2018
DOI: 10.1007/s10533-018-0447-9
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The sources and distribution of carbon (DOC, POC, DIC) in a mangrove dominated estuary (French Guiana, South America)

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Cited by 51 publications
(46 citation statements)
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“…Principally, the product of water flow volume and mangrove-derived DIC and DOC concentration should provide an estimate of DIC and DOC flux from the mangrove estuary alone. In the present study, a simple two-component conservative mixing model was applied [13].…”
Section: Estimation Of Dic and Doc Flux From The Mangrove Estuarymentioning
confidence: 99%
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“…Principally, the product of water flow volume and mangrove-derived DIC and DOC concentration should provide an estimate of DIC and DOC flux from the mangrove estuary alone. In the present study, a simple two-component conservative mixing model was applied [13].…”
Section: Estimation Of Dic and Doc Flux From The Mangrove Estuarymentioning
confidence: 99%
“…These data were not the estimation of solely mangrove-derived C export but of net C exchange (inwellings-outwellings) that may include contributions from external systems, such as terrestrial, riverine, and oceanic systems. Bouillon et al [10] also revealed that benthic mineralization as a part of Rh and subsequent export as dissolved inorganic C (DIC) could represent a very significant and unaccounted flux of mangrove-derived C. Recent studies (e.g., [11][12][13]) confirmed that most of the carbon being tidally exported from mangrove forest is DIC, a result of organic matter mineralization and porewater input from mangrove ecosystems. These studies suggest that DIC outwelling as the part of the Rh appears to be a common phenomenon in mangrove forests and that previous studies of mangrove NEP, which did not consider the potential impact of tidal effect, may greatly overestimate the NEP (e.g., [5,6,14]).…”
Section: Introductionmentioning
confidence: 99%
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“…Leaching of mangrove plant materials through surface and pore water export are generally recognized as the major pathways of DOC transport into the mangrove-dominated coastal waters (Bouillon et al, 2007;Dittmar and Lara, 2001;Troxler et al, 2015). Below ground properties, such as mangrove pore water generally contains 2-3 times higher DOC concentration than overlying water (Ray et al, 2018a) accelerating DOC export via tidal pumping and seepage. However, our previous results at Qeshm mangroves showed such terrigenous DOC output less effective than marine DOC input (Ray and Shahraki, 2016).…”
Section: Role Of Mangroves In Doc Exportmentioning
confidence: 99%
“…These intertidal creeks play an important role in exporting carbon and nutrients through flushing of litter, coarse wood debris, and benthic algae (such as microphytobenthos) or importing them as marine algae within a tidal cycle, thus maintain the productivity of the system (Kristensen and Suraswadi, 2002;Bouillon et al, 2007). Although there are several significant reports about sources and transport of DOC and POC in mangrove dominated coastal systems (Bouillon et al, 2007;Maher et al, 2013;Ho et al, 2017;Ray et al, 2015Ray et al, , 2018a, there is a gap in understanding their distribution among different habitats and intertidal creeks. The biogeochemistry of organic carbon (OC) as a function of the presence or absence of mangrove vegetation alongside tidal creeks is particularly important to understand in the context of estuarine and ocean carbon cycles.…”
Section: Introductionmentioning
confidence: 99%