Vertical Migration in Daphnia: The Role of Phenotypic Plasticity in the Migration Pattern for Competing Clones or Species

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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Role of large-scale advection and small-scale turbulence on vertical migration of gyrotactic swimmers

Physical Review Fluids ◽

10.1103/physrevfluids.4.124304 ◽

2019 ◽

Vol 4 (12) ◽

Author(s):

C. Marchioli ◽

H. Bhatia ◽

G. Sardina ◽

L. Brandt ◽

A. Soldati

Keyword(s):

Vertical Migration ◽

Large Scale ◽

Small Scale ◽

Scale Turbulence

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Phenotypic plasticity with respect to salt stress response by Lotus glaber: the role of its AM fungal and rhizobial symbionts

Mycorrhiza ◽

10.1007/s00572-008-0184-3 ◽

2008 ◽

Vol 18 (6-7) ◽

pp. 317-329 ◽

Cited By ~ 25

Author(s):

Mariela Echeverria ◽

Agustina Azul Scambato ◽

Analía Inés Sannazzaro ◽

Santiago Maiale ◽

Oscar Adolfo Ruiz ◽

...

Keyword(s):

Salt Stress ◽

Stress Response ◽

Phenotypic Plasticity ◽

Salt Stress Response ◽

Lotus Glaber

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Phenotypic plasticity as a long-term memory easing readaptations to ancestral environments

Science Advances ◽

10.1126/sciadv.aba3388 ◽

2020 ◽

Vol 6 (21) ◽

pp. eaba3388 ◽

Cited By ~ 1

Author(s):

Wei-Chin Ho ◽

Diyan Li ◽

Qing Zhu ◽

Jianzhi Zhang

Keyword(s):

Phenotypic Plasticity ◽

Long Term Memory ◽

Reciprocal Transplant ◽

The Tibetan Plateau ◽

Future Evolution ◽

Egg Hatchability ◽

Plastic Changes ◽

Transcriptomic Changes

Phenotypic plasticity refers to environment-induced phenotypic changes without mutation and is present in all organisms. The role of phenotypic plasticity in organismal adaptations to novel environments has attracted much attention, but its role in readaptations to ancestral environments is understudied. To address this question, we use the reciprocal transplant approach to investigate the multitissue transcriptomes of chickens adapted to the Tibetan Plateau and adjacent lowland. While many genetic transcriptomic changes had occurred in the forward adaptation to the highland, plastic changes largely transform the transcriptomes to the preferred state when Tibetan chickens are brought back to the lowland. The same trend holds for egg hatchability, a key component of the chicken fitness. These findings, along with highly similar patterns in comparable experiments of guppies and Escherichia coli, demonstrate that organisms generally “remember” their ancestral environments via phenotypic plasticity and reveal a mechanism by which past experience affects future evolution.

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