances." These chemical messengers are transported outside of the body and result in a direct developmental effect on hormone levels or behavioral change.[3] They proposed the term to describe chemical signals from conspecifics that elicit innate behaviors soon after the German Biochemist Adolf Butenandt characterized the first such chemical, bombykol (a chemically well-characterized pheromone released by the female silkworm to attract mates).[4]

Limits[]

There are physical limits on the practical size of organisms employing pheromones, because at small sizes pheromone diffuses away from the source organism faster than it can be produced, and a sensible concentration accumulates too slowly to be useful. So bacteria are too small to use pheromones as sex attractants on an individual basis but do use them to determine the local population density of similar organisms and control behaviors that take more time to execute (quorum sensing or to promote Natural competence for Transformation (genetics), i.e. sexual gene transfer). In similar manner, the simple animals rotifers are, it appears, also too small for females to lay down a useful trail, but in the slightly larger copepods the female leaves a trail that the male can follow.[5]

Types[]

Aggregation[]

Bug aggregation

Aggregation of bug nymphs

Aggregation pheromones function in defense against predators, mate selection, and overcoming host resistance by mass attack. A group of individuals at one location is referred to as an aggregation, whether consisting of one sex or both sexes. Male-produced sex attractants have been called aggregation pheromones, because they usually result in the arrival of both sexes at a calling site, and increase the density of conspecifics surrounding the pheromone source. Most sex pheromones are produced by the females and small percentage of sex attractants are produced by males.[6] Aggregation pheromones have been found in members of the Coleoptera, Diptera, Hemiptera, Dictyoptera and Orthoptera. In recent decades, the importance of applying aggregation pheromones in the management of the boll weevil (Anthonomus grandis), stored product weevils (Sitophilus zeamais), Sitophilus granarius, Sitophilus oryzae, and pea and bean weevil (Sitona lineatus) has been demonstrated. Aggregation pheromones are among the most ecologically selective pest suppression methods. They are nontoxic and effective at very low concentrations.[7]

Alarm[]

Some species release a volatile substance when attacked by a predator that can trigger flight (in aphids) or aggression (in ants, bees, termites)[8] in members of the same species. Pheromones also exist in plants: Certain plants emit alarm pheromones when grazed upon, resulting in tannin production in neighboring plants. These tannins make the plants less appetizing for the herbivore.[9]

Epideictic[]

Epideictic pheromones are different from territory pheromones, when it comes to insects. Fabre observed and noted how "females who lay their eggs in these fruits deposit these mysterious substances in the vicinity of their clutch to signal to other females of the same species they should clutch elsewhere."

Releaser[]

Releaser pheromones are pheromones that cause an alteration in the behavior of the recipient. For example, some organisms use powerful attractant molecules to attract mates from a distance of two miles or more. In general, this type of pheromone elicits a rapid response, but is quickly degraded. In contrast, a primer pheromone has a slower onset and a longer duration. For example, rabbit (mothers) release mammary pheromones that trigger immediate nursing behavior by their babies.[10]

Signal[]

Signal pheromones cause short-term changes, such as the neurotransmitter release that activates a response. For instance, GnRH molecule functions as a neurotransmitter in rats to elicit lordosis behavior.[3]

Primer[]

Primer pheromones trigger a change of developmental events (in which they differ from all the other pheromones, which trigger a change in behavior).

Territorial[]

Laid down in the environment, territorial pheromones mark the boundaries of an organism's territory. In cats and dogs, these hormones are present in the urine, which they deposit on landmarks serving to mark the perimeter of the claimed territory. In social seabirds, the preen gland is used to mark nests, nuptial gifts, and territory boundaries with behavior formerly described as 'displacement activity'.

Trail[]

Trail pheromones are common in social insects. For example, ants mark their paths with these pheromones, which are volatile hydrocarbons.

Certain ants lay down an initial trail of pheromones as they return to the nest with food. This trail attracts other ants and serves as a guide.[11] As long as the food source remains, the pheromone trail will be continuously renewed. The pheromone must be continuously renewed because it evaporates quickly. When the supply begins to dwindle, the trail making ceases. In at least one species of ant, trails that no longer lead to food are also marked with a repellent pheromone.[12]

Information[]

Information pheromones are indicative of an animal's identity or territory. For example, dogs and cats deposit chemicals in and around their territory, which then serve as an indicator for other members of the species about the presence of the occupant in that territory.[10]

Sex[]

Main article: sex pheromone
File:Danaus chrysippus male by kadavoor.JPG

Male Danaus chrysippus showing the pheromone pouch and brush-like organ in Kerala, India

In animals, sex pheromones indicate the availability of the female for breeding. Male animals may also emit pheromones that convey information about their species and genotype.

At the microscopic level, a number of bacterial species (e.g. Bacillus subtilis, Streptococcus pneumoniae, Bacillus cereus) release specific chemicals into the surrounding media to induce the "competent" state in neighboring bacteria.[13] Competence is a physiological state that allows bacterial cells to take up DNA from other cells and incorporate this DNA into their own genome, a sexual process called transformation (see Natural competence).

Among eukaryotic microorganisms, pheromones promote sexual interaction in numerous species.[14] These species include the yeast Saccharomyces cerevisiae, the filamentous fungi Neurospora crassa and Mucor mucedo, the water mold Achlya ambisexualis, the aquatic fungus Allomyces macrogynus, the slime mold Dictyostelium discoideum, the ciliate protozoan Blepharisma japonicum and the multicellular green algae Volvox carteri. In addition, male copepods can follow a three-dimensional pheromone trail left by a swimming female, and male gametes of many animals use a pheromone to help find a female gamete for fertilization.[15]

Many insect species, such as the ant Leptothorax acervorum, release sex pheromones to attract a mate, and many lepidopterans (moths and butterflies) can detect a potential mate from as far away as Template:Convert/kmTemplate:Convert/test/Aon. Traps containing pheromones are used by farmers to detect and monitor insect populations in orchards.

Pheromones are also used in the detection of oestrus in sows. Boar pheromones are sprayed into the sty, and those sows that exhibit sexual arousal are known to be currently available for breeding. Sea urchins release pheromones into the surrounding water, sending a chemical message that triggers other urchins in the colony to eject their sex cells simultaneously.

Other[]

This classification, based on the effects on behavior, remains artificial. Pheromones fill many additional functions.

  • Nasonov pheromones (worker bees)
  • Royal pheromones (bees)
  • Calming (appeasement) pheromones (mammals)
  • Necromones, given off by a deceased and decomposing organism; consisting of oleic and linoleic acids, they allow crustaceans and hexapods to identify the presence of dead conspecifics.[16]

Species specific pheromones[]

Evolution[]

Pheromones have evolved in all animal phyla, to signal sex and dominance status, and are responsible for stereotypical social and sexual behaviour among members of the same species. In mammals, these chemical signals are believed to be detected primarily by the vomeronasal organ (VNO), a chemosensory organ located at the base of the nasal septum.[17] The VNO is present in most amphibia, reptiles, and non-primate mammals but is absent in birds, adult catarrhine monkeys, and apes.[18] An active role for the human VNO in the detection of pheromones is disputed; the VNO is clearly present in the foetus but appears to be atrophied or absent in adults. Three distinct families of putative pheromone receptors have been identified in the vomeronasal organ (V1Rs, V2Rs, and V3Rs). All are G protein-coupled receptors but are only distantly related to the receptors of the main olfactory system, highlighting their different role.[17]

It has been suggested that in the evolution of unicellular prokaryotes to multicellular eukaryotes, primordial pheromone signaling between individuals may have evolved to paracrine and endocrine signaling within individual organisms.[19]

Uses[]

Non-human animals[]

For biological pest control, see Pheromone trap.

Pheromones of pest insect species, such as the Japanese beetle and the gypsy moth, can be used to induce many behaviors. As a result, a pheromone trap can be used to trap pests for monitoring purposes, to control the population by creating confusion, to disrupt mating, as well as to prevent further egg laying.

In mammals and reptiles, pheromones may be detected by the vomeronasal organ (VNO), or Jacobson's organ, which lies between the nose and mouth and is the first stage of the accessory olfactory system. Some pheromones in these animals are detected by regular olfactory membranes.

Avoidance of inbreeding[]

Mice can distinguish close relatives from more distantly related individuals on the basis of scent signals,[20] which enables them to avoid mating with close relatives and to minimize deleterious inbreeding.[21] showed that the inbreeding of mice derived from wild populations significantly reduced survival when such mice were reintroduced into a natural habitat.

Humans[]

Main article: Human pheromones
See also: Body odor

While humans are highly dependent upon visual cues, when in close proximity smells also play a big role in sociosexual behaviors. There is an inherent difficulty in studying human pheromones because of the need for cleanliness and odorlessness in human participants.[22] The focus of the experiments on human pheromones has been on three classes of putative pheromones: axillary steroids, vaginal aliphatic acids, and stimulators of the vomeronasal organ.

Axillary steroids[]

There are three axillary steroids that have been described as human pheromones: androstenone, androstenol and androstadienone. The axillary steroids are produced by the testes, ovaries, apocrine glands and adrenal glands.[23] These chemicals are not biologically active until puberty when the sex steroids influence their activity.[24] This change in activity associated with puberty is some of the best evidence that our species do communicate through odors.[23]

Androstenol is the putative female pheromone.[24] In a study by Kirk-Smith, people wearing surgical masks treated with androstenol or untreated were shown pictures of people, animals and buildings and asked to rate the pictures on attractiveness.[25] Individuals with their masks treated with androstenol rated their photographs as being "warmer" and "more friendly".[25]

The best-known case involves the synchronization of menstrual cycles among women based on unconscious odor cues (the McClintock effect, named after the primary investigator, Martha McClintock, of the University of Chicago).[26][27] This study exposed a group of women to a whiff of perspiration from other women. It was found that it caused their menstrual cycles to speed up or slow down depending on the time in the month the sweat was collected: before, during, or after ovulation. Therefore, this study proposed that there are two types of pheromone involved: "One, produced prior to ovulation, shortens the ovarian cycle; and the second, produced just at ovulation, lengthens the cycle". However, recent studies and reviews of the McClintock methodology have called into question the validity of her results.[28][29]

Van Toller and colleagues showed that people exposed to androstenone undergo physiological changes in skin conductance.[30] Further, androstenone has also been found to be perceived as more pleasant to men at a woman’s time of ovulation. It is hypothesized that this may be a way for a male to detect an ovulating female who would be more willingly to be involved in sexual interaction.[22] Females are also most sensitive to this pheromone while ovulating. This pheromone is said to be only secreted by males as an attractant for women and is also thought to be a positive effector for their mood. Depending on where a female is in her menstrual cycle, the pheromones seem to have different effects on women.[24]

Another putative pheromone is androstadienone. This steroid seems to affect the limbic system and causes a positive reaction in women, often improving their moods.[23] Responses to androstadienone are dependent on the individual and the environment they are in.[31] Androstadienone negatively influences the perception of pain in women.[31] Women tend to react positively after androstadienone presentation while men are more negative. In an experiment by Hummer and McClintock, androstandienone or a control odor was put on the upper lips of fifty males and females and they were tested for four different effects of the pheromone: 1) automatic attention towards positive and negative facial expressions, 2) the strength of cognitive and emotional information as distracters in a simple reaction time task, 3) relative attention to social and nonsocial stimuli (i.e. neutral faces), and 4) mood and attentiveness in the absence of social interaction. The androstadienone was found to draw attention towards emotional facial expressions. Those treated with androstadienone drew more attention to emotional words while it did not increase attention to neutral faces. These data suggest that androstandienone increases attention to emotional information resulting a feeling of being more focused. It is thought that androstadienone is a modulator on how the mind attends and processes information instead of being a mood-alerter.[31]

Further evidence of a role for pheromones in the modulation of sociosexual behavior comes from two double blind, placebo-controlled experiments. The first, by Cutler, had 38 male volunteers apply either a male pheromone or control odor and record six different sociosexual behaviors over two weeks.[32] This study found that there is an increase in sexual behavior in the pheromone users compared to the control group.[32] The study by McCoy and Pitino was similar to the Cutler study, only females instead of males were subjects. Females treated with female pheromones reported significant increases in many of the behaviors including "sexual intercourse", "sleeping next to a partner", "formal dates", and "petting/affection/kissing".[33] The researchers believed that the pheromones had a positive sexual attractant effect.[33]

Vaginal aliphatic acids[]

A class of aliphatic acids was found in female rhesus monkeys that produced six types in the vaginal fluids.[34] The combination of these acids is referred to as "copulins". One of the acids, acetic acid, was found in all of the sampled female’s vaginal fluid.[34] Even in humans one-third have all six types of copulins, which increase in quantity prior to ovulation.[34] Copulins are used to signal ovulation; however, as human ovulation is concealed it is thought that they may be used for reasons other than sexual communication.[23]

Stimulators of the vomeronasal organ[]

The human vomeronasal organ has epithelia that may be able to serve as a chemical sensory organ; however, the genes that encode the VNO receptors are nonfunctional pseudogenes in humans.[22] Also, while there are sensory neurons in the human VNO there seem to be no connections between the VNO and the central nervous system. The associated olfactory bulb is present in the fetus but regresses and vanishes in the adult brain. There have been some reports that the human VNO does function, but only responds to hormones in a "sex-specific manner". There also has been pheromone receptor genes found in olfactory mucosa.[22] Unfortunately, there have been no experiments that compare people lacking the VNO and people that have it. It is still disputed on whether the chemicals are reaching the brain through the VNO or other tissues.[23]

In 2006, it was shown that a second mouse receptor sub-class is found in the olfactory epithelium. Called the trace amine-associated receptors (TAAR), some are activated by volatile amines found in mouse urine, including one putative mouse pheromone.[35] Orthologous receptors exist in humans providing, the authors propose, evidence for a mechanism of human pheromone detection.[36]

Even though there are disputes about the mechanisms by which pheromones function there is evidence that pheromones do affect humans.[37] Even with all of this evidence, nothing is conclusive on whether or not humans have functional pheromones. Even if there are experiments that suggest that certain pheromones have a positive effect on human, there are just as many that state the opposite or that they have no effect whatsoever.[23]

A possible theory being studied now is that these axillary odors are being used to provide information about the immune system. Milinski and colleagues found that the artificial odors that people chose are determined in part by their major histocompatibility complexes (MHC) combination.[38] Information about an individual’s immune system could be used as a way of "sexual selection" so that the female could obtain good genes for her offspring.[22] Wedekind and colleagues found that both men and women prefer the axillary odors of people whose MHC is different from their own.[39]

Some body spray advertisers claim that their products contain human sexual pheromones that act as an aphrodisiac. Despite these claims, no pheromonal substance has ever been demonstrated to directly influence human behavior in a peer reviewed study.[23][40] Thus, the role of pheromones in human behavior remains speculative and controversial.[41]

See also[]

References[]

  1. Definition of pheromone. MedicineNet Inc..
  2. Kleerebezem, M, Quadri, LE (2001 Oct). Peptide pheromone-dependent regulation of antimicrobial peptide production in Gram-positive bacteria: a case of multicellular behavior.. Peptides 22 (10): 1579–96.
  3. 3.0 3.1 Kohl JV, Atzmueller M, Fink B, Grammer K (October 2001). Human pheromones: integrating neuroendocrinology and ethology. Neuro Endocrinol. Lett. 22 (5): 309–21.
  4. Karlson P., Lüscher M. (1959). Pheromones: a new term for a class of biologically active substances. Nature 183 (4653): 55–56.
  5. Dusenbery, David B. (2009). Living at Micro Scale, Chapter 19. Harvard University Press, Cambridge, Mass. ISBN 978-0-674-03116-6.
  6. https://www.msu.edu/user/miller20/carmona.htm
  7. Landolt, J.P. (1997). Sex attractant and aggregation pheromones of male phytophagous insects. American Entomologist 43 (1): 12–22.
  8. Šobotník, J., Hanus, R., Kalinová, B., Piskorski, R., Cvačka, J., Bourguignon, T., Roisin, Y. (April 2008). (E,E)-α-Farnesene, an Alarm Pheromone of the Termite Prorhinotermes canalifrons. Journal of Chemical Ecology 34 (4): 478–486.
  9. J. du P. Bothma (2002). Game Ranch Management, 4th, Van Schaik.
  10. 10.0 10.1 Kimball, J.W. Pheromones. Kimball's Biology Pages. Sep 2008
  11. Excited ants follow pheromone trail of same chemical they will use to paralyze their prey. URL accessed on 2006-03-14.
  12. Study: Ants Use Scents Like Road Signs. URL accessed on 2006-03-14.
  13. Bernstein C, Bernstein H (September 1997). Sexual communication. J. Theor. Biol. 188 (1): 69–78.
  14. Danton H. O’Day, Paul A. Horgen (1981) Sexual Interactions in Eukaryotic Microbes Academic Press, New York. ISBN 0125241607 ISBN 978-0125241601
  15. Dusenbery, David B. (2009). Living at Micro Scale, Chapters 19 & 20. Harvard University Press, Cambridge, Mass. ISBN 978-0-674-03116-6.
  16. (2009). The Ancient Chemistry of Avoiding Risks of Predation and Disease. Evolutionary biology 36 (3): 267–281.
  17. 17.0 17.1 Pantages E, Dulac C (2000). A novel family of candidate pheromone receptors in mammals. Neuron 28 (3): 835–845.
  18. Keverne EB (1999). The vomeronasal organ. Science 286 (5440): 716–720.
  19. Stoka, AM (1999 Jun). Phylogeny and evolution of chemical communication: an endocrine approach. Journal of molecular endocrinology 22 (3): 207–25.
  20. Sherborne AL, Thom MD, Paterson S, et al. (December 2007). The genetic basis of inbreeding avoidance in house mice. Curr. Biol. 17 (23): 2061–6.
  21. Jiménez JA, Hughes KA, Alaks G, Graham L, Lacy RC (1994). ) "An experimental study of inbreeding depression in a natural habitat. Science 266 (5183): 271–3.
  22. 22.0 22.1 22.2 22.3 22.4 Karl Grammer (2005). Human pheromones and sexual attraction. European Journal of Obstetrics and Gynecology and Reproductive Biology 118 (2): 135–142.
  23. 23.0 23.1 23.2 23.3 23.4 23.5 23.6 Warren S. T. Hays (2003). Human pheromones: have they been demonstrated?. Behavioral Ecological Sociobiology 54 (2): 98–97.
  24. 24.0 24.1 24.2 Taymour Mostafa (2012). Pheromones in sex and reproduction: Do they have a role in humans?. Journal of Advanced Research 3 (1): 1–9.
  25. 25.0 25.1 Kirk-Smith, Michael (1978). Human social attitudes affected by androstenol. Research Communications in Psychology, Psychiatry & Behavior 3 (4): 379–384.
  26. McClintock MK (January 1971). Menstrual synchorony and suppression. Nature 229 (5282): 244–5.
  27. Stern K, McClintock MK (March 1998). Regulation of ovulation by human pheromones. Nature 392 (6672): 177–9..
  28. Yang, Zhengwei, Jeffrey C. Schank (2006). Women Do Not Synchronize Their Menstrual Cycles. Human Nature 17 (4): 434–447.
  29. Strassmann BI (March 1999). Menstrual synchrony pheromones: cause for doubt. Hum. Reprod. 14 (3): 579–80.
  30. C. Van Toller (1983). Skin conductance and subjective assessments associated with the odour of 5-α-androstand-3-one. Biological Psychology 16 (1–2): 85–107.
  31. 31.0 31.1 31.2 Tom A. Hummer (2009). Putative human pheromone androstadienone attunes the mind specifically to emotional information. Hormones and Behavior 44 (4): 548–559.
  32. 32.0 32.1 Winnifred B. Cutler (1998). Pheromonal Influences on Sociosexual Behavior in Men. Archives of Sexual Behavior 27 (1): 1–13.
  33. 33.0 33.1 Norma L McCoy (2002). Pheromonal influences on sociosexual behavior in young women. Physiology & Behavoir 75 (3): 367–375.
  34. 34.0 34.1 34.2 Richard P. Michael (1975). Voatile fatty acids, "copulins", in human vaginal secretions. Psychoneuroendocrinoloy 1 (2): 153–163.
  35. Liberles SD, Buck LB (2006). A second class of chemosensory receptors in the olfactory epithelium. Nature 442 (7103): 645–50.
  36. Pearson H (2006). Mouse data hint at human pheromones. Nature 442 (7102).
  37. Charles J. Wysocki (2004). Facts, fallacies, fears, and frustrations with human pheromones. The Anatomical Record 281A (1): 1201–11.
  38. Milinski, Manfred (2001). Evidence for MHC-correlated perfume preferences in humans. Behavioral Ecology 12 (2): 140–9.
  39. Claus Wedekind (1995). MHC-Dependent Mate Preferences in Humans. Proceedings: Biological Sciences 260 (1359): 245–9.
  40. Bear, Mark F.; Barry W. Connors, Michael A. Paradiso (2006). Neuroscience: Exploring the Brain, Lippincott Williams & Wilkins. p. 264 ...there has not yet been any hard evidence for human pheromones that might [change] sexual attraction (for members of either sex) [naturally]
  41. Dale Purves, et al. (2008). Principles of Cognitive Neuroscience, Sinauer.

Further reading[]

Books[]

  • Wyatt, Tristram D. (2003). Pheromones and Animal Behaviour: Communication by Smell and Taste. Cambridge: Cambridge University Press. ISBN 0-521-48526-6.

Papers[]

