Trade-offs between larval survival and adult ornament development depend on predator regime in a territorial dragonfly
暂无分享,去创建一个
[1] M. P. Moore,et al. Larval body condition regulates predator-induced life-history variation in a dragonfly. , 2018, Ecology.
[2] M. Wade,et al. What Are the Environmental Determinants of Phenotypic Selection? A Meta-analysis of Experimental Studies , 2017, The American Naturalist.
[3] R. Calsbeek,et al. Performance Tradeoffs, Ontogenetic Conflict, and Multisport Athletes: How is an Ironman Triathlete Like a Frog? , 2017, Integrative and comparative biology.
[4] A. Hendry,et al. How Parallel Is Parallel Evolution? A Comparative Analysis in Fishes , 2017, The American Naturalist.
[5] Joe Hereford,et al. Precipitation drives global variation in natural selection , 2017, Science.
[6] M. P. Moore,et al. Intrasexual selection favours an immune‐correlated colour ornament in a dragonfly , 2016, Journal of evolutionary biology.
[7] M. P. Moore,et al. The predictability and magnitude of life-history divergence to ecological agents of selection: a meta-analysis in livebearing fishes. , 2016, Ecology letters.
[8] R. D. Semlitsch,et al. Top predators and habitat complexity alter an intraguild predation module in pond communities. , 2016, The Journal of animal ecology.
[9] R. Stoks,et al. Larval UV exposure impairs adult immune function through a trade-off with larval investment in cuticular melanin , 2015 .
[10] S. McCauley,et al. Evaluating the use of coded-wire tags in individually marking Odonata larvae , 2015, The Canadian Entomologist.
[11] N. A. Ryan,et al. A trade-off between natural and sexual selection underlies diversification of a sexual signal , 2015 .
[12] N. Morehouse. Condition-dependent ornaments, life histories, and the evolving architecture of resource-use. , 2014, Integrative and comparative biology.
[13] S. Peacor,et al. GAPE‐LIMITED PREDATORS AS AGENTS OF SELECTION ON THE DEFENSIVE MORPHOLOGY OF AN INVASIVE INVERTEBRATE , 2014, Evolution; international journal of organic evolution.
[14] G. Moreno-Rueda,et al. Effects of Limb Length, Body Mass, Gender, Gravidity, and Elevation on Escape Speed in the Lizard Psammodromus algirus , 2014, Evolutionary Biology.
[15] D. Marshall,et al. Faster Is Not Always Better: Selection on Growth Rate Fluctuates across Life History and Environments , 2014, The American Naturalist.
[16] R. Langerhans,et al. EVOLUTION OF MALE COLORATION DURING A POST‐PLEISTOCENE RADIATION OF BAHAMAS MOSQUITOFISH (GAMBUSIA HUBBSI) , 2014, Evolution; international journal of organic evolution.
[17] Christine W. Miller,et al. Sexual selection in complex environments. , 2014, Annual review of entomology.
[18] M. Morrissey,et al. UNIFICATION OF REGRESSION‐BASED METHODS FOR THE ANALYSIS OF NATURAL SELECTION , 2013, Evolution; international journal of organic evolution.
[19] M. Kasumovic. The multidimensional consequences of the juvenile environment: towards an integrative view of the adult phenotype , 2013, Animal Behaviour.
[20] D. Warner,et al. Phenotypic and fitness consequences of maternal nest-site choice across multiple early life stages. , 2013, Ecology.
[21] K. Fedorka,et al. Thermal environment shapes cuticle melanism and melanin-based immunity in the ground cricket Allonemobius socius , 2012, Evolutionary Ecology.
[22] John Hunt,et al. Analyzing and comparing the geometry of individual fitness surfaces , 2012 .
[23] R. Stoks,et al. Evolutionary ecology of Odonata: a complex life cycle perspective. , 2012, Annual review of entomology.
[24] D. Marshall,et al. FITNESS CONSEQUENCES OF LARVAL TRAITS PERSIST ACROSS THE METAMORPHIC BOUNDARY , 2011, Evolution; international journal of organic evolution.
[25] Dustin J. Marshall,et al. Ecological and Evolutionary Consequences of Linked Life-History Stages in the Sea , 2011, Current Biology.
[26] M. Hixon,et al. Sexual and lifetime selection on body size in a marine fish: the importance of life‐history trade‐offs , 2011, Journal of evolutionary biology.
[27] M. Blows,et al. Natural selection stops the evolution of male attractiveness , 2011, Proceedings of the National Academy of Sciences.
[28] J. Kelly,et al. Viability selection prior to trait expression is an essential component of natural selection , 2010, Proceedings of the Royal Society B: Biological Sciences.
[29] T. Uller,et al. Towards an evolutionary ecology of sexual traits. , 2010, Trends in ecology & evolution.
[30] M. Denoël,et al. Consumptive and nonconsumptive effects of cannibalism in fluctuating age-structured populations. , 2010, Ecology.
[31] M. McPeek,et al. Survival selection on escape performance and its underlying phenotypic traits: a case of many‐to‐one mapping , 2009, Journal of evolutionary biology.
[32] Dennis R. Paulson. Dragonflies and Damselflies of the East , 2009 .
[33] Kerry B. Marchinko. PREDATION'S ROLE IN REPEATED PHENOTYPIC AND GENETIC DIVERGENCE OF ARMOR IN THREESPINE STICKLEBACK , 2009, Evolution; international journal of organic evolution.
[34] E. Werner,et al. Metacommunity patterns in larval odonates , 2008, Oecologia.
[35] P. Crowley,et al. Structure and dynamics of odonate communities: accessing habitat, responding to risk, and enabling reproduction , 2008 .
