气候变化领域集成服务门户(CCPortal): Benthic fluxes of dissolved oxygen and nutrients across hydrogeomorphic zones in a coastal deltaic floodplain within the Mississippi River delta plain

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DOI	10.1007/s10533-020-00665-8
	Benthic fluxes of dissolved oxygen and nutrients across hydrogeomorphic zones in a coastal deltaic floodplain within the Mississippi River delta plain
	Li S.; Christensen A.; Twilley R.R.
发表日期	2020
ISSN	0168-2563
起始页码	115
结束页码	140
卷号	149 期号:2
英文摘要	We tested the hypothesis that benthic fluxes will increase spatially in a coastal deltaic floodplain as sediment organic matter increases in response to developing hydrogeomorphic zones along a chronosequence of the active Mississippi River Delta. A continuous flow-through core system was used to incubate intact sediment cores from three hydrogeomorphic zones along a chronosequence in the emerging Wax Lake Delta (WLD). Organic matter content increased from younger to older deltaic sediments from subtidal to supratidal hydrogeomorphic zones, which were coupled with increasing benthic oxygen and nitrogen fluxes. Mean net denitrification rate in spring was 100 µmol N2–N m−2 h−1 with significantly lower rates occurring in the younger intertidal zones (T4 transect, − 22 µmol N2–N m−2 h−1) and higher rates occurring in the older supratidal zones (T2 and T1 transects, 330 and 262 µmol N2–N m−2 h−1, respectively). Mean net denitrification rate in summer was 397 µmol N2–N m−2 h−1 without significant site-to-site variability except for the supratidal-T2 site (911 µmol N2–N m−2 h−1) showing higher denitrification rate than the other sites. Based on seasonal temperature and inundation time, annual rates of benthic NO3 − removal varied from − 0.5 to − 3.4 mol m−2 y−1 and N2–N production rates varied from 1.0 to 3.2 mol N m−2 y−1 across WLD. The subtidal zone had the lowest fluxes associated with lower organic matter content, but was the hydrogeomorphic zone with the largest area and longest flood duration, and therefore contributed over half of N removal in WLD. The estimated annual NO3 − removal of 896 Mg N y−1 in WLD accounts for 10 to 27% of total NO3 − load to WLD, most of which is converted to N2 through denitrification. As a small prograding coastal deltaic floodplain under early stages of delta development, WLD is a continuously emerging ecosystem where the capacity of N removal increases by 0.2 to 2% per year prior to riverine NO3 − is export to coastal ocean. These results highlight the contribution of the coastal deltaic floodplain in an active coastal basin in processing elevated riverine NO3 − at continental margins with coastal ocean. The potential loss of this ecosystem service in N removal may increase in global significance as delta areas decline as result of accelerated relative sea level rise and decreased sediment loading in major river basins around the world. © 2020, Springer Nature Switzerland AG.
英文关键词	Benthic fluxes; Coastal deltaic floodplain; Denitrification; Hydrogeomorphic zones; Nitrogen removal; Sediment oxygen consumption
语种	英语
scopus关键词	deltaic deposit; denitrification; dissolved oxygen; estuarine front; floodplain; intertidal environment; nitrogen; organic matter; pollutant removal; sea level change; sediment chemistry; sediment core; subtidal environment; Atchafalaya Delta; Louisiana; Mississippi River; United States; Wax Lake Delta
来源期刊	Biogeochemistry
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/153140
作者单位	Department of Oceanography and Coastal Sciences, College of the Coast and Environment, Louisiana State University, Baton Rouge, LA 70803, United States; Louisiana Sea Grant, Louisiana State University, Baton Rouge, LA 70803, United States
推荐引用方式 GB/T 7714	Li S.,Christensen A.,Twilley R.R.. Benthic fluxes of dissolved oxygen and nutrients across hydrogeomorphic zones in a coastal deltaic floodplain within the Mississippi River delta plain[J],2020,149(2).
APA	Li S.,Christensen A.,&Twilley R.R..(2020).Benthic fluxes of dissolved oxygen and nutrients across hydrogeomorphic zones in a coastal deltaic floodplain within the Mississippi River delta plain.Biogeochemistry,149(2).
MLA	Li S.,et al."Benthic fluxes of dissolved oxygen and nutrients across hydrogeomorphic zones in a coastal deltaic floodplain within the Mississippi River delta plain".Biogeochemistry 149.2(2020).