  • Liberles, S.D., Buck, L.B. (2006). A second class of chemosensory receptors in the olfactory epithelium. Nature, 442, 645-50.
  • McClintock, M.K. (1984). Estrous synchrony: modulation of ovarian cycle length by female pheromones. Physiological Behavior, 32, 701-705.
  • Wilson, E. O., Bossert, W. H. (1963). Chemical communication among animals. Recent Progress in Hormone Research, 19, 673-716.
  • Wyatt, Tristram D. (2003). Pheromones and Animal Behaviour: Communication by Smell and Taste. Cambridge: Cambridge University Press. ISBN 0-521-48526-6.
  • Abel, E. L. (1991). Alarm substance emitted by rats in the forced-swim test is a low volatile pheromone: Physiology & Behavior Vol 50(4) Oct 1991, 723-727.
  • Abel, E. L., & Hannigan, J. H. (1992). Effects of chronic forced swimming and exposure to alarm substance: Physiological and behavioral consequences: Physiology & Behavior Vol 52(4) Oct 1992, 781-785.
  • Abraham, W. C. (1978). For Whom Do the Writers Write? : PsycCRITIQUES Vol 23 (11), Nov, 1978.
  • Adeesan, C., Tamhankar, A. J., & Rahalkar, G. W. (1977). Influence of larval diapause on pheromone communication in the Khapra beetle, Trogoderma granarium Everts: Experientia Vol 33(1) 1977, 45-46.
  • Akers, R. P. (1986). Olfactory discrimination and orientation by female Ips paraconfusus lanier (Coleoptera:Scolytidae) to components of the male pheromone: Dissertation Abstracts International.
  • Alaux, C., Jaisson, P., & Hefetz, A. (2006). Regulation of worker reproduction in bumblebees (Bombus terrestris): Workers eavesdrop on a queen signal: Behavioral Ecology and Sociobiology Vol 60(3) Jul 2006, 439-446.
  • Alberts, A. C. (1989). Ultraviolet visual sensitivity in desert iguanas: Implications for pheromone detection: Animal Behaviour Vol 38(1) Jul 1989, 129-137.
  • Alberts, A. C., & Werner, D. I. (1993). Chemical recognition of unfamiliar conspecifics by green iguanas: Functional significance of different signal components: Animal Behaviour Vol 46(1) Jul 1993, 197-199.
  • Alderson, J., & Johnston, R. E. (1975). Responses of male golden hamsters (Mesocricetus auratus) to clean and male scented areas: Behavioral Biology Vol 15(4) Dec 1975, 505-510.
  • Alemadi, S. D., & Wisenden, B. D. (2002). Antipredator response to injury-released chemical alarm cues by convict cichlid young before and after independence from parental protection: Behaviour Vol 139(5) May 2002, 603-611.
  • Algranati, F. D. (1980). Role of sex attractant pheromone(s) on spawning aggregation in the zebrafish, Brachydanio rerio: Its isolation and partial purification: Dissertation Abstracts International.
  • Allison, J. D., & Carde, R. T. (2008). Male pheromone blend preference function measured in choice and no-choice wind tunnel trials with almond moths, Cadra cautella: Animal Behaviour Vol 75(1) Jan 2008, 259-266.
  • Alonso, L. E., & Vander Meer, R. K. (1997). Source of alate excitant pheromones in the red imported fire ant Solenopsis invicta (Hymenoptera: Formicidae): Journal of Insect Behavior Vol 10(4) Jul 1997, 541-555.
  • Ameyaw-Akumfi, C., & Hazlett, B. A. (1975). Sex recognition in the crayfish Procambarus clarkii: Science Vol 190(4220) Dec 1975, 1225-1226.
  • Amo, L., Lopez, P., & Martin, J. (2004). Wall lizards combine chemical and visual cues of ambush snake predators to avoid overestimating risk inside refuges: Animal Behaviour Vol 67(4) Apr 2004, 647-653.
  • Amory, J. R., & Pearce, G. P. (2000). Alarm pheromones in urine modify the behaviour of weaner pigs: Animal Welfare Vol 9(2) 2000, 167-175.
  • Amrein, H. (2004). Pheromone perception and behavior in Drosophila: Current Opinion in Neurobiology Vol 14(4) Aug 2004, 435-442.
  • Anderson, P., Hansson, B. S., Nilsson, U., Han, Q., Sjoholm, M., Skals, N., et al. (2007). Increased behavioral and neuronal sensitivity to sex pheromone after brief odor experience in a moth: Chemical Senses Vol 32(5) Jun 2007, 483-491.
  • Anderson, P., Sadek, M. M., & Hansson, B. S. (2003). Pre-exposure Modulates Attraction to Sex Pheromone in a Moth: Chemical Senses Vol 28(4) May 2003, 285-291.
  • Appelt, C. W., & Sorensen, P. W. (2007). Female goldfish signal spawning readiness by altering when and where they release a urinary pheromone: Animal Behaviour Vol 74(5) Nov 2007, 1329-1338.
  • Archer, J. (1975). Comments on Harmatz, Boelkins, and Kessler (1975): Habituation not primer pheromone reduces attack in odor-exposed mice: Behavioral Biology Vol 15(4) Dec 1975, 519-520.
  • Ardeh, M. J., de Jong, P. W., Loomans, A. J. M., & van Lenteren, J. C. (2004). Inter- and Intraspecific Effects of Volatile and Nonvolatile Sex Pheromones on Males, Mating Behavior, and Hybridization in Eretmocerus mundus and E. eremicus (Hymenoptera: Aphelinidae): Journal of Insect Behavior Vol 17(6) Nov 2004, 745-759.
  • Arn, H., Schwarz, C., Limacher, H., & Mani, E. (1974). Sex attractant inhibitors of the codling moth Laspeyresia pommonella L: Experientia Vol 30(10) 1974, 1142-1144.
  • Atema, J., & Gagosian, R. B. (1973). Behavioral responses of male lobsters to ecdysones: Marine and Freshwater Behaviour and Physiology Vol 2(1) 1973, 15-20.
  • Audesirk, T. E. (1977). Chemoreception in Aplysia californica: III. Evidence for pheromones influencing reproductive behavior: Behavioral & Neural Biology Vol 20(2) Jun 1977, 235-243.
  • Averhoff, W. W., & Richardson, R. H. (1974). Pheromonal control of mating patterns in Drosophila melanogaster: Behavior Genetics Vol 4(3) Sep 1974, 207-225.
  • Ayasse, M., Engels, W., Lubke, G., Taghizadeh, T., & Francke, W. (1999). Mating expenditures reduced via female sex pheromone modulation in the primitively eusocial halictine bee, Lasioglossum (Evylaeus) malachurum (Hymenoptera: Halictidae): Behavioral Ecology and Sociobiology Vol 45(2) Feb 1999, 95-106.
  • Bagley, K. R., Goodwin, T. E., Rasmussen, L. E. L., & Schulte, B. A. (2006). Male African elephants, Loxodonta Africana, can distinguish oestrous status via urinary signals: Animal Behaviour Vol 71(6) Jun 2006, 1439-1445.
  • Bailey, K. (1978). Flehmen in the ring-tailed lemur (Lemur catta): Behaviour Vol 65(3-4) 1978, 309-319.
  • Baird, R. C., Johari, H., & Jumper, G. Y. (1996). Numerical simulation of environmental modulation of chemical signal structure and odor dispersal in the open ocean: Chemical Senses Vol 21(2) Apr 1996, 121-134.
  • Baker, T. C., Hansson, B. S., Lofstedt, C., & Lofqvist, J. (1989). Adaptation of male moth antennal neurons in a pheromone plume is associated with cessation of pheromone-mediated flight: Chemical Senses Vol 14(3) Jun 1989, 439-448.
  • Baker, T. C., & Kuenen, L. P. (1982). Pheromone source location by flying moths: A supplementary non-anemotactic mechanism: Science Vol 216(4544) Apr 1982, 424-427.
  • Baker, T. C., Nishida, R., & Roelofs, W. L. (1981). Close-range attraction of female Oriental fruit moths to herbal scent of male hairpencils: Science Vol 214(4527) Dec 1981, 1359-1361.
  • Baker, T. C., Quero, C., Ochieng, S. A., & Vickers, N. J. (2006). Inheritance of Olfactory Preferences II. Olfactory Receptor Neuron Responses from Heliothis subflexa x Heliothis virescens Hybrid Male Moths: Brain, Behavior and Evolution Vol 68(2) Jul 2006, 75-89.
  • Balakireva, M., Stocker, R. F., Gendre, N., & Ferveur, J.-F. (1998). Voila, a new drosophila courtship variant that affects the nervous system: Behavioral, neural, and genetic characterization: Journal of Neuroscience Vol 18(11) Jun 1998, 4335-4343.
  • Barbour, J. D., Cervantes, D. E., Lacey, E. S., & Hanks, L. M. (2006). Calling behavior in the primitive Longhorned Beetle Prionus californicus Mots: Journal of Insect Behavior Vol 19(5) Sep 2006, 623-629.
  • Barnett, C. (1981). The role of urine in parent-offspring communication in a cichlid fish: Zeitschrift fur Tierpsychologie Vol 55(2) 1981, 173-182.
  • Barnett, C. (1986). Rearing conditions affect chemosensory preferences in young cichlid fish: Ethology formerly Zeitschrift fur Tierpsychologie Vol 72(3) Jul 1986, 227-235.
  • Barrette, C. (1977). Scent-marking in captive muntjacs, Muntiacus reevesi: Animal Behaviour Vol 25(3) Aug 1977, 536-541.
  • Barrette, C., & Messier, F. (1980). Scent-marking in free-ranging coyotes, Canis latrans: Animal Behaviour Vol 28(3) Aug 1980, 814-819.
  • Barry, M. W. (1978). Sex pheromone mediated behavior and biology of the peachtree borer, Synanthedon exitiosa (SAY): Dissertation Abstracts International.
  • Barth, R. H. (1965). Insect mating behavior: Endocrine control of a chemical communication system: Science 149(Whole No 3686) 1965, 882-883.
  • Bateman, P. W., & Toms, R. B. (1998). Olfactory intersexual discrimination in an African king cricket (Orthoptera: Mimnermidae): Journal of Insect Behavior Vol 11(1) Jan 1998, 159-163.
  • Bau, J., Martinez, D., Renou, M., & Guerrero, A. (1999). Pheromone-triggered orientation flight of male moths can be disrupted by trifluoromethyl ketones: Chemical Senses Vol 24(5) Oct 1999, 473-480.
  • Bauer, T. (1982). Prey-capture in a ground-beetle larva: Animal Behaviour Vol 30(1) Feb 1982, 203-208.
  • Baum, M. J. (2004). Introduction to the special issue on 'Olfaction, Sex, and Behavior': Hormones and Behavior Vol 46(3) Sep 2004, 217-218.
  • Baxi, K. N., Dorries, K. M., & Eisthen, H. L. (2006). Is the vomeronasal system really specialized for detecting pheromones? : Trends in Neurosciences Vol 29(1) Jan 2006, 1-7.
  • Beauchamp, G. K. (1974). The perineal scent gland and social dominance in the male guinea pig: Physiology & Behavior Vol 13(5) Nov 1974, 669-673.
  • Beauchamp, G. K., Curran, M., & Yamazaki, K. (2000). MHC-mediated fetal odourtypes expressed by pregnant females influence male associative behaviour: Animal Behaviour Vol 60(3) Sep 2000, 289-295.
  • Beauchamp, G. K., & Wellington, J. L. (1984). Habituation to individual odors occurs following brief, widely-spaced presentations: Physiology & Behavior Vol 32(3) Mar 1984, 511-514.
  • Belden, L. K., Wildy, E. L., Hatch, A. C., & Blaustein, A. R. (2000). Juvenile western toads, Bufo boreas, avoid chemical cues of snakes fed juvenile, but not larval, conspecifics: Animal Behaviour Vol 59(4) Apr 2000, 871-875.
  • Bell, W. J., Burk, T., & Sams, G. R. (1973). Cockroach aggregation pheromone: Directional orientation: Behavioral Biology Vol 9(2) Aug 1973, 251-255.
  • Bell, W. J., Burns, R. E., & Barth, R. H. (1974). Quantitative aspects of the male courting response in the cockroach Byrsotria fumigata (Guerin) (Blattaria): Behavioral Biology Vol 10(4) Apr 1974, 419-433.
  • Bell, W. J., & Schal, C. (1980). Patterns of turning in courtship orientation of the male German cockroach: Animal Behaviour Vol 28(1) Feb 1980, 86-94.
  • Berghard, A., & Buck, L. B. (1996). Sensory transduction in vomeronasal neurons: Evidence for Galpha o, Galpha i2, and adenylyl cyclase II as major components of a pheromone signaling cascade: Journal of Neuroscience Vol 16(3) Feb 1996, 909-918.
  • Berglund, H., Lindstrom, P., & Savic, I. (2006). Brain response to putative pheromones in lesbian women: PNAS Proceedings of the National Academy of Sciences of the United States of America Vol 103(21) May 2006, 8269-8274.
  • Bergman, D. A., & Moore, P. A. (2005). Prolonged exposure to social odours alters subsequent social interactions in crayfish (Orconectes rusticus): Animal Behaviour Vol 70(2) Aug 2005, 311-318.
  • Bernal, J. S., & Luck, R. F. (2007). Mate finding via a trail sex pheromone by Aphytis melinus DeBach (Hymenoptera: Aphelinidae) males: Journal of Insect Behavior Vol 20(6) Nov 2007, 515-525.
  • Biasi, E., Silvotti, L., & Tirindelli, R. (2001). Pheromone detection in rodents: Neuroreport: For Rapid Communication of Neuroscience Research Vol 12(14) Oct 2001, A81-A84.
  • Bielsky, I. F., & Young, L. J. (2004). Oxytocin, vasopressin, and social recognition in mammals: Peptides Vol 25(9) Sep 2004, 1565-1574.
  • Bijpost, S. C., Thomas, G., & Kruijt, J. P. (1985). Olfactory interactions between sexually active males in Adoxophyts orana (F.v.R.) (Lepidoptera: Tortricidae): Behaviour Vol 95(1-2) Nov 1985, 121-137.
  • Binns, K. E., & Brennan, P. A. (2005). Changes in electrophysiological activity in the accessory olfactory bulb and medial amygdala associated with mate recognition in mice: European Journal of Neuroscience Vol 21(9) May 2005, 2529-2537.
  • Birch, M. C. (1978). Chemical communication in pine bark beetles: American Scientist Vol 66(4) Jul-Aug 1978, 409-419.
  • Birke, L. I. (1978). Scent-marking and the oestrous cycle of the female rat: Animal Behaviour Vol 26(4) Nov 1978, 1165-1166.
  • Bjerselius, R., Olsen, K. H., & Zheng, W. (1995). Endocrine, gonadal and behavioral responses of male crucian carp to the hormonal pheromone 17!a,20!b-dihydroxy-4-pregnen-3-one: Chemical Senses Vol 20(2) Apr 1995, 221-230.
  • Bjostad, L. B. (1989). Chemical characterization of sex pheromones and their biosynthetic intermediates: Chemical Senses Vol 14(3) Jun 1989, 411-420.
  • Blanke, R. (1975). Studies on the sexual behavior of Cyrtophora cicatrosa (Stoliczka) (Araneae, Araneidae): Zeitschrift fur Tierpsychologie Vol 37(1) Feb 1975, 62-74.
  • Bodo, C., & Rissman, E. F. (2007). Androgen receptor is essential for sexual differentiation of responses to olfactory cues in mice: European Journal of Neuroscience Vol 25(7) Apr 2007, 2182-2190.
  • Boeckh, J., & Selsam, P. (1984). Quantitative investigation of the odour specificity of central olfactory neurones in the American cockroach: Chemical Senses Vol 9(4) 1984, 369-380.
  • Boehm, N., & Aron, C. (1988). Facilitory effects of olfactory cues emitted by estrous females on mounting behavior in the female rat: Physiology & Behavior Vol 43(5) 1988, 669-671.
  • Bolton, H. T. (1980). The role of semiochemicals in the behavior of the horn fly, Haematobia irritans (L.), (Diptera: Muscidae): Dissertation Abstracts International.
  • Boschat, C., Pelofi, C., Randin, O., Roppolo, D., Luscher, C., Broillet, M.-C., et al. (2002). Pheromone detection mediated by a V1r vomeronasal receptor: Nature Neuroscience Vol 5(12) Dec 2002, 1261-1262.
  • Botzer, D., Blumberg, S., Ziv, I., & Susswein, A. J. (1991). Common regulation of feeding and mating in Aplysia fasciata: Pheromones released by mating and by egg cordons increase feeding behavior: Behavioral & Neural Biology Vol 56(3) Nov 1991, 251-261.
  • Boulay, R., Hefetz, A., Cerda, X., Devers, S., Francke, W., Twele, R., et al. (2007). Production of sexuals in a fission-performing ant: Dual effects of queen pheromones and colony size: Behavioral Ecology and Sociobiology Vol 61(10) Aug 2007, 1531-1541.
  • Bourke, A. F. (1993). Lack of experimental evidence for pheromonal inhibition of reproduction among queens in the ant Leptothorax acervorum: Animal Behaviour Vol 45(3) Mar 1993, 501-509.
  • Bourke, A. F. G. (1995). Further evidence of lack of pheromonal inhibition among queens of the ant -I Leptothorax acervorum: Ethology Vol 101(1) Sep 1995, 46-50.
  • Bowers, W. W. (1994). Bionomics and ecology of the four-eyed spruce bark beetle, polygraphus rufipennis (kirby) ( coleoptera: Scolytidae ), in Newfoundland. Dissertation Abstracts International: Section B: The Sciences and Engineering.
  • Boyles, J. G., & Storm, J. J. (2007). Avoidance of predator chemical cues by bats: An experimental assessment: Behaviour Vol 144(9) Sep 2007, 1019-1032.
  • Boyse, E. A., Beauchamp, G. K., Bard, J., & Yamazaki, K. (1991). Behavior and the major histocompatibility complex of the mouse. San Diego, CA: Academic Press.
  • Bradshaw, J. W., Baker, R., & Howse, P. E. (1975). Multicomponent alarm pheromones of the weaver ant: Nature Vol 258(5532) Nov 1975, 230-231.
  • Bradshaw, J. W., Howse, P. E., & Baker, R. (1986). A novel autostimulatory pheromone regulating transport of leaves in Atta cephalotes: Animal Behaviour Vol 34(1) Feb 1986, 234-240.
  • Breed, M. D., Smith, S. K., & Gall, B. G. (1980). Systems of mate selection in a cockroach species with male dominance hierarchies: Animal Behaviour Vol 28(1) Feb 1980, 130-134.
  • Breen, M. F., & Leshner, A. I. (1977). Maternal pheromone: A demonstration of its existence in the mouse (Mus musculus): Physiology & Behavior Vol 18(3) Mar 1977, 527-529.
  • Brennan, P., Kaba, H., & Keverne, E. B. (1990). Olfactory recognition: A simple memory system: Science Vol 250(4985) Nov 1990, 1223-1226.
  • Brennan, P. A., & Keverne, E. B. (2004). Something in the Air? New Insights into Mammalian Pheromones: Current Biology Vol 14(2) Jan 2004, R81-R89.
  • Brennan, P. A., & Zufall, F. (2006). Pheromonal communication in vertebrates: Nature Vol 444(7117) Nov 2006, 308-315.
  • Brettschneider, H., & Bateman, P. W. (2005). Differential Shelter Selection in Response to Predator Chemical Cues by Two orthopterans: Libanasidus vittatus (Anostostomatidae) and Platygryllus primiformis (Gryllidae): Journal of Insect Behavior Vol 18(3) May 2005, 381-387.
  • Briand, L., Trotier, D., & Pernollet, J.-C. (2004). Aphrodisin, an aphrodisiac lipocalin secreted in hamster vaginal secretions: Peptides Vol 25(9) Sep 2004, 1545-1552.
  • Brizzi, R., & Corti, C. (2007). Cutaneous antipredatory secretions and pheromones in anurans and urodeles: Marine and Freshwater Behaviour and Physiology Vol 40(3) Sep 2007, 225-231.
  • Bronson, F. H., & Desjardins, C. (1974). Relationships between scent marking by male mice and the pheromone-induced secretion of the gonadotropic and ovarian hormones that accompany puberty in female mice. Oxford, England: Plenum.
  • Bronson, F. H., & Marsden, H. M. (1973). The preputial gland as an indicator of social dominance in male mice: Behavioral Biology Vol 9(5) Nov 1973, 625-628.
  • Brouette-Lahlou, I., Vernet-Maury, E., & Vigouroux, M. (1992). Role of pups' ultrasonic calls in a particular maternal behavior in Wistar rat: Pups' anogenital licking: Behavioural Brain Research Vol 50(1-2) Sep 1992, 147-154.
  • Brough, E. J. (1978). The multifunctional role of the mandibular gland secretion of an Australian desert ant, Calomyrmex (Hymenoptera: Formicidae): Zeitschrift fur Tierpsychologie Vol 46(3) Mar 1978, 279-297.
  • Brown, G. E., Chivers, D. P., & Smith, R. J. F. (1995). Localized defecation by pike: A response to labelling by cyprinid alarm pheromone? : Behavioral Ecology and Sociobiology Vol 36(2) Feb 1995, 105-110.
  • Brown, G. E., & Godin, J.-G. J. (1999). Who dares, learns: Chemical inspection behaviour and acquired predator recognition in a characin fish: Animal Behaviour Vol 57(2) Feb 1999, 475-481.
  • Brown, G. E., Godin, J.-G. J., & Pedersen, J. (1999). Fin-flicking behaviour: A visual antipredator alarm signal in a characin fish, Hemigrammus erythrozonus: Animal Behaviour Vol 58(3) Sep 1999, 469-475.
  • Brown, G. E., LeBlanc, V. J., & Porter, L. E. (2001). Ontogenetic changes in the response of largemouth bass (Micropterus salmoides, Centrarchidae, Perciformes) to heterospecific alarm pheromones: Ethology Vol 107(5) May 2001, 401-414.
  • Brown, G. E., Paige, J. A., & Godin, J.-G. J. (2000). Chemically mediated predator inspection behaviour in the absence of predator visual cues by a characin fish: Animal Behaviour Vol 60(3) Sep 2000, 315-321.
  • Brown, G. E., & Schwarzbauer, E. M. (2001). Chemical predator inspection and attack cone avoidance in a characin fish: The effects of predator diet: Behaviour Vol 138(6) Jun 2001, 727-739.
  • Brown, G. E., & Zachar, M. M. (2002). Chemical predator inspection in a characin fish (Hemigrammus erythrozonus, Characidae, Ostariophysi): The effects of mixed predator diets: Ethology Vol 108(5) May 2002, 451-461.
  • Brown, R. E., Singh, P. B., & Roser, B. (1987). The Major Histocompatibility Complex and the chemosensory recognition of individuality in rats: Physiology & Behavior Vol 40(1) 1987, 65-73.
  • Bruni, R., Sant'Ana, J., Aldrich, J. R., & Bin, F. (2000). Influence of host pheromone on egg parasitism by scelionid wasps: Comparison of phoretic and nonphoretic parasitoids: Journal of Insect Behavior Vol 13(2) Mar 2000, 165-173.
  • Bryant, B. P. (1984). The role of conspecific chemical stimuli in the social behavior of the brown bullhead, Ictalurus nebulosus: Dissertation Abstracts International.
  • Bryant, E. H. (1979). Inbreeding and heterogamic mating: An alternative to Averhoff and Richardson: Behavior Genetics Vol 9(4) Jul 1979, 249-256.
  • Bull, C. M., Griffin, C. L., Bonnett, M., Gardner, M. G., & Cooper, S. J. B. (2001). Discrimination between related and unrelated individuals in the Australian lizard Egernia striolata: Behavioral Ecology and Sociobiology Vol 50(2) 2001, 173-179.
  • Burright, R. G., Freeman, M. J., & Donovick, P. J. (1988). Repeated tests of intermale aggression in mice (Mus musculus) are influenced by housing and test conditions: Journal of Comparative Psychology Vol 102(4) Dec 1988, 303-305.
  • Butler, R. G., & Butler, L. A. (1979). Toward a functional interpretation of scent marking in the beaver (Castor canadensis): Behavioral & Neural Biology Vol 26(4) Aug 1979, 442-454.
  • Byers, J. A. (1983). Bark beetle conversion of a plant compound to a sex-specific inhibitor of pheromone attraction: Science Vol 220(4597) May 1983, 624-626.
  • Bykhovskaya, M. B. (1995). An atomic model of the receptor recognition site of periplanone B, the sex pheromone of the American cockroach: Sensory Systems Vol 9(2-3) Apr-Sep 1995, 83-88.
  • Byrne, P. G., & Keogh, J. S. (2007). Terrestrial toadlets use chemosignals to recognize conspecifics, locate mates and strategically adjust calling behaviour: Animal Behaviour Vol 74(5) Nov 2007, 1155-1162.
  • Caldwell, H. K., & Lepri, J. J. (2002). Disruption of the fifth melanocortin receptor alters the urinary excretion of aggression-modifying pheromones in male house mice: Chemical Senses Vol 27(1) Jan 2002, 91-94.
  • Cammaerts, R., Cammaerts, M.-C., & DeJean, A. (1994). The trail of the African urticating ant Tetramorium aculeatum: Source, potency, and workers' behavior (Hymenoptera: Formicidae): Journal of Insect Behavior Vol 7(4) Jul 1994, 533-552.
  • Carazo, P., Sanchez, E., Font, E., & Desfilis, E. (2004). Chemosensory cues allow male Tenebrio molitor beetles to assess the reproductive status of potential mates: Animal Behaviour Vol 68(1) Jul 2004, 123-129.
  • Carde, R. T., Baker, T. C., & Roelofs, W. L. (1976). Sex attractant responses of male oriental fruit moths to a range of component ratios: Pheromone polymorphism: Experientia Vol 32(11) 1976, 1406-1407.
  • Carlin, N. F., & Holldobler, B. (1983). Nestmate and kin recognition in interspecific mixed colonies of ants: Science Vol 222(4627) Dec 1983, 1027-1029.
  • Carlson, D. A., Langley, P. A., & Huyton, P. (1978). Sex pheromone of the tsetse fly: Isolation, identification, and synthesis of contact aphrodisiacs: Science Vol 201(4357) Aug 1978, 750-753.
  • Carmichael, L. M., Moore, J., & Bjostad, L. B. (1993). Parasitism and decreased response to sex pheromones in male Periplaneta americana (Dictyoptera: Blattidae): Journal of Insect Behavior Vol 6(1) Jan 1993, 25-32.
  • Carolsfeld, J., Scott, A. P., & Sherwood, N. M. (1997). Pheromone-induced spawning of Pacific herring: II. Plasma steroids distinctive to fish responsive to spawning pheromone: Hormones and Behavior Vol 31(3) Jun 1997, 269-276.
  • Carolsfeld, J., Tester, M., Kreiberg, H., & Sherwood, N. M. (1997). Pheromone-induced spawning of Pacific herring: I. Behavioral characterization: Hormones and Behavior Vol 31(3) Jun 1997, 256-268.
  • Carr, W. J. (1974). Pheromonal sex attractants in the Norway rat. New York, NY: Plenum Press.
  • Carr, W. J., Demesquita-Wander, M., Sachs, S. R., & Maconi, P. (1979). Responses of female rats to odors from familiar vs. novel males: Bulletin of the Psychonomic Society Vol 14(2) Aug 1979, 118-120.
  • Carter, C. S., Witt, D. M., Schneider, J., Harris, Z. L., & et al. (1987). Male stimuli are necessary for female sexual behavior and uterine growth in prairie voles (Microtus ochrogaster): Hormones and Behavior Vol 21(1) Mar 1987, 74-82.
  • Casares, P. (2007). Involvement of cuticular hydrocarbons in the mating success of Drosophila melanogaster females: Behavior Genetics Vol 37(3) May 2007, 498-506.
  • Castracani, C., Visicchio, R., Grasso, D. A., Mori, A., Le Moli, F., Di Tullio, A., et al. (2005). Behavioral Bioassays Testing the Methyl 6-Methylsalicylate as a Component of the Female Sex Pheromone in the Slave-Making Ant Polyergus rufescens (Hymenoptera, Formicidae): Journal of Insect Behavior Vol 18(5) Sep 2005, 685-692.
  • Cattarelli, M., & Chanel, J. (1979). Influence of some biologically meaningful odorants on the vigilance states of the rat: Physiology & Behavior Vol 23(5) Nov 1979, 831-838.
  • Cavalcante, J. C., Bittencourt, J. C., & Elias, C. F. (2006). Female odors stimulate CART neurons in the ventral premammillary nucleus of male rats: Physiology & Behavior Vol 88(1-2) Jun 2006, 160-166.
  • Cayetanot, F., Nemoz-Bertholet, F., & Aujard, F. (2005). Age effects on pheromone induced Fos expression in olfactory bulbs of a primate: Neuroreport: For Rapid Communication of Neuroscience Research Vol 16(10) Jul 2005, 1091-1095.
  • Chabli, A., Schaeffer, C., Samama, B., & Aron, C. (1985). Hormonal control of the perception of the olfactory signals which facilitate lordosis behavior in the male rat: Physiology & Behavior Vol 35(5) Nov 1985, 729-734.
  • Chamero, P., Marton, T. F., Logan, D. W., Flanagan, K., Cruz, J. R., Saghatelian, A., et al. (2007). Identification of protein pheromones that promote aggressive behaviour: Nature Vol 450(7171) Dec 2007, 899-902.
  • Chan, A. S. (1991). Anastrepha ledens Loew (Diptera:Tephritidae): An integrated behavioural and ecological study: Dissertation Abstracts International.
  • Chandrasekharan, S., & Stewart, T. C. (2007). The origin of epistemic structures and proto-representations: Adaptive Behavior Vol 15(3) Sep 2007, 329-353.
  • Chang, J. F. (1987). Influence of cotton cultivars on boll weevil (Coleoptera: Curculionidae) behavior and pheromone production: Dissertation Abstracts International.
  • Chang, Y. M., Kelliher, K. R., & Baum, M. J. (2001). Maternal Odours Induce Fos in the Main But Not the Accessory Olfactory Bulbs of Neonatal Male and Female Ferrets: Journal of Neuroendocrinology Vol 13(6) Jun 2001, 551-560.
  • Charlton, R. E. (1989). Pheromone-mediated flying and walking orientation and factors promoting mate recognition in the gypsy moth, Lymantria dispar (L.): Dissertation Abstracts International.
  • Chase, R., & Boulanger, C. M. (1978). Attraction of the snail Achatina fulica to extracts of conspecific pedal glands: Behavioral & Neural Biology Vol 23(1) May 1978, 107-111.
  • Chase, R., Pryer, K., Baker, R., & Madison, D. (1978). Responses to conspecific chemical stimuli in the terrestrial snail Achatina fulica (Pulmonata: Sigmurethra): Behavioral & Neural Biology Vol 22(3) Mar 1978, 302-315.
  • Chasnov, J. R., So, W. K., Chan, C. M., & Chow, K. L. (2007). The species, sex, and stage specificity of a Caenorhabditis sex pheromone: PNAS Proceedings of the National Academy of Sciences of the United States of America Vol 104(16) Apr 2007, 6730-6735.
  • Cheal, M., & Domesick, V. B. (1979). Habituation of stimulus-elicited investigation in gerbils after olfactory bulbectomy: Physiology & Behavior Vol 23(2) Aug 1979, 309-315.
  • Chen, C.-j., & Vandenbergh, J. G. (1993). Cocaine attenuates puberty acceleration in female house mice: Pharmacology, Biochemistry and Behavior Vol 44(2) Feb 1993, 281-285.
  • Chen, L., & Fadamiro, H. Y. (2007). Behavioral and electroantennogram responses of phorid fly Pseudacteon tricuspis (Diptera: Phoridae) to red imported fire ant Solenopsis invicta odor and trail pheromone: Journal of Insect Behavior Vol 20(2) Mar 2007, 267-287.
  • Christensen, T. A., & Hildebrand, J. G. (1988). Frequency coding by central olfactory neurons in the sphinx moth Manduca sexta: Chemical Senses Vol 13(1) Mar 1988, 123-130.
  • Christensen, T. A., Mustaparta, H., & Hildebrand, J. G. (1989). Discrimination of sex pheromone blends in the olfactory system of the moth: Chemical Senses Vol 14(3) Jun 1989, 463-477.
  • Christensen, T. A., & Sorensen, P. W. (1996). Pheromones as tools for olfactory research: Chemical Senses Vol 21(2) Apr 1996, 241-243.
  • Christiansen, E. (1980). Urinary marking in wild bank voles, Clethrionomys glareolus in relation to season and sexual status: Behavioral & Neural Biology Vol 28(1) Jan 1980, 123-127.
  • Clancy, A. N., Macrides, F., Singer, A. G., & Agosta, W. C. (1984). Male hamster copulatory responses to a high molecular weight fraction of vaginal discharge: Effects of vomeronasal organ removal: Physiology & Behavior Vol 33(4) Oct 1984, 653-660.
  • Clapperton, B. K., Minot, E. O., & Crump, D. R. (1988). An olfactory recognition system in the ferret Mustela furo L. (Carnivora: Mustelidae): Animal Behaviour Vol 36(2) Apr 1988, 541-553.
  • Clegg, F., & Williams, D. I. (1983). Maternal pheromone in Rattus norvegicus: Behavioral & Neural Biology Vol 37(2) Mar 1983, 223-236.
  • Cobb, M., & Jallon, J.-M. (1990). Pheromones, mate recognition and courtship stimulation in the Drosophila melanogaster species sub-group: Animal Behaviour Vol 39(6) Jun 1990, 1058-1067.
  • Cohen-Tannoudji, J., Einhorn, J., & Signoret, J. P. (1994). Ram sexual pheromone: First approach of chemical identification: Physiology & Behavior Vol 56(5) Nov 1994, 955-961.
  • Cohen-Tannoudji, J., Locatelli, A., & Signoret, J. P. (1986). Non-pheromonal stimulation by the male of LH release in the anoestrous ewe: Physiology & Behavior Vol 36(5) 1986, 921-924.
  • Colwell, A. E., Shorey, H. H., Gaston, L. K., & Key, S. E. (1978). Short-range precopulatory behavior of males of Pectinophora gossypiella (Lepidoptera: Gelechiidae): Behavioral & Neural Biology Vol 22(3) Mar 1978, 323-335.
  • Colyer, S. W., & Jenkins, C. (1976). Pheromonal control of aggressive display in Siamese fighting fish ( Betta splendens ): Perceptual and Motor Skills Vol 42(1) Feb 1976, 47-54.
