Sources of primary production to Arctic bivalves identified using amino acid stable carbon isotope fingerprinting *

Benthic invertebrates are a crucial trophic link in Arctic marine food webs. However, estimates of the contribution of different primary production sources sustaining these organisms are not well characterised. We measured the stable carbon isotope values ( δ 13 C) of essential amino acids (EAAs) in...

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Bibliographic Details
Main Authors: Rowe, Audrey G., Iken, Katrin, Arny L. Blanchard, O'Brien, Diane M., Osvik, Renate Døving, Uradnikova, Martina, Wooller, Matthew J.
Format: Text
Language:unknown
Published: Taylor & Francis 2019
Subjects:
Evolutionary Biology
FOS Biological sciences
59999 Environmental Sciences not elsewhere classified
FOS Earth and related environmental sciences
39999 Chemical Sciences not elsewhere classified
FOS Chemical sciences
Ecology
69999 Biological Sciences not elsewhere classified
Marine Biology
Inorganic Chemistry
Arctic
Chukchi Sea
Hanna Shoal
Chukchi
Phytoplankton
Online Access:https://dx.doi.org/10.6084/m9.figshare.8260139
https://tandf.figshare.com/articles/Sources_of_primary_production_to_Arctic_bivalves_identified_using_amino_acid_stable_carbon_isotope_fingerprinting_sup_sup_/8260139
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Summary:Benthic invertebrates are a crucial trophic link in Arctic marine food webs. However, estimates of the contribution of different primary production sources sustaining these organisms are not well characterised. We measured the stable carbon isotope values ( δ 13 C) of essential amino acids (EAAs) in muscle tissue from two common bivalve genera ( Macoma spp. and Astarte spp.) collected in Hanna Shoal in the northeastern Chukchi Sea. Mixing models comparing the δ 13 C EAA fingerprints of the bivalves to a suite of primary production endmembers revealed relatively high contributions of EAAs from phytoplankton and bacteria in both species. We also examined whether δ 13 C EAA fingerprints could be produced from the EAAs preserved in bivalve shells, which could allow primary production sources to be estimated from ancient bivalve shells. The δ 13 C EAA fingerprints from a suite of paired modern bivalve shells and muscle from Macoma calcarea from across the Chukchi Sea revealed a correspondence between the estimates of the dominant primary production source of EAAs derived from analyses of these two tissue types. Our findings indicate that δ 13 C EAA fingerprinting of marine bivalves can be used to examine dominant organic matter sources in the Arctic marine benthos in recent years as well as in deeper time.

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