Journal article
Growth portfolios buffer climate-linked environmental change in marine systems
SE Campana, S Smoliński, BA Black, JR Morrongiello, SJ Alexandroff, C Andersson, B Bogstad, PG Butler, C Denechaud, DC Frank, AJ Geffen, JA Godiksen, P Grønkjær, E Hjörleifsson, IG Jónsdóttir, M Meekan, M Mette, SE Tanner, P van der Sleen, G von Leesen
Ecology | WILEY | Published : 2023
DOI: 10.1002/ecy.3918
Open access
Abstract
Large-scale, climate-induced synchrony in the productivity of fish populations is becoming more pronounced in the world's oceans. As synchrony increases, a population's “portfolio” of responses can be diminished, in turn reducing its resilience to strong perturbation. Here we argue that the costs and benefits of trait synchronization, such as the expression of growth rate, are context dependent. Contrary to prevailing views, synchrony among individuals could actually be beneficial for populations if growth synchrony increases during favorable conditions, and then declines under poor conditions when a broader portfolio of responses could be useful. Importantly, growth synchrony among individu..
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Awarded by Australian Academy of Science
Funding Acknowledgements
Australian Research Council, Grant/Award Number: DP190101627; Eimskip University Fund, Grant/Award Number: 1535-1533127; Fundacao para a Ciencia e a Tecnologia, Grant/Award Number: CEECIND/02710/2021; Havforskningsinstituttet, Grant/Award Number: 14260; Icelandic Centre for Research, Grant/Award Number: 173906-051; Nordisk Ministerrad, Grant/Award Number: 25014.17; Norges Forskningsrad, Grant/Award Number: 240550; Australian Academy of Science's Thomas Davies Research; University of Bergen