  • Conner, W. E. (1980). Chemical attraction and seduction: The courtship of Utetheisa ornatrix (Lepidoptera, arctiidae): Dissertation Abstracts International.
  • Cook, A. (1979). Homing by the slug Limax pseudoflavus: Animal Behaviour Vol 27(2) May 1979, 545-552.
  • Cooper, W. E. (1995). Effects of estrogen and male head coloration on chemosensory investigation of female cloacal pheromones by male broad-headed skinks (Eumeces laticeps): Physiology & Behavior Vol 58(6) Dec 1995, 1221-1225.
  • Cooper, W. E. (1996). Chemosensory recognition of familiar and unfamiliar conspecifics by the scincid lizard Eumeces laticeps: Ethology formerly Zeitschrift fur Tierpsychologie Vol 102(6) Jun 1996, 454-464.
  • Cooper, W. E., Lopez, P., & Salvador, A. (1994). Pheromone detection by an amphisbaenian: Animal Behaviour Vol 47(6) Jun 1994, 1401-1411.
  • Cooper, W. E., & Vitt, L. J. (1986). Interspecific odour discrimination by a lizard (Eumeces laticeps): Animal Behaviour Vol 34(2) Apr 1986, 367-376.
  • Cooper, W. E., & Vitt, L. J. (1986). Interspecific odour discriminations among syntopic congeners in scincid lizards (Genus Eumeces): Behaviour Vol 97(1-2) May 1986, 1-9.
  • Cooper, W. E., & Vitt, L. J. (1986). Tracking of female conspecific odor trails by male broad-headed skinks (Eumeces laticeps): Ethology formerly Zeitschrift fur Tierpsychologie Vol 71(3) Mar 1986, 242-248.
  • Coppola, D. M., & O'Connell, R. J. (1988). Are pheromones their own reward? : Physiology & Behavior Vol 44(6) 1988, 811-816.
  • Coppola, D. M., & O'Connell, R. J. (1988). Behavioral responses of peripubertal female mice towards puberty-accelerating and puberty-delaying chemical signals: Chemical Senses Vol 13(3) Aug 1988, 407-424.
  • Cornwell-Jones, C. A., & Holder, C. L. (1979). Early olfactory learning is influenced by sex in hamsters but not rats: Physiology & Behavior Vol 23(6) Dec 1979, 1035-1040.
  • Cowan, D. F. (1992). Pheromones, molting, and courtship behavior in the American lobster Homarus Americanus: Dissertation Abstracts International.
  • Cowley, J. J. (1991). A comparative-developmental approach to behaviour: South African Journal of Psychology Vol 21(3) Sep 1991, 175-182.
  • Cowley, J. J., Harvey, F., Johnson, A. T., & Brooksbank, B. W. (1980). Irritability and depression during the menstrual cycle: Possible role for an exogenous pheromone? : Irish Journal of Psychology Vol 4(3) Sum 1980, 143-156.
  • Cowley, J. J., Johnson, A. L., & Brooksbank, B. W. (1977). The effect of two odorous compounds on performance in an assessment-of-people test: Psychoneuroendocrinology Vol 2(2) Apr 1977, 159-172.
  • Cowley, J. J., & Smale, S. (1986). Long term effects on activity in female mice following exposure to urine from lactating mothers: Physiology & Behavior Vol 36(1) Jan 1986, 115-121.
  • Coyne, J. A., Crittenden, A. P., & Mah, K. (1994). Genetics of a pheromonal difference contributing to reproductive isolation in Drosophilia: Science Vol 265(5177) Sep 1994, 1461-1464.
  • Curcillo, P. G., & Tompkins, L. (1987). The ontogeny of sex appeal in Drosophila melanogaster males: Behavior Genetics Vol 17(1) Jan 1987, 81-86.
  • Cutler, W., Friedman, E., & McCoy, N. L. (1998). Response to Wysocki and Preti: Archives of Sexual Behavior Vol 27(6) Dec 1998, 629-634.
  • Cutler, W. B., Friedmann, E., & McCoy, N. L. (1998). Pheromonal influences on sociosexual behavior in men: Archives of Sexual Behavior Vol 27(1) Feb 1998, 1-13.
  • D'Adamo, P., Lozada, M., & Corley, J. C. (2004). An Attraction Pheromone from Heads of Worker Vespula germanica Wasps: Journal of Insect Behavior Vol 17(6) Nov 2004, 809-821.
  • Dahbi, A., Hefetz, A., Cerda, X., & Lenoir, A. (1999). Trophallaxis mediates uniformity of colony odor in Cataglyphis iberica ants (Hymenoptera, Formicidae): Journal of Insect Behavior Vol 12(4) Jul 1999, 559-567.
  • Daly, M., Wilson, M. I., & Faux, S. F. (1978). Seasonally variable effects of conspecific odors upon capture of deer mice (Peromyscus maniculatus gambelii): Behavioral & Neural Biology Vol 23(2) Jun 1978, 254-259.
  • Dantzer, B. J., & Jaeger, R. G. (2007). Detection of the sexual identity of conspecifics through volatile chemical signals in a territorial salamander: Ethology Vol 113(3) Mar 2007, 214-222.
  • Dapporto, L., Santini, A., Dani, F. R., & Turillazzi, S. (2007). Workers of a Polistes paper wasp detect the presence of their queen by chemical cues: Chemical Senses Vol 32(8) Oct 2007, 795-802.
  • Darby, E. M., Devor, M., & Chorover, S. L. (1975). A presumptive sex pheromone in the hamster: Some behavioral effects: Journal of Comparative and Physiological Psychology Vol 88(2) Feb 1975, 496-502.
  • Davis, S. F., Weaver, M. S., Janzen, W. C., & Travis-Neideffer, M. N. (1985). Utilization of odor cues as a function of reward-magnitude contrast and delay of reinforcement: Journal of General Psychology Vol 112(2) Apr 1985, 173-183.
  • Dawley, E. M. (1984). Recognition of individual, sex and species odours by salamanders of the Plethodon glutinosus-P. jordani complex: Animal Behaviour Vol 32(2) May 1984, 353-361.
  • de Boer, J. N., & Verberne, G. (1981). Slow and fast wave activity in the olfactory system in cats during perception of pheromones: Physiology & Behavior Vol 27(2) Aug 1981, 223-229.
  • de Catanzaro, D., Muir, C., Sullivan, C., & Boissy, A. (1999). Pheromones and novel male-induced pregnancy disruptions in mice: Exposure to conspecifics is necessary for urine alone to induce an effect: Physiology & Behavior Vol 66(1) Mar 1999, 153-157.
  • De Cock, R., & Matthysen, E. (2005). Sexual communication by pheromones in a firefly, Phosphaenus hemipterus ( Coleoptera: Lampyridae): Animal Behaviour Vol 70(4) Oct 2005, 807-818.
  • De Leon, A., Minguez, E., & Belliure, B. (2003). Self-odour recognition in European storm-petrel chicks: Behaviour Vol 140(7) Jul 2003, 925-933.
  • Dean, J. (1979). Stimulator for producing small, heated aerosols: Physiology & Behavior Vol 23(3) Sep 1979, 583-584.
  • deCatanzaro, D., Muir, C., Spironello, E., Binger, T., & Thomas, J. (2000). Intense arousal of novel male mice in proximity to previously inseminated females: Inactivation of males via chlorpromazine does not diminish the capacity to disrupt pregnancy: Psychobiology Vol 28(1) Mar 2000, 110-114.
  • deCatanzaro, D., Wyngaarden, P., Griffiths, J., Ham, M., Hancox, J., & Brain, D. (1995). Interactions of contact, odor cues, and androgens in strange-male-induced early pregnancy disruptions in mice (Mus musculus): Journal of Comparative Psychology Vol 109(2) Jun 1995, 115-122.
  • DeFraipont, M., & Sorensen, P. W. (1993). Exposure to the pheromone 17!a,20!b-dihydroxy-4-pregnen-3-one enhances the behavioural spawning success, sperm production and sperm motility of male goldfish: Animal Behaviour Vol 46(2) Aug 1993, 245-256.
  • Deiss, V., Feron, C., & Baudoin, C. (1999). Discrimination of olfactory sexual cues in staggerer mutant male mice: Physiology & Behavior Vol 67(5) Nov 1999, 631-634.
  • Del Punta, K., Leinders-Zufall, T., Rodriguez, I., Jukam, D., Wysocki, C. J., Ogawa, S., et al. (2002). Deficient pheromone responses in mice lacking a cluster of vomeronasal receptor genes: Nature Vol 419(6902) Sep 2002, 70-74.
  • Demski, L. S., & Northcutt, R. G. (1983). The terminal nerve: A new chemosensory system in vertebrates? : Science Vol 220(4595) Apr 1983, 435-437.
  • Detrain, C., & Cammaerts, M.-C. (1991). A new pheromone in the ant Pheidole pallidula (Myrmicinae): Behavioural Processes Vol 24(2) Aug 1991, 123-132.
  • Deyrup, L. D., Matthews, R. W., & Gonzalez, J. M. (2005). Cooperative Chewing in a Gregariously Developing Parasitoid Wasp, Melittobia digitata Dahms, Is Stimulated by Structural Cues and a Pheromone in Crude Venom Extract: Journal of Insect Behavior Vol 18(3) May 2005, 293-304.
  • Dietemann, V., Pflugfelder, J., Hartel, S., Neumann, P., & Crewe, R. M. (2006). Social parasitism by honeybee workers (Apis mellifera capensis Esch.): Evidence for pheromonal resistance to host queen's signals: Behavioral Ecology and Sociobiology Vol 60(6) Oct 2006, 785-793.
  • Dixon, A. K., & Mackintosh, J. H. (1976). Olfactory mechanisms affording from attack to juvenile mice ( Mus musculus L.): Zeitschrift fur Tierpsychologie Vol 41(3) Jul 1976, 225-234.
  • Dizinno, G., & Clancy, A. N. (1978). Ventral marking in black and agouti gerbils (Meriones unguiculatus): Behavioral & Neural Biology Vol 24(4) Dec 1978, 545-548.
  • Dizinno, G., Whitney, G., & Nyby, J. (1978). Ultrasonic vocalizations by male mice (Mus musculus) to female sex pheromone: Experiential determinants: Behavioral & Neural Biology Vol 22(1) Jan 1978, 104-113.
  • Dodge, J. C., Kristal, M. B., & Badura, L. L. (2002). Male-induced estrus synchronization in the female Siberian hamster (Phodopus sungorus sungorus): Physiology & Behavior Vol 77(2-3) 2002, 227-231.
  • Dodman, N. H., Wrubel, K. M., & Cottam, N. (2008). Effect of a synthetic equine maternal pheromone during a controlled fear-eliciting situation: A critique on Falewee (2006): Applied Animal Behaviour Science Vol 109(1) Jan 2008, 85-87.
  • Donat, P., & Krsiak, M. (1985). Pheromone stimulates not only aggressive but also defensive-escape behaviour in mice: Activitas Nervosa Superior Vol 27(2) Jun 1985, 153-154.
  • Dong, W. X., Han, B. Y., & Du, J. W. (2005). Inhibiting the Sexual Behavior of Female Cotton Bollworm Helicoverpa armigera: Journal of Insect Behavior Vol 18(4) Jul 2005, 453-463.
  • Dor, R., Katzav-Gozansky, T., & Hefetz, A. (2005). Dufour's gland pheromone as a reliable fertility signal among honeybee (Apis mellifera) workers: Behavioral Ecology and Sociobiology Vol 58(3) Jul 2005, 270-276.
  • Dore, F., Lefebvre, L., & Ducharme, R. (1978). Threat display in Betta spendens: Effects of water condition and type of agonistic stimulation: Animal Behaviour Vol 26(3) Aug 1978, 738-745.
  • Dorries, K. M. (1994). Sexually dimorphic olfactory sensitivity in the pig. Dissertation Abstracts International: Section B: The Sciences and Engineering.
  • Dorries, K. M., Adkins-Regan, E., & Halpern, B. P. (1995). Olfactory sensitivity to the pheromone, androstenone, is sexually dimorphic in the pig: Physiology & Behavior Vol 57(2) Feb 1995, 255-259.
  • Dorries, K. M., Adkins-Regan, E., & Halpern, B. P. (1997). Sensitivity and behavioral responses to the pheromone androstenone are not mediated by the vomeronasal organ in domestic pigs: Brain, Behavior and Evolution Vol 49(1) Jan 1997, 53-62.
  • Drickamer, L. C. (1974). Contact stimulation, androgenized females and accelerated sexual maturation in female mice: Behavioral Biology Vol 12(1) Sep 1974, 101-110.
  • Drickamer, L. C. (1974). Sexual maturation of female house mice: Social inhibition: Developmental Psychobiology Vol 7(3) May 1974, 257-265.
  • Drickamer, L. C. (1983). Chemosignal effects on puberty in young female mice: Urine from pregnant and lactating females: Developmental Psychobiology Vol 16(3) May 1983, 207-217.
  • Drickamer, L. C. (1984). Urinary chemosignals and puberty in female house mice: Effects of photoperiod and food deprivation: Physiology & Behavior Vol 33(6) Dec 1984, 907-911.
  • Drickamer, L. C. (1984). Urinary chemosignals from mice (Mus musculus): Acceleration and delay of puberty in related and unrelated young females: Journal of Comparative Psychology Vol 98(4) Dec 1984, 414-420.
  • Drickamer, L. C. (1985). Social dominance, reproduction, and release of the maturation-delaying chemosignal in the urine of female house mice (Mus musculus): Journal of Comparative Psychology Vol 99(4) Dec 1985, 411-419.
  • Drickamer, L. C. (1988). Preweaning stimulation with urinary chemosignals and age of puberty in female mice: Developmental Psychobiology Vol 21(1) Jan 1988, 77-87.
  • Drickamer, L. C. (1992). Pre- and postweaning excretion of puberty-influencing chemosignals in house mice: Developmental Psychobiology Vol 25(1) Jan 1992, 1-16.
  • Drickamer, L. C., & Assmann, S. M. (1981). Acceleration and delay of puberty in female housemice: Methods of delivery of the urinary stimulus: Developmental Psychobiology Vol 14(5) Sep 1981, 487-497.
  • Drickamer, L. C., & Lenington, S. (1987). T-locus effects on the male urinary chemosignal that accelerates puberty in female mice: Animal Behaviour Vol 35(5) Oct 1987, 1581-1583.
  • Drickamer, L. C., & McIntosh, T. K. (1980). Effects of adrenalectomy on the presence of a maturation-delaying pheromone in the urine of female mice: Hormones and Behavior Vol 14(2) Jun 1980, 146-152.
  • Drickamer, L. C., McIntosh, T. K., & Rose, E. A. (1978). Effects of ovariectomy on the presence of a maturation-delaying pheromone in the urine of female mice: Hormones and Behavior Vol 11(1) Aug 1978, 131-137.
  • Drickamer, L. C., & Murphy, R. X. (1978). Female mouse maturation: Effects of excreted and bladder urine from juvenile and adult males: Developmental Psychobiology Vol 11(1) Jan 1978, 63-72.
  • Dudley, C. A., Chakravarty, S., & Barnea, A. (2001). Female odors lead to rapid activation of mitogen-activated protein kinase (MAPK) in neurons of the vomeronasal system: Brain Research Vol 915(1) Oct 2001, 32-46.
  • Dugmore, S. J., Bailey, K., & Evans, C. S. (1984). Discrimination by male ring-tailed lemurs (Lemur catta) between the scent marks of male and those of female conspecifics: International Journal of Primatology Vol 5(3) Jun 1984, 235-245.
  • Dulac, C. (2000). Sensory perception of pheromone signals in mammals: Current Opinion in Neurobiology Vol 10(4) Aug 2000, 511-518.
  • Dulac, C., & Axel, R. (1998). Expression of candidate pheromone receptor genes in vomeronasal neurons: Chemical Senses Vol 23(4) Aug 1998, 467-475.
  • Dulac, C., & Torello, A. T. (2003). Molecular detection of pheromone signals in mammals: From genes to behaviour: Nature Reviews Neuroscience Vol 4(7) Jul 2003, 551-562.
  • Dulka, J. G. (1993). Sex pheromone systems in goldfish: Comparisons to vomeronasal systems in tetrapods: Brain, Behavior and Evolution Vol 42(4-5) Oct-Nov 1993, 265-280.
  • Dulka, J. G., Stacey, N. E., Sorensen, P. W., & Van der Kraak, G. J. (1987). A steriod sex pheromone synchronizes male-female spawning readiness in goldfish: Nature Vol 325(6101) Jan 1987, 251-253.
  • Dunbar, I., Buehler, M., & Beach, F. A. (1980). Developmental and activational effects of sex hormones on the attractiveness of dog urine: Physiology & Behavior Vol 24(2) Feb 1980, 201-204.
  • Dunham, P. J. (1979). Mating in the American lobster: Stage of molt cycle and sex pheromone: Marine and Freshwater Behaviour and Physiology Vol 6(1) 1979, 1-11.
  • Dussutour, A., Fourcassie, V., Helbing, D., & Deneubourg, J.-L. (2004). Optimal traffic organization in ants under crowded conditions: Nature Vol 428(6978) Mar 2004, 70-73.
  • Duvall, D. J. (1981). Pheromonal mechanisms in the social behavior and communication of the western fence lizard, Sceloporus occidentalis biseriatus: Dissertation Abstracts International.
  • Eales, A. J. (1974). Sex pheromone in the shore crab Carcinus maenas, and the site of its release from females: Marine and Freshwater Behaviour and Physiology Vol 2(4) Aug 1974, 345-355.
  • Eggert, A.-K., & Muller, J. K. (1989). Mating success of pheromone-emitting necrophorus males: Do attracted females discriminate against resource owners? : Behaviour Vol 110(1-4) Oct 1989, 248-257.
  • Eggert, A.-K., & Sakaluk, S. K. (1995). Female-coerced monogamy in burying beetles: Behavioral Ecology and Sociobiology Vol 37(3) Sep 1995, 147-153.
  • Eggert, F., Wobst, B., Holler, C., Luszyk, D., & et al. (1994). Olfactory expression of the MHC: Psychologische Beitrage Vol 36(1-2) 1994, 158-163.
  • Egid, K., & Lenington, S. (1985). Responses of male mice to odors of females: Effects of T- and H-2-locus genotype: Behavior Genetics Vol 15(3) May 1985, 287-295.
  • Ehman, K. D., & Scott, M. E. (2001). Urinary odour preferences of MHC congenic female mice, Mus domesticus: Implications for kin recognition and detection of parasitized males: Animal Behaviour Vol 62(4) Oct 2001, 781-789.
  • El-Sayed, A. M. (2004). Behavioural effect of (E)-8,(Z)-10-dodecadien-1-OL and (E)-8,(E)-10-dodecadienyl acetate on the upwind orientation of male codling moth, Cydia pomonella to pheromone source: Behaviour Vol 141(3) Mar 2004, 313-325.
  • El-Sayed, A. M., & Suckling, D. M. (2005). Behavioural observations of mating disruption in three lepidopteran pests: Behaviour Vol 142(6) Jun 2005, 717-729.
  • Eppel, G., & Katz, Y. (1984). Social influences on estrogen and ovarian cyclicity in saddle back tamarins (Saguinus fuscicollis): American Journal of Primatology Vol 6(3) 1984, 215-227.
  • Epple, G. (1974). Pheromones in primate reproduction and social behavior. Oxford, England: Plenum.
  • Erickson, C. J. (1979). Beastwatchers' Progress: PsycCRITIQUES Vol 24 (2), Feb, 1979.
  • Erlinge, S., Sandell, M., & Brinck, C. (1982). Scent-marking and its territorial significance in stoats, Mustela erminea: Animal Behaviour Vol 30(3) Aug 1982, 811-818.
  • Evenden, M. L., Judd, G. J. R., & Borden, J. H. (2000). Investigations of mechanisms of pheromone communication disruption of Choristoneura rosaceanna (Harris ) in a wind tunnel: Journal of Insect Behavior Vol 13(4) Jul 2000, 499-510.
  • Facundo, H. T., Linn, C. E., Jr., Villani, M. G., & Roelofs, W. L. (1999). Emergence, mating and postmating behaviors of the Oriental beetle ( Coleoptera: Scarabaeidae ): Journal of Insect Behavior Vol 12(2) Mar 1999, 175-192.
  • Fadamiro, H. Y., Wyatt, T. D., & Birch, M. C. (1998). Flying beetles respond as moths predict: Optomotor anemotaxis to pheromone plumes at different heights: Journal of Insect Behavior Vol 11(4) Jul 1998, 549-557.
  • Falewee, C., Gaultier, E., Lafont, C., Bougrat, L., & Pageat, P. (2006). Effect of a synthetic equine maternal pheromone during a controlled fear-eliciting situation: Applied Animal Behaviour Science Vol 101(1-2) Dec 2006, 144-153.
  • Farine, J. P., Everaerts, C., Abed, D., Ntari, M., & et al. (1996). Pheromonal emission during the mating behavior of Eurycotis floridana (Walker) (Dictyoptera: Blattidae): Journal of Insect Behavior Vol 9(2) Mar 1996, 197-213.
  • Fass, B., Gutermann, P. E., & Stevens, D. A. (1978). Evidence that rats discriminate between familiar and unfamiliar putative urinary odorants of adult male conspecifics: Aggressive Behavior Vol 4(3) 1978, 231-236.
  • Faustini, D. L. (1980). Characterization of an aggregation pheromone and its site of production in Tribolium castaneum (Herbst) (Coleoptera: tenebrionidae) with comparative notes on analogous structures in other Coleoptera families: Dissertation Abstracts International.
  • Feener, D. H., Jr., Jacobs, L. F., & Schmidt, J. O. (1996). Specialized parasitoid attracted to a pheromone of ants: Animal Behaviour Vol 51(1) Jan 1996, 61-66.
  • Ferkin, M. H. (1989). Odor preference and social behavior in meadow voles, Microtus pennsylvanicus: Dissertation Abstracts International.
  • Ferkin, M. H., Burda, J., O'Connor, M. P., & Lee, C. J. (1995). Persistence of the attractiveness of two sex-specific scents in meadow voles, Microtus pennsylvanicus: Ethology Vol 101(3) Nov 1995, 228-238.
  • Ferkin, M. H., Sorokin, E. S., & Johnston, R. E. (1996). Self-grooming as a sexually dimorphic communicative behaviour in meadow voles, Microtus pennsylvanicus: Animal Behaviour Vol 51(4) Apr 1996, 801-810.
  • Ferkovich, S. M., Van Essen, F., & Taylor, T. R. (1980). Hydrolysis of sex pheromone by antennal esterases of the cabbage looper, Trichoplusia ni: Chemical Senses Vol 5(1) Mar 1980, 33-46.
  • Ferveur, J.-F. (2005). Cuticular Hydrocarbons: Their Evolution and Roles in Drosophila Pheromonal Communication: Behavior Genetics Vol 35(3) May 2005, 279-295.
  • Ferveur, J.-F., Savarit, F., O'Kane, C. J., Sureau, G., & et al. (1997). Genetic feminization of pheromones and its behavioral consequences in Drosophila males: Science Vol 276(5318) Jun 1997, 1555-1558.
  • Fewell, G. D., & Meredith, M. (2002). Experience facilitates vomeronasal and olfactory influence on Fos expression in medial preoptic area during pheromone exposure or mating in male hamsters: Brain Research Vol 941(1-2) Jun 2002, 91-106.
  • Fiber, J. M., & Swann, J. M. (1996). Testosterone differentially influences sex-specific pheromone-stimulated fos expression in limbic regions of Syrian hamsters: Hormones and Behavior Vol 30(4) Dec 1996, 455-473.
  • Figler, M. H., Wazlavek, B. E., Spencer, F. P., & Gussio, R. P. (1985). The influence of chemical cues on the territorial prior residence effect in convict cichlids (Cichlasoma nigrofasciatum Gunther): Aggressive Behavior Vol 11(3) 1985, 207-216.
  • Figueredo, A. J., & Baker, T. C. (1992). Reduction of the response to sex pheromone in the oriental fruit moth, Grapholita molesta (Lepidoptera: Tortricidae) following successive pheromonal exposures: Journal of Insect Behavior Vol 5(3) May 1992, 347-363.
  • Fillion, T. J., & Blass, E. M. (1985). Responsiveness to estrous chemostimuli in male rats (Rattus norvegicus) of different ages: Journal of Comparative Psychology Vol 99(3) Sep 1985, 328-335.
  • Fitzgerald, T. D., & Pescador-Rubio, A. (2002). The role of tactile and chemical stimuli in the formation and maintenance of the processions of the social caterpillar Hylesia lineata (Lepidoptera: Saturniidae): Journal of Insect Behavior Vol 15(5) Sep 2002, 659-674.
  • Fitzgerald, T. D., & Peterson, S. C. (1983). Elective recruitment by the eastern tent caterpillar (Malacosoma americanum): Animal Behaviour Vol 31(2) May 1983, 417-423.
  • Fitzgerald, T. D., & Underwood, D. L. A. (1998). Trail marking by the larva of the Madrone butterfly Eucheira socialis and the role of the trail pheromone in communal foraging behavior: Journal of Insect Behavior Vol 11(2) Mar 1998, 247-263.
  • Fleming, A. S., Chee, P., & Vaccarino, F. (1981). Sexual behaviour and its olfactory control in the desert woodrat (Neotoma lepida lepida): Animal Behaviour Vol 29(3) Aug 1981, 727-745.
  • Fleming, A. S., & Tambosso, L. (1980). Hormonal and sensory control of scent-marking in the desert woodrat (Neotoma lepida lepida): Journal of Comparative and Physiological Psychology Vol 94(3) Jun 1980, 564-578.
  • Fletcher, D. J., & Blum, M. S. (1983). Regulation of queen number by workers in colonies of social insects: Science Vol 219(4582) Jan 1983, 312-314.
  • Font, E., & Desfilis, E. (2002). Chemosensory recognition of familiar and unfamiliar conspecifics by juveniles of the Iberian wall lizard Podarcis hispanica: Ethology Vol 108(4) Apr 2002, 319-330.
  • Fornai, F., & Orzi, F. (2001). Sexual pheromone or conventional odors increase extracellular lactate without changing glucose utilization in specific brain areas of the rat: Neuroreport: For Rapid Communication of Neuroscience Research Vol 12(1) Jan 2001, 63-69.
  • Foster, S. P., & Ayers, R. H. (1995). Effect of a vertical object on the sex pheromone-mediated flight and landing behaviors of the male lightbrown apple moth, Epiphyas postvittana (Walker) (Lepidoptera: Tortricidae): Journal of Insect Behavior Vol 8(4) Jul 1995, 465-484.
  • Foster, S. P., & Harris, M. O. (1992). Factors influencing the landing of male Epiphyas postvittana (Walker) exhibiting pheromone-mediated flight (Lepidoptera: Tortricidae): Journal of Insect Behavior Vol 5(6) Nov 1992, 699-720.
  • Fox, G. J. (1982). Potentials for pheromones in chimpanzee vaginal fatty acids: Folia Primatologica Vol 37(3-4) Mar-Apr 1982, 255-266.
  • Fox, J. H., & Thiessen, D. D. (1984). An olfactometer for small rodents: Behavior Research Methods, Instruments & Computers Vol 16(5) Oct 1984, 415-419.
  • Frank, D. F., Erb, H. N., & Houpt, K. A. (1999). Urine spraying in cats: Presence of concurrent disease and effects of a pheromone treatment: Applied Animal Behaviour Science Vol 61(3) Jan 1999, 263-272.
  • Free, J. B. (1979). Managing honeybee colonies to enhance the pollen-gathering stimulus from brood pheromones: Applied Animal Ethology Vol 5(2) Apr 1979, 173-178.
  • Free, J. B., & Winder, M. E. (1983). Brood recognition by honeybee (Apis mellifera) workers: Animal Behaviour Vol 31(2) May 1983, 539-545.
  • French, J. A. (1983). The role of scent marking in social and sexual communication in tamarins (Saguinus O. oedipus): Dissertation Abstracts International.
  • Fricke, D. (1987). Reaction to alarm substance in cave populations of Astyanax fasciatus (Characidae, Pisces): Ethology formerly Zeitschrift fur Tierpsychologie Vol 76(4) Dec 1987, 305-308.
  • Fujita, I., Sorensen, P. W., Stacey, N. E., & Hara, T. J. (1991). The olfactory system, not the terminal nerve, functions as the primary chemosensory pathway mediating responses to sex pheromones in male goldfish: Brain, Behavior and Evolution Vol 38(6) Dec 1991, 313-321.
  • Fullenkamp, A., Fischer, R. B., Vance, R. A., & Duffey, K. A. (1985). The failure to demonstrate avoidance of ventral gland odors in male gerbils (Meriones unguiculatus): Physiology & Behavior Vol 35(5) Nov 1985, 763-765.
  • Fullenkamp, A. M., Fischer, R. B., & Vance, R. A. (1987). A lack of avoidance of flank gland secretions by male Syrian hamsters: Physiology & Behavior Vol 39(1) 1987, 73-76.
  • Fuyama, Y., & Ueyama, M. (1997). Ovulation and the suppression of mating in Drosophila melanogaster females: Behavioral basis: Behavior Genetics Vol 27(5) Sep 1997, 483-488.
  • Gaffin, D. D., & Brownell, P. H. (1992). Evidence of chemical signaling in the sand scorpion, Paruroctonus mesaensis (Scorpionida: Vaejovida): Ethology Vol 91(1) May 1992, 59-69.
  • Gailey, D. A., Lacaillade, R. C., & Hall, J. C. (1986). Chemosensory elements of courtship in normal and mutant, olfaction-deficient Drosophila melanogaster: Behavior Genetics Vol 16(3) May 1986, 375-405.
  • Galef, B. G., & Kaner, H. C. (1980). Establishment and maintenance of preference for natural and artificial olfactory stimuli in juvenile rats: Journal of Comparative and Physiological Psychology Vol 94(4) Aug 1980, 588-595.
  • Galef, B. G., & Muskus, P. A. (1979). Olfactory mediation of mother-young contact in Long-Evans rats: Journal of Comparative and Physiological Psychology Vol 93(4) Aug 1979, 708-716.
  • Gamboa, G. J., Grudzien, T. A., Espelie, K. E., & Bura, E. A. (1996). Kin recognition pheromones in social wasps: Combining chemical and behavioural evidence: Animal Behaviour Vol 51(3) Mar 1996, 625-629.
  • Garstka, W. R. (1983). Chemical communication and the control of garter snake reproductive cycles: Dissertation Abstracts International.
  • Garstka, W. R., & Crews, D. (1981). Female sex pheromone in the skin and circulation of a garter snake: Science Vol 214(4521) Nov 1981, 681-683.
  • Gaskett, A. C., Herberstein, M. E., Downes, B. J., & Elgar, M. A. (2004). Changes in male mate choice in a sexually cannibalistic orb-web spider (Araneae: Araneidae): Behaviour Vol 141(10) Oct 2004, 1197-1210.
  • Gawienowski, A. M., DeNicola, D. B., & Stacewicz-Sapuntzakis, M. (1976). Androgen dependence of a marking pheromone in rat urine: Hormones and Behavior Vol 7(4) Dec 1976, 401-405.
  • Gawienowski, A. M., Orsulak, P. J., Stacewicz-Sapuntzakis, M., & Pratt, J. J. (1976). Attractant effect of female preputial gland extracts on the male rat: Psychoneuroendocrinology Vol 1(4) Sep 1976, 411-418.
  • Gawienowski, A. M., & Stacewicz-Sapuntzakis, M. (1978). Attraction of rats to sulfur compounds: Behavioral & Neural Biology Vol 23(2) Jun 1978, 267-270.
  • Gelez, H., & Fabre-Nys, C. (2004). The "male effect" in sheep and goats: A review of the respective roles of the two olfactory systems: Hormones and Behavior Vol 46(3) Sep 2004, 257-271.
  • Gelowitz, C. M., Mathis, A., & Smith, R. J. F. (1993). Chemosensory recognition of northern pike (Esox lucius) by brook stickleback (Culaea inconstans): Population differences and the influence of predator diet: Behaviour Vol 127(1-2) Nov 1993, 105-118.
  • Gemeno, C., Claramunt, J., & Dasca, J. (2005). Nocturnal Calling Behavior in Mantids: Journal of Insect Behavior Vol 18(3) May 2005, 389-403.
  • Gemeno, C., Moore, A. J., Preziosi, F., & Haynes, K. F. (2001). Quantitative genetics of signal evolution: A comparison of the pheromonal signal in two populations of the cabbage looper, Trichoplusia ni: Behavior Genetics Vol 31(2) Mar 2001, 157-165.
  • Gerlach, G. (2006). Pheromonal regulation of reproductive success in female zebrafish: Female suppression and male enhancement: Animal Behaviour Vol 72(5) Nov 2006, 1119-1124.
  • Gerling, S., & Yahr, P. (1982). Maternal and paternal pheromones in gerbils: Physiology & Behavior Vol 28(4) Apr 1982, 667-673.
  • Getchell, T. V. (1997). "Making the most of your good scents": Neuroreport: An International Journal for the Rapid Communication of Research in Neuroscience Vol 8(7) May 1997, i.
  • Getz, L. L., Dluzen, D., & McDermott, J. L. (1983). Suppression of reproductive maturation in male-stimulated virgin female Microtus by a female urinary chemosignal: Behavioural Processes Vol 8(1) Mar 1983, 59-64.
  • Gilbert, L. E. (1976). Postmating female odor in Heliconius butterflies: A male-contributed antiaphrodisiac? : Science Vol 193(4251) Jul 1976, 419-420.
  • Gillett, S. D. (1983). Primer pheromones and polymorphism in the desert locust: Animal Behaviour Vol 31(1) Feb 1983, 221-230.
  • Ginzel, M. D., & Hanks, L. M. (2003). Contact Pheromones as Mate Recognition Cues of Four Species of Longhorned Beetles (Coleoptera: Cerambycidae): Journal of Insect Behavior Vol 16(2) Mar 2003, 181-187.
  • Giorgi, D., & Rouquier, S. (2002). Identification of V1R-like putative pheromone receptor sequences in non-human primates. Characterization of V1R pseudogenes in marmoset, a primate species that possesses an intact vomeronasal organ: Chemical Senses Vol 27(6) Jul 2002, 529-537.
  • Gleeson, R. A. (1978). Pheromone communication in the reproductive behavior of Callinectes sapidus: Dissertation Abstracts International.
