Dissolved Carbon Transport and Processing in North America’s Largest Swamp River Entering the Northern Gulf of Mexico

Dissolved Carbon Transport and Processing in North America’s Largest Swamp River Entering the Northern Gulf of Mexico

Transport and transformation of riverine dissolved carbon is an important component of global carbon cycling. The Atchafalaya River (AR) flows 189 kilometers through the largest bottomland swamp in North America and discharges ~25% of the flow of the Mississippi River into the Gulf of Mexico annuall...

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Main Authors: Emily M. DelDuco, Y. Jun Xu
Format: Article
Language:English
Published: MDPI AG 2019-07-01
Series:Water
Subjects:
carbon biogeochemistry
dissolved organic carbon
dissolved inorganic carbon
swamp-river wetlands
floodplains
<i>p</i>CO<sub>2</sub>
Mississippi–Atchafalaya Rivers
Online Access:https://www.mdpi.com/2073-4441/11/7/1395
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spelling doaj-8099bebb53bd4a5a83cc0a6f629559df2020-11-25T01:53:40ZengMDPI AGWater2073-44412019-07-01117139510.3390/w11071395w11071395Dissolved Carbon Transport and Processing in North America’s Largest Swamp River Entering the Northern Gulf of MexicoEmily M. DelDuco0Y. Jun Xu1School of Renewable Natural Resources, Louisiana State University Agricultural Center, Baton Rouge, LA 70803, USASchool of Renewable Natural Resources, Louisiana State University Agricultural Center, Baton Rouge, LA 70803, USATransport and transformation of riverine dissolved carbon is an important component of global carbon cycling. The Atchafalaya River (AR) flows 189 kilometers through the largest bottomland swamp in North America and discharges ~25% of the flow of the Mississippi River into the Gulf of Mexico annually, providing a unique opportunity to study the floodplain/wetland impacts on dissolved carbon. The aim of this study is to determine how dissolved organic carbon (DOC) and dissolved inorganic carbon (DIC) in the AR change spatially and seasonally, and to elucidate which processes control the carbon cycling in this intricate swamp-river system. From May 2015 to May 2016, we conducted monthly river sampling from the river&#8217;s inflow to its outflow, analyzing samples for concentrations and &#948;<sup>13</sup>C stable isotope composition of DOC and DIC. We found that DIC concentrations in the AR were three times higher than the DOC concentrations on average, and showed more pronounced downstream changes than the DOC. During the study period, the river discharged a total of 5.35 Tg DIC and a total of 2.34 Tg DOC into the Gulf of Mexico. Based on the mass inflow&#8722;outflow balance, approximately 0.53 Tg (~10%) of the total DIC exported was produced within the floodplain/wetland system, while 0.24 Tg (~10%) of the DOC entering the basin was removed. The AR&#8217;s water was consistently oversaturated with CO<sub>2</sub> partial pressure (<i>p</i>CO<sub>2</sub>) above the atmospheric <i>p</i>CO<sub>2</sub> (with <i>p</i>CO<sub>2</sub> varying from 551 &#181;atm to 6922 &#181;atm), indicating a large source of DIC from river waters to the atmosphere as well as to the coastal margins. Largest changes in carbon constituents occurred during periods of greatest inundation of the swamp-river basin and corresponded with shifts in isotopic composition. This effect was particularly pronounced during the initial flood stages, supporting the hypothesis that subtropical floodplains can act as effective enhancers of the biogeochemical cycling of dissolved carbon.https://www.mdpi.com/2073-4441/11/7/1395carbon biogeochemistrydissolved organic carbondissolved inorganic carbonswamp-river wetlandsfloodplains<i>p</i>CO<sub>2</sub>Mississippi–Atchafalaya Rivers
collection DOAJ
language English
format Article
sources DOAJ
author Emily M. DelDuco
Y. Jun Xu
spellingShingle Emily M. DelDuco
Y. Jun Xu
Dissolved Carbon Transport and Processing in North America’s Largest Swamp River Entering the Northern Gulf of Mexico
Water
carbon biogeochemistry
dissolved organic carbon
dissolved inorganic carbon
swamp-river wetlands
floodplains
<i>p</i>CO<sub>2</sub>
Mississippi–Atchafalaya Rivers
author_facet Emily M. DelDuco
Y. Jun Xu
author_sort Emily M. DelDuco
title Dissolved Carbon Transport and Processing in North America’s Largest Swamp River Entering the Northern Gulf of Mexico
title_short Dissolved Carbon Transport and Processing in North America’s Largest Swamp River Entering the Northern Gulf of Mexico
title_full Dissolved Carbon Transport and Processing in North America’s Largest Swamp River Entering the Northern Gulf of Mexico
title_fullStr Dissolved Carbon Transport and Processing in North America’s Largest Swamp River Entering the Northern Gulf of Mexico
title_full_unstemmed Dissolved Carbon Transport and Processing in North America’s Largest Swamp River Entering the Northern Gulf of Mexico
title_sort dissolved carbon transport and processing in north america’s largest swamp river entering the northern gulf of mexico
publisher MDPI AG
series Water
issn 2073-4441
publishDate 2019-07-01
description Transport and transformation of riverine dissolved carbon is an important component of global carbon cycling. The Atchafalaya River (AR) flows 189 kilometers through the largest bottomland swamp in North America and discharges ~25% of the flow of the Mississippi River into the Gulf of Mexico annually, providing a unique opportunity to study the floodplain/wetland impacts on dissolved carbon. The aim of this study is to determine how dissolved organic carbon (DOC) and dissolved inorganic carbon (DIC) in the AR change spatially and seasonally, and to elucidate which processes control the carbon cycling in this intricate swamp-river system. From May 2015 to May 2016, we conducted monthly river sampling from the river&#8217;s inflow to its outflow, analyzing samples for concentrations and &#948;<sup>13</sup>C stable isotope composition of DOC and DIC. We found that DIC concentrations in the AR were three times higher than the DOC concentrations on average, and showed more pronounced downstream changes than the DOC. During the study period, the river discharged a total of 5.35 Tg DIC and a total of 2.34 Tg DOC into the Gulf of Mexico. Based on the mass inflow&#8722;outflow balance, approximately 0.53 Tg (~10%) of the total DIC exported was produced within the floodplain/wetland system, while 0.24 Tg (~10%) of the DOC entering the basin was removed. The AR&#8217;s water was consistently oversaturated with CO<sub>2</sub> partial pressure (<i>p</i>CO<sub>2</sub>) above the atmospheric <i>p</i>CO<sub>2</sub> (with <i>p</i>CO<sub>2</sub> varying from 551 &#181;atm to 6922 &#181;atm), indicating a large source of DIC from river waters to the atmosphere as well as to the coastal margins. Largest changes in carbon constituents occurred during periods of greatest inundation of the swamp-river basin and corresponded with shifts in isotopic composition. This effect was particularly pronounced during the initial flood stages, supporting the hypothesis that subtropical floodplains can act as effective enhancers of the biogeochemical cycling of dissolved carbon.
topic carbon biogeochemistry
dissolved organic carbon
dissolved inorganic carbon
swamp-river wetlands
floodplains
<i>p</i>CO<sub>2</sub>
Mississippi–Atchafalaya Rivers
url https://www.mdpi.com/2073-4441/11/7/1395
work_keys_str_mv AT emilymdelduco dissolvedcarbontransportandprocessinginnorthamericaslargestswampriverenteringthenortherngulfofmexico
AT yjunxu dissolvedcarbontransportandprocessinginnorthamericaslargestswampriverenteringthenortherngulfofmexico
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