Bark controls tree branch-leached dissolved organic matter production and bioavailability in a subtropical forest

Bark is an essential component of tree branches, yet its role in controlling branch-leached dissolved organic matter (DOM) characteristics remains unknown in forests. Here, we collected branches (about 1.5 cm in diameter) of two evergreen coniferous trees, two deciduous broadleaf trees, and three ev...

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Bibliographic Details
Published in:Biogeochemistry 2022-04, Vol.158 (3), p.345-355
Main Authors: Xu, Jia-Wen, Yang, Na, Shi, Fu-Xi, Zhang, Yun, Wan, Songze, Mao, Rong
Format: Article
Language:English
Subjects:
Aromaticity
Bark
Bioavailability
Biogeosciences
Branches
Coniferous trees
Deciduous trees
Dissolved organic carbon
Dissolved organic matter
Dissolved organic phosphorus
Earth and Environmental Science
Earth Sciences
Ecosystems
Environmental Chemistry
Evergreen trees
Forests
Incubation period
Leachates
Leaching
Life Sciences
Phosphorus
Trees
Tropical forests
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Summary:Bark is an essential component of tree branches, yet its role in controlling branch-leached dissolved organic matter (DOM) characteristics remains unknown in forests. Here, we collected branches (about 1.5 cm in diameter) of two evergreen coniferous trees, two deciduous broadleaf trees, and three evergreen broadleaf trees from a subtropical forest in southern China, and subsequently used a bark removal experiment to determine the effects of bark on branch-derived DOM quantity and bioavailability. Regardless of tree type, the presence of bark reduced tree branch-leached dissolved organic carbon (DOC), dissolved total nitrogen (DTN), and dissolved total phosphorus (DTP) productions. Moreover, DOC, DTN, and DTP productions leached from the branches containing bark were always much lower than the expected values summed from barks and the branches without bark. The presence of bark increased DOM aromaticity in the broadleaf tree branch leachates but reduced DOM aromaticity in the coniferous tree branch leachates. During 42 days of incubation, the presence of bark decreased broadleaf tree branch-leached DOM bioavailability and the relative increments of aromaticity, whereas the opposite trends were observed for the coniferous tree branch-leached DOM. Tree branch-derived DOM bioavailability correlated negatively with SUVA 254 values, but exhibited no relationship with either DOC:DTN ratio or DOC:DTP ratio. These observations highlight that tree bark can prevent DOM leaching from branches and regulate branch-leached DOM bioavailability via its effect on DOM aromaticity in subtropical forests.
ISSN:0168-2563
1573-515X
DOI:10.1007/s10533-022-00902-2