Journal
INLAND WATERS
Volume 13, Issue 1, Pages 131-141Publisher
TAYLOR & FRANCIS LTD
DOI: 10.1080/20442041.2022.2123680
Keywords
concentration; fine sediment; heavy metal; rainy season; storage; water characteristics
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This study assessed the temporal and spatial storage dynamics of several common heavy metals in the fine sediments of a subtropical forest headwater stream. The results showed that the storage of heavy metals varied across different temporal and spatial scales, and the key factors controlling their storage were water alkalinity, temperature, pH, and monthly precipitation. These findings enhance our understanding of the role of headwater streams in storing and transferring materials in forest ecosystems.
Headwater streams, as the capillaries of rivers, largely control the functional integrity of the entire river network. Headwater stream sediments, especially fine sediments, are essential ecosystem components and dominant reservoirs for heavy metals, with these reservoirs significantly affecting their cycling in streams. However, the dynamics of heavy metals in headwater stream sediments are not well assessed in the literature. Here, we assessed the temporal and spatial storage dynamics of several common heavy metals (i.e., Mn, Zn, Cu, Cr, Cd, and Pb) in the fine sediments from a typical subtropical forest headwater stream during the rainy season of 2021 (Mar-Aug). We found that (1) the mean storage of fine sediment of heavy metals was ordered Mn (21.57 g m(-2)) > Pb (2.53 g m(-2)) > Zn (2.27 g m(-2)) > Cr (0.66 g m(-2)) > Cu (0.12 g m(-2)) > Cd (0.006 g m(-2)); (2) their storage had a transient increase during the rainy season, followed by a decrease, but storage of both Zn and Cr was unevenly distributed from stream source to mouth; and (3) the key factors controlling heavy metal storage were water alkalinity, temperature, and pH, as well as monthly precipitation. These findings suggest that forest headwater streams can store heavy metals, but the amounts vary across temporal and spatial scales. Our results help us better understand the role of headwater streams in storing and transferring materials in forest ecosystems.
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