Julie Sainmont scite author profile

The size of an individual organism is a key trait to characterize its physiology and feeding ecology. Size-based scaling laws may have a limited size range of validity or undergo a transition from one scaling exponent to another at some characteristic size. We collate and review data on size-based scaling laws for resource acquisition, mobility, sensory range, and progeny size for all pelagic marine life, from bacteria to whales. Further, we review and develop simple theoretical arguments for observed scaling laws and the characteristic sizes of a change or breakdown of power laws. We divide life in the ocean into seven major realms based on trophic strategy, physiology, and life history strategy. Such a categorization represents a move away from a taxonomically oriented description toward a trait-based description of life in the oceans. Finally, we discuss life forms that transgress the simple size-based rules and identify unanswered questions.

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Capital versus Income Breeding in a Seasonal Environment

Sainmont

Andersen

Varpe

et al. 2014

The American Naturalist

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The allocation of resources between growth, storage, and reproduction is a key trade-off in the life-history strategies of organisms. A central dichotomy is between capital breeders and income breeders. Capital breeders build reserves that allow them to spawn at a later time independently of food availability, while income breeders allocate ingested food directly to reproduction. Motivated by copepod studies, we use an analytical model to compare the fitness of income with capital breeding in a deterministic seasonal environment. We analyze how the fitness of breeding strategies depend on feeding season duration and size at maturity. Small capital breeders perform better in short feeding seasons but fall behind larger individuals when the length of the feeding season increases. Income breeding favors smaller individuals as their short generation time allows for multiple generations within a year and thereby achieve a high annual growth rate, outcompeting capital breeders in long feeding seasons. Therefore, we expect to find a dominance of small income breeders in temperate waters, while large capital breeders should dominate high latitudes where the spring is short and intense. This pattern is evident in nature, particularly in organisms with a generation time of a year or less.

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Adult and offspring size in the ocean over 17 orders of magnitude follows two life history strategies

Neuheimer

Hartvig

Heuschele

et al. 2015

Ecology

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. (2015). Adult and offspring size in the ocean over 17 orders of magnitude follows two life history strategies. Ecology, 96(12), 3303-3311. DOI: 10.1890/14-2491.1 Ecology, 96(12), 2015Ecology, 96(12), , pp. 3303-3311 Ó 2015 Abstract. Explaining variability in offspring vs. adult size among groups is a necessary step to determine the evolutionary and environmental constraints shaping variability in life history strategies. This is of particular interest for life in the ocean where a diversity of offspring development strategies is observed along with variability in physical and biological forcing factors in space and time. We compiled adult and offspring size for 407 pelagic marine species covering more than 17 orders of magnitude in body mass including Cephalopoda, Cnidaria, Crustaceans, Ctenophora, Elasmobranchii, Mammalia, Sagittoidea, and Teleost. We find marine life following one of two distinct strategies, with offspring size being either proportional to adult size (e.g., Crustaceans, Elasmobranchii, and Mammalia) or invariant with adult size (e.g., Cephalopoda, Cnidaria, Sagittoidea, Teleosts, and possibly Ctenophora). We discuss where these two strategies occur and how these patterns (along with the relative size of the offspring) may be shaped by physical and biological constraints in the organism's environment. This adaptive environment along with the evolutionary history of the different groups shape observed life history strategies and possible group-specific responses to changing environmental conditions (e.g., production and distribution).

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Diel vertical migration arising in a habitat selection game

2012

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An effective algorithm for approximating adaptive behavior in seasonal environments

Sainmont

Andersen

Thygesen

et al. 2015

Ecological Modelling

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Julie Sainmont

Characteristic Sizes of Life in the Oceans, from Bacteria to Whales

Capital versus Income Breeding in a Seasonal Environment

Adult and offspring size in the ocean over 17 orders of magnitude follows two life history strategies

Diel vertical migration arising in a habitat selection game

An effective algorithm for approximating adaptive behavior in seasonal environments

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