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Feeding plasticity more than metabolic rate drives the productivity of economically important filter feeders in response to elevated CO2 and reduced salinity Samuel P. S. Rastrick*, Victoria Collier, Helen Graham, Tore Strohmeier, Nia M. Whiteley, and Øivind Strand Institute of Marine Research, PO Box 1870, Nordness, 5870 Bergen, Norway School of Biological Sciences, College of Natural Sciences, Bangor University, Bangor, Gwynedd LL57 2UW, UK Ocean Bergen, Espelandvegen 232, Blomsterdalen, Norway *Corresponding author: tel: þ474 89 401; e-mail: samuel.rastrick@imr.no. †These authors contributed equally to the work.

ices journal of marine science

Feeding plasticity more than metabolic rate drives the productivity of economically important filter feeders in response to elevated CO2 and reduced salinity