Detecting the presence of fish farm-derived organic matter at the seafloor using stable isotope analysis of phospholipid fatty acids
Detecting the presence of fish farm-derived organic matter at the seafloor using stable isotope analysis of phospholipid fatty acids
The expansion of global aquaculture activities is important for the wellbeing of future generations in terms of employment and food security. Rearing animals in open-exchange cages permits the release of organic wastes, some of which ultimately reaches the underlying sediments. The development of rapid, quantitative and objective monitoring techniques is therefore central to the environmentally sustainable growth of the aquaculture industry. Here, we demonstrate that fish farm-derived organic wastes can be readily detected at the seafloor by quantifying sediment phospholipid fatty acids (PLFAs) and their carbon stable isotope signatures. Observations across five farms reveal that farm size and/or distance away from it influence the spatial distribution of the generated organic wastes and their effect on benthic bacterial biomass. Comparison to the isotopic signatures of fish feed-derived PLFAs indicates that 16:0 and 18:1(n-9) are potential biomarkers for fish farm-derived organic wastes. Our results suggest that stable isotope analysis of sediment PLFAs has potential for monitoring the environmental performance of aquaculture activities, particularly given the increasing prevalence of terrigenous organic matter in aquaculture feed stocks because it is isotopically district to marine organic matter.
Mayor, Daniel J.
55f90e04-de18-481a-8d76-b4514087f198
Gray, Nia B.
1af33bb5-0f01-438b-8db3-0dc1a8be14ca
Hattich, Giannina S.I.
cfa3b5a2-b39c-45e5-a177-9be5ef413ba2
Thornton, Barry
6aa3e893-d436-4656-9dec-d47ce9d25219
1 December 2017
Mayor, Daniel J.
55f90e04-de18-481a-8d76-b4514087f198
Gray, Nia B.
1af33bb5-0f01-438b-8db3-0dc1a8be14ca
Hattich, Giannina S.I.
cfa3b5a2-b39c-45e5-a177-9be5ef413ba2
Thornton, Barry
6aa3e893-d436-4656-9dec-d47ce9d25219
Mayor, Daniel J., Gray, Nia B., Hattich, Giannina S.I. and Thornton, Barry
(2017)
Detecting the presence of fish farm-derived organic matter at the seafloor using stable isotope analysis of phospholipid fatty acids.
Scientific Reports, 7 (1), [5146].
(doi:10.1038/s41598-017-05252-w).
Abstract
The expansion of global aquaculture activities is important for the wellbeing of future generations in terms of employment and food security. Rearing animals in open-exchange cages permits the release of organic wastes, some of which ultimately reaches the underlying sediments. The development of rapid, quantitative and objective monitoring techniques is therefore central to the environmentally sustainable growth of the aquaculture industry. Here, we demonstrate that fish farm-derived organic wastes can be readily detected at the seafloor by quantifying sediment phospholipid fatty acids (PLFAs) and their carbon stable isotope signatures. Observations across five farms reveal that farm size and/or distance away from it influence the spatial distribution of the generated organic wastes and their effect on benthic bacterial biomass. Comparison to the isotopic signatures of fish feed-derived PLFAs indicates that 16:0 and 18:1(n-9) are potential biomarkers for fish farm-derived organic wastes. Our results suggest that stable isotope analysis of sediment PLFAs has potential for monitoring the environmental performance of aquaculture activities, particularly given the increasing prevalence of terrigenous organic matter in aquaculture feed stocks because it is isotopically district to marine organic matter.
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Accepted/In Press date: 25 May 2017
e-pub ahead of print date: 11 July 2017
Published date: 1 December 2017
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Local EPrints ID: 412608
URI: http://eprints.soton.ac.uk/id/eprint/412608
ISSN: 2045-2322
PURE UUID: 5e4d1f9d-6b1d-4670-afbc-4b4738a60164
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Date deposited: 24 Jul 2017 16:32
Last modified: 15 Mar 2024 15:17
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Author:
Daniel J. Mayor
Author:
Nia B. Gray
Author:
Giannina S.I. Hattich
Author:
Barry Thornton
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