  • Gobin, B., Peeters, C., Billen, J., & Morgan, E. D. (1998). Interspecific trail following and commensalism between the ponerine ant Gnamptogenys menadensis and the formicine ant Polyrhachis rufipes: Journal of Insect Behavior Vol 11(3) May 1998, 361-369.
  • Goodwin, M., Gooding, K. M., & Regnier, F. (1979). Sex pheromone in the dog: Science Vol 203(4380) Feb 1979, 559-561.
  • Gorman, M. L. (1976). A mechanism for individual recognition by odour in Herpestes auropunctatus (Carnivora: Viverridae): Animal Behaviour Vol 24(1) Feb 1976, 141-145.
  • Gorsuch, C. S. (1978). Behavioral and ecological studies of Synanthedon pictipes (Grote and Robinson) (Lepidoptera: sesiidae) male sex activity: Dissertation Abstracts International.
  • Grammer, K. (1993). 5-!a-androst-16en-3!a-on: A male pheromone? A brief report: Ethology & Sociobiology Vol 14(3) May 1993, 201-207.
  • Grant, A. J., Mankin, R. W., & Mayer, M. S. (1989). Neurophysiological responses of pheromone-sensitive receptor neurons on the antenna of Trichoplusia ni (Hubner) to pulsed and continuous stimulation regimens: Chemical Senses Vol 14(3) Jun 1989, 449-462.
  • Grant, G. G. (1974). Male sex pheromone from the wing glands of the Indian meal moth, Plodia interpunctella (Hbn.) (Lepidoptera: Phycitidae): Experientia Vol 30(8) 1974, 917-918.
  • Grasso, D. A., Ugolini, A., Visicchio, R., & le Moli, F. (1997). Orientation of Polyergus rufescens (Hymenoptera, Formicidae) during slave-making raids: Animal Behaviour Vol 54(6) Dec 1997, 1425-1438.
  • Gravelle, K. (1982). Chemical communication in the iguanid lizard Sceloporus jarrovi: Dissertation Abstracts International.
  • Graves, B. M., & Halpern, M. (1988). Neonate plains garter snakes (Thamnophis radix) are attracted to conspecific skin extracts: Journal of Comparative Psychology Vol 102(3) Sep 1988, 251-253.
  • Greenberg, L. (1979). Genetic component of bee odor in kin recognition: Science Vol 206(4422) Nov 1979, 1095-1097.
  • Greenberg, L. P. (1982). The function of heritable odors in kin and nestmate recognition in a sweat bee, Lasioglossum zephyrum: Dissertation Abstracts International.
  • Greene, M. J., & Mason, R. T. (2003). Pheromonal inhibition of male courtship behavior in the brown tree snake, Boiga irregularis: A mechanism for the rejection of potential mates: Animal Behaviour Vol 65(5) May 2003, 905-910.
  • Greiner, B., Gadenne, C., & Anton, S. (2002). Central processing of plant volatiles in Agrotis ipsilon males is age-independent in contrast to sex pheromone processing: Chemical Senses Vol 27(1) Jan 2002, 45-48.
  • Grigorjev, C., & Munaro, N. (1999). Time-dependent GABA-ergic activity in olfactory bulb and hypothalamus of proestrous rats: Brain Research Bulletin Vol 48(6) Apr 1999, 569-572.
  • Groot, A. T., Horovitz, J. L., Hamilton, J., Santangelo, R. G., Schal, C., Gould, F., et al. (2006). Experimental evidence for interspecific directional selection on moth pheromone communication: PNAS Proceedings of the National Academy of Sciences of the United States of America Vol 103(15) Apr 2006, 5858-5863.
  • Grosse-Wilde, E., Svatos, A., & Krieger, J. (2006). A Pheromone-Binding Protein Mediates the Bombykol-lnduced Activation of a Pheromone Receptor In Vitro: Chemical Senses Vol 31(6) Jul 2006, 547-555.
  • Grula, J. W. (1979). The inheritance of traits maintaining ethological isolation between two species of Colias butterflies: Dissertation Abstracts International.
  • Gubernick, D. J. (1990). A maternal chemosignal maintains paternal behaviour in the biparental California mouse, Peromyscus californicus: Animal Behaviour Vol 39(5) May 1990, 936-942.
  • Guillaume, O. (1999). Does the Pyrenean salamander Euproctus asper use chemical cues for sex identification and mating behaviour? : Behavioural Processes Vol 46(1) May 1999, 57-62.
  • Gustin, M. K., & McCracken, G. F. (1987). Scent recognition between females and pups in the bat Tadarida brasiliensis mexicana: Animal Behaviour Vol 35(1) Feb 1987, 13-19.
  • Gwynne, D. T. (1978). Male territoriality in the bumblebee wolf, Philanthus bicinctus (Mickel) (Hymenoptera, Sphecidae): Observations on the behaviour of individual males: Zeitschrift fur Tierpsychologie Vol 47(1) May 1978, 89-103.
  • Ha, T. S., & Smith, D. P. (2006). A Pheromone Receptor Mediates 11-cis-Vaccenyl Acetate-Induced Responses in Drosophila: Journal of Neuroscience Vol 26(34) Aug 2006, 8727-8733.
  • Haag, C., Jerhoff, B., & Kirkpatrick, J. F. (1974). Ovarian hormones and their role in aggression inhibition among male mice: Physiology & Behavior Vol 13(1) Jul 1974, 175-177.
  • Halem, H. A., Cherry, J. A., & Baum, M. J. (2001). Central forebrain Fos responses to familiar male odours are attenuated in recently mated female mice: European Journal of Neuroscience Vol 13(2) Jan 2001, 389-399.
  • Hall, D., & Suboski, M. D. (1995). Sensory preconditioning and secord-order conditioning of alarm reactions in zebra danio fish (Brachydanio rerio): Journal of Comparative Psychology Vol 109(1) Mar 1995, 76-84.
  • Hall, D., & Suboski, M. D. (1995). Visual and olfactory stimuli in learned release of alarm reactions by zebra danio fish (Brachydanio rerio): Neurobiology of Learning and Memory Vol 63(3) May 1995, 229-240.
  • Hall, D. H. (1994). Alarm pheromone mediation of recognition learning by zebra danio fish ( brachydanio rerio ). Dissertation Abstracts International: Section B: The Sciences and Engineering.
  • Halpin, Z. T. (1974). Individual differences in the biological odors of the Mongolian gerbil (Meriones unquiculatus): Behavioral Biology Vol 11(2) Jun 1974, 253-259.
  • Hamilton, J. G. (1990). Mounting Sex Pheromone: A novel pheromone responsible for mate recognition in the ixodidae: Dissertation Abstracts International.
  • Hannonen, M., Sledge, M. F., Turillazzi, S., & Sundstrom, L. (2002). Queen reproduction, chemical signalling and worker behaviour in polygyne colonies of the ant Formica fusca: Animal Behaviour Vol 64(3) Sep 2002, 477-485.
  • Hardege, J. D., Bartels-Hardege, H., Muller, C. T., & Beckmann, M. (2004). Peptide pheromones in female Nereis succinea: Peptides Vol 25(9) Sep 2004, 1517-1522.
  • Harmatz, P., Boelkins, R. C., & Kessler, S. (1975). Postisolation aggression and olfactory cues: Behavioral Biology Vol 13(2) Feb 1975, 219-224.
  • Harriman, A. E., & Thiessen, D. D. (1985). Harderian letdown in male Mongolian gerbils (Meriones unguiculatus) contributes to proceptive behavior: Hormones and Behavior Vol 19(2) Jun 1985, 213-219.
  • Harrington, J. E. (1976). Discrimination between individuals by scent in Lemur fulvus: Animal Behaviour Vol 24(1) Feb 1976, 207-212.
  • Harrington, J. E. (1977). Discrimination between males and females by scent in Lemur fulvus: Animal Behaviour Vol 25(1) Feb 1977, 147-151.
  • Harris, M. A., & Murie, J. O. (1984). Discrimination of oestrous status by scent in Columbian ground squirrels: Animal Behaviour Vol 32(3) Aug 1984, 939-940.
  • Harris, M. E. (1979). The role of chemoreception in some social and synchronous behavior of the crayfish, Procambarus clarkii: Dissertation Abstracts International.
  • Harrison, J. F., Fewell, J. H., Stiller, T. M., & Breed, M. D. (1989). Effects of experience on use of orientation cues in the giant tropical ant: Animal Behaviour Vol 37(5) May 1989, 869-871.
  • Hartlieb, E., Anderson, P., & Hansson, B. S. (1999). Appetitive learning of odours with different behavioural meaning in moths: Physiology & Behavior Vol 67(5) Nov 1999, 671-677.
  • Haug, M., & Brain, P. F. (1978). Attack directed by groups of castrated male mice towards lactating or non-lactating intruders: A urine-dependent phenomenon? : Physiology & Behavior Vol 21(4) Oct 1978, 549-552.
  • Hayashi, S. (1979). A role of female preputial glands in social behavior of mice: Physiology & Behavior Vol 23(5) Nov 1979, 967-969.
  • Hayashi, S., & Kimura, T. (1974). Sex-attractant emitted by female mice: Physiology & Behavior Vol 13(4) Oct 1974, 563-567.
  • Haynes, K. F., Yeargan, K. V., & Gemeno, C. (2001). Detection of prey by a spider that aggressively mimics pheromone blends: Journal of Insect Behavior Vol 14(4) Jul 2001, 535-544.
  • Heck, P. S., & Ghosh, S. (2002). The design and role of synthetic creative traits in artificial ant colonies: Journal of Intelligent & Robotic Systems Vol 33(4) Apr 2002, 343-370.
  • Hegde, A. N. (2003). MHC molecules in the vomeronasal organ: Contributors to pheromonal discrimination? : Trends in Neurosciences Vol 26(12) Dec 2003, 646-650.
  • Hendry, L. B., & et al. (1974). Cis-10-tetradecenyl acetate, an attractant component in the sex pheromone of the oak leaf roller moth (Archips semiferanus Walker): Experientia Vol 30(8) 1974, 886-888.
  • Hendry, L. B., & et al. (1975). The oak leaf roller (Archips semiferanus Walker) sex pheromone complex: Field and laboratory evaluation of requisite behavioral stimuli: Experientia Vol 31(6) 1975, 629-631.
  • Hennessy, M. B. (1977). Stress-related odors in mice: Differential responsiveness to adult and infant cues: Dissertation Abstracts International.
  • Hennessy, M. B., & et al. (1978). Scent-marking and olfactory investigatory behavior in the squirrel monkey (Saimiri sciureus): Behavioral & Neural Biology Vol 24(1) Sep 1978, 57-67.
  • Hennessy, M. B., Li, J., & Levine, S. (1980). Infant responsiveness to maternal cues in mice of 2 inbred lines: Developmental Psychobiology Vol 13(1) Jan 1980, 77-84.
  • Herness, S. (2006). Review of What a little (Z)-7-dodecen-1-yl acetate can do: Physiology & Behavior Vol 87(3) Mar 2006, 641-642.
  • Herreid, C. F., & Schlenker, E. H. (1980). Energetics of mice in stable and unstable social conditions: Evidence of an air-borne factor affecting metabolism: Animal Behaviour Vol 28(1) Feb 1980, 20-28.
  • Herzner, G., Schmitt, T., Linsenmair, K. E., & Strohm, E. (2005). Prey recognition by females of the European beewolf and its potential for a sensory trap: Animal Behaviour Vol 70(6) Dec 2005, 1411-1418.
  • Heth, G., Todrank, J., & Johnston, R. E. (1998). Kin recognition in golden hamsters: Evidence for phenotype matching: Animal Behaviour Vol 56(2) Aug 1998, 409-417.
  • Hews, D. K., & Blaustein, A. R. (1985). An investigation of the alarm response in Bufo boreas and Rana cascadae tadpoles: Behavioral & Neural Biology Vol 43(1) Jan 1985, 47-57.
  • Hirai, K., Shorey, H. H., & Gaston, L. K. (1978). Competition among courting male moths: Male-to-male inhibitory pheromone: Science Vol 202(4368) Nov 1978, 644-645.
  • Hirai, Y., Tamaki, Y., & Yushima, T. (1974). Inhibitory effects of individual components of the sex pheromone of a tortricid moth on the sexual stimulation of males: Nature Vol 247(5438) Jan 1974, 231-232.
  • Hlinak, Z. (1984). Influence of repeated exposure of male rats to oestrous odour on their subsequent sexual behaviour: Activitas Nervosa Superior Vol 26(2) 1984, 112-117.
  • Hnatczuk, O. C., & Morrell, J. I. (1995). Interaction of male sensory cues and estradiol in the induction of estrus in the prairie vole: Physiology & Behavior Vol 58(4) Oct 1995, 785-790.
  • Hodosh, R. J. (1979). Social behavior in a lek species of Hawaiian Drosophila: Dissertation Abstracts International.
  • Hofer, M. A., Shair, H., & Singh, P. (1976). Evidence that maternal ventral skin substances promote suckling in infant rats: Physiology & Behavior Vol 17(1) Jul 1976, 131-136.
  • Hoffmeyer, I. (1982). Responses of female bank voles (Clethrionomys glareolus) to dominant vs subordinate conspecific males and to urine odors from dominant vs subordinate males: Behavioral & Neural Biology Vol 36(2) Oct 1982, 178-188.
  • Hollander, A. L. (1984). Location and structure of the pheromone gland, and physiological control of sex pheromone release in the female gypsy moth, Lymantria dispar (L.): Dissertation Abstracts International.
  • Holldobler, B. (1984). Communication during foraging and nest-relocation in the African stink ant, Paltothyreus tarsatus Fabr. (Hymenoptera, Formicidae, Ponerinae): Zeitschrift fur Tierpsychologie Vol 65(1) May 1984, 40-52.
  • Holldobler, B., & Haskins, C. P. (1977). Sexual calling behavior in primitive ants: Science Vol 195(4280) Feb 1977, 793-794.
  • Holldobler, B., & Wilson, E. O. (1977). Weaver ants: Social establishment and maintenance of territory: Science Vol 195(4281) Mar 1977, 900-902.
  • Holy, T. E. (2003). Wake up and smell the conspecific! : Trends in Neurosciences Vol 26(9) Sep 2003, 463-465.
  • Homady, M. H., & Brain, P. F. (1982). Effects of marking with preputial gland material on the attack directed towards long-term castrates by isolated males: Aggressive Behavior Vol 8(2) 1982, 137-140.
  • Hoover, S. E. R., Winston, M. L., & Oldroyd, B. P. (2005). Retinue attraction and ovary activation: Responses of wild type and anarchistic honey bees (Apis mellifera) to queen and brood pheromones: Behavioral Ecology and Sociobiology Vol 59(2) Dec 2005, 278-284.
  • Horne, E. A., & Jaeger, R. G. (1988). Territorial pheromones of female red-backed salamanders: Ethology formerly Zeitschrift fur Tierpsychologie Vol 78(2) Jun 1988, 143-152.
  • Houck, L. D., Palmer, C. A., Watts, R. A., Arnold, S. J., Feldhoff, P. W., & Feldhoff, R. C. (2007). A new vertebrate courtship pheromone, PMF, affects female receptivity in a terrestrial salamander: Animal Behaviour Vol 73(2) Feb 2007, 315-320.
  • Houck, L. D., & Reagan, N. L. (1990). Male courtship pheromones increase female receptivity in a plethodontid salamander: Animal Behaviour Vol 39(4) Apr 1990, 729-734.
  • Hudson, R. (1985). Do newborn rabbits learn the odor stimuli releasing nipple-search behavior? : Developmental Psychobiology Vol 18(6) Nov 1985, 575-585.
  • Hudson, R., & Distel, H. (1983). Nipple location by newborn rabbits: Behavioural evidence for pheromonal guidance: Behaviour Vol 85(3-4) 1983, 260-275.
  • Hudson, R., & Distel, H. (1986). Pheromonal release of suckling in rabbits does not depend on the vomeronasal organ: Physiology & Behavior Vol 37(1) 1986, 123-128.
  • Hudson, R., & Distel, H. (1987). Regional autonomy in the peripheral processing of odor signals in newborn rabbits: Brain Research Vol 421(1-2) Sep 1987, 85-94.
  • Hudson, R., Gonzalez-Mariscal, G., & Beyer, C. (1990). Chin marking behavior, sexual receptivity, and pheromone emission in steroid-treated, ovariectomized rabbits: Hormones and Behavior Vol 24(1) Mar 1990, 1-13.
  • Hughes, A. L. (1982). Attraction of adult Tribolium confusum to flour conditioned by male conspecifics: Behavioural Processes Vol 7(3) Sep 1982, 247-253.
  • Hurst, J. L., & Nevison, C. M. (1994). Do female house mice, Mus domesticus, regulate their exposure to reproductive priming pheromones? : Animal Behaviour Vol 48(4) Oct 1994, 945-959.
  • Ichikawa, M. (1989). Recovery of olfactory behavior following removal of accessory olfactory bulb in adult rat: Brain Research Vol 498(1) Sep 1989, 45-52.
  • Ingersoll, D. W. (1986). Latent aggression-promoting properties of mouse bladder urine activated by heat: Behavioral Neuroscience Vol 100(5) Oct 1986, 783-789.
  • Ingersoll, D. W., & Launay, J. (1986). Murine aggression induced by a boar chemosignal: A stimulus presentation dependency: Physiology & Behavior Vol 36(2) 1986, 263-269.
  • Ingersoll, D. W., Morley, K. T., Benvenga, M., & Hands, C. (1986). An accessory sex gland aggression-promoting chemosignal in male mice: Behavioral Neuroscience Vol 100(5) Oct 1986, 777-782.
  • Ishay, J. S., & Paniry, V. A. (1979). Effects of caffeine and various xanthines on hornets and bees: Psychopharmacology Vol 65(3) Nov 1979, 299-309.
  • Itagaki, H. (1985). Physiological control of sex pheromone release behavior in the moths Manduca sexta (Sphingidae) and Utetheisa ornatrix (Arctiidae): Dissertation Abstracts International.
  • Iyengar, V. K., Rossini, C., & Eisner, T. (2001). Precopulatory assessment of male quality in an acrtiid moth (Utetheisa ornatrix): Hydroxydanaidal is the only criterion of choice: Behavioral Ecology and Sociobiology Vol 49(4) 2001, 283-288.
  • Jackson, D. E., & Chaline, N. (2007). Modulation of pheromone trail strength with food quality in Pharaoh's ant, Monomorium pharaonis: Animal Behaviour Vol 74(3) Sep 2007, 463-470.
  • Jackson, D. E., Martin, S. J., Holcombe, M., & Ratnieks, F. L. W. (2006). Longevity and detection of persistent foraging trails in pharaoh's ants, Monomorium pharaonis (L.): Animal Behaviour Vol 71(2) Feb 2006, 351-359.
  • Jackson, D. E., Martin, S. J., Ratnieks, F. L. W., & Holcombe, M. (2007). Spatial and temporal variation in pheromone composition of ant foraging trails: Behavioral Ecology Vol 18(2) Mar-Apr 2007, 444-450.
  • Jacobson, M., Adler, V. E., Kishaba, A. N., & Priesner, E. (1976). 2-phenylethanol, a presumed sexual stimulant produced by the male cabbage looper moth, Trichoplusia ni: Experientia Vol 32(8) 1976, 964-966.
  • Jaeger, R. G., Goy, J. M., Tarver, M., & Marquez, C. E. (1986). Salamander territoriality: Pheromonal markers as advertisement by males: Animal Behaviour Vol 34(3) Jun 1986, 860-864.
  • Jaffe, K., & Howse, P. E. (1979). The mass recruitment system of the leaf cutting ant, Atta cephalotes (L.): Animal Behaviour Vol 27(3) Aug 1979, 930-939.
  • Jaffe, K., Miras, B., & Cabrera, A. (2007). Mate selection in the moth Neoleucinodes elegantalis: Evidence for a supernormal chemical stimulus in sexual attraction: Animal Behaviour Vol 73(4) Apr 2007, 727-734.
  • Jallon, J.-M. (1984). A few chemical words exchanged by Drosophila during courtship and mating: Behavior Genetics Vol 14(5) Sep 1984, 441-478.
  • Jeanne, R. L. (1981). Chemical communication during swarm emigration in the social wasp Polybia sericea (Olivier): Animal Behaviour Vol 29(1) Feb 1981, 102-113.
  • Jemiolo, B., & et al. (1985). Behavioural and endocrine responses of female mice to synthetic analogues of volatile compounds in male urine: Animal Behaviour Vol 33(4) Nov 1985, 1114-1118.
  • Jemiolo, B., Xie, T.-m., & Novotny, M. (1991). Socio-sexual olfactory preference in female mice: Attractiveness of synthetic chemosignals: Physiology & Behavior Vol 50(6) Dec 1991, 1119-1122.
  • Jessen, K., & Maschwitz, U. (1986). Orientation and recruitment behavior in the ponerine ant Pachycondyla tesserinoda (Emery): Laying of individual-specific trails during tandem running: Behavioral Ecology and Sociobiology Vol 19(3) Aug 1986, 151-155.
  • Johansson, B. G., Jones, T. M., & Widemo, F. (2005). Cost of pheromone production in a lekking Drosophila: Animal Behaviour Vol 69(4) Apr 2005, 851-858.
  • Johnston, R. E. (1975). Scent marking by male golden hamsters (Mesocricetus auratus): II. The role of the flank gland scent in the causation of marking: Zeitschrift fur Tierpsychologie Vol 37(2) Mar 1975, 138-144.
  • Johnston, R. E. (1977). The causation of two scent-marking behaviour patterns in female hamsters (Mesocricetus auratus): Animal Behaviour Vol 25(2) May 1977, 317-327.
  • Johnston, R. E. (1980). Responses of male hamsters to odors of females in different reproductive states: Journal of Comparative and Physiological Psychology Vol 94(5) Oct 1980, 894-904.
  • Johnston, R. E. (1986). Effects of female odors on the sexual behavior of male hamsters: Behavioral & Neural Biology Vol 46(2) Sep 1986, 168-188.
  • Johnston, R. E., & Coplin, B. (1979). Development of responses to vaginal secretion and other substances in golden hamsters: Behavioral & Neural Biology Vol 25(4) Apr 1979, 473-489.
  • Johnston, R. E., & Rasmussen, K. (1984). Individual recognition of female hamsters by males: Role of chemical cues and of the olfactory and vomeronasal systems: Physiology & Behavior Vol 33(1) Jul 1984, 95-104.
  • Johnston, R. E., & Schmidt, T. (1979). Responses of hamsters to scent marks of different ages: Behavioral & Neural Biology Vol 26(1) May 1979, 64-75.
  • Jones, R. B. (1985). Comments on Cox's "Ethological isolation between local populations of house mice (Mus musculus) based on olfaction." IRCS Medical Science: Psychology & Psychiatry Vol 13(5-6) May-Jun 1985, 569.
  • Jones, R. B., & Nowell, N. W. (1973). The coagulating glands as a source of aversive and aggression-inhibiting pheromone(s) in the male albino mouse: Physiology & Behavior Vol 11(4) Oct 1973, 455-462.
  • Jones, R. B., & Nowell, N. W. (1974). A comparison of the aversive and female attractant properties of urine from dominant and subordinate male mice: Animal Learning & Behavior Vol 2(2) May 1974, 141-144.
  • Jones, R. B., & Nowell, N. W. (1974). The urinary aversive pheromone of mice: Species, strain and grouping effects: Animal Behaviour Vol 22(1) Feb 1974, 187-191.
  • Jones, R. B., & Nowell, N. W. (1977). The emotional responses of male laboratory mice to various urinary odors: Behavioral Biology Vol 19(1) Jan 1977, 98-107.
  • Jones, T. M., & Hamilton, J. G. C. (1998). A role for pheromones in mate choice in a lekking sandfly: Animal Behaviour Vol 56(4) Oct 1998, 891-898.
  • Jonsson, M., Kindvall, O., Jonsell, M., & Nordlander, G. (2003). Modelling mating success of saproxylic beetles in relation to search behaviour, population density and substrate abundance: Animal Behaviour Vol 65(6) Jun 2003, 1069-1076.
  • Kaba, H., Hayashi, Y., Higuchi, T., & Nakanishi, S. (1994). Induction of an olfactory memory by the activation of a metabotropic glutamate receptor: Science Vol 265(5169) Jul 1994, 262-264.
  • Kaissling, K.-E. (1996). Peripheral mechanisms of pheromone reception in moths: Chemical Senses Vol 21(2) Apr 1996, 257-268.
  • Kalinova, B., Hoskovec, M., Liblikas, I., Unelius, C. R., & Hansson, B. S. (2001). Detection of sex pheromone components in Manduca sexta (L.): Chemical Senses Vol 26(9) Nov 2001, 1175-1186.
  • Kallquist, L., & Mossing, T. (1982). Olfactory recognition between mother and calf in reindeer (Rangifer t. tarandus L.): Applied Animal Ethology Vol 8(6) Aug 1982, 561-565.
  • Kaminski, R. M., Marini, H., Ortinski, P. I., Vicini, S., & Rogawski, M. A. (2006). The Pheromone Androstenol (5alpha -Androst-16-en-3alpha -ol) Is a Neurosteroid Positive Modulator of GABA-sub(A) Receptors: Journal of Pharmacology and Experimental Therapeutics Vol 317(2) May 2006, 694-703.
  • Kanzaki, R., & Shibuya, T. (1986). Descending protocerebral neurons related to the mating dance of the male silkworm moth: Brain Research Vol 377(2) Jul 1986, 378-382.
  • Karunadasa, D. K., Chapman, C., & Bicknell, R. J. (2006). Expression of pheromone receptor gene families during olfactory development in the mouse: Expression of a V1 receptor in the main olfactory epithelium: European Journal of Neuroscience Vol 23(10) May 2006, 2563-2572.
  • Karunaratne, S. (1992). Behaviour of the oriental fruit fly, Dacus dorsalis, Hendel (Diptera:Tephritidae): Dissertation Abstracts International.
  • Kasang, G., Knauer, B., & Beroza, M. (1974). Uptake of the sex attractant 3H-disparlure by male gypsy moth antennae (Lymantria dispar) (=Porthetria dispar): Experientia Vol 30(2) 1974, 147-148.
  • Kastberger, G., Raspotnig, G., Biswas, S., & Winder, O. (1998). Evidence of Nasonov scenting in colony defence of the giant honeybee Apis dorsata: Ethology Vol 104(1) Jan 1998, 27-37.
  • Katzav-Gozansky, T., Soroker, V., Ibarra, F., Francke, W., & Hefetz, A. (2001). Dufour's gland secretion of the queen honeybee (Apis mellifera): An egg discriminator pheromone or a queen signal? : Behavioral Ecology and Sociobiology Vol 51(1) Dec 2001, 76-86.
  • Kavaliers, M., Choleris, E., Agmo, A., & Pfaff, D. W. (2004). Olfactory-mediated parasite recognition and avoidance: Linking genes to behavior: Hormones and Behavior Vol 46(3) Sep 2004, 272-283.
  • Kavaliers, M., & Innes, D. G. (1989). Population differences in benzodiazepine sensitive male scent-induced analgesia in the deer mouse, Peromyscus maniculatus: Pharmacology, Biochemistry and Behavior Vol 32(3) Mar 1989, 613-619.
  • Kawamichi, T., & Kawamichi, M. (1979). Spatial organization and territory of tree shrews (Tupaia glis): Animal Behaviour Vol 27(2) May 1979, 381-393.
  • Keeling, F. (1990). Paternal behaviour in the Mongolian gerbil and the pheromonal control of infanticide by the female: Dissertation Abstracts International.
  • Keil, W., von Stralendorff, F., & Hudson, R. (1990). A behavioral bioassay for analysis of rabbit nipple-search pheromone: Physiology & Behavior Vol 47(3) Mar 1990, 525-529.
  • Keller, L., & Nonacs, P. (1993). The role of queen pheromones in social insects: Queen control or queen signal? : Animal Behaviour Vol 45(4) Apr 1993, 787-794.
  • Kelliher, K. R., & Baum, M. J. (2002). Effect of sex steroids and coital experience on ferrets' preference for the smell, sight and sound of conspecifics: Physiology & Behavior Vol 76(1) May 2002, 1-7.
  • Kelliher, K. R., Spehr, M., Li, X.-H., Zufall, F., & Leinders-Zufall, T. (2006). Pheromonal recognition memory induced by TRPC2-independent vomeronasal sensing: European Journal of Neuroscience Vol 23(12) Jun 2006, 3385-3390.
  • Kelly, D. W., & Dye, C. (1997). Pheromones, kairomones and the aggregation dynamics of the sandfly Lutzomyia longipalpis: Animal Behaviour Vol 53(4) Apr 1997, 721-731.
  • Kemble, E. D., Schultz, L. A., & Thornton, A. E. (1986). Effects of fluprazine hydrochloride on conspecific odor preferences in rats: Physiology & Behavior Vol 37(1) 1986, 53-56.
  • Kennedy, J. S., Ludlow, A. R., & Sanders, C. J. (1980). Guidance system used in moth sex attraction: Nature Vol 288(5790) Dec 1980, 475-477.
  • Kerchner, M. T. (1989). Partial isolation and characterization of a female urinary chemosignal which promotes sexual arousal in male mice (Mus musculus): Dissertation Abstracts International.
  • Keverne, E. B. (1998). Vomeronasal/accessory olfactory system and pheromonal recognition: Chemical Senses Vol 23(4) Aug 1998, 491-494.
  • Keverne, E. B. (2002). Mammalian pheromones: From genes to behaviour: Current Biology Vol 12(23) Dec 2002, R807-R809.
  • Keverne, E. B., & de la Riva, C. (1982). Pheromones in mice: Reciprocal interactions between the nose and the brain: Nature Vol 296(5853) Mar 1982, 148-150.
  • Kiesecker, J. M., Chivers, D. P., Marco, A., Quilchanos, C., Anderson, M. T., & Blaustein, A. R. (1999). Identification of a disturbance signal in larval red-legged frogs, Rana aurora: Animal Behaviour Vol 57(6) Jun 1999, 1295-1300.
  • Kikusui, T., Takigami, S., Takeuchi, Y., & Mori, Y. (2001). Alarm pheromone enhances stress-induced hyperthermia in rats: Physiology & Behavior Vol 72(1-2) Jan 2001, 45-50.
  • Kikuyama, S., Toyoda, F., Yamamoto, K., Tanaka, S., & Hayashi, H. (1997). Female-attracting pheromone in newt cloacal glands: Brain Research Bulletin Vol 44(4) 1997, 415-422.
  • Kilpatrick, S. J., Bolt, M., & Moltz, H. (1980). Induction of the maternal pheromone by cholic acid in the virgin rat: Physiology & Behavior Vol 25(1) Jul 1980, 31-34.
  • Kilpatrick, S. J., Lee, T. M., & Moltz, H. (1983). The maternal pheromone of the rat: Testing some assumptions underlying a hypothesis: Physiology & Behavior Vol 30(4) Apr 1983, 539-543.
  • Kilpatrick, S. J., & Moltz, H. (1981). Hyperphagia is irrelevant for pheromonal emission in the rat: Physiology & Behavior Vol 26(6) Jun 1981, 1129-1131.
  • Kim, Y.-K., Phillips, D. R., Chao, T., Ehrman, L., & Hewitt, J. K. (2004). Developmental Isolation and Subsequent Adult Behavior of Drosophila paulistorum. VI. Quantitative Variation in Cuticular Hydrocarbons: Behavior Genetics Vol 34(4) Jul 2004, 385-394.
  • Kimelman, B. R., & Lubow, R. E. (1974). The inhibitory effect of preexposed olfactory cues on intermale aggression in mice: Physiology & Behavior Vol 12(6) Jun 1974, 919-922.
  • Kimoto, H., Haga, S., Sato, K., & Touhara, K. (2005). Sex-specific peptides from exocrine glands stimulate mouse vomeronasal sensory neurons: Nature Vol 437(7060) Oct 2005, 898-901.
  • Kiyokawa, Y., Kikusui, T., Takeuchi, Y., & Mori, Y. (2004). Alarm Pheromones with Different Functions are Released from Different Regions of the Body Surface of Male Rats: Chemical Senses Vol 29(1) Jan 2004, 35-40.
  • Kiyokawa, Y., Kikusui, T., Takeuchi, Y., & Mori, Y. (2004). Modulatory role of testosterone in alarm pheromone release by male rats: Hormones and Behavior Vol 45(2) Feb 2004, 122-127.
  • Kiyokawa, Y., Kikusui, T., Takeuchi, Y., & Mori, Y. (2005). Mapping the neural circuit activated by alarm pheromone perception by c-Fos immunohistochemistry: Brain Research Vol 1043(1-2) May 2005, 145-154.
  • Kiyokawa, Y., Kikusui, T., Takeuchi, Y., & Mori, Y. (2007). Removal of the Vomeronasal Organ Blocks the Stress-Induced Hyperthermia Response to Alarm Pheromone in Male Rats: Chemical Senses Vol 32(1) Jan 2007, 57-64.
  • Kiyokawa, Y., Shimozuru, M., Kikusui, T., Takeuchi, Y., & Mori, Y. (2006). Alarm pheromone increases defensive and risk assessment behaviors in male rats: Physiology & Behavior Vol 87(2) Feb 2006, 383-387.
  • Kleineidam, C. J., Obermayer, M., Halbich, W., & Rossler, W. (2005). A Macroglomerulus in the Antennal Lobe of Leaf-cutting Ant Workers and its Possible Functional Significance: Chemical Senses Vol 30(5) Jun 2005, 383-392.
  • Klemm, W. R., Hawkins, G. N., & de los Santos, E. (1987). Identification of compounds in bovine cervico-vaginal mucus extracts that evoke male sexual behavior: Chemical Senses Vol 12(1) Feb 1987, 77-87.
  • Klemm, W. R., Sherry, C. J., Schake, L. M., & Sis, R. F. (1983). Homosexual behavior in feedlot steers: An aggression hypothesis: Applied Animal Ethology Vol 11(2) Nov 1983, 187-195.
  • Kline, J. P., Schwartz, G. E., & Dikman, Z. V. (2007). Interpersonal defensiveness and diminished perceptual acuity for the odor of a putative pheromone: Androstenone: Biological Psychology Vol 74(3) Mar 2007, 405-413.
  • Kloppenburg, P., Ferns, D., & Mercer, A. R. (1999). Serotonin enhances central olfactory neuron responses to female sex pheromone in the male sphinx moth Manduca sexta: Journal of Neuroscience Vol 19(19) Oct 1999, 8172-8181.

