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Libri sul tema "Phenotypic plasticity"

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Autore: Grafiati
Pubblicato: 4 giugno 2021
Ultima modifica: 15 giugno 2024

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1

J, DeWitt Thomas, e Scheiner Samuel M. 1956-, a cura di. Phenotypic plasticity: Functional and conceptual approaches. New York: Oxford University Press, 2004.

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2

Phenotypic plasticity: Beyond nature and nurture. Baltimore: Johns Hopkins University Press, 2001.

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3

van, Gils Jan A., a cura di. The flexible phenotype: Towards a body-centred integration of ecology, physiology, and behaviour. Oxford: Oxford University Press, 2010.

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4

Douglas, Whitman, e Ananthakrishnan T. N. 1925-, a cura di. Phenotypic plasticity of insects: Mechanisms and consequences. Enfield, N.H: Science Publishers, 2008.

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5

Trainor, F. R. Biol ogical aspects of Scenedesmus (Chlorophyceae) - phenotypic plasticity. Berlin: J. Cramer, 1998.

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6

Phenotypic variation: Exploration and functional genomics. Oxford: Oxford University Press, 2010.

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7

Reimer, Olof. Predator-induced phenotypic plasticity in the marine mussel Mytilus edulis. Stockholm: Univ., 1999.

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8

Gluckman, Peter (Peter D.), 1949- author, a cura di. Plasticity, Robustness, Development and Evolution. Cambridge: Cambridge University Press, 2011.

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9

Rocky Mountain Research Station (Fort Collins, Colo.), a cura di. Dynamic phenotypic plasticity in photosynthesis and biomass patterns in Douglas-fir seedlings. Fort Collins, CO: U.S. Dept. of Agriculture, Forest Service, Rocky Mountain Research Station, 2010.

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10

Biological aspects of Scenedesmus (Chlorophyceae) - phenotypic plasticity: With many figures and tables. Berlin: J. Cramer in der Gebr. Borntraeger Verlagsbuchhandlung, 1998.

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11

Krishnaraj, Rangathilakam. Phenotypic plasticity of Trichogramma minutum Riley (Hymenoptera: Trichogrammatidae) and its implications for mass rearing. Ottawa: National Library of Canada, 2000.

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12

D, Varfolomeyev S., e Zaikov Gennadiĭ Efremovich, a cura di. Molecular polymorphism of man: Structural and functional individual multiformity of biomacromolecules. Hauppauge, NY: Nova Science Publishers, 2009.

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13

D, Varfolomeyev S., e Zaikov Gennadiĭ Efremovich, a cura di. Molecular polymorphism of man: Structural and functional individual multiformity of biomacromolecules. Hauppauge, NY: Nova Science Publishers, 2009.

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14

David, Epel, a cura di. Ecological developmental biology: Integrating epigenetics, medicine, and evolution. Sunderland, Mass., U.S.A: Sinauer, 2009.

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15

Lippert, Kelly A. Yellow perch (Perca Flavescens) phenotyic plasticity: Rapid changes following the arrival of a predator. Sudbury, Ont: Laurentian University, School of Graduate Studies, 2006.

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16

Williams, Karen D., e Marla B. Sokolowski. Phenotypic plasticity. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198797500.003.0005.

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Abstract (sommario):
Why is there so much variation in insect behavior? This chapter will address the sources of behavioral variability, with a particular focus on phenotypic plasticity. Variation in social, nutritional, and seasonal environmental contexts during development and adulthood can give rise to phenotypic plasticity. To delve into mechanism underlying behavioral flexibility in insects, examples of polyphenisms, a type of phenotypic plasticity, will be discussed. Selected examples reveal that environmental change can affect gene expression, which in turn can affect behavioral plasticity. These changes in gene expression together with gene-by-environment interactions are discussed to illuminate our understanding of insect behavioral plasticity.
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17

Whitman, Douglas, e T. Ananthakrishnan, a cura di. Phenotypic Plasticity of Insects. Science Publishers, 2009. http://dx.doi.org/10.1201/b10201.

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18

(Editor), T. N. Ananthakrishnan, e Douglas Whitman (Editor), a cura di. Insect Phenotypic Plasticity: Diversity of Responses. Science Publishers, 2005.

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19

Ferrao, Petranel Theresa, Andreas Behren, Robin Anderson e Erik Thompson, a cura di. Cellular and Phenotypic Plasticity in Cancer. Frontiers Media SA, 2015. http://dx.doi.org/10.3389/978-2-88919-662-3.

