Abstract
Wetland ecosystems are represented as a significant reservoir of organic carbon and play an important role in mitigating the greenhouse effect. In order to compare the compositions and distribution of organic carbon in constructed and natural river wetlands, sediments from the Xinxue River Constructed Wetland and the Xinxue River, China, were sampled at two depths (0–15 cm and 15–25 cm) in both upstream and downstream locations. Three types of organic carbon were determined: light fraction organic carbon, heavy fraction organic carbon, and dissolved organic carbon. The results show that variations in light fraction organic carbon are significantly larger between upstream and downstream locations than they are between the two wetland types; however, the opposite trend is observed for the dissolved organic carbon. There are no significant differences in the distribution of heavy fraction organic carbon between the discrete variables (e.g., between the two depths, the two locations, or the two wetland types). However, there are significant cross-variable differences; for example, the distribution patterns of heavy fraction organic carbon between wetland types and depths, and between wetland types and locations. Correlation analysis reveals that light fraction organic carbon is positively associated with light fraction nitrogen in both wetlands, while heavy fraction organic carbon is associated with both heavy fraction nitrogen and the moisture content in the constructed wetland. The results of this study demonstrate that the constructed wetland, which has a relatively low background value of heavy fraction organic carbon, is gradually accumulating organic carbon of different types, with the level of accumulation dependent on the balance between carbon accumulation and carbon decomposition. In contrast, the river wetland has relatively stable levels of organic carbon.
Highlights
Wetland ecosystems play an important environmental protection function, which includes the purification of waters, environmental governance, and the maintenance of socio-economicPLOS ONE | DOI:10.1371/journal.pone.0134713 July 31, 2015Distribution of Organic Carbon in the Sediments of Two Wetlands, China value [1,2,3]
The storage and composition of organic carbon (OC) can be understood by determining light fraction OC (LFOC) from light fraction OM (LFOM), heavy fraction OC (HFOC) from heavy fraction OM (HFOM), and dissolved OC (DOC) from dissolved OM (DOM)
For the Xinxue River Constructed Wetland (XRCW), 20 samples were collected from the upstream location (34°45’11.34” –34°45’51.45”N and 117°08’36.86” –117° 08’58.09”E), while 16 samples were collected from the downstream location (34°43’58.96” –34° 44’22.18”N and 117°09’06.83” –117°09’18.27”E)
Summary
Wetland ecosystems play an important environmental protection function, which includes the purification of waters, environmental governance, and the maintenance of socio-economicPLOS ONE | DOI:10.1371/journal.pone.0134713 July 31, 2015Distribution of Organic Carbon in the Sediments of Two Wetlands, China value [1,2,3]. The conditions under which carbon sequestration occurs can differ; for example, the morphological structure and density of OM in soils or wetland sediments varies during plant decay and microbial degradation [15,16,17]. The light fraction OM (LFOM; density < = 1.7 g cm−3) is mainly representative of undecomposed or partially decomposed plant debris and microorganisms [19,20,21] It is the main component of labile OC and is affected by turnover rate and climate change [22]. LFOM accounts for a small proportion of the OC [21, 23] and can partially transform into heavy fraction OM (HFOM; density > = 1.7 g cm−3) during microbial degradation [16, 17]. The storage and composition of OC can be understood by determining light fraction OC (LFOC) from LFOM, heavy fraction OC (HFOC) from HFOM, and DOC from DOM
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