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  • Kollack-Walker, S. (1995). Neuroanatomical distribution of mating-induced c-fos expression in the male Syrian hamster brain: Role of pheromones, experience and ejaculations. Dissertation Abstracts International: Section B: The Sciences and Engineering.
  • Koski, M. A., Dixon, L. K., & Fahrion, N. (1977). Olfactory-mediated choice behavior in mice: Developmental and genetic aspects: Behavioral & Neural Biology Vol 19(3) Mar 1977, 324-332.
  • Kostal, L., Lansky, P., & Rospars, J.-P. (2007). Encoding of pheromone intensity by dynamic activation of pheromone receptors: Neurocomputing: An International Journal Vol 70(10-12) Jun 2007, 1759-1763.
  • Kramer, E. (1992). Attractivity of pheromone surpassed by time-patterned application of two nonpheromone compounds: Journal of Insect Behavior Vol 5(1) Jan 1992, 83-97.
  • Krasnoff, S. B. (1987). The chemical ecology of courtship communication in some nearctic arctiids (Lepidoptera: Arctiidae): Dissertation Abstracts International.
  • Kubie, J. L., Cohen, J., & Halpern, M. (1978). Shedding enhances the sexual attractiveness of oestradiol treated garter snakes and their untreated penmates: Animal Behaviour Vol 26(2) May 1978, 562-570.
  • Kubie, J. L., Vagvolgyi, A., & Halpern, M. (1978). Roles of the vomeronasal and olfactory systems in courtship behavior of male garter snakes: Journal of Comparative and Physiological Psychology Vol 92(4) Aug 1978, 627-641.
  • Kudryavtseva, N. N., & Bakshtanovskaya, I. V. (1989). Effect of previous experience of chemocommunication on reactivity of mice of two genotypes of pheromones: Sensory Systems Vol 3(2) Apr-Jun 1989, 98-103.
  • Kudryavtseva, N. N., & Popova, N. K. (1988). Comparative characteristics of the parameters of aggressive reaction of two genotypes of mice: Zhurnal Vysshei Nervnoi Deyatel'nosti Vol 38(5) Sep-Oct 1988, 889-896.
  • Kuenen, L. P. (1983). Mechanisms of velocity regulation and orientation of male moths' flight toward pheromone sources: Dissertation Abstracts International.
  • Kuenen, L. P., & Carde, R. T. (1993). Effects of moth size on velocity and steering during upwind flight toward a sex pheromone source by Lymantria dispar (Lepidoptera: Lymantriidae): Journal of Insect Behavior Vol 6(2) Mar 1993, 177-193.
  • Kukuk, P. (1985). Evidence for an antiaphrodisiac in the sweat bee Lasioglossum (Dialictus) zephyrum: Science Vol 227(4687) Feb 1985, 656-657.
  • Kumari, S., & Prakash, I. (1984). Perception of oestrous odours by male Meriones hurrianae: Animal Behaviour Vol 32(3) Aug 1984, 927-929.
  • Kurtovic, A., Widmer, A., & Dickson, B. J. (2007). A single class of olfactory neurons mediates behavioural responses to a Drosophila sex pheromone: Nature Vol 446(7135) Mar 2007, 542-546.
  • Kwan, M., & Johnston, R. E. (1980). The role of vaginal secretion in hamster sexual behavior: Males' responses to normal and vaginectomized females and their odors: Journal of Comparative and Physiological Psychology Vol 94(5) Oct 1980, 905-913.
  • Lacey, E. S., Ray, A. M., & Hanks, L. M. (2007). Calling behavior of the Cerambycid beetle Neoclytus acuminatus acuminatus (F.): Journal of Insect Behavior Vol 20(1) Jan 2007, 117-128.
  • Lacey, J. C., Beynon, R. J., & Hurst, J. L. (2007). The importance of exposure to other male scents in determining competitive behaviour among inbred male mice: Applied Animal Behaviour Science Vol 104(1-2) Apr 2007, 130-142.
  • Lai, S.-C., & Johnston, R. E. (1994). Individual odors in Djungarian hamsters (Phodopus campbelli): Ethology Vol 96(2) Feb 1994, 117-126.
  • Landauer, M. R., Wiese, R. E., & Carr, W. J. (1977). Responses of sexually experienced and naive male rats to cues from receptive vs. nonreceptive females: Animal Learning & Behavior Vol 5(4) Nov 1977, 398-402.
  • Landolt, P. J., & Heath, R. R. (1990). Sexual role reversal in mate-finding strategies of the cabbage looper moth: Science Vol 249(4972) Aug 1990, 1026-1028.
  • Lastein, S., Hamdani, E. H., & Doving, K. B. (2006). Gender Distinction in Neural Discrimination of Sex Pheromones in the Olfactory Bulb of Crucian Carp, Carassius carassius: Chemical Senses Vol 31(1) Jan 2006, 69-77.
  • Laubertie, E., Martini, X., Cadena, C., Treilhou, M., Dixon, A. F. G., & Hemptinne, J. L. (2006). The Immediate Source of the Oviposition-Deterring Pheromone Produced by Larvae of Adalia bipunctata (L.)(Coleoptera, Coccinellidae): Journal of Insect Behavior Vol 19(2) Mar 2006, 231-240.
  • Lawton, A. D., & Whitsett, J. M. (1979). Inhibition of sexual maturation by a urinary pheromone in male prairie deer mice: Hormones and Behavior Vol 13(2) Oct 1979, 128-138.
  • Lederhendler, I. I., Herriges, K., & Tobach, E. (1977). Taxis in Aplysia dactylomela (Rang, 1828) to water-borne stimuli from conspecifics: Animal Learning & Behavior Vol 5(4) Nov 1977, 355-358.
  • Lee, C. T., & Griffo, W. (1973). Early androgenization and aggression pheromone in inbred mice: Hormones and Behavior Vol 4(3) Sep 1973, 181-189.
  • Lee, C.-t., & Ingersoll, D. W. (1979). Social chemosignals in five Belontiidae (Pisces) species: Journal of Comparative and Physiological Psychology Vol 93(6) Dec 1979, 1171-1181.
  • Lee, T. M., Chung, L., & Moltz, H. (1982). Prolactin in liver cytosol and pheromonal emission in the rat: Physiology & Behavior Vol 28(4) Apr 1982, 631-633.
  • Lee, T. M., Halpern, B., Lee, C., & Moltz, H. (1982). Reduced prolactin binding to liver membranes during pheromonal emission in the rat: Pharmacology, Biochemistry and Behavior Vol 17(6) Dec 1982, 1149-1154.
  • Lee, T. M., & Moltz, H. (1980). How rat young govern the release of a maternal pheromone: Physiology & Behavior Vol 24(5) May 1980, 983-989.
  • Lee, T. M., & Moltz, H. (1984). The maternal pheromone and brain development in the preweanling rat: Physiology & Behavior Vol 33(3) Sep 1984, 385-390.
  • Lee, T. M., & Moltz, H. (1984). The maternal pheromone and deoxycholic acid in the survival of preweanling rats: Physiology & Behavior Vol 33(6) Dec 1984, 931-935.
  • Lee, T. M., & Moltz, H. (1985). At what age do rat young stop responding to the maternal pheromone? : Physiology & Behavior Vol 35(3) Sep 1985, 355-359.
  • Leidahl, L. C., & Moltz, H. (1975). Emission of the maternal pheromone in the nulliparous female and failure of emission in the adult male: Physiology & Behavior Vol 14(4) Apr 1975, 421-424.
  • Leidahl, L. C., & Moltz, H. (1977). Emission of the maternal pheromone in nulliparous and lactating females: Physiology & Behavior Vol 18(3) Mar 1977, 399-402.
  • LeMaster, M. P., Moore, I. T., & Mason, R. T. (2001). Conspecific trailing behaviour of red-sided garter snakes, Thamnophis sirtalis parietalis, in the natural environment: Animal Behaviour Vol 61(4) Apr 2001, 827-833.
  • Leon, M. (1974). Maternal pheromone: Physiology & Behavior Vol 13(3) Sep 1974, 441-453.
  • Leon, M. (1975). Dietary control of maternal pheromone in the lactating rat: Physiology & Behavior Vol 14(3) Mar 1975, 311-319.
  • Leon, M., & Behse, J. H. (1977). Dissolution of the pheromonal bond: Waning of approach response by weanling rats: Physiology & Behavior Vol 18(3) Mar 1977, 393-397.
  • Leon, M., Galef, B. G., & Behse, J. H. (1977). Establishment of pheromonal bonds and diet choice in young rats by odor pre-exposure: Physiology & Behavior Vol 18(3) Mar 1977, 387-391.
  • Leon, M., & Moltz, H. (1973). Endocrine control of the maternal pheromone in the postpartum female rat: Physiology & Behavior Vol 10(1) Jan 1973, 65-67.
  • Leon, M., & Moltz, H. (1978). Emission of maternal pheromone: Science Vol 201(4359) Sep 1978, 938-939.
  • Leonhardt, B. A., & et al. (1983). An unusual lepidopteran sex pheromone system in the bagworm moth: Science Vol 219(4582) Jan 1983, 314-316.
  • Lepri, J. (2003). Review of Pheromones and Animal Behaviour: Communication by Smell and Taste: Ethology Vol 109(12) Dec 2003, 1021-1022.
  • Lepri, J. J., Wysocki, C. J., & Vandenbergh, J. G. (1985). Mouse vomeronasal organ: Effects on chemosignal production and maternal behavior: Physiology & Behavior Vol 35(5) Nov 1985, 809-814.
  • Lerner, M. R., Gyorgyi, T. K., Reagan, J., Roby-Shemkovitz, A., & et al. (1990). Peripheral events in moth olfaction: Chemical Senses Vol 15(2) Apr 1990, 191-198.
  • Levine, E. D., Ramos, D., & Mills, D. S. (2007). A prospective study of two self-help CD based desensitization and counter-conditioning programmes with the use of dog appeasing pheromone for the treatment of firework fears in dogs (canis familiaris): Applied Animal Behaviour Science Vol 105(4) Jul 2007, 311-329.
  • Lew, A. C. (1980). Pheromone secretory cells and the behavioral aspect of mating in the western corn rootworm, Diabrotica virgifera LeConte: Dissertation Abstracts International.
  • Li, W., Farrell, J. A., & Carde, R. T. (2001). Tracking of fluid-advected odor plumes: Strategies inspired by insect orientation to pheromone: Adaptive Behavior Vol 9(3-4) 2001, 143-170.
  • Li, W., Scott, A. P., Siefkes, M. J., Yan, H., Liu, Q., Yun, S.-S., et al. (2002). Bile acid secreted by male sea lamprey that acts as a sex pheromone: Science Vol 296(5565) Apr 2002, 138-141.
  • Liang, D., & Schal, C. (1993). Calling behavior of the female German cockroach, Blattella germanica (Dictyoptera: Blattellidae): Journal of Insect Behavior Vol 6(5) Sep 1993, 603-614.
  • Liang, M.-y. C. (1979). Termites: Exocuticular structures on the sternal gland segments, behavioral responses to chemicals, and associated nematodes: Dissertation Abstracts International.
  • Liefke, C., Holldobler, B., & Maschwitz, U. (2001). Recruitment behavior in the ant genus Polyrhachis (Hymenoptera, Formicidae): Journal of Insect Behavior Vol 14(5) Sep 2001, 637-657.
  • Light, D. M. (1981). Chemoreception in the bark beetle, Ips paraconfusus (Coleoptera: Scolytidae): Dissertation Abstracts International.
  • Lim, H., & Greenfield, M. D. (2007). Female pheromonal chorusing in an arctiid moth, Utetheisa ornatrix: Behavioral Ecology Vol 18(1) Jan-Feb 2007, 165-173.
  • Lin, W., Margolskee, R., Donnert, G., Hell, S. W., & Restrepo, D. (2007). Olfactory neurons expressing transient receptor potential channel M5 (TRPM5) are involved in sensing semiochemicals: PNAS Proceedings of the National Academy of Sciences of the United States of America Vol 104(7) Feb 2007, 2471-2476.
  • Linn, C. E., Campbell, M. G., & Roelofs, W. L. (1987). Pheromone components and active spaces: What do moths smell and where do they smell it? : Science Vol 237(4815) 1987, 650-652.
  • Linn, C. E., & Roelofs, W. L. (1989). Response specificity of male moths to multicomponent pheromones: Chemical Senses Vol 14(3) Jun 1989, 421-437.
  • Linster, C., & Dreyfus, G. (1996). A model for pheromone discrimination in the insect antennal lobe: Investigation of the role of neuronal response pattern complexity: Chemical Senses Vol 21(1) Feb 1996, 19-27.
  • Little, E. E. (1975). Chemical communication in crayfish maternal behavior: Dissertation Abstracts International.
  • Lombardi, J. R., & Vandenbergh, J. G. (1977). Pheromonally induced sexual maturation in females: Regulation by the social environment of the male: Science Vol 196(4289) Apr 1977, 545-546.
  • Longhurst, C., & Howse, P. E. (1978). The use of kairomones by Megaponera foetens (Fab.) (Hymenoptera: Formicidae) in the detection of its termite prey: Animal Behaviour Vol 26(4) Nov 1978, 1213-1218.
  • Lonsdale, D. J., Snell, T. W., & Frey, M. A. (1996). Lectin binding to surface glycoproteins on Coullana spp. (copepoda: harpacticoida) can inhibit mate guarding: Marine and Freshwater Behaviour and Physiology Vol 27(2-3) 1996, 153-162.
  • Lopez, P., Aragon, P., & Martin, J. (2003). Responses of female lizards, Lacerta monticola, to males' chemical cues reflect their mating preference for older males: Behavioral Ecology and Sociobiology Vol 55(1) Dec 2003, 73-79.
  • Lopez, P., Martin, J., & Cuadrado, M. (2002). Pheromone-mediated intrasexual aggression in male lizards, Podarcis hispanicus: Aggressive Behavior Vol 28(2) 2002, 154-163.
  • Lucas, P. D., Donohoe, S. M., & Thody, A. J. (1982). The role of estrogen and progesterone in the control of preputial gland sex attractant odors in the female rat: Physiology & Behavior Vol 28(4) Apr 1982, 601-607.
  • Luo, M., Fee, M. S., & Katz, L. C. (2003). Encoding pheromonal signals in the accessory olfactory bulb of behaving mice: Science Vol 299(5610) Feb 2003, 1196-1201.
  • Lutnesky, M. M. (1989). Attraction to larval pheromones in female convict cichlids (Cichlasoma nigrofasciatum): Journal of Comparative Psychology Vol 103(3) Sep 1989, 297-305.
  • Lyes, M. C. (1979). The reproductive behaviour of Gammarus duebeni (Lilljeborg), and the inhibitory effect of a surface active agent: Marine and Freshwater Behaviour and Physiology Vol 6(1) 1979, 47-55.
  • Ma, C. (1979). Larval defensive behavior and sex pheromone studies of the furniture carpet beetle, Anthrenus flavipes LaConte: Dissertation Abstracts International.
  • Mackay-Sim, A., & Laing, D. G. (1980). Discrimination of odors from stressed rats by non-stressed rats: Physiology & Behavior Vol 24(4) Apr 1980, 699-704.
  • MacLeod, N., Reinhardt, W., & Ellendorff, F. (1979). Olfactory bulb neurons of the pig respond to an identified steroidal pheromone and testosterone: Brain Research Vol 164(1-2) Mar 1979, 323-327.
  • Macrides, F., Clancy, A. N., Singer, A. G., & Agosta, W. C. (1984). Male hamster investigatory and copulatory responses to vaginal discharge: An attempt to impart sexual significance to an arbitrary chemosensory stimulus: Physiology & Behavior Vol 33(4) Oct 1984, 627-632.
  • Macrides, F., & et al. (1984). Male hamster investigatory and copulatory responses to vaginal discharge: Relationship to the endocrine status of females: Physiology & Behavior Vol 33(4) Oct 1984, 633-637.
  • Macrides, F., Johnson, P. A., & Schneider, S. P. (1977). Responses of the male golden hamster to vaginal secretion and dimethyl disulfide: Attraction versus sexual behavior: Behavioral & Neural Biology Vol 20(3) Jul 1977, 377-386.
  • Mafra-Neto, A. (1994). Effects of the structure and composition of pheromone plumes on the response of the male almond moth, cadra cautella. Dissertation Abstracts International: Section B: The Sciences and Engineering.
  • Mafra-Neto, A., & Carde, R. T. (1994). Fine-scale structure of pheromone plumes modulates upwind orientation of flying moths: Nature Vol 369(6476) May 1994, 142-144.
  • Maggio, J. C., Maggio, J. H., & Whitney, G. (1983). Experience-based vocalization of male mice to female chemosignals: Physiology & Behavior Vol 31(3) Sep 1983, 269-272.
  • Malka, O., Shnieor, S., Hefetz, A., & Katzav-Gozansky, T. (2007). Reversible royalty in worker honeybees 9 (Apis mellifera) under the queen influence: Behavioral Ecology and Sociobiology Vol 61(3) Jan 2007, 465-473.
  • Mane, S. D., Tompkins, L., & Richmond, R. C. (1983). Male esterase 6 catelyzes the synthesis of a sex pheromone in Drosophila melanogaster females: Science Vol 222(4622) Oct 1983, 419-421.
  • Marchand, D., & McNeil, J. N. (2000). Effects of wind speed and atmospheric pressure on mate searching behavior in the aphid parasitoid Aphidius nigripes (Hymenoptera: Aphidiidae): Journal of Insect Behavior Vol 13(2) Mar 2000, 187-199.
  • Marchlewska-Koj, A., & Zacharczuk-Kakietek, M. (1990). Acute increase in plasma corticosterone level in female mice evoked by pheromones: Physiology & Behavior Vol 48(5) Nov 1990, 577-580.
  • Marsh, L. L. (1977). Emission of the maternal pheromone in the nulliparous female and the adult male rat: Dissertation Abstracts International.
  • Martin, S. J., Chaline, N., Oldroyd, B. P., Jones, G. R., & Ratnieks, F. L. W. (2004). Egg marking pheromones of anarchistic worker honeybees (Apis mellifera): Behavioral Ecology Vol 15(5) Sep 2004, 839-844.
  • Martinez-Hernandez, J., Lanuza, E., & Martinez-Garcia, F. (2006). Selective dopaminergic lesions of the ventral tegmental area impair preference for sucrose but not for male sexual pheromones in female mice: European Journal of Neuroscience Vol 24(3) Aug 2006, 885-893.
  • Martinez-Ricos, J., Agustin-Pavon, C., Lanuza, E., & Martinez-Garcia, F. (2007). Intraspecific Communication Through Chemical Signals in Female Mice: Reinforcing Properties of Involatile Male Sexual Pheromones: Chemical Senses Vol 32(2) Feb 2007, 139-148.
  • Maschwitz, U., Jessen, K., & Knecht, S. (1986). Tandem recruitment and trail laying in the ponerine ant Diacamma rugosum: Signal analysis: Zeitschrift fur Tierpsychologie Vol 71(1) Jan 1986, 30-41.
  • Mason, R. T. (1993). Chemical ecology of the red-sided garter snake, Thamnophis sirtalis parietalis: Brain, Behavior and Evolution Vol 41(3-5) Mar-May 1993, 261-268.
  • Mason, R. T., & Crews, D. (1985). Female mimicry in garter snakes: Nature Vol 316(6023) Jul 1985, 59-60.
  • Mason, R. T., Fales, H. M., Jones, T. H., Pannell, L. K., & et al. (1989). Sex pheromones in snakes: Science Vol 245(4915) Jul 1989, 290-293.
  • Mathis, A. (1990). Territorial salamanders assess sexual and competitive information using chemical signals: Animal Behaviour Vol 40(5) Nov 1990, 953-962.
  • Matsuoka, M., Kaba, H., Moriya, K., Yoshida-Matsuoka, J., Costanzo, R. M., Norita, M., et al. (2004). Remodeling of reciprocal synapses associated with persistence of long-term memory: European Journal of Neuroscience Vol 19(6) Mar 2004, 1668-1672.
  • Matsuoka, M., Mori, Y., Hoshino, K., & Ichikawa, M. (1994). Social environment affects synaptic structure in the glomerulus of the accessory olfactory bulb of the hamster: Neuroscience Research Vol 19(2) Mar 1994, 187-193.
  • Matsuoka, M., Yokosuka, M., Mori, Y., & Ichikawa, M. (1999). Specific expression pattern of Fos in the accessory olfactory bulb of male mice after exposure to soiled bedding of females: Neuroscience Research Vol 35(3) Dec 1999, 189-195.
  • Matthews, M. K. (1980). Urinary marking and tendency to investigate novelty in Mus musculus: Behavioral & Neural Biology Vol 28(4) Apr 1980, 501-506.
  • Mayer, M. S. (1975). Hydrolysis of sex pheromone by the antennae of Trichoplusia ni: Experientia Vol 31(4) 1975, 452-454.
  • Mayer, M. S., & McLaughlin, J. R. (1991). Discrimination of female sex pheromone by male Trichoplusia ni (Hubner): Chemical Senses Vol 16(6) Dec 1991, 699-710.
  • Mayer, M. S., & McLaughlin, J. R. (1993). Discrimination of mixtures of female sex pheromone components by male Trichoplusia ni (Hubner): Chemical Senses Vol 18(6) Dec 1993, 735-749.
  • McCarthy, T. M., & Dickey, B. F. (2002). Chemically mediated effects of injured prey on behavior of both prey and predators: Behaviour Vol 139(5) May 2002, 585-602.
  • McClenahan, E. L. (2007). Review of Essays in social neuroscience: Psychiatric Services Vol 58(3) Mar 2007, 421-422.
  • McClintock, M. K. (1984). Estrous synchrony: Modulation of ovarian cycle length by female pheromones: Physiology & Behavior Vol 32(5) May 1984, 701-705.
  • McClintock, M. K. (2004). On pheromones, vasanas, social odors, and the unconscious. Cambridge, MA: MIT Press.
  • McClintock, M. K., & Adler, N. T. (1978). Induction of persistent estrus by airborne chemical communication among female rats: Hormones and Behavior Vol 11(3) Dec 1978, 414-418.
  • McClintock, M. K., Jacob, S., Zelano, B., & Hayreh, D. J. S. (2001). Pheromones and vasanas: The functions of social chemosignals. Lincoln, NE: University of Nebraska Press.
  • McCoy, N. L., & Pitino, L. (2002). Pheromonal influences on sociosexual behavior in young women: Physiology & Behavior Vol 75(3) Mar 2002, 367-375.
  • McGlone, J. J. (1985). Olfactory cues and pig agonistic behavior: Evidence for a submissive pheromone: Physiology & Behavior Vol 34(2) Feb 1985, 195-198.
  • McGlone, J. J., Curtis, S. E., & Banks, E. M. (1987). Evidence for aggression-modulating pheromones in prepuberal pigs: Behavioral & Neural Biology Vol 47(1) Jan 1987, 27-39.
  • McGregor, R., & Henderson, D. (1998). The influence of oviposition experience on response to host pheromone in Trichogramma sibericum (Hymenoptera: Trichogrammatidae): Journal of Insect Behavior Vol 11(5) Sep 1998, 621-632.
  • McIntosh, T. K., & Drickamer, L. C. (1977). Excreted urine, bladder urine, and the delay of sexual maturation in female house mice: Animal Behaviour Vol 25(4) Nov 1977, 999-1004.
  • McLeese, D. W., Spraggins, R. L., Bose, A. K., & Pramanik, B. N. (1977). Chemical and behavioral studies of the sex attractant of the lobster (Homarus americanus): Marine and Freshwater Behaviour and Physiology Vol 4(3) 1977, 219-232.
  • McLennan, D. A., & Ryan, M. J. (1997). Responses to conspecific and heterospecific olfactory cues in the swordtail Xiphophorus cortezi: Animal Behaviour Vol 54(5) Nov 1997, 1077-1088.
  • McNeese, R. R. (1977). Conditioned suppression in the rat as a behavioral assay for conspecific odor: Dissertation Abstracts International.
  • Mehren, J. E., & Griffith, L. C. (2004). Calcium-Independent Calcium/Calmodulin-Dependent Protein Kinase II in the Adult Drosophila CNS Enhances the Training of Pheromonal Cues: Journal of Neuroscience Vol 24(47) 2004, 10584-10593.
  • Mendl, M., Randle, K., & Pope, S. (2002). Young female pigs can discriminate individual differences in odours from conspecific urine: Animal Behaviour Vol 64(1) Jul 2002, 97-101.
  • Mennella, J. A., & Moltz, H. (1988). Infanticide in rats: Male strategy and female counter-strategy: Physiology & Behavior Vol 42(1) 1988, 19-28.
  • Mennella, J. A., & Moltz, H. (1989). Pheromonal emission by pregnant rats protects against infanticide by nulliparous conspecifics: Physiology & Behavior Vol 46(4) Oct 1989, 591-595.
  • Menzies, R. A., Heth, G., Ikan, R., Weinstein, V., & et al. (1992). Sexual pheromones in lipids and other fractions from urine of the male mole rat, Spalax ehrenbergi: Physiology & Behavior Vol 52(4) Oct 1992, 741-747.
  • Meredith, M., & Burghardt, G. M. (1978). Electrophysiological studies of the tongue and accessory olfactory bulb in garter snakes: Physiology & Behavior Vol 21(6) Dec 1978, 1001-1008.
  • Meredith, M., & Westberry, J. M. (2004). Distinctive Responses in the Medial Amygdala to Same-Species and Different-Species Pheromones: Journal of Neuroscience Vol 24(25) Jun 2004, 5719-5725.
  • Merkx, J., Slob, A. K., & Van der Werff ten Bosch, J. J. (1988). The role of the preputial glands in sexual attractivity of the female rat: Physiology & Behavior Vol 42(1) 1988, 59-64.
  • Mills, D. S., Ramos, D., Estelles, M. G., & Hargrave, C. (2006). A triple blind placebo-controlled investigation into the assessment of the effect of Dog Appeasing Pheromone (DAP) on anxiety related behaviour of problem dogs in the veterinary clinic: Applied Animal Behaviour Science Vol 98(1-2) Jun 2006, 114-126.
  • Milne, M., Walter, G. H., & Milne, J. R. (2002). Mating aggregations and mating success in the flower thrips, Frankliniella schultzei (Thysanoptera: Thripidae), and a possible role for pheromones: Journal of Insect Behavior Vol 15(3) May 2002, 351-368.
  • Mintzer, A. C. (1982). Colony-specific recognition in ants: Dissertation Abstracts International.
  • Mirza, R. S., & Chivers, D. P. (2001). Do juvenile yellow perch use diet cues to assess the level of threat posed by intraspecific predators? : Behaviour Vol 138(10) Oct 2001, 1249-1258.
  • Moffatt, C. A., Bennett, S. A., & Nelson, R. J. (1991). Effects of photoperiod and 6-methoxy-2-benzoxazolinone on male-induced estrus in prairie voles: Physiology & Behavior Vol 49(1) Jan 1991, 27-31.
  • Mohanty, B., & Mishra, S. (1991). Effects of levels of stress pheromones on emotionality and activity of albino rats: Psychological Studies Vol 36(1) Mar 1991, 1-9.
  • Moltz, H., & Kilpatrick, S. J. (1978). Response to the maternal pheromone in the rat as protection against necrotizing enterocolitis: Neuroscience & Biobehavioral Reviews Vol 2(4) Win 1978, 277-280.
