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Metabolic scaling is the product of life-history optimization
Science, 2022Organisms use energy to grow and reproduce, so the processes of energy metabolism and biological production should be tightly bound. On the basis of this tenet, we developed and tested a new theory that predicts the relationships among three fundamental ...
C. R. White +4 more
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Origins of life and evolution of the biosphere, 1996 Abstract The notion that life may have a history dates back only little more than two centuries. Before that, living species were viewed as given once and for all. Life had no more history than the universe. Only we, humans, had a history.
Christian de Duve, Christian de Duve
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Multistate Models for the Analysis of Life History Data
, 2018Multistate models for the analysis of life history data , Multistate models for the analysis of life history data , کتابخانههای دانشگاه ...
R. Cook, J. Lawless
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Effects of life history traits on genetic diversity in plant species
, 1996Seven two-trait combinations (e.g. breeding system and seed dispersal mechanism) of five life history characteristics were used to analyse interspecific variation in the level and distribution of allozyme genetic diversity in seed plants.
J. Hamrick, M. Godt
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Trade-offs in life-history evolution
, 1989Trade-offs represent the costs paid in the currency of fitness when a beneficial change in one trait is linked to a detrimental change in another. If there were no trade-offs, then selection would drive all traits correlated with fitness to limits ...
S. Stearns
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2016
The core premises of Darwinian evolution are survival and reproduction (Darwin 1859); and biological organisms need energy to achieve these goals. All life requires capturing and allocating energy; however, this energy is limited and comes at a cost – organisms cannot expend unlimited resources, maximizing all life domains simultaneously.
Phillip S. Kavanagh, Bianca L. Kahl
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The core premises of Darwinian evolution are survival and reproduction (Darwin 1859); and biological organisms need energy to achieve these goals. All life requires capturing and allocating energy; however, this energy is limited and comes at a cost – organisms cannot expend unlimited resources, maximizing all life domains simultaneously.
Phillip S. Kavanagh, Bianca L. Kahl
openaire +3 more sources