Feeding behavior and metabolic efficiency contribute to growth heterosis in Pacific oysters

Bayne, B. L., D. Hedgecock, D. McGoldrick, and R. Rees. 1999. Feeding behavior and metabolic efficiency contribute to growth heterosis in Pacific oysters [Crassostrea gigas (Thunberg)]. Journal of Experimental Marine Biology and Ecology 233:115-130.

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Physiological bases of genetically determined variation in growth of marine invertebrate larvae: A study of growth heterosis in the bivalve Crassostrea gigas

Pace, D. A., A. G. Marsh, P. Leong, A. Green, D. Hedgecock, and D. T. Manahan. 2006. Physiological bases of genetically determined variation in growth of marine invertebrate larvae: A study of growth heterosis in the bivalve Crassostrea gigas. Journal of Experimental Marine Biology and Ecology 335:188-209.

Continue ReadingPhysiological bases of genetically determined variation in growth of marine invertebrate larvae: A study of growth heterosis in the bivalve Crassostrea gigas

Separating the nature and nurture of energy allocation in response to global change

Applebaum, S.L., T.-C.F. Pan, D. Hedgecock and D.T. Manahan. 2014. Separating the nature and nurture of energy allocation in response to global change. Integrative and Comparative Biology 54:284-295.

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Metabolic Costs of Calcification in Bivalve Larvae under Experimental Ocean Acidification

Frieder, C.A., S.L. Applebaum, T.-C. Francis Pan, D. Hedgecock and D. T. Manahan. 2017. Metabolic costs of calcification in bivalve larvae under experimental ocean acidification. ICES Journal of Marine Science 74: 941-954.

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