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20

Ananthakrishnan, T. N. Insect Phenotypic Plasticity: Diversity of Responses. Taylor & Francis Group, 2005.

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21

Phenotypic plasticity: Functional and conceptual approaches. New York, NY: Oxford University Press, 2003.

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22

DeWitt, Thomas J., e Samuel M. Scheiner. Phenotypic Plasticity: Functional and Conceptual Approaches. Oxford University Press, 2004.

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23

Ananthakrishnan, T. N. Insect Phenotypic Plasticity: Diversity of Responses. Taylor & Francis Group, 2005.

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24

Phenotypic Plasticity and Evolution: Causes, Consequences, Controversies. Taylor & Francis Group, 2021.

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25

Pfennig, David W. PHENOTYPIC PLASTICITY and EVOLUTION: Contexts Causes Consequences. Taylor & Francis Group, 2021.

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26

West-Eberhard, Mary Jane. Developmental Plasticity and Evolution. Oxford University Press, USA, 2003.

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27

West-Eberhard, Mary Jane. Developmental Plasticity and Evolution. Oxford University Press, USA, 2003.

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28

West-Eberhard, Mary Jane. Developmental Plasticity and Evolution. Oxford University Press, 2003.

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29

Ravasi, Timothy, Jennifer Marie Donelson, Jose M. Eirin-Lopez e Lisa N. S. Shama, a cura di. Adaptation and Phenotypic Plasticity to Climate Change. Frontiers Media SA, 2022. http://dx.doi.org/10.3389/978-2-88976-131-9.

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30

Phenotypic Plasticity of Insects: Mechanisms and Consequence. Science Pub Inc, 2007.

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31

Whitman, Douglas. Phenotypic Plasticity of Insects: Mechanisms and Consequences. Taylor & Francis Group, 2009.

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32

Pfennig, David W. Phenotypic Plasticity and Evolution: Causes, Consequences, Controversies. Taylor & Francis Group, 2021.

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33

Pfennig, David W. Phenotypic Plasticity and Evolution: Causes, Consequences, Controversies. Taylor & Francis Group, 2021.

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34

Gils, Jan A., e Theunis Piersma. Flexible Phenotype: A Body-Centred Integration of Ecology, Physiology, and Behaviour. Oxford University Press, 2010.

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35

Piersma, Theunis, e Jan A. van Gils. Flexible Phenotype: A Body-Centred Integration of Ecology, Physiology, and Behaviour. Oxford University Press, 2010.

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36

Otte, Tobias. Phenotypic Plasticity of Cuticular Hydrocarbons in Herbivorous Insects. Logos Verlag Berlin, 2015.

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37

Scheiner, Samuel M. Phenotypic Plasticity: Functional and Conceptual Approaches (Life Sciences). Oxford University Press, USA, 2003.

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38

McAlister, Justin S., e Benjamin G. Miner, a cura di. Phenotypic Plasticity of Feeding Structures in Marine Invertebrate Larvae. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198786962.003.0008.

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Abstract (sommario):
Nearly three decades ago, biologists discovered that planktotrophic larvae of sea urchins can alter the size of their ciliated feeding structures in response to the concentration of food (i.e., unicellular algae). In the years since, this response has become one of the best-studied examples of phenotypic plasticity in marine organisms. Researchers have found that this form of plasticity occurs widely among different types of feeding larvae in several phyla, and involves energetic trade-offs with a suite of correlated life history characters. Furthermore, investigators have recently started to unravel the genetic and molecular mechanisms underlying this plasticity. We review the literature on feeding-structure plasticity in marine invertebrate larvae. We highlight the diversity of species and variety of experimental designs and statistical methodologies, summarize research findings to draw more general conclusions, and target promising directions for future research.
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39

Smith, Moyra. Phenotypic Variation: Exploration and Functional Genomics. Oxford University Press, 2010.

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40

Smith, Moyra. Phenotypic Variation: Exploration and Functional Genomics. Oxford University Press, Incorporated, 2010.

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41

Phenotypic Plasticity: Molecular Mechanisms, Evolutionary Significance and Impact on Speciation. Nova Science Pub Inc, 2013.

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42

Kurashige, Nile S. Phenotypic plasticity to light competition and herbivory in Chenopodium album. 2004.

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43

Guo, Wei, S. Reddy Palli, Fei Li e Zhongxia Wu, a cura di. Genetic and Epigenetic Regulation of Insect Development, Reproduction, and Phenotypic Plasticity. Frontiers Media SA, 2022. http://dx.doi.org/10.3389/978-2-88974-355-1.

