From swamp to sea: quantifying terrestrial dissolved organic carbon in a tropical shelf sea using hydrogen isotope ratios
Dissolved organic carbon (DOC) is a key component of coastal biogeochemical cycles, but its composition and reactivity depend on the relative contribution of autochthonous aquatic versus allochthonous terrigenous DOC (tDOC). In complex coastal waters, tDOC is commonly quantified using the bulk DOC s...
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sg-ntu-dr.10356-1805772024-10-14T15:30:46Z From swamp to sea: quantifying terrestrial dissolved organic carbon in a tropical shelf sea using hydrogen isotope ratios Wahyudi, A'an Johan Kaushal, Nikita Gudasz, Cristian Martin, Patrick Asian School of the Environment Earth and Environmental Sciences Terrestrial organic carbon Stable isotope Dissolved organic carbon (DOC) is a key component of coastal biogeochemical cycles, but its composition and reactivity depend on the relative contribution of autochthonous aquatic versus allochthonous terrigenous DOC (tDOC). In complex coastal waters, tDOC is commonly quantified using the bulk DOC stable carbon isotope ratio (δ13CDOC). However, several limitations can hamper the use of δ13CDOC in marine ecosystems, such as (1) the narrow and often overlapping separation of the autochthonous and allochthonous endmembers, and (2) mineralization of tDOC to dissolved inorganic carbon creates a reservoir effect such that autochthonous DOC can acquire a terrigenous-like δ13CDOC. The stable isotope ratio of non-exchangeable hydrogen in the DOC (δ2Hn) has emerged as a new tool that can potentially overcome these limitations: (1) δ2Hn has a large separation between aquatic and terrigenous endmembers (>50‰) and (2) it is not subject to reservoir effects caused by tDOC mineralization. Here, we evaluate the potential of δ2Hn obtained from solid phase-extracted dissolved organic matter (SPE-DOM), by comparing it to δ13CDOC and chromophoric DOM (CDOM) optical properties. We collected samples at a site in Southeast Asia's Sunda Shelf that experiences substantial seasonal variation in tDOC input, driven primarily by the monsoon-induced physical advection of peatland-derived tDOC. Over a 1-year monthly time series, the terrigenous fraction of DOC (fterr) determined using δ2Hn of SPE-DOM and δ13CDOC of bulk DOC was well correlated (r2 = 0.42), and there was no significant difference in fterr between the two isotope systems. In fact, δ2Hn displayed slightly stronger correlations with salinity and CDOM optical properties compared to δ13CDOC. Our results indicate that δ2Hn of SPE-DOM is effective for quantifying tDOC across coastal gradients, potentially offering greater sensitivity than δ13CDOC, and is a viable alternative in settings where δ13CDOC is inadequate. Ministry of Education (MOE) National Research Foundation (NRF) Submitted/Accepted version This research was funded through a Singapore Academies South-East Asia Fellowship (SASEAF) of the Singapore National Academy of Science (SNAS) awarded to AJW (grant NRF-MP-2022-0001), through the National Research Foundation, Prime Minister’s Office, Singapore, as part of the Marine Science Research and Development Programme (grant MSRDP-P32) and as part of the Marine Environment Sensing Network (grant NRF-NRI-2020-MESN), and by the Ministry of Education, Singapore, through an Academic Research Fund Tier 2 grant (MOE-MOET2EP10121-0007). 2024-10-14T02:05:13Z 2024-10-14T02:05:13Z 2024 Journal Article Wahyudi, A. J., Kaushal, N., Gudasz, C. & Martin, P. (2024). From swamp to sea: quantifying terrestrial dissolved organic carbon in a tropical shelf sea using hydrogen isotope ratios. Organic Geochemistry, 196, 104851-. https://dx.doi.org/10.1016/j.orggeochem.2024.104851 0146-6380 https://hdl.handle.net/10356/180577 10.1016/j.orggeochem.2024.104851 2-s2.0-85201905724 196 104851 en NRF-MP-2022-0001 MSRDP-P32 NRF-NRI-2020-MESN MOE-MOET2EP10121-0007 Organic Geochemistry © 2024 Elsevier Ltd.. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1016/j.orggeochem.2024.104851. application/pdf |