[36] L. Kruuk,et al. Environmental Heterogeneity Generates Fluctuating Selection on a Secondary Sexual Trait , 2008, Current Biology.
[37] J. Hadfield. Estimating evolutionary parameters when viability selection is operating , 2008, Proceedings of the Royal Society B: Biological Sciences.
[38] M. Rantala,et al. Territoriality in odonates , 2008 .
[39] J. Rotenberry,et al. Silent night: adaptive disappearance of a sexual signal in a parasitized population of field crickets , 2006, Biology Letters.
[40] R. Stoks,et al. INVERTEBRATE PREDATION SELECTS FOR THE LOSS OF A MORPHOLOGICAL ANTIPREDATOR TRAIT , 2006, Evolution; international journal of organic evolution.
[41] S. Bensch,et al. Molecular population divergence and sexual selection on morphology in the banded demoiselle (Calopteryx splendens) , 2004, Heredity.
[42] R. Langerhans,et al. Shared and Unique Features of Evolutionary Diversification , 2004, The American Naturalist.
[43] B. Sinervo,et al. Physiological Epistasis, Ontogenetic Conflict and Natural Selection on Physiology and Life History1 , 2003, Integrative and comparative biology.
[44] H. Nijhout,et al. Rapid evolution of a polyphenic threshold , 2003, Evolution & development.
[45] A. D. de Roos,et al. Gigantic cannibals driving a whole-lake trophic cascade , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[46] J. Kotiaho. Costs of sexual traits: a mismatch between theoretical considerations and empirical evidence , 2001, Biological reviews of the Cambridge Philosophical Society.
[47] M. Petrie,et al. Sexually Selected Traits and Adult Survival: A Meta-Analysis , 2001, The Quarterly Review of Biology.
[48] W. Rice,et al. Negative genetic correlation for adult fitness between sexes reveals ontogenetic conflict in Drosophila. , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[49] R. Brooks. Negative genetic correlation between male sexual attractiveness and survival , 2000, Nature.
[50] P. V. Tienderen,et al. ELASTICITIES AND THE LINK BETWEEN DEMOGRAPHIC AND EVOLUTIONARY DYNAMICS , 2000 .
[51] P. Corbet. Dragonflies: Behavior and Ecology of Odonata , 1999 .
[52] H. Stern,et al. LOGISTIC REGRESSION FOR EMPIRICAL STUDIES OF MULTIVARIATE SELECTION , 1998, Evolution; international journal of organic evolution.
[53] E. Werner,et al. NATURAL SELECTION FOR ENVIRONMENTALLY INDUCED PHENOTYPES IN TADPOLES , 1997, Evolution; international journal of organic evolution.
[54] G. Uetz,et al. Estimating fitness : a comparison of body condition indices , 1996 .
[55] G. Grether. INTRASEXUAL COMPETITION ALONE FAVORS A SEXUALLY DIMORPHIC ORNAMENT IN THE RUBYSPOT DAMSELFLY HETAERINA AMERICANA , 1996, Evolution; international journal of organic evolution.
[56] G. Grether,et al. SEXUAL SELECTION AND SURVIVAL SELECTION ON WING COLORATION AND BODY SIZE IN THE RUBYSPOT DAMSELFLY HETAERINA AMERICANA , 1996, Evolution; international journal of organic evolution.
[57] P. Crowley,et al. DENSITY DEPENDENCE, HATCHING SYNCHRONY, AND WITHIN-COHORT CANNIBALISM IN YOUNG DRAGONFLY LARVAE' , 1996 .
[58] J. Greenwood,et al. Predation risk and the cost of being fat , 1995, Nature.
[59] Douglas W. Nychka,et al. Exploring Fitness Surfaces , 1994, The American Naturalist.
[60] S. Wissinger. Niche Overlap and the Potential for Competition and Intraguild Predation Between Size‐Structured Populations , 1992 .
[61] J. Endler. Signals, Signal Conditions, and the Direction of Evolution , 1992, The American Naturalist.
[62] D. Schluter,et al. Conflicting selection pressures and life history trade-offs , 1991, Proceedings of the Royal Society of London. Series B: Biological Sciences.
[63] Allen J Moore,et al. THE EVOLUTION OF SEXUAL DIMORPHISM BY SEXUAL SELECTION: THE SEPARATE EFFECTS OF INTRASEXUAL SELECTION AND INTERSEXUAL SELECTION , 1990, Evolution; international journal of organic evolution.
[64] S. Wissinger. Spatial distribution, life history and estimates of survivorship in a fourteen-species assemblage of larval dragonflies (Odonata: Anisoptera) , 1988 .
[65] W. Koenig,et al. LIFETIME REPRODUCTIVE SUCCESS, SELECTION, AND THE OPPORTUNITY FOR SELECTION IN THE WHITE‐TAILED SKIMMER PLATHEMIS LYDIA (ODONATA: LIBELLULIDAE) , 1987, Evolution; international journal of organic evolution.
[66] C. M. Lessells,et al. Unrepeatable repeatabilities: a common mistake , 1987 .
[67] S. J. Arnold,et al. ON THE MEASUREMENT OF NATURAL AND SEXUAL SELECTION: THEORY , 1984, Evolution; international journal of organic evolution.
[68] K. Sherman. The adaptive significance of postcopulatory mate guarding in a dragonfly, Pachydiplax longipennis , 1983, Animal Behaviour.
[69] S. J. Arnold,et al. THE MEASUREMENT OF SELECTION ON CORRELATED CHARACTERS , 1983, Evolution; international journal of organic evolution.
[70] J. Endler. NATURAL SELECTION ON COLOR PATTERNS IN POECILIA RETICULATA , 1980, Evolution; international journal of organic evolution.
[71] R. Meldola. Sexual Selection , 1871, Nature.