Monsoon-driven biogeochemical dynamics in an equatorial shelf sea: time-series observations in the Singapore Strait

Martin, Patrick; Moynihan, Molly A.; Chen, Shuang; Woo, Oon Yee; Zhou, Yongli; Nichols, Robert S.; Chang, Kristy; Tan, Ashleen S. Y.; Chen, Ying‐Hsuan; Ren, Haojia; Chen, Mengli

doi:10.1002/essoar.10508869.1

Cited by 2 publications

(5 citation statements)

References 89 publications

(134 reference statements)

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“…We have shown previously that there is a seasonal change in biogeochemistry in the Singapore Strait driven by the monsoonal current reversal (Martin et al, 2022;Martin et al, 2021;Zhou et al, 2021). The present study extends the timeseries data by one more year (2020-2021) and examines additional optical parameters (S320-412, FI, BIX, HIX, and C2 from PARAFAC analysis)…”

Section: Temporal Variation Of Dom Optical Properties In the Singapor...mentioning

confidence: 53%

“…In contrast to these optical measures associated with tDOM, neither S320−412 nor BIX were related to tDOC%, and indeed showed little variation throughout our timeseries. The Singapore Strait does not appear to experience clear seasonality in phytoplankton production (Martin et al, 2022), and the production and microbial processing of autochthonous DOM are likely closely coupled yearround, with a relatively refractory marine DOM pool (Zhou et al, 2021). While our data thus cannot evaluate how well these two optical properties can trace the presence of freshly produced autochthonous DOM, our results do show that in the absence of fresh autochthonous DOM inputs they show fairly stable values even as the DOM pool varies between terrestrial and marine DOM sources.…”

Section: Discussionmentioning

confidence: 95%

“…Because we lack optical data from the peatland-draining rivers on Sumatra that form the riverine endmember for our study site (Martin et al, 2022;Zhou et al, 2021), we complement our analysis using two other data sources. For CDOM absorption (as a440), we calculated the dischargeweighted average for the main peatland-draining rivers based on Wit et al (2018) and Siegel et al…”

Section: Datasets Used In the Present Analysismentioning

confidence: 99%

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The Validity of Optical Properties as Tracers of Terrigenous Dissolved Organic Carbon during Extensive Remineralization in Coastal Waters

Chen

Martin

Zhou

2023

Preprint

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Terrestrial dissolved organic carbon (tDOC) is significant for coastal carbon cycling, and absorbance and fluorescence spectroscopy of chromophoric and fluorescent dissolved organic matter (CDOM, FDOM) are widely used to study tDOC cycling. However, CDOM and FDOM are often amongst the more labile components of tDOC. Because few studies have compared CDOM and FDOM to measurements of both bulk tDOC concentration and tDOC remineralization, it remains unclear how accurately CDOM and FDOM actually trace tDOC in coastal waters when tDOC undergoes extensive remineralization. We collected a 4-year coastal timeseries in Southeast Asia, where tropical peatlands supply large tDOC inputs. A carbon stable isotope mass balance shows that on average 56% of tDOC was remineralized upstream of our site, while 77% of CDOM was bleached. Despite this extensive tDOC remineralization and preferential CDOM loss, optical properties could reliably quantify tDOC. CDOM spectral slope properties, such as S275–295, are exponentially related to tDOC; these are highly sensitive tDOC tracers at low, but not at high, tDOC concentrations. Other properties are linearly related to tDOC, and both specific ultraviolet absorbance (SUVA254) and DOC-normalized fluorescence intensity may be suitable to quantify tDOC over a wider range of concentrations. However, the optical properties did not show consistent changes with the extent of tDOC remineralization. Our data support the validity of CDOM and FDOM spectroscopy to trace tDOC across coastal gradients even after the majority of tDOC has been remineralized, but they also show that these measurements may not provide much information about tDOC biogeochemical processing.

