TY - JOUR
T1 - Seasonal strategies in the world’s oceans
AU - Visser, André W.
AU - Brun, Philipp
AU - Chakraborty, Subhendu
AU - Dencker, Tim Spaanheden
AU - van Denderen, P. Daniël
AU - van Gemert, Rob
AU - van Someren Gréve, Hans
AU - Heilmann, Irene
AU - Holm, Mark Wejlemann
AU - Jónasdóttir, Sigrún Huld
AU - Kenitz, Kasia M.
AU - Kiørboe, Thomas
AU - Lindegren, Martin
AU - Mariani, Patrizio
AU - Nielsen, Lasse Tor
AU - Pancic, Marina
AU - Payne, Mark
AU - Pécuchet, Lauréne
AU - Schnedler-Meyer, Nicolas Azaña
AU - Thygesen, Uffe Høgsbro
AU - Törnroos, Anna
AU - Andersen, Ken H.
N1 - Embargo24 Months, LicenceCC BY-NC-ND, Begärt fil 17.2.2021(ALG)
PY - 2020/10/27
Y1 - 2020/10/27
N2 - Throughout much of the world’s oceans, life is organized around seasonal cycles of feast and famine. Here we seek to understand the life-history strategies by which marine organisms contend with seasonal variations through a range of adaptations and traits, including overwintering stages, dormancy, investment in reserves, and migration. Our perspective is broad, spanning across marine food webs, from unicellular plankton to whales, and covering all latitudes, from the equator to the poles. The analysis is organized around a simple mechanistic life history optimization model. The model generates several general hypotheses: (i) small organisms should cope with winters by making resting stages or by dormancy; (ii) medium-sized organisms should build reserves and perform seasonal vertical migration to reduce predation; (iii) large organisms should primarily employ latitudinal migrations to follow seasonal peaks in production. Subsequently, these hypotheses are tested against a large assemblage of observations and data reported in the literature. Body size, trophic level, and the intensity and duration of seasonal highs and lows appear to be closely related to seasonal strategies. Some, but not all of these hypotheses are borne out by our analysis of data. In particular, we find that organisms with a lifespan on the order of the seasonal length employ a multitude of strategies.
AB - Throughout much of the world’s oceans, life is organized around seasonal cycles of feast and famine. Here we seek to understand the life-history strategies by which marine organisms contend with seasonal variations through a range of adaptations and traits, including overwintering stages, dormancy, investment in reserves, and migration. Our perspective is broad, spanning across marine food webs, from unicellular plankton to whales, and covering all latitudes, from the equator to the poles. The analysis is organized around a simple mechanistic life history optimization model. The model generates several general hypotheses: (i) small organisms should cope with winters by making resting stages or by dormancy; (ii) medium-sized organisms should build reserves and perform seasonal vertical migration to reduce predation; (iii) large organisms should primarily employ latitudinal migrations to follow seasonal peaks in production. Subsequently, these hypotheses are tested against a large assemblage of observations and data reported in the literature. Body size, trophic level, and the intensity and duration of seasonal highs and lows appear to be closely related to seasonal strategies. Some, but not all of these hypotheses are borne out by our analysis of data. In particular, we find that organisms with a lifespan on the order of the seasonal length employ a multitude of strategies.
KW - Protozoa
KW - Copepods
KW - Fish
KW - Optimal behaviour
U2 - 10.1016/j.pocean.2020.102466
DO - 10.1016/j.pocean.2020.102466
M3 - Article
SN - 0079-6611
VL - 189
JO - Progress in Oceanography
JF - Progress in Oceanography
ER -