Vegetation restoration altered the soil organic carbon composition and favoured its stability in a Robinia pseudoacacia plantation
Z Su, Y Zhong, X Zhu, Y Wu, Z Shen… - Science of the Total …, 2023 - Elsevier
Soil organic carbon (SOC) stabilization is vital for the mitigation of global climate change
and retention of soil carbon stocks. However, there are knowledge gaps on how SOC …
and retention of soil carbon stocks. However, there are knowledge gaps on how SOC …
Plant diversity and soil properties regulate the microbial community of monsoon evergreen broad-leaved forest under different intensities of woodland use
J Li, S Li, X Huang, R Tang, R Zhang, C Li, C Xu… - Science of the Total …, 2022 - Elsevier
A key aspect of global forest management, woodland use intensity (WUI) greatly affects the
composition and diversity of soil microbial communities, thereby affecting multiple …
composition and diversity of soil microbial communities, thereby affecting multiple …
Soil microbial necromass: The state-of-the-art, knowledge gaps, and future perspectives
Soil physical and biogeochemical processes are key to regulate the soil microbial
necromass (SMN) patterns. Increasing evidence showed that the SMN contributes to the …
necromass (SMN) patterns. Increasing evidence showed that the SMN contributes to the …
Metagenomics reveals N-induced changes in carbon-degrading genes and microbial communities of tea (Camellia sinensis L.) plantation soil under long-term …
X Yang, K Ni, Y Shi, X Yi, L Ji, S Wei, Y Jiang… - Science of the Total …, 2023 - Elsevier
Soil organic carbon (SOC) is an important C pool of the global ecosystem and is affected by
various agricultural practices including fertilization. Excessive nitrogen (N) application is an …
various agricultural practices including fertilization. Excessive nitrogen (N) application is an …
Microbial network complexity and diversity together drive the soil ecosystem multifunctionality of forests during different woodland use intensity in dry and wet season
J Li, X Huang, S Li, R Tang, J Su - Forest Ecology and Management, 2023 - Elsevier
Global change (eg, woodland use change) affects ecosystem functioning directly by
modifying various physicochemical processes and indirectly by altering biological …
modifying various physicochemical processes and indirectly by altering biological …
Divergent accumulation of amino sugars and lignins mediated by soil functional carbon pools under tropical forest conversion
T Li, H Cheng, Y Li, Z Mou, X Zhu, W Wu… - Science of the Total …, 2023 - Elsevier
Tropical primary forests are being destroyed at an alarming rate and converted for other land
uses which is expected to greatly influence soil carbon (C) cycling. However, our …
uses which is expected to greatly influence soil carbon (C) cycling. However, our …
Divergent contribution of microbial-and plant-derived carbon to soil organic carbon in Moso bamboo forests left unmanaged
Y Xu, X Ge, G Gao, Y Yang, Y Hu, Z Li, B Zhou - Catena, 2023 - Elsevier
Moso bamboo (Phyllostachys pubescens) has a high carbon (C) sequestration capacity that
can help mitigate global climate change. However, owing to strengthened environmental …
can help mitigate global climate change. However, owing to strengthened environmental …
Microbial pathways driving stable soil organic carbon change in abandoned Moso bamboo forests in southeast China
Y Xu, X Ge, G Gao, Y Yang, Y Hu, Z Li… - Journal of Environmental …, 2023 - Elsevier
Mineral-associated organic carbon (MOC) is a stable component of the soil carbon (C) pool,
critical to realize carbon sequestration and coping with climate change. Many Moso bamboo …
critical to realize carbon sequestration and coping with climate change. Many Moso bamboo …
培养条件下枯落物分解过程中微生物残体对土壤有机碳形成的贡献.
薛志婧, 屈婷婷, 刘春晖, 刘小槺… - Yingyong Shengtai …, 2023 - search.ebscohost.com
摘要采用黄土丘陵区多年生C3 草本植物长芒草为对象, 模拟“枯落物⁃ 土壤” 转换界面,
进行了为期512 d 的室内分解试验, 对枯落物分解过程中界面土层微生物残体和土壤碳组分动态 …
进行了为期512 d 的室内分解试验, 对枯落物分解过程中界面土层微生物残体和土壤碳组分动态 …
[HTML][HTML] Soil microbial community structure and soil fertility jointly regulate soil microbial residue carbon during the conversion from subtropical primary forest to …
F Xu, C Li, Y Chen, J Wu, H Bai, S Fan, Y Yang… - Geoderma, 2024 - Elsevier
Soil microbes mediate soil organic carbon (SOC) storage by affecting microbial residue
carbon (C) in terrestrial ecosystems, a main source of SOC. However, how microbial residue …
carbon (C) in terrestrial ecosystems, a main source of SOC. However, how microbial residue …