SEARCH

SEARCH BY CITATION

References

  • Alpert, P. & Simms, E.L. (2002) The relative advantages of plasticity and fixity in different environments: when is it good for a plant to adjust? Evolutionary Ecology, 16, 285297.
  • Ancel, L.W. (1999) A quantitative model of the Simpson-Baldwin effect. Journal of Theoretical Biology, 196, 197209.
  • Ancel, L.W. (2000) Undermining the Baldwin expediting effect: does phenotypic plasticity accelerate evolution? Theoretical Population Biology, 58, 307319.
  • Arnett, A.E. & Gotelli, N.J. (1999a) Bergmann's rule in the ant lion Myrmeleon immaculatus DeGeer (Neuroptera: Myrmeleontidae): geographic variation in body size and heterozygosity. Journal of Biogeography, 26, 275283.
  • Arnett, A.E. & Gotelli, N.J. (1999b) Geographic variation in life-history traits of the ant lion Myrmeleon immaculatus: evolutionary implications of Bergmann's rule. Evolution, 53, 11801188.
  • Arnett, A.E. & Gotelli, N.J. (2003) Bergmann's rule in larval ant lions: testing the starvation resistance hypothesis. Ecological Entomology, 28, 645650.
  • Carroll, S.P., Hendry, A.P., Reznick, D.N. & Fox, C.W. (2007) Evolution on ecological time-scales. Functional Ecology, 21, 387393.
  • Dmitriew, C. & Rowe, L. (2005) Resource limitation, predation risk and compensatory growth in a damselfly. Oecologia, 142, 150154.
  • Ellner, S. & Hairston, N.G. (1994) Role of overlapping generations in maintaining genetic variation in a fluctuating environment. American Naturalist, 143, 403417.
  • Fear, K.K. & Price, T. (1998) The adaptive surface in ecology. Oikos, 82, 440448.
  • Filin, I. (2009) A diffusion-based approach to stochastic individual growth and energy budget, with consequences to life-history optimization and population dynamics. Journal of Evolutionary Biology, 22, 12521267.
  • Filin, I. (2010) Target size and optimal life history when individual growth and energy budget are stochastic. Journal of Theoretical Biology, 264, 510516.
  • Fischer, K., Zeilstra, I., Hetz, S.K. & Fiedler, K. (2005) Physiological costs of growing fast: does accelerated growth reduce pay-off in adult fitness? Evolutionary Ecology, 18, 343353.
  • Gavrilets, S. & Scheiner, S.M. (1993) The genetics of phenotypic plasticity. 5. Evolution of reaction norm shape. Journal of Evolutionary Biology, 6, 3148.
  • Gibbs, A.G. (1998) Water-proofing properties of cuticular lipids. American Zoologist, 38, 471482.
  • Gibbs, A.G. (2002) Lipid melting and cuticular permeability: new insights into an old problem. Journal of Insect Physiology, 48, 391400.
  • Goldreich, Y. (2003) The Climate of Israel. Kluwer Academic/Plenum Publishers, New York, New York.
  • Gotelli, N.J. (1993) Ant lion zones—Causes of high-density predator aggregations. Ecology, 74, 226237.
  • Gotelli, N.J. (1996) Ant community structure: effects of predatory ant lions. Ecology, 77, 630638.
  • Gotthard, K. (2000) Increased risk of predation as a cost of high growth rate: an experimental test in a butterfly. Journal of Animal Ecology, 69, 896902.
  • Gotthard, K. (2001). Growth strategies of ectothermic animals in temperate environments. In Environment and Animal Development (ed., by D. Atkinson & M. Thorndyke), pp. 287-304. BIOS Scientific, Oxford, U.K.
  • Gotthard, K., Nylin, S. & Wiklund, C. (1994) Adaptive variation in growth rate: life history costs and consequences in the speckled wood butterfly, Pararge aegeria. Oecologia, 99, 281289.
  • Hosmer, D.W. & Lemeshow, S. (1999) Applied Survival Analysis: Regression Modeling of Time to Event Data. Wiley, New York, New York.
  • Huey, R.B. & Pianka, E.R. (1981) Ecological consequences of foraging mode. Ecology, 62, 991999.
  • Huey, R.B., Hertz, P.E. & Sinervo, B. (2003) Behavioral drive versus behavioral inertia in evolution: a null model approach. American Naturalist, 161, 357366.