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Section: Temporal Variation Of Dom Optical Properties In the Singapor...mentioning

confidence: 53%

Section: Discussionmentioning

confidence: 95%

Section: Datasets Used In the Present Analysismentioning

confidence: 99%

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The Validity of Optical Properties as Tracers of Terrigenous Dissolved Organic Carbon during Extensive Remineralization in Coastal Waters

Chen

Martin

Zhou

2023

Preprint

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“…During the SW monsoon there is acidification of the waters reaching Singapore, due to the remineralization of terrestrial dissolved organic carbon from fluvial inputs from the Sumatran peatlands and the subsequent remineralization of terrestrial organic carbon (Mayer & Pohlmann, 2014;Siegel et al, 2019;Zhou et al, 2021). Generally, the SW monsoon has lower salinity (≤ 30 SW, ~33 NE), higher DOC (75 -109 µmol L -1 SW, ~65 µmol L -1 NE), lower pH (7.85 -7.9 SW, 7.95 -8.03 NE), higher pCO2 (550 -700 µatm SW, < 550 µatm NE), higher Nitrate + Nitrite (0.613 -5.6 µmol L -1 SW, <0.05 -3.21 µmol L -1 NE) and higher DIP (0.089 -0.342 µmol L -1 SW, <0.016 -0.210 µmol L -1 NE) than the NE monsoon (Zhou et al, 2021;Martin P., Moynihan, M. A., Chen, S., et al, 2021). concomitantly with a Valeport FastCTD profiler.…”

Section: Site Description Water Collection and Experimental Designmentioning

confidence: 93%

“…Nutrient addition treatments were amended with 5 µmol L -1 nitrate (KNO3, Sigma-Aldrich) and 0.3 µmol L -1 phosphate (KH2PO4, Fisher Scientific), at concentrations similar to natural variability in nitrate (5 µmol L -1 ; Martin P., Moynihan, M. A., Chen, S., et al, 2021) and with phosphate addition equivalent to the Redfield ratio of 16N:1P to avoid inducing N or P limitation through nutrient additions. Silicic acid (DSi) was not added because data from on-going time-series measurements indicate that DSi in the Singapore Strait is always at levels considered replete (mean = 5.4 ± 2.6 µmol L -1 from October 2017 to June 2019, unpublished data).…”

Section: Co2 and Nutrient Amendmentsmentioning

confidence: 99%

Pathways and consequences of dissolved organic matter transformation in tropical coastal waters

Nichols¹

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To my wife, Delia, thank you for your support through all these years, and for being a wonderful mother to our son. Without you I would not be writing this today.To Patrick Martin, thank you for this opportunity, for all your patience, support and guidance. Learning from you has been an absolute privilege that I hope many other students get to experience. I will endeavor to carry your work ethic, dedication, and leadership example with me into the future.To my thesis committee advisors Alex Poulton and Adriana Lopes dos Santos, thank you for your advice and support. In particular, thank you to Alex for driving the final project to completion, and for your help with the field campaign on St. John's Island. To Yongli Zhou, thank you for your willingness to help no matter the project or timing. Without your selflessness the gaps in our data would be titanic. To Molly Moynihan, your ability to get things done has been an inspiration. Thank you for your support in all things coral. To Kristy Chang, Oon Yee and Chen Shuang, thank you for your tireless efforts in the lab and in the field, you've been a pleasure to work with over the years.In addition, I am grateful to the numerous researchers, faculty members and fellow students at ASE who have contributed both directly and indirectly to this thesis and to my PhD in general.

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Monsoon-driven biogeochemical dynamics in an equatorial shelf sea: time-series observations in the Singapore Strait

Abstract: M. (2022). Monsoon-driven biogeochemical dynamics in an equatorial shelf sea: time-series observations in the Singapore Strait.

Cited by 2 publications

References 89 publications

The Validity of Optical Properties as Tracers of Terrigenous Dissolved Organic Carbon during Extensive Remineralization in Coastal Waters

The Validity of Optical Properties as Tracers of Terrigenous Dissolved Organic Carbon during Extensive Remineralization in Coastal Waters

Pathways and consequences of dissolved organic matter transformation in tropical coastal waters

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