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Long-term intensive management increased carbon occluded in phytolith (PhytOC) in bamboo forest soils

机译：长期的集约经营增加了竹林土壤中植硅体（PhytOC）的碳吸附

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Carbon (C) occluded in phytolith (PhytOC) is highly stable at millennium scale and its accumulation in soils can help increase long-term C sequestration. Here, we report that soil PhytOC storage significantly increased with increasing duration under intensive management (mulching and fertilization) in Lei bamboo (Phyllostachys praecox) plantations. The PhytOC storage in 0–40 cm soil layer in bamboo plantations increased by 217 Mg C ha⁻¹, 20 years after being converted from paddy fields. The PhytOC accumulated at 79 kg C ha⁻¹ yr⁻¹, a rate far exceeding the global mean long-term soil C accumulation rate of 24 kg C ha⁻¹ yr⁻¹ reported in the literature. Approximately 86% of the increased PhytOC came from the large amount of mulch applied. Our data clearly demonstrate the decadal scale management effect on PhytOC accumulation, suggesting that heavy mulching is a potential method for increasing long-term organic C storage in soils for mitigating global climate change.

机译：植硅体（PhytOC）中所含的碳（C）在千年尺度上非常稳定，其在土壤中的积累有助于长期固碳。在这里，我们报告说，雷竹（Phyllostachys praecox）人工林在集约化管理（覆盖和施肥）下，随着时间的延长，土壤PhytOC的储存量显着增加。从水田转化后的20年，竹林中0–40 cm土壤层的PhytOC储量增加了217 Mg C ha ^{-1 。 PhytOC在79 kg C ha ^{-1 yr ^{-1 处积累，远超过全球长期平均土壤C积累速率24 kg C ha ^{的速率。文献报道了−1 yr ^{−1 。增加的PhytOC约有86％来自大量的覆盖物。我们的数据清楚地表明了十年尺度的管理对PhytOC积累的影响，表明重覆盖是增加土壤中长期有机C储存以缓解全球气候变化的一种潜在方法。}}}}}

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期刊名称 Scientific Reports
作者
Zhang-ting Huang; Yong-fu Li; Pei-kun Jiang; Scott X. Chang; Zhao-liang Song; Juan Liu; Guo-mo Zhou;
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年(卷),期 -1(4),-1
年度 -1
页码 3602
总页数 5
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1. Long-term intensive management increased carbon occluded in phytolith (PhytOC) in bamboo forest soils [J] . Zhang-ting Huang, Yong-fu Li, Pei-kun Jiang, Scientific reports. . 2014,第1期

机译：长期的集约经营增加了竹林土壤中植硅体（PhytOC）的碳吸附
2. Conversion from tussock grassland to pine forest: effect on soil phytoliths and phytolith-occluded carbon (PhytOC) [J] . Li Xiaoqing, Vogeler Iris, Schwendenmann Luitgard Journal of soil & sediments . 2019,第3期

机译：从草丛草地转变为松林：对土壤植石和植石中的碳（PhytOC）的影响
3. Phytolith-occluded organic carbon in intensively managed Lei bamboo (Phyllostachys praecox) stands and implications for carbon sequestration [J] . Huang Zhangting, Li Yongfu, Chang Scott X., Canadian Journal of Forest Research . 2015,第8期

机译：在集约化管理的雷竹（Phyllostachys praecox）林分中，植石体中的有机碳及其对碳固存的影响
4. INCREASED LEVELS OF ALUMINIUM IN FOREST SOILS: EFFECTS ON THE STORES OF SOIL ORGANIC CARBON [C] . JAN MULDER, HELENE A. DE WIT, HELENA W.J. BOONEN, Acid Rain 2000 . 2001

机译：森林土壤中铝的含量增加：对土壤有机碳储量的影响
5. Effects of intensive biomass harvesting in northern lake states forests on the soil microbial community, soil nutrients, and soil carbon dynamics. [D] . Lewandowski, Tera E. 2016

机译：北部湖州森林生物量集约化对土壤微生物群落，土壤养分和土壤碳动态的影响。
6. Effects of Different Management Practices on the Increase in Phytolith-Occluded Carbon in Moso Bamboo Forests [O] . Wanjie Lv, Guomo Zhou, Guangsheng Chen, 2020

机译：不同管理实践对莫斯竹林植物闭塞碳含量的影响
7. Long-term intensive management increased carbon occluded in phytolith (PhytOC) in bamboo forest soils [O] . Zhang-ting Huang, Yong-fu Li, Pei-kun Jiang, 2014

机译：长期密集型管理在竹林土壤中吞噬植物（Phytoc）堵塞的碳
8. Can Intensive Management Increase Carbon Storage in Forests [R] . Schroeder, P. 1991

机译：密集管理可以增加森林的碳储量

Long-term intensive management increased carbon occluded in phytolith (PhytOC) in bamboo forest soils

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