  • Jespersen, L.B. & Toft, S. (2003) Compensatory growth following early nutritional stress in the Wolf Spider Pardosa prativaga. Functional Ecology, 17, 737746.
  • Kalra, B. & Gefen, E. (2012) Scorpions regulate their energy metabolism towards increased carbohydrate oxidation in response to dehydration. Comparative Biochemistry and Physiology. A, Comparative Physiology, 162, 372377.
  • McDonald, J.F. & Ayala, F.J. (1974) Genetic response to environmental heterogeneity. Nature, 250, 572574.
  • Metcalfe, N.B. & Monaghan, P. (2001) Compensation for a bad start: grow now, pay later? Trends in Ecology & Evolution, 16, 254260.
  • Niewiarowski, P.H. (1995) Effects of supplemental feeding and thermal environment on growth rates of eastern fence lizards, Sceloporus undulatus. Herpetologica, 51, 487496.
  • Niewiarowski, P.H. & Roosenburg, W. (1993) Reciprocal transplant reveals sources of variation in growth rates of the lizard Sceloporus undulatus. Ecology, 74, 19922002.
  • Perry, G. & Pianka, E.R. (1997) Animal foraging: past, present and future. Trends in Ecology & Evolution, 12, 360364.
  • Reznick, D.N. (1990) Plasticity in age and size at maturity in male guppies (Poecilia reticulata): an experimental evaluation of alternative models of development. Journal of Evolutionary Biology, 3, 185203.
  • Riechert, S.E. (1992) Spiders as representative ‘sit-and-wait’ predators. Natural Enemies: The Population Biology of Predators, Parasites and Diseases (ed. by M. J. Crawley), pp. 313328. Blackwell, Oxford, U.K.
  • Roff, D.A. (2005) Variation and life-history evolution. Variation (ed. by B. Hallgrímson and B. K. Hall), pp. 333358. Elsevier Academic Press, Burlington, Massachusetts.
  • Rosenberg, R.H. (1987) Pit dispersion in antlion larvae (Neuroptera, Myrmeleontidae)—is competition important? Florida Entomologist, 70, 175178.
  • Rotkopf, R., Alcalay, Y., Bar-Hanin, E., Barkae, E.D. & Ovadia, O. (2013) Slow growth improves compensation ability: examining growth rate and starvation endurance in pit-building antlions from semi-arid and hyper-arid regions. Evolutionary Ecology, 27, 11291144.
  • Scharf, I., Filin, I., Golan, M., Buchshtav, M., Subach, A. & Ovadia, O. (2008) A comparison between desert and Mediterranean antlion populations: differences in life history and morphology. Journal of Evolutionary Biology, 21, 162172.
  • Scharf, I., Filin, I. & Ovadia, O. (2009) A trade-off between growth and starvation endurance in a pit-building antlion. Oecologia, 160, 453460.
  • Simon, D. (1988) Ant-lions (Neuroptera: Myrmeleontidae) of the coastal plain: systematical, ecological, and zoogeographical aspects with emphasis on the coexistence of a species guild of the unstable dunes. PhD, Tel-Aviv University, Israel.
  • Slatkin, M. (1974) Hedging one's evolutionary bets. Nature, 250, 704705.
  • Stockhoff, B.A. (1991) Starvation resistance of gypsy moth, Lymantria dispar (L.) (Lepidoptera, Lymantriidae): tradeoffs among growth, body size, and survival. Oecologia, 88, 422429.
  • Stoks, R., De Block, M. & McPeek, M.A. (2006) Physiological costs of compensatory growth in a damselfly. Ecology, 87, 15661574.
  • Sultan, S.E. & Stearns, S.C. (2005) Environmentally contingent variation: phenotypic plasticity and norms of reaction. Variation (ed. by B. Hallgrímson and B. K. Hall), pp. 303332. Elsevier Academic Press, Burlington, Massachusetts.
  • Ward, D. & Slotow, R. (1992) The effects of water availability on the life history of the desert snail, Trochoidea seetzeni. Oecologia, 90, 572580.
  • Zinke, I., Schutz, C.S., Katzenberger, J.D., Bauer, M. & Pankratz, M.J. (2002) Nutrient control of gene expression in Drosophila: microarray analysis of starvation and sugar-dependent response. EMBO Journal, 21, 61626173.