Task-Related Differences in the Cuticular Hydrocarbon Composition of Harvester Ants, Pogonomyrmex barbatus

[1]  A. Gibbs The Role of Lipid Physical Properties in Lipid Barriers , 1998 .

[2]  X. Cerdá,et al.  Social closure, aggressive behavior, and cuticular hydrocarbon profiles in the polydomous antCataglyphis iberica (hymenoptera, Formicidae) , 1996, Journal of Chemical Ecology.

[3]  J. Grace,et al.  Intercaste, intercolony, and temporal variation in cuticular hydrocarbons ofCopotermes formosanus shiraki (Isoptera: Rhinotermitidae) , 1996, Journal of Chemical Ecology.

[4]  D. Gordon The organization of work in social insect colonies , 1996, Nature.

[5]  K. Espelie,et al.  Kin recognition pheromones in social wasps: combining chemical and behavioural evidence , 1996, Animal Behaviour.

[6]  A. Gibbs Physical properties of insect cuticular hydrocarbons: model mixtures and lipid interactions , 1995 .

[7]  A. Gibbs,et al.  Physical properties of insect cuticular hydrocarbons: The effects of chain length, methyl-branching and unsaturation , 1995 .

[8]  Victoria Soroker,et al.  Hydrocarbon dynamics within and between nestmates inCataglyphis niger (Hymenoptera: Formicidae) , 1995, Journal of Chemical Ecology.

[9]  A. Gibbs,et al.  Thermal Acclimation and Genetic Variation in Cuticular Lipids of the Lesser Migratory Grasshopper (Melanoplus sanguinipes): Effects of Lipid Composition on Biophysical Properties , 1994, Physiological Zoology.

[10]  Steve Selvin,et al.  Practical Biostatistical Methods , 1994 .

[11]  E. Morgan,et al.  Change in the chemical signature of the ant leptothorax lichtensteini bondroit with time , 1993 .

[12]  J. Clément,et al.  Functional subcaste discrimination (foragers and brood-tenders) in the antCamponotus vagus scop.: polymorphism of cuticular hydrocarbon patterns , 1993, Journal of Chemical Ecology.

[13]  A. Bagnères,et al.  Interspecific recognition among termites of the genusReticulitermes: Evidence for a role for the cuticular hydrocarbons , 1991, Journal of Chemical Ecology.

[14]  Robert W. Gunderson,et al.  False color data imaging a new pattern recognition technique for analyzing chromatographic profile data , 1990 .

[15]  Deborah M. Gordon,et al.  Dynamics of task switching in harvester ants , 1989, Animal Behaviour.

[16]  Deborah M. Gordon,et al.  Group-level dynamics in harvester ants: young colonies and the role of patrolling , 1987, Animal Behaviour.

[17]  Deborah M. Gordon,et al.  The dynamics of the daily round of the harvester ant colony (Pogonomyrmex barbatus) , 1986, Animal Behaviour.

[18]  G. J. Blomquist,et al.  Cuticular hydrocarbons ofReticulitermes virginicus (Banks) and their role as potential species- and caste-recognition cues , 1982, Journal of Chemical Ecology.

[19]  E. Toolson Effects of rearing temperature on cuticle permeability and epicuticular lipid composition in Drosophila pseudoobscura , 1982 .

[20]  David J. Hand,et al.  Discrimination and Classification , 1982 .

[21]  E. Toolson,et al.  Cuticular Permeability and Epicuticular Lipid Composition in Two Arizona Vejovid Scorpions , 1977, Physiological Zoology.

[22]  K. Arndt,et al.  Chemistry and Biochemistry of Natural Waxes , 1977 .

[23]  C. Brooke Worth,et al.  The Insect Societies , 1973 .

[24]  L. L. Jackson,et al.  Incorporation of labelled dietary n-alkanes into cuticular lipids of the grasshopper Melanoplus sanguinipes , 1973 .

[25]  A. Gibbs,et al.  Effects of temperature on cuticular lipids and water balance in a desert Drosophila: is thermal acclimation beneficial? , 1998, The Journal of experimental biology.

[26]  R. Howard Cuticular hydrocarbons and chemical communication. , 1993 .

[27]  A. Lenoir,et al.  Individual, Geographical and Experimental Variation of Cuticular Hydrocarbons of the Ant Cataglyphis cursor (Hymenoptera: Formicidae)" Their Use in Nest and Subspecies Recognition , 1990 .

[28]  J. Clément,et al.  Nestmate recognition: the role of cuticular hydrocarbons in the ant Camponotus vagus Scop. , 1987 .

[29]  N. F. Hadley,et al.  Water loss in three species of tiger beetles (Cicindela): Correlations with epicuticular hydrocarbons , 1987 .

[30]  M. P. Juárez,et al.  The epicuticular lipids of Triatoma infestans—II. Hydrocarbon dynamics , 1985 .

[31]  M. Renobales,et al.  A developmental study of the composition and biosynthesis of the cuticular hydrocarbons of Trichoplusia ni (Lepidoptera: Noctuidae) , 1983 .

[32]  G. J. Blomquist,et al.  Re-analysis of the cuticular methylalkanes of Solenopsis invicta and S. richteri , 1980 .

[33]  E. Toolson,et al.  Electron paramagnetic resonance spectroscopy of spin-labelled cuticle of Centruroides sculpturatus (Scorpiones: Buthidae): Correlation with thermal effects on cuticular permeability , 1979 .

[34]  N. F. Hadley Cuticular permeability of desert tenebrionid beetles: Correlations with epicuticular hydrocarbon composition , 1978 .

[35]  N. F. Hadley Epicuticular lipids of the desert tenebrionid beetle, Eleodes armata: Seasonal and acclimatory effects on composition , 1977 .

[36]  Kenneth H. Lockey Cuticular hydrocarbons of locusta, schistocerca, and Periplaneta, and their role in waterproofing , 1976 .