High carbon dioxide emissions from Australian estuaries driven by geomorphology and climate

Yeo, Jacob Z.-Q.; Rosentreter, Judith A.; Oakes, Joanne M.; Schulz, Kai G.; Eyre, Bradley D.

High carbon dioxide emissions from Australian estuaries driven by geomorphology and climate

Jacob Z.-Q. Yeo (), Judith A. Rosentreter, Joanne M. Oakes, Kai G. Schulz and Bradley D. Eyre
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Jacob Z.-Q. Yeo: Faculty of Science and Engineering, Southern Cross University, PO Box 157
Judith A. Rosentreter: Faculty of Science and Engineering, Southern Cross University, PO Box 157
Joanne M. Oakes: Faculty of Science and Engineering, Southern Cross University, PO Box 157
Kai G. Schulz: Faculty of Science and Engineering, Southern Cross University, PO Box 157
Bradley D. Eyre: Faculty of Science and Engineering, Southern Cross University, PO Box 157

Nature Communications, 2024, vol. 15, issue 1, 1-15

Abstract: Abstract Estuaries play an important role in connecting the global carbon cycle across the land-to-ocean continuum, but little is known about Australia’s contribution to global CO2 emissions. Here we present an Australia-wide assessment, based on CO2 concentrations for 47 estuaries upscaled to 971 assessed Australian estuaries. We estimate total mean (±SE) estuary CO2 emissions of 8.67 ± 0.54 Tg CO2-C yr−1, with tidal systems, lagoons, and small deltas contributing 94.4%, 3.1%, and 2.5%, respectively. Although higher disturbance increased water-air CO2 fluxes, its effect on total Australian estuarine CO2 emissions was small due to the large surface areas of low and moderately disturbed tidal systems. Mean water-air CO2 fluxes from Australian small deltas and tidal systems were higher than from global estuaries because of the dominance of macrotidal subtropical and tropical systems in Australia, which have higher emissions due to lateral inputs. We suggest that global estuarine CO2 emissions should be upscaled based on geomorphology, but should also consider land-use disturbance, and climate.

Date: 2024
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DOI: 10.1038/s41467-024-48178-4

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