  • Moltz, H., & Lee, T. M. (1981). The maternal pheromone of the rat: Identity and functional significance: Physiology & Behavior Vol 26(2) Feb 1981, 301-306.
  • Moltz, H., Leidahl, L., & Rowland, D. (1974). Prolongation of pheromonal emission in the maternal rat: Physiology & Behavior Vol 12(3) Mar 1974, 409-412.
  • Moltz, H., & Leon, M. (1973). Stimulus control of the maternal pheromone in the lactating rat: Physiology & Behavior Vol 10(1) Jan 1973, 69-71.
  • Moncho-Bogani, J., Lanuza, E., Hernandez, A., Novejarque, A., & Martinez-Garcia, F. (2002). Attractive properties of sexual pheromones in mice: Innate or learned? : Physiology & Behavior Vol 77(1) Sep 2002, 167-176.
  • Moncho-Bogani, J., Lanuza, E., Lorente, M. J., & Martinez-Garcia, F. (2004). Attraction to male pheromones and sexual behaviour show different regulatory mechanisms in female mice: Physiology & Behavior Vol 81(3) May 2004, 427-434.
  • Moncomble, A.-S., Coureaud, G., Quennedey, B., Langlois, D., Perrier, G., & Schaal, B. (2005). The mammary pheromone of the rabbit: From where does it come? : Animal Behaviour Vol 69(1) Jan 2005, 29-38.
  • Monder, H., Lee, C.-t., Donovick, P. J., & Burright, R. G. (1978). Male mouse urine extract effects on pheromonally mediated reproductive functions of female mice: Physiology & Behavior Vol 20(4) Apr 1978, 447-452.
  • Mondor, E. B., & Roitberg, B. D. (2000). Has the attraction of predatory coccinellids to cornicle droplets constrained aphid alarm signalling behavior? : Journal of Insect Behavior Vol 13(3) May 2000, 321-329.
  • Monekosso, N., & Remagnino, P. (2004). The analysis and performance evaluation of the pheromone-Q-learning algorithm: Expert Systems: International Journal of Knowledge Engineering and Neural Networks Vol 21(2) May 2004, 80-91.
  • Montgomery-St. Laurent, T., Fullenkamp, A. M., & Fischer, R. B. (1988). A role for the hamster's flank gland in heterosexual communication: Physiology & Behavior Vol 44(6) 1988, 759-762.
  • Montigny, D., Coureaud, G., & Schaal, B. (2006). Rabbit pup response to the mammary pheromone: From automatism to prandial control: Physiology & Behavior Vol 89(5) Dec 2006, 742-749.
  • Moore, A. J. (1989). Sexual selection in Nauphoeta cinera: Inherited mating preference: Behavior Genetics Vol 19(5) Sep 1989, 717-724.
  • Moore, A. J., Reagan, N. L., & Haynes, K. F. (1995). Conditional signalling strategies: Effects of ontogeny, social experience and social status on the pheromonal signal of male cockroaches: Animal Behaviour Vol 50(1) Jul 1995, 191-202.
  • Moore, C. L., & Samonte, B. R. (1986). Preputial glands of infant rats (Rattus norvegicus) provide chemosignals for maternal discrimination of sex: Journal of Comparative Psychology Vol 100(1) Mar 1986, 76-80.
  • Moore, I. (1984). The effects of the antennal flight posture and orientation on the pheromonal stimulation patterns experienced by male Spodoptera littoralis (Lepidoptera: Noctuidae): Chemical Senses Vol 9(1) 1984, 15-29.
  • Moore, P. J., Reagan-Wallin, N. L., Haynes, K. F., & Moore, A. J. (1997). Odour conveys status on cockroaches: Nature Vol 389(6646) Sep 1997, 25.
  • Mora, O. A., Garcia Castineiras, S., Guisado, S., & Ezquerra, C. (1990). Effect of nasal instillation of female urine or vaginal exudate on testosterone secretion in isolated and anesthetized male rhesus monkeys (Macaca mulatta): Life Sciences Vol 46(19) 1990, 1359-1365.
  • Morgan, C., & Cone, R. D. (2006). Melanocortin-5 Receptor Deficiency in Mice Blocks a Novel Pathway Influencing Pheromone-Induced Aggression: Behavior Genetics Vol 36(2) Mar 2006, 291-300.
  • Morgan, C., Thomas, R. E., & Cone, R. D. (2004). Melanocortin-5 receptor deficiency promotes defensive behavior in male mice: Hormones and Behavior Vol 45(1) Jan 2004, 58-63.
  • Morgan, C., Thomas, R. E., Ma, W., Novotny, M. V., & Cone, R. D. (2004). Melanocortin-5 Receptor Deficiency Reduces a Pheromonal Signal for Aggression in Male Mice: Chemical Senses Vol 29(2) Feb 2004, 111-115.
  • Moritz, R. F., & Burgin, H. (1987). Group response to alarm pheromones in social wasps and the honeybee: Ethology formerly Zeitschrift fur Tierpsychologie Vol 76(1) Sep 1987, 15-26.
  • Moritz, R. F. A., Crewe, R. M., & Hepburn, H. R. (2001). Attraction and repellence of workers by the honeybee queen (Apis mellifera L.): Ethology Vol 107(6) Jun 2001, 465-477.
  • Morofushi, M., Shinohara, K., Funabashi, T., & Kimura, F. (2000). Positive relationship between menstrual synchrony and ability to smell 5alpha -androst-16-en-3alpha -ol: Chemical Senses Vol 25(4) Aug 2000, 407-411.
  • Morris, G. L. (1975). Fry pheromone reinforcement of operant behavior by parent cichlid fish: Dissertation Abstracts International.
  • Moynihan, J. A., Karp, J. D., Cohen, N., & Cocke, R. (1994). Alterations in interleukin-4 and antibody production following pheromone exposure: Role of glucocorticoids: Journal of Neuroimmunology Vol 54(1-2) Oct 1994, 51-58.
  • Mozuraitis, R., & Buda, V. (2006). Pheromone Release Behaviour in Females of Phyllonorycter junoniella (Z.) (Lepidoptera, Gracillariidae) Under Constant and Cycling Temperatures: Journal of Insect Behavior Vol 19(1) Jan 2006, 129-142.
  • Mucignat-Caretta, C., Caretta, A., & Baldini, E. (1998). Protein-bound male urinary pheromones: Differential responses according to age and gender: Chemical Senses Vol 23(1) Feb 1998, 67-70.
  • Mugford, R. A., & Nowell, N. W. (1972). The dose-response to testosterone propionate of preputial glands, pheromones and aggression in mice: Hormones and Behavior Vol 3(1) Mar 1972, 39-46.
  • Muller, J. K., & Eggert, A. K. (1987). Effects of carrion-independent pheromone emission by male burying beetles (Silphidae: Necrophorus): Ethology formerly Zeitschrift fur Tierpsychologie Vol 76(4) Dec 1987, 297-304.
  • Muller-Schwarze, D., Muller-Schwarze, C., Singer, A. G., & Silverstein, R. M. (1974). Mammalian pheromone: Identification of active component in the subauricular scent of the male pronghorn: Science Vol 183(4127) Mar 1974, 860-862.
  • Mundy, N. I. (2006). Genetic Basis of Olfactory Communication in Primates: American Journal of Primatology Vol 68(6) Jun 2006, 559-567.
  • Murphy, C. A., & Stacey, N. E. (2002). Methyl-testosterone induces male-typical ventilatory behavior in response to putative steroidal pheromones in female round gobies ( Neogobius melanostomus): Hormones and Behavior Vol 42(2) Sep 2002, 109-115.
  • Murphy, M. R. (1973). Effects of female hamster vaginal discharge on the behavior of male hamsters: Behavioral Biology Vol 9(3) Sep 1973, 367-375.
  • Murphy, M. R. (1976). Olfactory stimulation and olfactory bulb removal: Effects on territorial aggression in male Syrian golden hamsters: Brain Research Vol 113(1) 1976, 95-110.
  • Murray, D. L., & Jenkins, C. L. (1999). Perceived predation risk as a function of predator dietary cues in terrestrial salamanders: Animal Behaviour Vol 57(1) Jan 1999, 33-39.
  • Nakagawa, T., Sakurai, T., Nishioka, T., & Touhara, K. (2005). Insect Sex-Pheromone Signals Mediated by Specific Combinations of Olfactory Receptors: Science Vol 307(5715) Mar 2005, 1638-1642.
  • Nanork, P., Wongsiri, S., & Oldroyd, B. P. (2007). Preservation and loss of the honey bee (Apis) egg-marking signal across evolutionary time: Behavioral Ecology and Sociobiology Vol 61(10) Aug 2007, 1509-1514.
  • Natoli, E. (1985). Behavioural responses of urban feral cats to different types of urine marks: Behaviour Vol 94(3-4) Sep 1985, 234-243.
  • Nault, L. R., Montgomery, M. E., & Bowers, W. S. (1976). Ant-aphid association: Role of aphid alarm pheromone: Science Vol 192(4246) Jun 1976, 1349-1351.
  • Naumann, K. (1994). The production and intra-nest transmission of honey bee ( apis mellifera l ) queen mandibular gland pheromone. Dissertation Abstracts International: Section B: The Sciences and Engineering.
  • Naumann, K., Winston, M. L., & Slessor, K. N. (1993). Movement of honey bee (Apis mellifera L.) queen mandibular gland pheromone in populous and unpopulous colonies: Journal of Insect Behavior Vol 6(2) Mar 1993, 211-223.
  • Navarro Becerra, N., & Munaro, N. I. (1996). Glutamic acid decarboxylase activity of the olfactory bulb in male rats is influenced by olfactory stimuli and hormonal status: Neuropharmacology Vol 35(1) Jan 1996, 57-61.
  • Nikonov, A. A., Peng, G., Tsurupa, G., & Leal, W. S. (2002). Unisex pheromone detectors and pheromone-binding proteins in scarab beetles: Chemical Senses Vol 27(6) Jul 2002, 495-504.
  • Ninomiya, K., & Kimura, T. (1988). Male odors that influence the preference of female mice: Roles of urinary and preputial factors: Physiology & Behavior Vol 44(6) 1988, 791-795.
  • Nishida, R., Fukami, H., & Ishii, S. (1974). Sex pheromone of the German cockroach (Blattella germanica L.) responsible for male wing-raising: 3,11-dimethyl-2-nonacosanone: Experientia Vol 30(9) 1974, 978-979.
  • Nissani, M. (1977). Gynandromorph analysis of some aspects of sexual behaviour of Drosophila melanogaster: Animal Behaviour Vol 25(3) Aug 1977, 555-566.
  • Nojima, S., Sakuma, M., Nishida, T., & Kuwahara, Y. (1999). A glandular gift in the German cockroach, Blattella germanica (L.) (Dictyoptera: Blattellidae): The courtship feeding of a female on secretions from male tergal glands: Journal of Insect Behavior Vol 12(5) Sep 1999, 627-640.
  • North, R. C. (1982). Oviposition behavior of the mimosa webworm Homadaula anisocentra Meyrick (Lepidoptera: Plutellidae): Dissertation Abstracts International.
  • Novikov, S. N. (1993). The genetics of pheromonally mediated intermale aggression in mice: Current status and prospects of the model: Behavior Genetics Vol 23(5) Sep 1993, 505-508.
  • Nunz, J., Almeida, L., Balderrama, N., & Giurfa, M. (1997). Alarm pheromone induces stress analgesia via an opioid system in the honeybee: Physiology & Behavior Vol 63(1) Dec 1997, 75-80.
  • Nyby, J., & et al. (1979). Elicitation of male mouse (Mus musculus) ultrasonic vocalizations: I. Urinary cues: Journal of Comparative and Physiological Psychology Vol 93(5) Oct 1979, 957-975.
  • Nyby, J., Wysocki, C. J., Whitney, G., & Dizinno, G. (1977). Pheromonal regulation of male mouse ultrasonic courtship (Mus musculus): Animal Behaviour Vol 25(2) May 1977, 333-341.
  • O'Connell, R. J., & et al. (1978). Responses of the male golden hamster to mixtures of odorants identified from vaginal discharge: Behavioral & Neural Biology Vol 24(2) Oct 1978, 244-255.
  • O'Connell, R. J., & et al. (1981). Cyclic variations in the concentration of sex attractant pheromone in hamster vaginal discharge: Behavioral & Neural Biology Vol 31(4) Apr 1981, 457-464.
  • O'Connell, R. J., Grant, A. J., Mayer, M. S., & Mankin, R. W. (1983). Morphological correlates of differences in pheromone sensitivity in insect sensilla: Science Vol 220(4604) Jun 1983, 1408-1410.
  • O'Donnell, R. P., Ford, N. B., Shine, R., & Mason, R. T. (2004). Male red-sided garter snakes, Thamnophis sirtalis parietalis, determine female mating status from pheromone trails: Animal Behaviour Vol 68(4) Oct 2004, 677-683.
  • Okere, C. O., & Kaba, H. (2000). Increased expression of neuronal nitric oxide synthase mRNA in the accessory olfactory bulb during the formation of olfactory recognition memory in mice: European Journal of Neuroscience Vol 12(12) Dec 2000, 4552-4556.
  • Olsson, M. J., Lundstrom, J. N., Diamantopoulou, S., & Esteves, F. (2006). A putative female pheromone affects mood in men differently depending on social context: European Review of Applied Psychology/Revue Europeenne de Psychologie Appliquee Vol 56(4) Dec 2006, 279-284.
  • Olsson, P. O. C., Anderbrant, O., & Lofstedt, C. (2005). Flight and Oviposition Behavior of Ephestia cautella and Plodia interpunctella in Response to Odors of Different Chocolate Products: Journal of Insect Behavior Vol 18(3) May 2005, 363-380.
  • Ono, M., Igarashi, T., Ohno, E., & Sasaki, M. (1995). Unusual thermal defence by a honeybee against mass attack by hornets: Nature Vol 377(6547) Sep 1995, 334-336.
  • Orsini, J. C., Jourdan, F., Cooper, H. M., & Monmaur, P. (1985). Influence of female odors on lateral hypothalamus in the male rat: Semiquantitative deoxyglucose analysis: Physiology & Behavior Vol 35(4) Oct 1985, 509-516.
  • Ostrand, F., Wedding, R., Jirle, E., & Anderbrant, O. (1999). Effect of mating disruption on reproductive behavior in the European pine sawfly, Neodiprion sertifer (Hymenoptera: Diprionidae): Journal of Insect Behavior Vol 12(2) Mar 1999, 233-243.
  • Pageat, P. (2008). Response to Dodman, Wrubel & Cottam: Effect of a synthetic equine maternal pheromone during a controlled fear-eliciting situation: A critique on Falewee (January 2006): Applied Animal Behaviour Science Vol 109(1) Jan 2008, 88-93.
  • Painter, S. D., Gustavson, A. R., Kalman, V. K., Nagle, G. T., & et al. (1989). Induction of copulatory behavior in Aplysia: Atrial gland factors mimic the excitatory effects of freshly deposited egg cordons: Behavioral & Neural Biology Vol 51(2) Mar 1989, 222-236.
  • Palaniswamy, P. (1980). Perception of the female sex pheromone and male odors by the eastern spruce budworm, Choristoneura fumiferana (CLEM.) (Lepidoptera: Tortricidae). A behavioral and electrophysiological study: Dissertation Abstracts International.
  • Pandey, S. D., & Pandey, S. C. (1985). Effect of an antiandrogen on attraction function of preputial glands in the wild mouse, Mus musculus L: Physiology & Behavior Vol 35(6) Dec 1985, 851-854.
  • Panek, L. M., Gamboa, G. J., & Espelie, K. E. (2001). The effect of a wasp's age on its cuticular hydrocarbon profile and its tolerance by nestmate and non-nestmate conspecifics (Polistes fuscatus , Hymenoptera: Vespidae): Ethology Vol 107(1) Jan 2001, 55-63.
  • Pankevich, D. E., Deedy, E. M., Cherry, J. A., & Baum, M. J. (2003). Interactive effects of testosterone and superior cervical ganglionectomy on attraction thresholds to volatile urinary odors in gonadectomized mice: Behavioural Brain Research Vol 144(1-2) Sep 2003, 157-165.
  • Pankiw, T. (1997). Worker responses to, and queen production of, honeybee (Apis mellifera l.) queen mandibular pheromone. Dissertation Abstracts International: Section B: The Sciences and Engineering.
  • Pankiw, T. (2007). Brood pheromone modulation of pollen forager turnaround time in the honey bee (apis mellifera L.): Journal of Insect Behavior Vol 20(2) Mar 2007, 173-181.
  • Pankiw, T., & Page, R. E., Jr. (2001). Brood pheromone modulates honeybee (Apis mellifera L.) sucrose response thresholds: Behavioral Ecology and Sociobiology Vol 49(2-3) 2001, 206-213.
  • Pankiw, T., Page, R. E., Jr., & Fondrk, M. K. (1998). Brood pheromone stimulates pollen foraging in honey bees (Apis mellifera): Behavioral Ecology and Sociobiology Vol 44(3) Dec 1998, 193-198.
  • Pankiw, T., Winston, M. L., & Slessor, K. N. (1994). Variation in worker response to honey bee (Apis mellifera L.) queen mandibular pheromone (Hymenoptera: Apidae): Journal of Insect Behavior Vol 7(1) Jan 1994, 1-15.
  • Papadopoulos, N. T., Shelly, T. E., Niyazi, N., & Jang, E. (2006). Olfactory and Behavioral Mechanisms Underlying Enhanced Mating Competitiveness Following Exposure to Ginger Root Oil and Orange Oil in Males of the Mediterranean Fruit Fly, Ceratitis capitata (Diptera: Tephritidae): Journal of Insect Behavior Vol 19(3) May 2006, 403-418.
  • Papaj, D. R., Garcia, J. M., & Alonso-Pimentel, H. (1996). Marking of host fruit by male Rhagoletis boycei Cresson flies (Diptera: Tephritidae) and its effect on egg-laying: Journal of Insect Behavior Vol 9(4) Jul 1996, 585-598.
  • Papke, M. D., Riechert, S. E., & Schulz, S. (2001). An airborne female pheromone associated with male attraction and courtship in a desert spider: Animal Behaviour Vol 61(5) May 2001, 877-886.
  • Papke, R. S., Kemp, D. J., & Rutowski, R. L. (2007). Multimodal signalling: Structural ultraviolet reflectance predicts male mating success better than pheromones in the butterfly Colias eurytheme L. (Pieridae): Animal Behaviour Vol 73(1) Jan 2007, 47-54.
  • Papke, R. S., Kemp, D. J., & Rutowski, R. L. (2007). "Multimodal signalling: Structural ultraviolet reflectance predicts male mating success better than pheromones in the butterfly Colias eurytheme L. (Pieridae)": Erratum: Animal Behaviour Vol 73(6) Jun 2007, 1083.
  • Paredes, R. G., Lopez, M. E., & Baum, M. J. (1998). Testosterone augments neuronal Fos responses to estrous odors throughout the vomeronasal projection pathway of gonadectomized male and female rats: Hormones and Behavior Vol 33(1) Feb 1998, 48-57.
  • Parrott, R. F., Booth, W. D., & Baldwin, B. A. (1985). Aggression during sexual encounters between hormone-treated gonadectomized pigs in the presence or absence of boar pheromones: Aggressive Behavior Vol 11(3) 1985, 245-252.
  • Partridge, B. L., Liley, N. R., & Stacey, N. E. (1976). The role of pheromones in the sexual behaviour of the goldfish: Animal Behaviour Vol 24(2) May 1976, 291-299.
  • Payne, A. P. (1979). The attractiveness of harderian gland smears to sexually naive and experienced male golden hamsters: Animal Behaviour Vol 27(3) Aug 1979, 897-904.
  • Payne, T. L. (1974). Pheromone and host odor-stimulated potentials in Dendroctonus: Experientia Vol 30(5) 1974, 509-510.
  • Pearl, C. A., Cervantes, M., Chan, M., Ho, U., Shoji, R., & Thomas, E. O. (2000). Evidence for a mate-attracting chemosignal in the dwarf African clawed frog Hymenochirus: Hormones and Behavior Vol 38(1) Aug 2000, 67-74.
  • Pearson, G. A. (1992). Pheromone effects on mating success and female behavior in the grape root borer: Dissertation Abstracts International.
  • Pecor, K. W. (2006). The mate pursuit-predation avoidance tradeoff in the virile crayfish, Orconectes virilis: Marine and Freshwater Behaviour and Physiology Vol 39(3) Sep 2006, 229-233.
  • Pelosi, P., & Maida, R. (1990). Odorant-binding proteins in vertebrates and insects: Similarities and possible common function: Chemical Senses Vol 15(2) Apr 1990, 205-215.
  • Perdomo, A. J. (1975). Sex and aggregation pheromone bioassays and mating observations of the Caribbean fruit fly, Anastrepha suspensa (Loew), under field conditions: Dissertation Abstracts International.
  • Perret, M., & Schilling, A. (1995). Sexual responses to urinary chemosignals depend on photoperiod in a male primate: Physiology & Behavior Vol 58(4) Oct 1995, 633-639.
  • Peschke, K. (1987). Male aggression, female mimicry and female choice in the rove beetle, Aleochara curtula (Coleoptera, Staphylinidae): Ethology formerly Zeitschrift fur Tierpsychologie Vol 75(4) Aug 1987, 265-284.
  • Petney, T. N., & Bull, C. M. (1981). A non-specific aggregation pheromone in two Australian reptile ticks: Animal Behaviour Vol 29(1) Feb 1981, 181-185.
  • Pettijohn, T. F. (1977). Reactions of Mongolian gerbils in the presence of urine stimuli: Animal Learning & Behavior Vol 5(4) Nov 1977, 370-372.
  • Pfaff, D. W. (1975). Theoretical consideration of cross-fiber pattern coding in the neural signalling of pheromones and other chemical stimuli: Psychoneuroendocrinology Vol 1(1) Jul 1975, 79-93.
  • Pfeiffer, C. A. (1989). Factors contributing to acute androgen surges in male golden hamsters: The role of olfaction and female cues: Dissertation Abstracts International.
  • Phelan, P. L. (1985). Courtship behavior in the phycitinae (Pyralidae): Male scent dissemination and female seduction: Dissertation Abstracts International.
  • Phillips, J. S. (1993). Evidence for the sensory receptor(s) of the mounting sex pheromone in two species of Ixodid ticks, Dermacentor Variabilis (say) and Dermacentor Andersoni Stiles: Dissertation Abstracts International.
  • Phoenix, C. H., Jensen, J. N., & Chambers, K. C. (1986). Stimulus qualities of a preferred female partner and sexual behavior of old rhesus males: Physiology & Behavior Vol 38(5) 1986, 673-676.
  • Picard, A. L. (2005). Courtship in the Zig-Zag Salamander (Plethodon dorsalis): Insights into a Transition in Pheromone-Delivery Behavior: Ethology Vol 111(9) Sep 2005, 799-809.
  • Pietras, R. J. (1981). Sex pheromone production by preputial gland: The regulatory role of estrogen: Chemical Senses Vol 6(4) 1981, 391-408.
  • Pophof, B. (2004). Pheromone-binding Proteins Contribute to the Activation of Olfactory Receptor Neurons in the Silkmoths Antheraea polyphemus and Bombyx mori: Chemical Senses Vol 29(2) Feb 2004, 117-125.
  • Porter, R. H., Cernoch, J. M., & Balogh, R. D. (1985). Odor signatures and kin recognition: Physiology & Behavior Vol 34(3) Mar 1985, 445-448.
  • Porter, R. H., Deni, R., & Doane, H. M. (1977). Responses of Acomys cahirinus pups to chemical cues produced by a foster species: Behavioral & Neural Biology Vol 20(2) Jun 1977, 244-251.
  • Porter, R. H., & Doane, H. M. (1976). Maternal pheromone in the spiny mouse (Acomys cahirinus): Physiology & Behavior Vol 16(1) Jan 1976, 75-78.
  • Porter, R. H., & Doane, H. M. (1977). Dietary-dependent cross-species similarities in maternal chemical cues: Physiology & Behavior Vol 19(1) Jul 1977, 129-131.
  • Porter, R. H., & Doane, H. M. (1979). Responses of spiny mouse weanlings to conspecific chemical cues: Physiology & Behavior Vol 23(1) Jul 1979, 75-78.
  • Porter, R. H., Doane, H. M., & Cavallaro, S. A. (1978). Temporal parameters of responsiveness to maternal pheromone in Acomys cahirinus: Physiology & Behavior Vol 21(4) Oct 1978, 563-566.
  • Poschadel, J. R., Meyer-Lucht, Y., & Plath, M. (2006). Response to chemical cues from conspecifics reflects male mating preference for large females and avoidance of large competitors in the European pond turtle, Emys orbicularis: Behaviour Vol 143(5) May 2006, 569-587.
  • Post, D. C., & Jeanne, R. L. (1984). Recognition of conspecifics and sex by territorial males of the social wasp Polistes fuscatus (Hymenoptera: Vespidae): Behaviour Vol 91(1-3) 1984, 78-92.
  • Potter, D. A. (1979). Guarding, aggressive behavior and mating success in male spider mites (Acari: Tetranychidae): Dissertation Abstracts International.
  • Powers, J. B., Bergondy, M. L., & Matochik, J. A. (1985). Male hamster sociosexual behaviors: Effects of testosterone and its metabolites: Physiology & Behavior Vol 35(4) Oct 1985, 607-616.
  • Powers, J. B., Fields, R. B., & Winans, S. S. (1979). Olfactory and vomeronasal system participation in male hamsters' attraction to female vaginal secretions: Physiology & Behavior Vol 22(1) Jan 1979, 77-84.
  • Primiani, M. M. (1980). Ethological significance of compounds comprising the female sex pheromone of Heliothis zea and Heliothis virescens: Dissertation Abstracts International.
  • Pureswaran, D. S., & Borden, J. H. (2003). Is bigger better? Size and pheromone production in the mountain pine beetle, Dendroctonus ponderosae Hopkins (Coleoptera: Scolytidae): Journal of Insect Behavior Vol 16(6) Nov 2003, 765-782.
  • Quero, C., & Baker, T. C. (1999). Antagonistic effect of (Z)-11-Hexadecen-1-ol on the pheromone-mediated flight of Helicoverpa zea (Boddie) (Lepidoptera: Noctuidae): Journal of Insect Behavior Vol 12(5) Sep 1999, 701-710.
  • Quinn, T. P. (1980). Locomotor responses of juvenile blind cave fish, Astyanax jordani, to the odors of conspecifics: Behavioral & Neural Biology Vol 29(1) May 1980, 123-127.
  • Quinn, T. P., & Busack, C. A. (1985). Chemosensory recognition of siblings in juvenile coho salmon (Oncorhynchus kisutch): Animal Behaviour Vol 33(1) Feb 1985, 51-56.
  • Raethke, N., MacDiarmid, A. B., & Montgomery, J. C. (2004). The role of olfaction during mating in the southern temperate spiny lobster Jasus edwardsii: Hormones and Behavior Vol 46(3) Sep 2004, 311-318.
  • Raina, A. K., Bland, J. M., Dickens, J. C., Park, Y. I., & Hollister, B. (2003). Premating Behavior of Dealates of the Formosan Subterranean Termite and Evidence for the Presence of a Contact Sex Pheromone: Journal of Insect Behavior Vol 16(2) Mar 2003, 233-245.
