Koch 2021 Trends Ecol Evol: Difference between revisions
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|keywords=Bioenergetics, Life-history trade-off, Metabolic rate, Mitochondrial efficiency, Mitochondrial uncoupling, Reactive oxygen species | |keywords=Bioenergetics, Life-history trade-off, Metabolic rate, Mitochondrial efficiency, Mitochondrial uncoupling, Reactive oxygen species | ||
|editor=[[Plangger M]] | |editor=[[Plangger M]] | ||
|mipnetlab=DE Seewiesen Casagrande S, AU Clayton St John J, FR Plouzane Salin K | |||
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{{Labeling | {{Labeling | ||
Revision as of 17:25, 26 February 2021
| [[Has title::Koch RE, Buchanan KL, Casagrande S, Crino O, Dowling DK, Hill GE, Hood WR, McKenzie M, Mariette MM, Noble DWA, Pavlova A, Seebacher F, Sunnucks P, Udino E, White CR, Salin K, Stier A (2021) Integrating mitochondrial aerobic metabolism into ecology and evolution. Trends Ecol Evol [Epub ahead of print].]] |
ยป [[Has info::PMID: 33436278]]
Was written by::Koch Rebecca E, Was written by::Buchanan Katherine L, Was written by::Casagrande Stefania, Was written by::Crino Ondi, Was written by::Dowling Damian K, Was written by::Hill Geoffrey E, Was written by::Hood Wendy R, Was written by::McKenzie Matthew, Was written by::Mariette Mylene M, Was written by::Noble Daniel W A, Was written by::Pavlova Alexandra, Was written by::Seebacher Frank, Was written by::Sunnucks Paul, Was written by::Udino Eve, Was written by::White Craig R, Was written by::Salin Karine, Was written by::Stier Antoine (Was published in year::2021) Was published in journal::Trends Ecol Evol
Abstract: [[has abstract::Biologists have long appreciated the critical role that energy turnover plays in understanding variation in performance and fitness among individuals. Whole-organism metabolic studies have provided key insights into fundamental ecological and evolutionary processes. However, constraints operating at subcellular levels, such as those operating within the mitochondria, can also play important roles in optimizing metabolism over different energetic demands and time scales. Herein, we explore how mitochondrial aerobic metabolism influences different aspects of organismal performance, such as through changing adenosine triphosphate (ATP) and reactive oxygen species (ROS) production. We consider how such insights have advanced our understanding of the mechanisms underpinning key ecological and evolutionary processes, from variation in life-history traits to adaptation to changing thermal conditions, and we highlight key areas for future research.]] โข Keywords: has publicationkeywords::Bioenergetics, has publicationkeywords::Life-history trade-off, has publicationkeywords::Metabolic rate, has publicationkeywords::Mitochondrial efficiency, has publicationkeywords::Mitochondrial uncoupling, has publicationkeywords::Reactive oxygen species โข Bioblast editor: [[has editor::Plangger M]] โข O2k-Network Lab: Was published by MiPNetLab::DE Seewiesen Casagrande S, Was published by MiPNetLab::AU Clayton St John J, Was published by MiPNetLab::FR Plouzane Salin K
Labels: MiParea: MiP area::Respiration
