Picocyanobacteria and deep-ocean fluorescent dissolved organic matter share similar optical properties

Zhao, Zhao; Gonsior, Michael; Luek, Jenna L.; Timko, Stephen Andrew; Ianiri, Hope L.; Hertkorn, Norbert; Schmitt‐Kopplin, Philippe; Fang, Xiaoting; Zeng, Qinglu; Jiao, Nianzhi; Chen, Feng

doi:10.1038/ncomms15284

Cited by 96 publications

(82 citation statements)

References 67 publications

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“…). Comparison to previous studies indicated that S1 and S3 exhibited fluorescence peaks typical of humic‐like components, and the S2 peak represents protein‐like (tyrosine‐like) fluorophores (Jorgensen et al ., ; Tanaka et al ., ; Zhao et al ., ).…”

Section: Resultsmentioning

confidence: 97%

“…G). The byproducts arising from degradation of the fluorescent phycobilin pigments of Synechococcus may contribute to the abundance of component S1 (Zhao et al ., ) at the first time point. Increasing FI corresponded with increased TOC consumption over time (Fig.…”

Section: Resultsmentioning

confidence: 99%

“…An additional fraction of DOM that emits fluorescence after absorbing light is termed fluorescent DOM (FDOM) and can be used to trace the sources, reactivity, and partial chemical structures of DOM (Yamashita and Tanoue, ; Nieto‐Cid et al ., ; Jorgensen et al ., ; Martinez‐Perez et al ., ). The combination of FT‐ICR MS and optical measurements has increasingly been applied to evaluate the molecular properties of DOM pools in aquatic environments (Gonsior et al ., ; Martinez‐Perez et al ., ; Zhao et al ., ).…”

Section: Introductionmentioning

confidence: 97%

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Molecular characteristics of microbially mediated transformations of Synechococcus‐derived dissolved organic matter as revealed by incubation experiments

Zheng

Chen

Cai

et al. 2019

Environmental Microbiology

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Summary In this study, we investigated the microbially mediated transformation of labile Synechococcus‐derived DOM to RDOM using a 60‐day experimental incubation system. Three phases of TOC degradation activity (I, II and III) were observed following the addition of Synechococcus‐derived DOM. The phases were characterized by organic carbon consumption rates of 8.77, 1.26 and 0.16 μmol L−1 day−1, respectively. Excitation emission matrix analysis revealed the presence of three FDOM components including tyrosine‐like, fulvic acid‐like, and humic‐like molecules. The three components also exhibited differing biological availabilities that could be considered as labile DOM (LDOM), semi‐labile DOM (SLDOM) and RDOM, respectively. DOM molecular composition was also evaluated using FT‐ICR MS. Based on differing biological turnover rates and normalized intensity values, a total of 1704 formulas were identified as candidate LDOM, SLDOM and RDOM molecules. Microbial transformation of LDOM to RDOM tended to proceed from high to low molecular weight, as well as from molecules with high to low double bond equivalent (DBE) values. Relatively higher aromaticity was observed in the formulas of RDOM molecules relative to those of LDOM molecules. FDOM components provide valuable proxy information to investigate variation in the bioavailability of DOM. These results suggest that coordinating fluorescence spectroscopy and FT‐ICR MS of DOM, as conducted here, is an effective strategy to identify and characterize LDOM, SLDOM and RDOM molecules in incubation experiments emulating natural systems. The results described here provide greater insight into the metabolism of phytoplankton photosynthate by heterotrophic bacteria in marine environments.

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Section: Resultsmentioning

confidence: 97%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 97%

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Molecular characteristics of microbially mediated transformations of Synechococcus‐derived dissolved organic matter as revealed by incubation experiments

Zheng

Chen

Cai

et al. 2019

Environmental Microbiology

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“…The component C1 has been often associated with more labile organic matter, while C2 and C3 seem to be indicative of relatively recalcitrant DOM in natural environments (Catalá et al, ; Tanaka et al, ). The C2 and C3 have also been observed to be associated with sulfate reduction (Luek et al, ) and degradation of picocyanobacteria‐derived DOM (Zhao et al, ). These results from FDOM supports the process that the microbes in the overlying seawater utilized the labile materials and produced rather recalcitrant DOM, which then accumulates during the incubation experiments.…”