  • Rajendren, G., & Dominic, C. J. (1986). Effect of bilateral transection of the lateral olfactory tract on the male-induced implantation failure (the Bruce effect) in mice: Physiology & Behavior Vol 36(4) 1986, 587-590.
  • Rajendren, G., & Dominic, C. J. (1987). Investigations on the olfactory discrimination exhibited by the females in the male-induced implantation failure (the Bruce effect) in laboratory mice: Ethology formerly Zeitschrift fur Tierpsychologie Vol 75(2) Jun 1987, 163-169.
  • Rako, S., & Friebely, J. (2004). Pheromonal Influences on Sociosexual Behavior in Postmenopausal Women: Journal of Sex Research Vol 41(4) Nov 2004, 372-380.
  • Randall, J. A. (1985). Role of urine in coordinating reproduction in a desert rodent (Dipodomys merriami): Physiology & Behavior Vol 34(2) Feb 1985, 199-203.
  • Randall, J. A. (1987). Sandbathing as a territorial scent-mark in the bannertail kangaroo rat, Dipodomys spectabilis: Animal Behaviour Vol 35(2) Apr 1987, 426-434.
  • Rasmussen, L. E., & et al. (1982). Asian bull elephants: Flehmen-like responses to extractable components in female elephant estrous urine: Science Vol 217(4555) Jul 1982, 159-162.
  • Rasmussen, L. E. L., & Greenwood, D. R. (2003). Frontalin: A Chemical Message of Musth in Asian Elephants (Elephas maximus): Chemical Senses Vol 28(5) Jun 2003, 433-446.
  • Rasmussen, L. E. L., & Krishnamurthy, V. (2000). How chemical signals integrate Asian elephant society: The known and the unknown: Zoo Biology Vol 19(5) 2000, 405-423.
  • Rasmussen, L. E. L., Krishnamurthy, V., & Sukumar, R. (2005). Behavioural and chemical confirmation of the preovulatory pheromone, (Z)-7-dodecenyl acetate, in wild Asian elephants: Its relationship to musth: Behaviour Vol 142(3) Mar 2005, 351-396.
  • Ratchford, S. G., & Eggleston, D. B. (1998). Size- and scale-dependent chemical attraction contribute to an ontogenetic shift in sociality: Animal Behaviour Vol 56(4) Oct 1998, 1027-1034.
  • Ratchford, S. G., & Eggleston, D. B. (2000). Temporal shift in the presence of a chemical cue contributes to a diel shift in sociality: Animal Behaviour Vol 59(4) Apr 2000, 793-799.
  • Rehnberg, B. G., Bates, E. H., Smith, R. J., Sloley, B. D., & et al. (1989). Brain benzodiazepine receptors in fathead minnows and the behavioral response to alarm pheromone: Pharmacology, Biochemistry and Behavior Vol 33(2) Jun 1989, 435-442.
  • Reinhard, J., & Kaib, M. (2001). Trail communication during foraging and recruitment in the subterranean termite Reticultitermes santonensis De Feytaud (Isoptera, Rhinotermitidae): Journal of Insect Behavior Vol 14(2) Mar 2001, 157-171.
  • Reisenman, C. E., Christensen, T. A., & Hildebrand, J. G. (2005). Chemosensory Selectivity of Output Neurons Innervating an Identified, Sexually Isomorphic Olfactory Glomerulus: Journal of Neuroscience Vol 25(35) Aug 2005, 8017-8026.
  • Renou, M., Berthier, A., Desbarats, L., Van der Pers, J., & Guerrero, A. (1999). Actographic analysis of the effects of an esterase inhibitor on male moth responses to sex pheromone: Chemical Senses Vol 24(4) Aug 1999, 423-428.
  • Restrepo, D., Arellano, J., Oliva, A. M., Schaefer, M. L., & Lin, W. (2004). Emerging views on the distinct but related roles of the main and accessory olfactory systems in responsiveness to chemosensory signals in mice: Hormones and Behavior Vol 46(3) Sep 2004, 247-256.
  • Reynierse, J. H. (1974). Communication elements constraining animal learning and performance. New York, NY: Plenum Press.
  • Reynierse, J. H., & Gleason, K. (1975). Determinants of planarian aggregation behavior: Animal Learning & Behavior Vol 3(4) Nov 1975, 343-346.
  • Riley, R. G., Silverstein, R. M., & Moser, J. C. (1974). Biological responses of Atta texana to its alarm pheromone and the enantiomer of the pheromone: Science Vol 183(4126) Feb 1974, 760-762.
  • Rinderer, T. E. (1981). Volatiles from empty comb increase hoarding by the honey bee: Animal Behaviour Vol 29(4) Nov 1981, 1275-1276.
  • Rissman, E. F. (1985). Social control of puberty in the male California vole (Microtus californicus): Dissertation Abstracts International.
  • Rissman, E. F. (1987). Social variables influence female sexual behavior in the musk shrew (Suncus murinus): Journal of Comparative Psychology Vol 101(1) Mar 1987, 3-6.
  • Rissman, E. F. (1989). Male-related chemical cues promote sexual receptivity in the female musk shrew: Behavioral & Neural Biology Vol 51(1) Jan 1989, 114-120.
  • Rittschof, D., & Cohen, J. H. (2004). Crustacean peptide and peptide-like pheromones and kairomones: Peptides Vol 25(9) Sep 2004, 1503-1516.
  • Rivard, G. F. (1992). Estrous-marker and sexual-pheromone volatiles from bovine body fluids: Dissertation Abstracts International.
  • Rivault, C., & Cloarec, A. (1998). Cockroach aggregation: Discrimination between strain odours in Blattella germanica: Animal Behaviour Vol 55(1) Jan 1998, 177-184.
  • Roberts, S. C. (2003). Review of Pheromones and Animal Behaviour. Communication by Smell and Taste: Animal Behaviour Vol 66(4) Oct 2003, 805-804.
  • Robertson, P. L., Dudzinski, M. L., & Orton, C. J. (1980). Exocrine gland involvement in trailing behaviour in the Argentine ant (Formicidae: Dolichoderinae): Animal Behaviour Vol 28(4) Nov 1980, 1255-1273.
  • Rodriguez, I. (2004). Pheromone receptors in mammals: Hormones and Behavior Vol 46(3) Sep 2004, 219-230.
  • Roeder, J.-J. (1978). Marking behaviour in genets (G. genetta L.): Seasonal variations and relation to social status in males: Behaviour Vol 67(3-4) 1978, 149-156.
  • Roelofs, W. L., & et al. (1982). Sex pheromone of the winter moth, a geometrid with unusually low temperature precopulatory responses: Science Vol 217(4560) Aug 1982, 657-659.
  • Roelofs, W. L., Hill, A. S., Carde, R. T., & Baker, T. C. (1974). Two sex pheromone components of the tobacco budworm moth, Heliothis virescens: Life Sciences Vol 14(8) Apr 1974, 1555-1562.
  • Rogel, M. J. (1978). A critical evaluation of the possibility of higher primate reproductive and sexual pheromones: Psychological Bulletin Vol 85(4) Jul 1978, 810-830.
  • Rohr, J. R., & Madison, D. M. (2001). A chemically mediated trade-off between predation risk and mate search in newts: Animal Behaviour Vol 62(5) Nov 2001, 863-869.
  • Rohr, J. R., Madison, D. M., & Sullivan, A. M. (2002). Sex differences and seasonal trade-offs in response to injured and non-injured conspecifics in red-spotted newts Notophthalmus viridescens: Behavioral Ecology and Sociobiology Vol 52(5) Oct 2002, 385-393.
  • Roitberg, B. D., & Prokopy, R. J. (1981). Experience required for pheromone recognition by the apple maggot fly: Nature Vol 292(5823) Aug 1981, 540-541.
  • Rollmann, S. M. (2000). Courtship pheromone effects on female receptivity in a plethodontid salamander. Dissertation Abstracts International: Section B: The Sciences and Engineering.
  • Rollmann, S. M., Houck, L. D., & Feldhoff, R. C. (1999). Proteinaceous pheromone affecting female receptivity in a terrestrial salamander: Science Vol 285(5435) Sep 1999, 1907-1909.
  • Rollmann, S. M., Houck, L. D., & Feldhoff, R. C. (2003). Conspecific and heterospecific pheromone effects on female receptivity: Animal Behaviour Vol 66(5) Nov 2003, 857-861.
  • Romeo, R. D. (2001). The pubertal maturation of male sexual behavior: The role of steroid hormones, their receptors, and pheromones. Dissertation Abstracts International: Section B: The Sciences and Engineering.
  • Romeo, R. D., Parfitt, D. B., Richardson, H. N., & Sisk, C. L. (1998). Pheromones elicit equivalent levels of Fos-immunoreactivity in prepubertal and adult male Syrian hamsters: Hormones and Behavior Vol 34(1) Aug 1998, 48-55.
  • Rosen, W. Q., Han, G.-B., & Lofstedt, C. (2003). The circadian rhythm of the sex-pheromone-mediated behavioral resonse in the turnip moth, Agrotis segetum, is not controlled at the peripheral level: Journal of Biological Rhythms Vol 18(5) Oct 2003, 402-408.
  • Rosenkoetter, J. S., & Boice, R. (1975). Earthworm pheromones and T-maze performance: Journal of Comparative and Physiological Psychology Vol 88(2) Feb 1975, 904-910.
  • Rossbach, A., Lohr, B., & Vidal, S. (2005). Generalism Versus Specialism: Responses of Diadegma mollipla (Holmgren) and Diadegma semiclausum (Hellen), to the Host Shift of the Diamondback Moth (Plutella xylostella L.) to Peas: Journal of Insect Behavior Vol 18(4) Jul 2005, 491-503.
  • Rottman, S. J., & Snowdown, C. T. (1972). Demonstration and analysis of an alarm pheromone in mice: Journal of Comparative and Physiological Psychology Vol 81(3) Dec 1972, 483-490.
  • Rovner, J. S. (1991). Turning behaviour during pheromone-stimulated courtship in wolf spiders: Animal Behaviour Vol 42(6) Dec 1991, 1015-1016.
  • Royalty, R. N. (1993). Factors affecting male twospotted spider mite, Tetranychus urticae Koch (Acari: Tetranychidae), location and guarding of quiescent deutonymphs: Dissertation Abstracts International.
  • Rubec, P. J. (1980). Effect of pheromones on behavior of ictalurid catfish: Dissertation Abstracts International.
  • Rucker, C. N., & Haynes, K. F. (2004). Impairment of Optomotor Anemotaxis in Yellow-Eyed Mutant Cabbage Looper Moths, Trichoplusia ni: Journal of Insect Behavior Vol 17(4) Jul 2004, 437-442.
  • Ruddy, L. L. (1974). Psychopharmacologic characterization of the alarm pheromone Schreckstoff in the fathead minnow ( Pimephales promelas ): Dissertation Abstracts International.
  • Rust, M. K. (1976). Quantitative analysis of male responses released by female sex pheromone in Periplaneta americana: Animal Behaviour Vol 24(3) Aug 1976, 681-685.
  • Rust, M. K., Burk, T., & Bell, W. J. (1976). Pheromone-stimulated locomotory and orientation responses in the American cockroach: Animal Behaviour Vol 24(1) Feb 1976, 52-67.
  • Rusu, A. S. (2004). From biochemistry to behaviour: An integrative approach of major urinary protein (MUP) roles in sociobiology of house mice: Cognitie Creier Comportament Vol 8(1) Mar 2004, 21-35.
  • Ryba, N. J. P. (1999). Pheromone reception: A complex map of activation in the brain: Current Biology Vol 9(13) Jul 1999, R472-R474.
  • Rymer, J., Bauernfeind, A. L., Brown, S., & Page, T. L. (2007). Circadian rhythms in the mating behavior of the cockroach, Leucophaea maderae: Journal of Biological Rhythms Vol 22(1) Feb 2007, 43-57.
  • Sachs, B. D. (1997). Erection evoked in male rats by airborne scent from estrous females: Physiology & Behavior Vol 62(4) Oct 1997, 921-924.
  • Safi, K., & Kerth, G. (2003). Secretions of the interaural gland contain information about individuality and colony membership in the Bechstein's bat: Animal Behaviour Vol 65(2) Feb 2003, 363-369.
  • Saleh, N., & Chittka, L. (2006). The importance of experience in the interpretation of conspecific chemical signals: Behavioral Ecology and Sociobiology Vol 61(2) Dec 2006, 215-220.
  • Sam, M., Vora, S., Malnic, B., Ma, W., Novotny, M. V., & Buck, L. B. (2001). Odorants may arouse instinctive behaviours: Nature Vol 412(6843 Jul 2001, 142.
  • Sandnabba, N. K. (1984). Behavioural effects of odours produced by high and low aggressive male mice: Psykologia Vol 19(6) 1984, 451-455.
  • Sandnabba, N. K. (1986). Differences between two strains of mice, selectively bred for high and low aggressiveness, in the capacity of male odors to affect aggressive behavior: Aggressive Behavior Vol 12(2) 1986, 103-110.
  • Sato, K., & Suzuki, N. (2001). Whole-cell response characteristics of ciliated and microvillous olfactory receptor neurons to amino acids, pheromone candidates and urine in rainbow trout: Chemical Senses Vol 26(9) Nov 2001, 1145-1156.
  • Savic, I., Berglund, H., Lindstrom, P., & Gustafsson, J.-A. (2005). Brain response to putative pheromones in homosexual men: PNAS Proceedings of the National Academy of Sciences of the United States of America Vol 102(20) May 2005, 7356-7361.
  • Sawyer, T. F. (1978). Aversive odors of male mice: Experiential and castration effects, and the predictability of the outcomes of agonistic encounters: Aggressive Behavior Vol 4(3) 1978, 263-275.
  • Sawyer, T. F. (1979). Responsivity to aversive odors and the agonistic behavior of male mice: Hormonal and experiential effects: Dissertation Abstracts International.
  • Sawyer, T. F., Hengehold, A. K., & Perez, W. A. (1984). Chemosensory and hormonal mediation of social memory in male rats: Behavioral Neuroscience Vol 98(5) Oct 1984, 908-913.
  • Schaal, B., Coureaud, G., Langlois, D., Ginies, C., Semon, E., & Perrier, G. (2003). Chemical and behavioral characterization of the rabbit mammary pheromone: Nature Vol 424(6944) Jul 2003, 68-72.
  • Schaeffer, C., & Aron, C. (1982). Facilitory effects of male urine on feminine behavior in the male rat: Androgen-dependency: Physiology & Behavior Vol 29(4) Oct 1982, 677-680.
  • Schaeffer, C., & Aron, C. (1984). Olfactory cues from the female can affect feminine behavior in the male rat: Physiology & Behavior Vol 32(3) Mar 1984, 457-461.
  • Schmidt, J. O. (2001). Hierarchy of attractants for honey bee swarms: Journal of Insect Behavior Vol 14(4) Jul 2001, 469-477.
  • Schneider, D., & et al. (1982). Scent organ development in Creatonotos moths: Regulation by pyrrolizidine alkaloids: Science Vol 215(4537) Mar 1982, 1264-1265.
  • Schneiderman, A. M. (1985). Postembryonic development of a sexually dimorphic sensory pathway in the central nervous system of the sphinx moth, Manduca sexta: Dissertation Abstracts International.
  • Schneiderman, A. M., & Hildebrand, J. G. (1985). Sexually dimorphic development of the insect olfactory pathway: Trends in Neurosciences Vol 8(11) Nov 1985, 494-499.
  • Schneiderman, A. M., Hildebrand, J. G., Brennan, M. M., & Tumlinson, J. H. (1986). Trans-sexually grafted antennae alter phermomone-directed behaviour in a moth: Nature Vol 323(6091) Oct-Nov 1986, 801-803.
  • Schubert, S. N., Houck, L. D., Feldhoff, P. W., Feldhoff, R. C., & Woodley, S. K. (2006). Effects of androgens on behavioral and vomeronasal responses to chemosensory cues in male terrestrial salamanders (Plethodon shermani): Hormones and Behavior Vol 50(3) Sep 2006, 469-476.
  • Schulz, K. M., Richardson, H. N., Romeo, R. D., Morris, J. A., Lookingland, K. J., & Sisk, C. L. (2003). Medial preoptic area dopaminergic responses to female pheromones develop during puberty in the male Syrian hamster: Brain Research Vol 988(1-2) Oct 2003, 139-145.
  • Schulz, S., & Toft, S. (1993). Identification of a sex pheromone from a spider: Science Vol 260(5114) Jun 1993, 1635-1637.
  • Schumacher, S. K., & Moltz, H. (1982). The maternal pheromone of the rat as an innate stimulus for pre-weanling young: Physiology & Behavior Vol 28(1) Jan 1982, 67-71.
  • Schumacher, S. K., & Moltz, H. (1985). Prolonged responsiveness to the maternal pheromone in the postweanling rat: Physiology & Behavior Vol 34(3) Mar 1985, 471-473.
  • Schwartz, G. G., & Rosenblum, L. A. (1980). Novelty, arousal, and nasal marking in the squirrel monkey: Behavioral & Neural Biology Vol 28(1) Jan 1980, 116-122.
  • Scott, D., & Jackson, L. L. (1990). The basis for control of post-mating sexual attractiveness by Drosophila melanogaster females: Animal Behaviour Vol 40(5) Nov 1990, 891-900.
  • Scott, D., Richmond, R. C., & Carlson, D. A. (1988). Pheromones exchanged during mating: A mechanism for mate assessment in Drosophila: Animal Behaviour Vol 36(4) Aug 1988, 1164-1173.
  • Secondi, J., Haerty, W., & Lode, T. (2005). Female Attraction to Conspecific Chemical Cues in the Palmate Newt Triturus helveticus: Ethology Vol 111(8) Aug 2005, 726-735.
  • Seelinger, G. (1985). Behavioural responses to female sex pheromone components in Periplaneta americana: Animal Behaviour Vol 33(2) May 1985, 591-598.
  • Seelinger, G., & Schuderer, B. (1985). Release of male courtship display in Periplaneta americana: Evidence for female contact sex pheromone: Animal Behaviour Vol 33(2) May 1985, 599-607.
  • Seibt, U. (1974). Mechanisms and sensory capacities underlying the pair bond in the shrimp Hymenocera picta: Zeitschrift fur Tierpsychologie Vol 35(4) Nov 1974, 337-351.
  • Shapas, T. J. (1977). Trogoderma sex pheromone, 14-methyl-8-hexadecenal: Theoretical communication distances, roles with behavioral mechanisms in reproductive isolation, and use in pathogen dissemination for population suppression: Dissertation Abstracts International.
  • Shelly, T. E., & Kennelly, S. S. (2007). Settlement patterns of Mediterranean fruit flies in the tree canopy: An experimental analysis: Journal of Insect Behavior Vol 20(5) Sep 2007, 453-472.
  • Silverman, H. I. (1978). Changes in male courting frequency in pairs of the cichlid fish, Sarotherodon (Tilapia) mossambicus, with unlimited or with only visual contact: Behavioral & Neural Biology Vol 23(2) Jun 1978, 189-196.
  • Silverman, J. M., & Bell, W. J. (1979). The role of vertical and horizontal object orientation in mate-finding and predator-avoidance by the American cockroach: Animal Behaviour Vol 27(3) Aug 1979, 652-657.
  • Silverstein, R. M. (1981). Pheromones: Background and potential for use in insect pest control: Science Vol 213(4514) Sep 1981, 1326-1332.
  • Simmons, L. W. (1990). Pheromonal cues for the recognition of kin by female field crickets, Gryllus bimaculatus: Animal Behaviour Vol 40(1) Jul 1990, 192-195.
  • Simon, D., & Barth, R. H. (1977). Sexual behavior in the cockroach genera Periplaneta and Blatta: I. Descriptive aspects: Zeitschrift fur Tierpsychologie Vol 44(1) May 1977, 80-107.
  • Simon, D., & Barth, R. H. (1977). Sexual behavior in the cockroach genera Periplaneta and Blatta: II. Sex pheromones and behavioral responses: Zeitschrift fur Tierpsychologie Vol 44(2) Jun 1977, 162-177.
  • Simon, D., & Barth, R. H. (1977). Sexual behavior in the cockroach genera Periplaneta and Blatta: IV. Interspecific interactions: Zeitschrift fur Tierpsychologie Vol 45(1) 1977, 85-103.
  • Simon, J. L., & Moore, P. A. (2007). Male-female communication in the crayfish Orconectes rusticus: The use of urinary signals in reproductive and non-reproductive pairings: Ethology Vol 113(8) Aug 2007, 740-754.
  • Simons, R. R. (1993). The semiochemistry of territoriality in the terrestrial salamander Plethodon cinereus: Dissertation Abstracts International.
  • Singer, A. G., Clancy, A. N., & Macrides, F. (1989). Conspecific and heterospecific proteins related to aphrodisin lack aphrodisiac activity in male hamsters: Chemical Senses Vol 14(4) Aug 1989, 565-575.
  • Singer, A. G., Clancy, A. N., Macrides, F., & Agosta, W. C. (1984). Chemical studies of hamster vaginal discharge: Effects of endocrine ablation and protein digestion on behaviorally active macromolecular fractions: Physiology & Behavior Vol 33(4) Oct 1984, 639-643.
  • Singer, A. G., Clancy, A. N., Macrides, F., & Agosta, W. C. (1984). Chemical studies of hamster vaginal discharge: Male behavioral responses to a high molecular weight fraction require physical contact: Physiology & Behavior Vol 33(4) Oct 1984, 645-651.
  • Singer, A. G., & et al. (1976). Dimethyl disulfide: An attractant pheromone in hamster vaginal secretion: Science Vol 191(4230) Mar 1976, 948-950.
  • Singer, A. G., & et al. (1983). Methyl thiolbutyrate: A reliable correlate of estrus in the golden hamster: Physiology & Behavior Vol 30(1) Jan 1983, 139-143.
  • Singer, A. G., & Macrides, F. (1990). Aphrodisin: Pheromone or transducer? : Chemical Senses Vol 15(2) Apr 1990, 199-203.
  • Singer, T. L., & Espelie, K. E. (1992). Social wasps use nest paper hydrocarbons for nestmate recognition: Animal Behaviour Vol 44(1) Jul 1992, 63-68.
  • Sipos, M. L., Alterman, L., Perry, B., Nyby, J. G., & et al. (1995). An ephemeral pheromone of female house mice: Degradation by oxidation: Animal Behaviour Vol 50(1) Jul 1995, 113-120.
  • Sipos, M. L., Kerchner, M., & Nyby, J. G. (1992). An ephemeral sex pheromone in the urine of female house mice (Mus domesticus): Behavioral & Neural Biology Vol 58(2) Sep 1992, 138-143.
  • Sipos, M. L., Nyby, J. G., & Serran, M. F. (1993). An ephemeral sex pheromone of female house mice (Mus domesticus): Pheromone fade-out time: Physiology & Behavior Vol 54(1) Jul 1993, 171-174.
  • Sipos, M. L., Wysocki, C. J., Nyby, J. G., Wysocki, L., & et al. (1995). An ephemeral pheromone of female house mice: Perception via the main and accessory olfactory systems: Physiology & Behavior Vol 58(3) Sep 1995, 529-534.
  • Sivinski, J. M., Epsky, N., & Heath, R. R. (1994). Pheromone deposition on leaf territories by male caribbean fruit flies, Anastrepha suspensa (Loew) (Diptera: Tephritidae): Journal of Insect Behavior Vol 7(1) Jan 1994, 43-51.
  • Siwicki, K. K., Riccio, P., Ladewski, L., Marcillac, F., Dartevelle, L., Cross, S. A., et al. (2005). The role of cuticular pheromones in courtship conditioning of drosophila males: Learning & Memory Vol 12(6) Nov 2005, 636-645.
  • Skeen, J. T., & Thiessen, D. D. (1977). Scent of gerbil cuisine: Physiology & Behavior Vol 19(1) Jul 1977, 11-14.
  • Slade, B. E., Schulte, B. A., & Rasmussen, L. E. L. (2003). Oestrous state dynamics in chemical communication by captive female Asian elephants: Animal Behaviour Vol 65(4) Apr 2003, 813-819.
  • Slobodchikoff, C. N. (1978). Experimental studies of tenebrionid beetle predation by skunks: Behaviour Vol 66(3-4) 1978, 313-322.
  • Slotnick, B. M., & Born, W. S. (1979). Transfer of a sex odor discrimination by rats: Physiology & Behavior Vol 23(3) Sep 1979, 589-591.
  • Smale, L. (1988). Pheromones, photoperiod and reproduction in prairie voles, Microtus ochrogaster: Dissertation Abstracts International.
  • Smith, B. H., & Ayasse, M. (1987). Kin-based male mating preferences in two species of halictine bee: Behavioral Ecology and Sociobiology Vol 20(5) 1987, 313-318.
  • Smith, J. P., Maybee, J. S., & Maybee, F. M. (1979). The effects of increasing distance to food and deprivation level on food-hoarding behavior in Rattus norvegicus: Behavioral & Neural Biology Vol 27(3) Nov 1979, 302-318.
  • Smith, M. T., & Mason, R. T. (1997). Gonadotropin antagonist modulates courtship behavior in male red-sided garter snakes, Thamnophis sirtalis parietalis: Physiology & Behavior Vol 61(1) Jan 1997, 137-143.
  • Smith, T. D., Bhatnagar, K. P., Dennis, J. C., Morrison, E. E., & Park, T. J. (2007). Growth-deficient vomeronasal organs in the naked mole-rat (Heterocephalus glaber): Brain Research Vol 1132 Feb 2007, 78-83.
  • Smyth, R. R., & Hoffmann, M. P. (2003). A male-produced aggregation pheromone facilitating acalymma vittatum: Journal of Insect Behavior Vol 16(3) May 2003, 347-359.
  • Snell, T. W., & Rico-Martinez, R. (1996). Characteristics of the mate-recognition pheromone in Brachionus plicatilis (rotifera): Marine and Freshwater Behaviour and Physiology Vol 27(2-3) 1996, 143-151.
  • Solari, P., Crnjar, R., Frongia, A., Sollai, G., Secci, F., Spiga, M., et al. (2007). Oxaspiropentane derivatives as effective sex pheromone analogues in the gypsy moth: Electrophysiological and behavioral evidence: Chemical Senses Vol 32(8) Oct 2007, 755-763.
  • Sorensen, P. W. (1996). Biological responsiveness to pheromones provides fundamental and unique insight into olfactory function: Chemical Senses Vol 21(2) Apr 1996, 245-256.
  • Sorensen, P. W., Christensen, T. A., & Stacey, N. E. (1998). Discrimination of pheromonal cues in fish: Emerging parallels with insects: Current Opinion in Neurobiology Vol 8(4) Aug 1998, 458-467.
  • Sorensen, P. W., Hara, T. J., & Stacey, N. E. (1991). Sex pheromones selectively stimulate the medial olfactory tracts of male goldfish: Brain Research Vol 558(2) Sep 1991, 343-347.
  • Sorensen, P. W., Stacey, N. E., & Chamberlain, K. J. (1989). Differing behavioral and endocrinological effects of two female sex pheromones on male goldfish: Hormones and Behavior Vol 23(3) Sep 1989, 317-332.
