Angerilli, N. P. D.1980. Influences of extraction of freshwater vegetation on the survival and oviposition by Aedes aegypti(Diptera: Culicidae). Can. Entomol.112:1249–1252.
Bentley, M. D., and Day, J. F.1989. Chemical ecology and behavioral aspects of mosquito oviposition. Annu. Rev. Entomol.34:401–421.
Blaustein, L., and Kotler, B. P.1993. Oviposition habitat selection by the mosquito, Culista longiareolata: Effects of conspecifics, food, and green toad tadpoles. Ecol. Entomol.18:104–108.
Chesson, J.1984. Effect of notonectids (Hemiptera: Notonectidae) on mosquitoes (Diptera: Culicidae): Predation or selective oviposition? Environ. Entomol.13:531–538.
Chivers, D. P., and Smith, R. J. F.1998. Chemical alarm signaling in aquatic predator/prey interactions: A review and prospectus. Ecoscience5:338–352.
Chivers, D. P., Wisenden, B. D., and Smith, R. J. F.1996. Damselfly larvae learn to recognize predators from chemical cues in the predator' diet. Anim. Behav.52:315–320.
Courtenay, W. R., and Meffe, G. K.1989. Small fishes in strange places: A review of introduced Poeciliids, pp. 319–331, inG. K. Meffe and F. F. Snelson (eds.). Ecology and Evolution of Live bearing Fishes (Poeciliidae). Prentice Hall, Englewood Cliffs, New Jersey.
Davis, E. E.1976. A Receptor sensitive to oviposition site attractants on the antennae of the mosquito, Aedes aegypti. J. Insect Physiol. 22:1371–1376.
Edgerly, J. S., McFarland, M., Morgan, P., and Livdahl, T.1998. A seasonal shift in egg-laying behavior in response to cues of future competition in a tree hole mosquito. J. Anim. Ecol.67: 805–818. MOSQUITOFISH CHEMICALS AND CulexOVIPOSITION 805
Flowers, M. A., and Graves, B. M.1997. Juvenile toads avoid chemical cues from snake predators. Anim. Behav.53:641–646.
Gamradt, S. C., and Kats, L. B.1996. The effects of introduced crayfish and mosquitofish on California newts (Taricha torosa). Cons. Biol.10:1155–1162.
Gillett, J. D.1972. The Mosquito. Doubleday & Company, Inc., Garden City.
Grostal, P., and Dicke, M.1999. Direct and indirect cues of predation risk influence behavior and reproduction of prey: a case for acarine interactions. Behav. Ecol.10:422–427.
Grubb, J. C.1972. Differential predation by Gambusia affinison the eggs of seven species of anuran amphibians. Am. Midl. Nat.88:102–108.
Huryn, A. D., and Chivers, D. P.1999. Contrasting behavioral responses by detritivorous and predatory mayflies to chemicals released by injured conspecifics and their predators. J. Chem. Ecol.25:2719–2740.
Kats, L. B., and Dill, L. M.1998. The scent of death: Chemosensory assessment of predation risk by prey animals. Ecoscience5:361–394.
Kats, L. B., Petranka, J. P., and Sih, A.1988. Anti-predator defenses and the persistence of amphibian larvae with fish. Ecology69:1865–1870.
Kerfoot, C., and Sih, A.1987. Predation: Direct and Indirect Impacts on Aquatic Communities. University Press of New England, Hanover, New Hampshire.
King, W. V., Bradley, G. H., and McNeel, T. E.1944. The Mosquitoes of the Southeastern States. United States Department of Agriculture, Washington, D.C. pp. 40, 76–87.
Klowden, M. J., and Blackmer, J. L.1987. Humeral control of pre-oviposition behavior in the mosquito, Aedes aegypti. J. Insect Physiol.33:689–692.
Komak, S., and Crossland, M. R.2000. An assessment of the introduced mosquitofish (Gambusia affinis holbrooki) as a predator of eggs, hatchlings and tadpoles of native and non-native anurans. Wildl. Res.27:185–189.
Laurila, A., Kujasalo, J., and Ranta, E.1997. Different antipredator behaviour in two anuran tadpoles: Effects of predator diet. Behav. Ecol. Sociobiol.40:329–336.
Lloyd, L. N., Arthington, A. H., and Milton, D. A.1986. The mosquitofish—a valuable mosquito control agent or a pest? pp. 7–25, inR. L. Kitching (ed.). The Ecology of Exotic Animals and Plants: Some Austrailian Case Histories. John Wiley and Sons, Brisbane.
Mathis, A., Chivers, D. P., and Smith, R. J. F.1993. Population differences in responses of fathead minnows (Pimephales promelas) to visual and chemical stimuli from predators. Ethology93:31–40.
Moyle, P. B.1976. Fish introductions in California: History and impact on native fishes. Biol. Conserv.9:101–118.
Nordlund, D. A.1981. Semiochemicals: A review of the terminology. pp. 13–28, inD. A. Nordlund, R. L. Jones, and W. J. Lewis (eds.). Semiochemicals: Their Role in Pest Control. John Wiley & Sons, New York.
Ode, P. R., and Wissinger, S. A.1993. Interaction between chemical and tactile cues in mayfly detection of stoneflies. Freshwater Biol.30:351–357.
Petranka, J. W., and Fakhoury, K.1991. Evidence of a chemically mediated avoidance response of ovipositing insects to bluegills and green frog tadpoles. Copeia1991:234–239.
Petranka, J. W., and Hayes, L.1998. Chemically mediated avoidance of a predatory odonate (Anax junius)by American toad (Bufo americanus) and wood frog (Rana sylvatica) tadpoles. Behav. Ecol. Sociobiol.42:263–271.
Ritchie, S. A., and Laidlaw-Bell, C.1994. Do fish repel oviposition by Aedes taeniorhychus? J. Am. Mosquito Control Assoc.10:380–384.
SAS Institute. 1989. SAS user' guide. 4th edition. Cary, North Carolina.
Stav, G., Blaustein, L., and Margalith, J.1999. Experimental evidence for predation risk sensitive oviposition by a mosquito, Culiseta longiareolata. Ecol. Entomol.24:202–207.
Stein, R. A.1979. Behavioral responses of prey to fish predators. pp. 343–353, inH. Clepper (ed.). Predator Prey Systems in Fisheries Management. Sport Fishing Institute, Washington, D.C.
Weldon, P. J.1990. Responses by vertebrates to chemicals from predators. pp. 500–521, inD.W. MacDonald, D. Muller-Schwarze, and S. E. Natynczuk (eds.). Chemical Signals in Vertebrates. Oxford University Press, New York.
Williams, D. D., and Moore, K. A.1985. The role of semiochemicals in benthic community relationships of the lotic amphipod Gammarus pseudolimnaeus:Alaboratory analysis. Oikos44:280–286.