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Earth and Environmental Sciences Terrestrial organic carbon Stable isotope Wahyudi, A'an Johan Kaushal, Nikita Gudasz, Cristian Martin, Patrick From swamp to sea: quantifying terrestrial dissolved organic carbon in a tropical shelf sea using hydrogen isotope ratios |
| description |
Dissolved organic carbon (DOC) is a key component of coastal biogeochemical cycles, but its composition and reactivity depend on the relative contribution of autochthonous aquatic versus allochthonous terrigenous DOC (tDOC). In complex coastal waters, tDOC is commonly quantified using the bulk DOC stable carbon isotope ratio (δ13CDOC). However, several limitations can hamper the use of δ13CDOC in marine ecosystems, such as (1) the narrow and often overlapping separation of the autochthonous and allochthonous endmembers, and (2) mineralization of tDOC to dissolved inorganic carbon creates a reservoir effect such that autochthonous DOC can acquire a terrigenous-like δ13CDOC. The stable isotope ratio of non-exchangeable hydrogen in the DOC (δ2Hn) has emerged as a new tool that can potentially overcome these limitations: (1) δ2Hn has a large separation between aquatic and terrigenous endmembers (>50‰) and (2) it is not subject to reservoir effects caused by tDOC mineralization. Here, we evaluate the potential of δ2Hn obtained from solid phase-extracted dissolved organic matter (SPE-DOM), by comparing it to δ13CDOC and chromophoric DOM (CDOM) optical properties. We collected samples at a site in Southeast Asia's Sunda Shelf that experiences substantial seasonal variation in tDOC input, driven primarily by the monsoon-induced physical advection of peatland-derived tDOC. Over a 1-year monthly time series, the terrigenous fraction of DOC (fterr) determined using δ2Hn of SPE-DOM and δ13CDOC of bulk DOC was well correlated (r2 = 0.42), and there was no significant difference in fterr between the two isotope systems. In fact, δ2Hn displayed slightly stronger correlations with salinity and CDOM optical properties compared to δ13CDOC. Our results indicate that δ2Hn of SPE-DOM is effective for quantifying tDOC across coastal gradients, potentially offering greater sensitivity than δ13CDOC, and is a viable alternative in settings where δ13CDOC is inadequate. |
| author2 |
Asian School of the Environment |
| author_facet |
Asian School of the Environment Wahyudi, A'an Johan Kaushal, Nikita Gudasz, Cristian Martin, Patrick |
| format |
Article |
| author |
Wahyudi, A'an Johan Kaushal, Nikita Gudasz, Cristian Martin, Patrick |
| author_sort |
Wahyudi, A'an Johan |
| title |
From swamp to sea: quantifying terrestrial dissolved organic carbon in a tropical shelf sea using hydrogen isotope ratios |
| title_short |
From swamp to sea: quantifying terrestrial dissolved organic carbon in a tropical shelf sea using hydrogen isotope ratios |
| title_full |
From swamp to sea: quantifying terrestrial dissolved organic carbon in a tropical shelf sea using hydrogen isotope ratios |
| title_fullStr |
From swamp to sea: quantifying terrestrial dissolved organic carbon in a tropical shelf sea using hydrogen isotope ratios |
| title_full_unstemmed |
From swamp to sea: quantifying terrestrial dissolved organic carbon in a tropical shelf sea using hydrogen isotope ratios |
| title_sort |
from swamp to sea: quantifying terrestrial dissolved organic carbon in a tropical shelf sea using hydrogen isotope ratios |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/180577 |
| _version_ |
1814777777119821824 |