  • Spencer, N. A., McClintock, M. K., Sellergren, S. A., Bullivant, S., Jacob, S., & Mennella, J. A. (2004). Social chemosignals from breastfeeding women increase sexual motivation: Hormones and Behavior Vol 46(3) Sep 2004, 362-370.
  • Sreng, L. (1993). Cockroach mating behaviors, sex pheromones, and abdominal glands (Dictyoptera: Blaberidae): Journal of Insect Behavior Vol 6(6) Nov 1993, 715-735.
  • Steel, E. (1980). Changes in female attractivity and proceptivity throughout the oestrous cycle of the Syrian hamster (Mesocricetus auratus): Animal Behaviour Vol 28(1) Feb 1980, 256-265.
  • Stehn, R. A., Richmond, M. E., & Kollisch, N. (1976). Female odors and aggression among male Microtus: Behavioral Biology Vol 17(1) May 1976, 43-50.
  • Steiner, S., Steidle, J. L. M., & Ruther, J. (2005). Female sex pheromone in immature insect males--a case of pre-emergence chemical mimicry? : Behavioral Ecology and Sociobiology Vol 58(2) Jun 2005, 111-120.
  • Stelinski, L. L., Gut, L. J., Vogel, K. J., & Miller, J. R. (2004). Behaviors of Naive vs. Pheromone-Exposed Leafroller Moths in Plumes From High-Dosage Pheromone Dispensers in a Sustained-Flight Wind Tunnel: Implications for Mating Disruption of These Species: Journal of Insect Behavior Vol 17(4) Jul 2004, 533-554.
  • Stelinski, L. L., Oakleaf, R., & Rodriguez-Saona, C. (2007). Oviposition-deterring pheromone deposited on blueberry fruit by the parsitic wasp, Diachasma alloeum: Behaviour Vol 144(4) Apr 2007, 429-445.
  • Stengl, M., Zufall, F., Hatt, H., & Hildebrand, J. G. (1992). Olfactory receptor neurons from antennae of developing male Manduca sexta respond to components of the species-specific sex pheromone in vitro: Journal of Neuroscience Vol 12(7) Jul 1992, 2523-2531.
  • Stoll, R. E., Paolino, R. M., & Bousquet, W. F. (1974). Possible role of pheromones in modifying drug response in the mouse: Life Sciences Vol 15(3) Aug 1974, 543-549.
  • Stout, J. C., Goulson, D., & Allen, J. A. (1998). Repellent scent-marking of flowers by a guild of foraging bumblebees (Bombus spp.): Behavioral Ecology and Sociobiology Vol 43(4-5) Oct 1998, 317-326.
  • Stowers, L., Holy, T. E., Meister, M., Dulac, C., & Koentges, G. (2002). Loss of sex discrimination and male-male-aggression in mace deficient for TRP2: Science Vol 295(5559) Feb 2002, 1493-1500.
  • Stratton, L. O., & Coleman, W. P. (1973). Maze learning and orientation in the fire ant (Solenopsis saevissima): Journal of Comparative and Physiological Psychology Vol 83(1) Apr 1973, 7-12.
  • Strausfeld, C. Z., & Kaissling, K.-E. (1986). Localized adaptation processes in olfactory sensilla of Saturniid moths: Chemical Senses Vol 11(4) Nov 1986, 499-512.
  • Stuart, A. M. (1981). The role of pheromones in the initiation of foraging, recruitment and defence by the soldiers of a tropical termite, Nasutitermes corniger (Motschulsky): Chemical Senses Vol 6(4) 1981, 409-420.
  • Sumpter, D. J. T., & Beekman, M. (2003). From nonlinearity to optimality: Pheromone trail foraging by ants: Animal Behaviour Vol 66(2) Aug 2003, 273-280.
  • Sumpter, D. J. T., & Pratt, S. C. (2003). A modelling framework for understanding social insect foraging: Behavioral Ecology and Sociobiology Vol 53(3) Feb 2003, 131-144.
  • Susswein, A. J., & Nagle, G. T. (2004). Peptide and protein pheromones in molluscs: Peptides Vol 25(9) Sep 2004, 1523-1530.
  • Suter, R. B., & Hirscheimer, A. J. (1986). Multiple web-borne pheromones in a spider Frontinella pyramitela (Araneae: Linyphiidae): Animal Behaviour Vol 34(3) Jun 1986, 748-753.
  • Suter, R. B., & Renkes, G. (1982). Linyphiid spider courtship: Releaser and attractant functions of a contact sex pheromone: Animal Behaviour Vol 30(3) Aug 1982, 714-718.
  • Sveinsson, T., & Hara, T. J. (2000). Olfactory sensitivity and specificity of Arctic char, Salvelinus alpinus, to a putative male pheromone, prostaglandin F-sub(2alpha ): Physiology & Behavior Vol 69(3) May 2000, 301-307.
  • Swann, J. M. (1997). Gonadal steroids regulated behavioral responses to pheromones by actions on a subdivision of the medial preoptic nucleus: Brain Research Vol 750(1-2) Mar 1997, 189-194.
  • Swanson, H. H. (1980). Social and hormonal influences on scent marking in the Mongolian gerbil: Physiology & Behavior Vol 24(5) May 1980, 839-842.
  • Syed, Z., Ishida, Y., Taylor, K., Kimbrell, D. A., & Leal, W. S. (2006). Pheromone reception in fruit flies expressing a moth's odorant receptor: PNAS Proceedings of the National Academy of Sciences of the United States of America Vol 103(44) Oct 2006, 16538-16543.
  • Tavolga, W. N. (1976). Chemical stimuli in reproductive behavior in fish: Communication: Experientia Vol 32(9) 1976, 1093-1095.
  • Taylor, A. J., Muller, C. B., & Godfray, H. C. J. (1998). Effect of aphid predators on oviposition behavior of Aphid parasitoids: Journal of Insect Behavior Vol 11(2) Mar 1998, 297-302.
  • Taylor, K., & Mills, D. S. (2007). A placebo-controlled study to investigate the effect of Dog Appeasing Pheromone and other environmental and management factors on the reports of disturbance and house soiling during the night in recently adopted puppies (canis familiaris): Applied Animal Behaviour Science Vol 105(4) Jul 2007, 358-368.
  • Taylor, R. D., & Ludvigson, H. W. (1980). Selective removal of alleyway paper flooring or air to assess locus of nonreward odor: Bulletin of the Psychonomic Society Vol 16(2) Aug 1980, 105-108.
  • Taylor, R. D., & Ludvigson, H. W. (1980). Selective removal of reward and nonreward odors to assess their control of patterned responding in rats: Bulletin of the Psychonomic Society Vol 16(2) Aug 1980, 101-104.
  • Teal, P. E. (1981). The role of sex pheromones in the reproductive isolation of Heliothis species (Lepidoptera: Noctuidae): Dissertation Abstracts International.
  • Teale, S. A., Hager, B. J., & Webster, F. X. (1994). Pheromone-based assortative mating in a bark beetle: Animal Behaviour Vol 48(3) Sep 1994, 569-578.
  • Teicher, M. H., Stewart, W. B., Kauer, J. S., & Shepherd, G. M. (1980). Suckling pheromone stimulation of a modified glomerular region in the developing rat olfactory bulb revealed by the 2-deoxyglucose method: Brain Research Vol 194(2) Aug 1980, 530-535.
  • Tengo, J., & Bergstrom, G. (1977). Cleptoparasitism and odor mimetism in bees: Do Nomada males imitate the odor of Andrena females? : Science Vol 196(4294) Jun 1977, 1117-1119.
  • Thiessen, D. D., & et al. (1974). Identification of a ventral scent marking pheromone in the male mongolian gerbil (Meriones unguiculatus): Science Vol 184(4132) Apr 1974, 83-85.
  • Thor, D. H. (1979). Olfactory perception and inclusive fitness: Physiological Psychology Vol 7(3) Sep 1979, 303-306.
  • Thorne, N., & Amrein, H. (2003). Vomeronasal organ: Pheromone recognition with a twist: Current Biology Vol 13(6) Mar 2003, R220-R222.
  • Thornhill, R., & Gangestad, S. W. (2003). Evolutionary Theory Led to Evidence for a Male Sex Pheromone That Signals Symmetry: Psychological Inquiry Vol 14(3-4) 2003, 318-325.
  • Tierney, A. J. (1986). Chemical communication and chemoreceptor structure in crayfish: Dissertation Abstracts International.
  • Tietjen, W. J., & Rovner, J. S. (1980). Trail-following behaviour in two species of wolf spiders: Sensory and etho-ecological concomitants: Animal Behaviour Vol 28(3) Aug 1980, 735-741.
  • Tifner, S., Zanin, L., & De Bortoli, M. (2003). Effect of the pheromone androstenone on the mood in a sample of women: International Journal of Clinical and Health Psychology Vol 3(1) Jan 2003, 77-87.
  • Tirindelli, R., Mucignat-Caretta, C., & Ryba, N. J. P. (1998). Molecular aspects of pheromonal communication via the vomeronasal organ of mammals: Trends in Neurosciences Vol 21(11) Nov 1998, 482-486.
  • Tobin, T. R. (1981). Pheromone orientation: Role of internal control mechanisms: Science Vol 214(4525) Dec 1981, 1147-1149.
  • Tobin, T. R. (1983). Behavioral and electrophysiological responses of the American cockroach, Periplaneta americana (L.) (Orthoptera: Blattidae), to sex pheromone: Dissertation Abstracts International.
  • Tobin, T. R., & Bell, W. J. (1982). Guidance system for pheromone orientation in moths: Nature Vol 295(5846) Jan 1982, 263.
  • Tod, E., Brander, D., & Waran, N. (2005). Efficacy of dog appeasing pheromone in reducing stress and fear related behaviour in shelter dogs: Applied Animal Behaviour Science Vol 93(3-4) Sep 2005, 295-308.
  • Tompkins, L., & Hall, J. C. (1984). Sex pheromones enable Drosophila males to discriminate between conspecific females from different laboratory stocks: Animal Behaviour Vol 32(2) May 1984, 349-352.
  • Tompkins, L., Siegel, R. W., Gailey, D. A., & Hall, J. C. (1983). Conditioned courtship in Drosophila and its mediation by association of chemical cues: Behavior Genetics Vol 13(6) Nov 1983, 565-578.
  • Topoff, H., Cover, S., Greenberg, L., Goodloe, L., & et al. (1988). Colony founding by queens of the obligatory slave-making ant, Polyergus breviceps: The role of the Dufour's gland: Ethology formerly Zeitschrift fur Tierpsychologie Vol 78(3) Jul 1988, 209-218.
  • Topoff, H., & Lawson, K. (1979). Orientation of the army ant Neivamyrmex nigrescens: Integration of chemical and tactile information: Animal Behaviour Vol 27(2) May 1979, 429-433.
  • Topoff, H., Mirenda, J., Droual, R., & Herrick, S. (1980). Behavioural ecology of mass recruitment in the army ant Neivamyrmex nigrescens: Animal Behaviour Vol 28(3) Aug 1980, 779-789.
  • Toyoda, F., Yamamoto, K., Ito, Y., Tanaka, S., Yamashita, M., & Kikuyama, S. (2003). Involvement of arginine vasotocin in reproductive events in the male newt Cynops pyrrhogaster: Hormones and Behavior Vol 44(4) Nov 2003, 346-353.
  • Toyoda, F., Yamamoto, K., Iwata, T., Hasunuma, I., Cardinali, M., Mosconi, G., et al. (2004). Peptide pheromones in newts: Peptides Vol 25(9) Sep 2004, 1531-1536.
  • Trabalon, M., Campan, M., Clement, J.-L., Thon, B., & et al. (1988). Changes in cuticular hydrocarbon composition in relation to age and sexual behavior in the female Calliphora vomitoria (Diptera): Behavioural Processes Vol 17(2) Aug 1988, 107-115.
  • Trinh, K., & Storm, D. R. (2003). Vomeronasal organ detects odorants in absence of signaling through main olfactory epithelium: Nature Neuroscience Vol 6(5) May 2003, 519-525.
  • Turnbull, M. W., & Fashing, N. J. (2002). Efficacy of the ventral abdominal secretion of the cockroach Eurycotis floridana (Blattaria: Blattidae) as a defense allomone: Journal of Insect Behavior Vol 15(3) May 2002, 369-384.
  • Turner, J. W. (1979). Effects of sustained-release testosterone on marking behavior in the Mongolian gerbil: Physiology & Behavior Vol 23(5) Nov 1979, 845-849.
  • Ungerfeld, R., & Silva, L. (2005). The presence of normal vaginal flora is necessary for normal sexual attractiveness of estrous ewes: Applied Animal Behaviour Science Vol 93(3-4) Sep 2005, 245-250.
  • Vaias, L. J., Napolitano, L. M., & Tompkins, L. (1993). Identification of stimuli that mediate experience-dependent modification of homosexual courtship in Drosophila melanogaster: Behavior Genetics Vol 23(1) Jan 1993, 91-97.
  • Van den Assem, J., Jachmann, F., & Simbolotti, P. (1980). Courtship behaviour of Nasonia vitripennis (Hym., Pteromalidae): Some qualitative, experimental evidence for the role of pheromones: Behaviour Vol 75(3-4) 1980, 301-307.
  • Van den Berg, M. J., Thomas, G., Hendriks, H., & Van Delden, W. (1984). A reexamination of the negative assortative mating phenomenon and its underlying mechanism in Drosophila melanogaster: Behavior Genetics Vol 14(1) Jan 1984, 45-61.
  • Van der Pers, J. N., Thomas, G., & den Otter, C. J. (1980). Interactions between plant odours and pheromone reception in small ermine moths (Lepidoptera: Yponomeutidae): Chemical Senses Vol 5(4) 1980, 367-371.
  • Van Vorhis Key, S. E. (1981). Trail following and recruitment to food by the Argentine ant, Iridomyrmex humilis (Mayr): Dissertation Abstracts International.
  • Vander Meer, R. K., & Alonso, L. E. (2002). Queen primer pheromone affects conspecific fire ant (Solenopsis invicta) aggression: Behavioral Ecology and Sociobiology Vol 51(2) Jan 2002, 122-130.
  • Vargo, E. L., & Passera, L. (1991). Pheromonal and behavioral queen control over the production of gynes in the Argentine ant Iridomyrmex humilis (Mayr): Behavioral Ecology and Sociobiology Vol 28(3) Mar 1991, 161-169.
  • Venzon, M., Janssen, A., Pallini, A., & Sabelis, M. W. (2000). Diet of polyphagous arthropod predator affects refuge seeking of its thrips prey: Animal Behaviour Vol 60(3) Sep 2000, 369-375.
  • Verberne, G. (1976). Chemocommunication among domestic cats, mediated by the olfactory and vomeronasal senses: II. The relation between the function of Jacobson's organ (vomeronasal organ) and flehmen behavior: Zeitschrift fur Tierpsychologie Vol 42(2) Oct 1976, 113-128.
  • Verberne, G., & de Boer, J. (1976). Chemocommunication among domestic cats, mediated by the olfactory and vomeronasal senses: Zeitschrift fur Tierpsychologie Vol 42(1) Sep 1976, 86-109.
  • Vereecken, N. J., Mant, J., & Schiestl, F. P. (2007). Population differentiation in female sex pheromone and male preferences in a solitary bee: Behavioral Ecology and Sociobiology Vol 61(5) Mar 2007, 811-821.
  • Vergoz, V., Schreurs, H. A., & Mercer, A. R. (2007). Queen Pheromone blocks aversive learning in young worker bees: Science Vol 317(5836) Jul 2007, 384-386.
  • Verhaeghe, J. C., & Cammaerts, M. C. (1993). Possible function for a previously discovered pheromone on the last sternite of the ant Tetramorium impurum Mayr (Hymenoptera, Formicidae, Myrmicinae): Behavioural Processes Vol 28(3) Feb 1993, 199-207.
  • Vet, L. E., Sokolowski, M. B., MacDonald, D. E., & Snellen, H. (1993). Responses of a generalist and a specialist parasitoid (Hymenoptera: Eucoilidae) to drosophilid larval kairomones: Journal of Insect Behavior Vol 6(5) Sep 1993, 615-624.
  • Vickers, N. J. (2006). Inheritance of Olfactory Preferences I. Pheromone-Mediated Behavioral Responses of Heliothis subflexa x Heliothis virescens Hybrid Male Moths: Brain, Behavior and Evolution Vol 68(2) Jul 2006, 63-74.
  • Vickers, N. J. (2006). Inheritance of Olfactory Preferences III. Processing of Pheromonal Signals in the Antennal Lobe of Heliothis subflexa x Heliothis virescens Hybrid Male Moths: Brain, Behavior and Evolution Vol 68(2) Jul 2006, 90-108.
  • Vickers, N. J. (2006). Winging It: Moth Flight Behavior and Responses of Olfactory Neurons are Shaped by Pheromone Plume Dynamics: Chemical Senses Vol 31(2) Feb 2006, 155-166.
  • Vickers, N. J., & Baker, T. C. (1992). Male Heliothis virescens maintain upwind flight in response to experimentally pulsed filaments of their sex pheromone (Lepidoptera: Noctuidae): Journal of Insect Behavior Vol 5(6) Nov 1992, 669-687.
  • Vickery, J. D. (1982). Chemical communication by the Siamese fighting fish (Betta splendens) during reproductive territoriality: Dissertation Abstracts International.
  • Visscher, P. K., Vetter, R. S., & Robinson, G. E. (1995). Alarm pheromone perception in honey bees is decreased by smoke (Hymenoptera: Apidae): Journal of Insect Behavior Vol 8(1) Jan 1995, 11-18.
  • Vite, J. P., Ohloff, G., & Billings, R. F. (1978). Pheromonal chirality and integrity of aggregation response in southern species of the bark beetle Ips sp: Nature Vol 272(5656) Apr 1978, 817-818.
  • Vogt, R. G., & Riddiford, L. M. (1981). Pheromone binding and inactivation by moth antennae: Nature Vol 293(5828) Sep 1981, 161-163.
  • Wabnitz, P. A., Bowie, J. H., Tyler, M. J., Wallace, J. C., & Smith, B. P. (1999). Aquatic sex pheromone from a male tree frog: Nature Vol 401(6752) Sep 1999, 444-445.
  • Wallis, J., King, B. J., & Roth-Meyer, C. (1986). The effect of female proximity and social interaction on the menstrual cycle of crab-eating monkeys (Macaca fascicularis): Primates Vol 27(1) Jan 1986, 83-94.
  • Walsh, J. P., & Tschinkel, W. R. (1974). Brood recognition by contact pheromone in the red imported fire ant, Solenopsis invicta: Animal Behaviour Vol 22(3) Aug 1974, 695-704.
  • Wang, X. G., & Keller, M. A. (2004). Patch Time Allocation by the Parasitoid Diadegma semiclausum (Hymenoptera: Ichneumonidae). III. Effects of Kairomone Sources and Previous Parasitism: Journal of Insect Behavior Vol 17(6) Nov 2004, 761-776.
  • Wang, Z., Sindreu, C. B., Li, V., Nudelman, A., Chan, G. C. K., & Storm, D. R. (2006). Pheromone Detection in Male Mice Depends on Signaling through the Type 3 Adenylyl Cyclase in the Main Olfactory Epithelium: Journal of Neuroscience Vol 26(28) Jul 2006, 7375-7379.
  • Watson, P. J. (1986). Transmission of a female sex pheromone thwarted by males in the spider Linyphia litigiosa (Linyphiidae): Science Vol 233(4760) Jul 1986, 219-221.
  • Wcislo, W. T. (1992). Attraction and learning in mate-finding by solitary bees, Lasioglossum (Dialictus) figueresi Wcislo and Nomia triangulifera Vachal (Hymenoptera: Halictidae): Behavioral Ecology and Sociobiology Vol 31(2) Aug 1992, 139-148.
  • Webster, R. P. (1982). Endogenous and exogenous factors affecting pheromone production and release in the omnivorous leafroller moth, Platynota stultana (Walsingham): Dissertation Abstracts International.
  • Weinhold, L. L. (1986). Activation of the reproductive chemosignal in the urogenital system of the female mouse: Dissertation Abstracts International.
  • Weinhold, L. L., & Ingersoll, D. W. (1988). Modulation of male mouse genital sniff, attack, and mount behaviors by urogenital substances from estrous females: Behavioral & Neural Biology Vol 50(2) Sep 1988, 207-228.
  • Wersinger, S. R., & Rissman, E. F. (2000). Oestrogen Receptor alpha is Essential for Female-Directed Chemo-lnvestigatory Behaviour but is not Required for the Pheromone-induced Luteinizing Hormone Surge in Male Mice: Journal of Neuroendocrinology Vol 12(2) Feb 2000, 103-110.
  • Westberry, J. M., & Meredith, M. (2003). Pre-exposure to female chemosignals or intracerebral GnRH restores mating behavior in naive male hamsters with vomeronasal organ lesions: Chemical Senses Vol 28(3) Mar 2003, 191-196.
  • Wheeler, J. W., Evans, S. L., Blum, M. S., & Torgerson, R. L. (1975). Cyclopentyl ketones: Identification and function in Azteca ants: Science Vol 187(4173) Jan 1975, 254-255.
  • Whelchel, E. A. (1994). Maternal ability to identify neonates via olfaction: A comparison of adolescent and adult mothers. Dissertation Abstracts International: Section B: The Sciences and Engineering.
  • Willis, M. A., & Birch, M. C. (1982). Male lek formation and female calling in a population of the arctiid moth Estigmene acrea: Science Vol 218(4568) Oct 1982, 168-170.
  • Willis, M. A., David, C. T., Murlis, J., & Carde, R. T. (1994). Effects of pheromone plume structure and visual stimuli on the pheromone-modulated upwind flight of male gypsy moths (Lymantria dispar) in a forest (Lepidoptera: Lymantriidae): Journal of Insect Behavior Vol 7(3) May 1994, 385-409.
  • Wilson, E. O., & Bossert, W. H. (1996). Chemical communication among animals. Chicago, IL: University of Chicago Press.
  • Winston, M. L., & Slessor, K. N. (2001). The essence of royalty: Honey bee queen pheromone. Sunderland, MA: Sinauer Associates.
  • Wirsig-Wiechmann, C. R., Houck, L. D., Feldhoff, P. W., & Feldhoff, R. C. (2002). Pheromonal activation of vomeronasal neurons in plethodontid salamanders: Brain Research Vol 952(2) Oct 2002, 335-344.
  • Wisenden, B. D., & Sargent, R. C. (1997). Antipredator behaviour and suppressed aggression by convict cichlids in response to injury-released chemical cues of conspecifics but not to those of an allopatric heterospecific: Ethology Vol 103(4) Apr 1997, 283-291.
  • Witte, V., & Maschwitz, U. (2002). Coordination of raiding and emigration in the ponerine army ant Leptogenys distinguenda (Hymenoptera: Formicidae: Ponerinae): A signal analysis: Journal of Insect Behavior Vol 15(2) Mar 2002, 195-217.
  • Wolff, J. O. (2004). Scent marking by voles in response to predation risk: A field-laboratory validation: Behavioral Ecology Vol 15(2) Mar 2004, 286-289.
  • Wood, D. L., & et al. (1976). Western pine beetle: Specificity among enantiomers of male and female components of an attractant pheromone: Science Vol 192(4242) May 1976, 896-898.
  • Wossler, T. C., & Crewe, R. M. (1999). The releaser effects of the tergal gland secretion of queen honeybees ( Apis mellifera ): Journal of Insect Behavior Vol 12(3) May 1999, 343-351.
  • Wszalek, T. M. (1994). "Copulatory memory": A novel model for the study of recognition in the adult male rat. Dissertation Abstracts International: Section B: The Sciences and Engineering.
  • Wuensch, K. L. (1979). Adrenal hypertrophy in mice following exposure to crowded males' odors: Behavioral & Neural Biology Vol 27(2) Oct 1979, 222-226.
  • Wyart, C., Webster, W. W., Chen, J. H., Wilson, S. R., McClary, A., Khan, R. M., et al. (2007). Smelling a single component of male sweat alters levels of cortisol in women: Journal of Neuroscience Vol 27(6) Feb 2007, 1261-1265.
  • Wysocki, C. J., & Preti, G. (1998). Pheromonal influences: Archives of Sexual Behavior Vol 27(6) Dec 1998, 627-629.
  • Xu, P. (2005). A Drosophila OBP Required for Pheromone Signaling: Science Vol 310(5749) Nov 2005, 798-799.
  • Yahr, P. (1976). The role of aromatization in androgen stimulation of gerbil scent marking: Hormones and Behavior Vol 7(2) Jun 1976, 259-265.
  • Yahr, P. (1977). Social subordination and scent-marking in male Mongolian gerbils (Meriones unguiculatus): Animal Behaviour Vol 25(2) May 1977, 292-297.
  • Yahr, P., & Anderson-Mitchell, K. (1983). Attraction of gerbil pups to maternal nest odors: Duration, specificity and ovarian control: Physiology & Behavior Vol 31(2) Aug 1983, 241-247.
  • Yahr, P., & et al. (1980). Paradigm for comparing sexual behavior and scent marking in male gerbils: Physiology & Behavior Vol 24(2) Feb 1980, 263-266.
  • Ye, J. (1993). Behavioral responses of black cutworm moths, Agrotis Ipsilon (Hufnagel) (Lepidoptera: Noctuidae), to a Linden flower extract and related chemicals in a wind tunnel: Dissertation Abstracts International.
  • Zack, S. (1978). Head grooming behaviour in the praying mantis: Animal Behaviour Vol 26(4) Nov 1978, 1107-1119.
  • Zagatti, P. (1981). Sexual behavior of the African sugarcane borer Eldana saccharina (Wlk.) linked to two pheromones emitted by the male: Behaviour Vol 78(1-2) 1981, 81-98.
  • Zhang, A., Wang, S., Vitullo, J., Roda, A., Mannion, C., & Bergh, J. C. (2006). Olfactory Discrimination among Sex Pheromone Stereoisomers: Chirality Recognition by Pink Hibiscus Mealybug Males: Chemical Senses Vol 31(7) Sep 2006, 621-626.
  • Zhang, D., & Lin, J. (2006). Mate recognition in a simultaneous hermaphroditic shrimp, Lysmata wurdemanni (Caridea: Hippolytidae): Animal Behaviour Vol 71(5) May 2006, 1191-1196.
  • Zhukovskaya, M. I., Kapitskii, S. V., & Ugolev, D. A. (1992). Aggregation pheromone of the American cockroach: Sensory Systems Vol 6(3) Jul-Sep 1992, 213-215.
  • Zimmerli, E. J., & Mori, A. (1993). The role of an attractive brood pheromone in the obligatory, slavemaking ant, Polyergus breviceps (Hymenoptera: Formicidae): Journal of Insect Behavior Vol 6(6) Nov 1993, 761-770.
  • Zimmermann, Y., Roubik, D. W., & Eltz, T. (2006). Species-specific attraction to pheromonal analogues in orchid bees: Behavioral Ecology and Sociobiology Vol 60(6) Oct 2006, 833-843.
  • Zippel, H. P., Gloger, M., Luthje, L., Nasser, S., & Wilcke, S. (2000). Pheromone discrimination ability of olfactory bulb mitral and ruffed cells in the goldfish (Carassius auratus): Chemical Senses Vol 25(3) Jun 2000, 339-349.
  • Zufall, F., & Leinders-Zufall, T. (2007). Mammalian pheromone sensing: Current Opinion in Neurobiology Vol 17(4) Aug 2007, 483-489.


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