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DOI	10.1016/j.foreco.2020.118013
	Changes in soil organic carbon and total nitrogen as affected by primary forest conversion
	Gao F.; Cui X.; Sang Y.; Song J.
发表日期	2020
ISSN	0378-1127
卷号	463
英文摘要	Numerous studies have addressed the effects of forest conversion on soil organic carbon (SOC) and total nitrogen (TN); however, knowledge of SOC and TN stocks and SOC stability after primary forest conversion to secondary forest is still lacking. Such an understanding is critical for the accurate estimation of the potential of forest soils to act as carbon sinks. To learn more about the changes in SOC and TN stocks and SOC stability after primary forest conversion, we used a strict paired-plots method and measured bulk-soil and aggregate-associated OC and TN as well as four SOC stability indices, i.e., heterotrophic respiration, alkyl/O-alkyl C ratio, aggregate-occluded OC, and mineral-associated OC, in paired primary and secondary forest plots in Liangshui National Nature Reserve, Heilongjiang Province, Northeast China. The SOC and TN stocks at the 0–15 cm depth significantly increased with the conversion of primary to secondary forest, by 17.11 Mg ha−1 and 2.91 Mg ha−1, respectively, which was mainly due to increases in soil aggregate (>0.053 mm)-associated OC and TN concentrations. The primary forests dominated by conifer tree species had more low-quality plant OC in the organic layer (i.e., higher amounts of litter and forest floor and higher litter C/N ratio), while the secondary forests composed of broadleaf tree species with higher litter and fine root TN and lower C/N ratios accumulated more stable OC (as indicated by the reduced respiration per g of SOC and the greater proportion of aggregate-occluded OC) and TN in the mineral soil. We did not observe significant differences in the alkyl/O-alkyl C ratio or the proportion of mineral-associated OC (<50 µm) between the two forest types, reflecting the insensitivity of some stability indicators to decadal-scale shifts in primary forest conversion. Tree species-specific differences in litter and fine root traits (i.e., C and N) might be the main driving factors affecting the accumulation and stability of SOC and TN. Thus, it is important to identify and select tree species that are beneficial for the sequestration of OC in mineral soil for forest management or afforestation from the perspective of ecosystem carbon sequestration. © 2020 Elsevier B.V.
英文关键词	Organic carbon stability; Primary forest conversion; Soil organic carbon; Total nitrogen
语种	英语
scopus关键词	Aggregates; Magnesium; Minerals; Nitrogen; Organic carbon; Reforestation; Soil quality; Stability; Accurate estimation; Carbon stability; Heterotrophic respiration; Primary forest; Soil organic carbon; Stability indicators; Stability indices; Total nitrogen; Soil pollution; afforestation; carbon sequestration; coniferous tree; fine root; forest floor; organic carbon; primary succession; respiration; secondary forest; soil aggregate; soil nitrogen; soil organic matter; Conversion; Magnesium; Minerals; Nitrogen; Reforestation; Soil; Stability; Trees; China; Heilongjiang; Liangshui Nature Reserve; Coniferophyta
来源期刊	Forest Ecology and Management
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/155345
作者单位	Key Laboratory of Sustainable Forest Ecosystem Management-Ministry of Education, School of Forestry, Northeast Forestry University, 26 Hexing Road, Harbin, 150040, China
推荐引用方式 GB/T 7714	Gao F.,Cui X.,Sang Y.,et al. Changes in soil organic carbon and total nitrogen as affected by primary forest conversion[J],2020,463.
APA	Gao F.,Cui X.,Sang Y.,&Song J..(2020).Changes in soil organic carbon and total nitrogen as affected by primary forest conversion.Forest Ecology and Management,463.
MLA	Gao F.,et al."Changes in soil organic carbon and total nitrogen as affected by primary forest conversion".Forest Ecology and Management 463(2020).