Multiple-biomarkers show the importance of blue carbon to commercially important fishery species

Coastal blue carbon ecosystems (BCE) support nearshore food webs and provide habitat for many commercially important fish and crustacean species. However, the complex links between catchment vegetation and the carbon food-base of estuarine systems are difficult to disern. We employed a multi-biomark...

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Bibliographic Details
Published in:The Science of the total environment 2023-07, Vol.881, p.163162-163162, Article 163162
Main Authors: Gorman, Daniel, Beale, David J., Crosswell, Joey, Stephenson, Sarah A., Shah, Rohan M., Hillyer, Katie E., Steven, Andrew D.L.
Format: Article
Language:English
Subjects:
Animals
Australia
biomarkers
Blue carbon
Carbon - metabolism
Carbon Isotopes - analysis
coasts
Crustacea
diet
Ecosystem
environment
estuaries
fatty acids
fish
Fisheries
Fishes - metabolism
Food Chain
Gulf of Carpentaria
habitats
littoral zone
Mangroves
metabolites
Metabolomics
nekton
Nitrogen Isotopes - analysis
riparian areas
rivers
Saltmarsh
Seagrass
seagrasses
species
Stable isotopes
vegetation
watersheds
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Summary:Coastal blue carbon ecosystems (BCE) support nearshore food webs and provide habitat for many commercially important fish and crustacean species. However, the complex links between catchment vegetation and the carbon food-base of estuarine systems are difficult to disern. We employed a multi-biomarker approach (stable isotope ratios - δ13C and δ15N, fatty acid trophic markers – FATMs and metabolomics – central carbon metabolism metabolites) to test links between estuarine vegetation and the food sources available to commercially important crabs and fish occurring within the river systems of the near-pristine eastern coastline of the Gulf of Carpentaria, Australia. Stable isotope analysis confirmed the dietary importance of fringing macrophytes to consumer diet, but showed that this is modulated by their dominance along the riverbank. FATMs indicative of specific food sources further confirmed the differences among upper intertidal macrophytes (driven by concentrations of 16: 1ω7, 18:1ω9, 18:2ω6, 18:3ω3 & 22.0) and seagrass (driven by 18:2ω6, 18:3ω3). These dietary patterns were also reflected in the concentration of central carbon metabolism metabolites. Overall, our study demonstrates the congruence of different biomarker approaches to resolve biochemical links between blue carbon ecosystems and important nekton species, and provides fresh insights into the pristine tropical estuaries of northern Australia. [Display omitted] •Blue carbon ecosystems support commercially important fish & crustacean species.•Stable isotopes, FATMs & metabolomics were used to test consistency in foodweb links.•Multiple biomarkers revealed the importance of mangroves & saltmarsh to nekton diet.•Dietary contribution of macrophytes was modulated by shoreline dominance in km2.•Multiple biomarkers are useful to resolve biochemical links in tropical estuaries.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2023.163162