Section: Resultsmentioning

confidence: 99%

Microbial Processing of Sediment‐Derived Dissolved Organic Matter: Implications for Its Subsequent Biogeochemical Cycling in Overlying Seawater

et al. 2019

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Coastal sediments contain a large amount of dissolved organic matter (DOM), which can be mobilized into the overlying water by natural and anthropogenic activities. The bioavailability and subsequent biogeochemical effects of this sediment-derived DOM are unclear. To investigate those, we collected a sediment pore-water DOM (SDOM) sample and its overlying seawater to conduct a bioassay experiment, which allowed tracking of both short-term and long-term microbial processes in the context of DOM transformations. Short-term incubation results show that the SDOM extract supported the growth of specific taxa. The microbial community composition changed dramatically and an approximately 50% of SDOM-derived carbon was consumed within the first 2 days. Viruses likely played a role in promoting bacterial community succession, further enhancing transformation of this SDOM. Long-term incubation results show that labile DOM was gradually consumed, while approximately 16% of the initial SDOM appeared to be recalcitrant to microbial utilization and remained at the end (after 110 days) of the incubation experiment. Despite the short-term drastic changes in microbial community composition, a highly diverse microbial community is similar to the control at the end of the incubation. It is suggested here that resuspension of coastal sediments weakens their role as a net sink of carbon, with most of the mobilized SDOM transformed by successive microbial communities in the overlying seawater and the remaining recalcitrant organic material becoming part of the long-lived DOM pool. Thus, the bioavailability of the coastal SDOM might influence the carbon budget in coastal oceans.

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“…The slopes of FDOM P concentrations against DOC concentrations varied significantly over different seasons, with steeper gradients in the spring (March and April) and fall (October). In general, FDOM P is known to be produced efficiently by biological production in water (Coble, 1996;Belzile et al, 2002;Steinberg et al, 2004;Zhao et al, 2017). Thus, higher FDOM P concentrations relative to DOC concentrations in the spring and fall seem to be associated with the spring and fall phytoplankton blooms in river waters (Mayer et al, 1999;Zhang et al, 2009).…”

Section: Behaviors and Sources Of Fdom In The Estuarine Mixing Zonementioning

confidence: 99%

Sources, fluxes, and behaviors of fluorescent dissolved organic matter (FDOM) in the Nakdong River Estuary, Korea

Lee¹,

Kim²

2018

Biogeosciences

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Abstract. We monitored seasonal variations in dissolved organic carbon (DOC), the stable carbon isotope of DOC (δ 13 C-DOC), and fluorescent dissolved organic matter (FDOM) in water samples from a fixed station in the Nakdong River Estuary, Korea. Sampling was performed every hour during spring tide once a month from October 2014 to August 2015. The concentrations of DOC and humic-like FDOM showed significant negative correlations against salinity (r 2 = 0.42-0.98, p < 0.0001), indicating that the river-originated DOM components were the major source and behave conservatively in the estuarine mixing zone. The extrapolated δ 13 C-DOC values (−27.5 to −24.5 ‰) in fresh water confirm that both components are mainly of terrestrial origin. The slopes of humic-like FDOM against salinity were 60-80 % higher in the summer and fall due to higher terrestrial production of humic-like FDOM. The slopes of proteinlike FDOM against salinity, however, were 70-80 % higher in spring due to higher biological production in river water. Our results suggest that there are large seasonal changes in riverine fluxes of humic-and protein-like FDOM to the ocean.

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Picocyanobacteria and deep-ocean fluorescent dissolved organic matter share similar optical properties

Cited by 96 publications

References 67 publications

Molecular characteristics of microbially mediated transformations of Synechococcus‐derived dissolved organic matter as revealed by incubation experiments

Molecular characteristics of microbially mediated transformations of Synechococcus‐derived dissolved organic matter as revealed by incubation experiments

Microbial Processing of Sediment‐Derived Dissolved Organic Matter: Implications for Its Subsequent Biogeochemical Cycling in Overlying Seawater

Sources, fluxes, and behaviors of fluorescent dissolved organic matter (FDOM) in the Nakdong River Estuary, Korea

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