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44

Kunz, Camilla. Genetic Variation and Phenotypic Plasticity in Body Traits of Nestling Blue Tits. Uppsala Universitet, 1999.

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45

Minelli, Alessandro. Evolvability and Its Evolvability. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199377176.003.0007.

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Abstract (sommario):
No universally accepted notion of evolvability is available, focus being alternatively put onto either genetic or phenotypic change. The heuristic power of this concept is best found when considering the intricacies of the genotype→phenotype map, which is not necessarily predictable, expression of variation depending on the structure of gene networks and especially on the modularity and robustness of developmental systems. We can hardly ignore evolvability whenever studying the role of cryptic variation in evolution, the often pervious boundary between phenotypic plasticity and the expression of a genetic polymorphism, the major phenotypic leaps that the mechanisms of development can produce based on point mutations, or the morphological stasis that reveals how robust a developmental process can be in front of genetic change. Evolvability is subject itself to evolution, but it is still uncertain to what extent there is positive selection for enhanced evolvability, or for evolvability biased in a specific direction.
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46

Nijhout, H. Frederik, e Emily Laub. The role of hormones. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198797500.003.0004.

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Abstract (sommario):
Many behaviors of insects are stimulated, modified, or modulated by hormones. The principal hormones involved are the same as the ones that control moulting, metamorphosis, and other aspects of development, principally ecdysone and juvenile hormone. In addition, a small handful of neurosecretory hormones are involved in the control of specific behaviors. Because behavior is a plastic trait, this chapter begins by outlining the biology and hormonal control of phenotypic plasticity in insects, and how the hormonal control of behavior fits in with other aspects of the control of phenotypic plasticity. The rest of the chapter is organized around the diversity of behaviors that are known to be controlled by or affected by hormones. These include eclosion and moulting behavior, the synthesis and release of pheromones, migration, parental care, dominance, reproductive behavior, and social behavior.
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47

McGuire, Michael, e Alfonso Troisi. Personality Conditions. Oxford University Press, 2015. http://dx.doi.org/10.1093/med:psych/9780195116731.003.0009.

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Abstract (sommario):
The chapter begins with discussions of adaptive genetic variation and phenotypic plasticity, life history strategies, short-term strategies, prevailing models of personality disorders, and traits. These topics introduce new points and briefly review key points discussed earlier in order to set the context for the second part of the chapter, where personality disorders are interpreted in an evolutionary context.
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48

McGrath, Joanne C. A comparison of phenotypic plasticity in lythrum salicaria l., an invasive hydrophyte, and lythrum alatum pursh., its noninvasive congener: A thesis in Biology. 1995.

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49

Bochaton-Piallat, Marie-Luce, Carlie J. M. de Vries e Guillaume J. van Eys. Vascular smooth muscle cells. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780198755777.003.0007.

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Abstract (sommario):
To understand the function of arteries in the regulation of blood supply throughout the body it is essential to realize that the vessel wall is composed predominantly of smooth muscle cells (SMCs) with only one single layer of luminal endothelial cells. SMCs determine the structure of arteries and are decisive in the regulation of blood flow. This review describes the reason for the large variation of SMCs throughout the vascular tree. This depends on embryonic origin and local conditions. SMCs have the unique capacity to react to these conditions by modulating their phenotype. So, in one situation SMCs may be contractile in response to blood pressure, in another situation they may be synthetic, providing compounds to increase the strength of the vascular wall by reinforcing the extracellular matrix. This phenotypic plasticity is necessary to keep arteries functional in fulfilling the metabolic demands in the various tissues of the body.
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50

Wyatt, Tristram D. 3. How behaviour develops. Oxford University Press, 2017. http://dx.doi.org/10.1093/actrade/9780198712152.003.0003.

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Abstract (sommario):
Behaviours evolve by natural selection. As genes influence how behaviours develop, selection on behaviour will alter gene frequencies in subsequent generations: genes that lead to successful behaviours in foraging, parental care, or mate choice, for example, will be represented in more individuals in future generations. If conditions change, then mutations of the genes that give rise to advantageous behaviours will be favoured by selection. ‘How behaviour develops’ explains that the environment is equally important: both genes and environment are intimately and interactively involved in behaviour development. Behavioural imprinting is also discussed along with co-opting genes, gene regulation, social influences on brain gene expression, phenotypic plasticity, and play.
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