Carbon sequestration effects of the typical restored vegetation types in Eastern Qinling Mountains
[Objective] To establish a foundation for addressing climate change and implementing major national ecological projects, this study investigated the carbon sequestration attributes of the representative restored vegetation types within ecologically sensitive regions of Qinling Mountains. [Methods]...
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Science Press
2025-01-01
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| Series: | Xibei zhiwu xuebao |
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| Online Access: | http://xbzwxb.alljournal.net/xbzwxb/article/abstract/20240401?st=article_issue |
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| author | XU Xiaoming YAN Shanshan PENG Xiaobang |
| author_facet | XU Xiaoming YAN Shanshan PENG Xiaobang |
| author_sort | XU Xiaoming |
| collection | DOAJ |
| description | [Objective] To establish a foundation for addressing climate change and implementing major national
ecological projects, this study investigated the carbon sequestration attributes of the representative
restored vegetation types within ecologically sensitive regions of Qinling Mountains. [Methods] Seven typical
vegetation types [Pinus tabuliformis Carr., Quercus variabilis Blume, P . tabuliformis-Quercus
variabilis mixed forests, Platycladus orientalis (L.) Franco, Robinia pseudoacacia L., grassland, and
farmland] were selected in eastern Qinling Mountains. The carbon sequestration effects and characteristics
of carbon density composition were analyzed through a survey of vegetation communities and calculation of
organic carbon in the above-ground vegetations, ground litter, and soil profile across different ecosystem
types. [Results] (1) The carbon sequestration function of the typical restored forestlands and grasslands in
eastern Qinling Mountains was significant, showing P . orientalis (L.) Franco (16 325.2 g/m2) > Q.
variabilis Blume (16 073.0 g/m2) > P . tabuliformis-Q. variabilis mixed forests (11 729.5 g/m2) >
R. pseudoacacia L. (9 023.9 g/m2) > P. tabuliformis Carr. (8 610.1 g/m2) > grassland (7 177.9 g/m2)
> farmland (5 496.2 g/m2). The forest ecosystem exhibited the highest carbon sequestration effect followed
by grassland ecosystem and farmland ecosystem. The composition ratio of ecosystem carbon density
was characterized by soil layer > vegetation layer > litter layer. (2) Carbon sequestration capacity was
generally increased with restoration years. The carbon density of forest ecosystems was higher in the middle-
aged forest stage and near-mature forest stage. Carbon storage began to stabilize and slowly decline in
the over-mature forest stage. (3) There were notable differences in carbon density among various restored
vegetation types on shaded versus sunny slopes. Furthermore, forest ecosystems displayed more pronounced
variations based on slope direction. [Conclusion] These findings indicate that vegetative carbon
sequestration is different among different stands, and exhibits phased characteristics correlated with forest
age. However, effective management strategies for high-carbon sink tree species tailored to local conditions
are essential for achieving national goals for carbon neutrality by 2060. |
| format | Article |
| id | doaj-art-c739b1111b9b413b9c4483157eda95f5 |
| institution | Kabale University |
| issn | 1000-4025 |
| language | zho |
| publishDate | 2025-01-01 |
| publisher | Science Press |
| record_format | Article |
| series | Xibei zhiwu xuebao |
| spelling | doaj-art-c739b1111b9b413b9c4483157eda95f52025-02-11T15:17:38ZzhoScience PressXibei zhiwu xuebao1000-40252025-01-014510115012410.7606/j.issn.1000-4025.20240401Carbon sequestration effects of the typical restored vegetation types in Eastern Qinling MountainsXU Xiaoming0YAN Shanshan1PENG Xiaobang2College of Urban, Rural Planning and Architectural Engineering, Shangluo University, Shangluo, Shaanxi 726000, China; Shangluo Carbon Neutrality Engineering Technology Research Center, Shangluo, Shaanxi 726000, China; Ecohydrology Observation and Research Station of the Southern Qinling Mountains in Shaanxi Province, Shangluo, Shaanxi 726000, ChinaCollege of Urban, Rural Planning and Architectural Engineering, Shangluo University, Shangluo, Shaanxi 726000, ChinaCollege of Urban, Rural Planning and Architectural Engineering, Shangluo University, Shangluo, Shaanxi 726000, China; Shangluo Carbon Neutrality Engineering Technology Research Center, Shangluo, Shaanxi 726000, China[Objective] To establish a foundation for addressing climate change and implementing major national ecological projects, this study investigated the carbon sequestration attributes of the representative restored vegetation types within ecologically sensitive regions of Qinling Mountains. [Methods] Seven typical vegetation types [Pinus tabuliformis Carr., Quercus variabilis Blume, P . tabuliformis-Quercus variabilis mixed forests, Platycladus orientalis (L.) Franco, Robinia pseudoacacia L., grassland, and farmland] were selected in eastern Qinling Mountains. The carbon sequestration effects and characteristics of carbon density composition were analyzed through a survey of vegetation communities and calculation of organic carbon in the above-ground vegetations, ground litter, and soil profile across different ecosystem types. [Results] (1) The carbon sequestration function of the typical restored forestlands and grasslands in eastern Qinling Mountains was significant, showing P . orientalis (L.) Franco (16 325.2 g/m2) > Q. variabilis Blume (16 073.0 g/m2) > P . tabuliformis-Q. variabilis mixed forests (11 729.5 g/m2) > R. pseudoacacia L. (9 023.9 g/m2) > P. tabuliformis Carr. (8 610.1 g/m2) > grassland (7 177.9 g/m2) > farmland (5 496.2 g/m2). The forest ecosystem exhibited the highest carbon sequestration effect followed by grassland ecosystem and farmland ecosystem. The composition ratio of ecosystem carbon density was characterized by soil layer > vegetation layer > litter layer. (2) Carbon sequestration capacity was generally increased with restoration years. The carbon density of forest ecosystems was higher in the middle- aged forest stage and near-mature forest stage. Carbon storage began to stabilize and slowly decline in the over-mature forest stage. (3) There were notable differences in carbon density among various restored vegetation types on shaded versus sunny slopes. Furthermore, forest ecosystems displayed more pronounced variations based on slope direction. [Conclusion] These findings indicate that vegetative carbon sequestration is different among different stands, and exhibits phased characteristics correlated with forest age. However, effective management strategies for high-carbon sink tree species tailored to local conditions are essential for achieving national goals for carbon neutrality by 2060.http://xbzwxb.alljournal.net/xbzwxb/article/abstract/20240401?st=article_issuecarbon densitystand ageslope aspecttypical vegetation typeeastern qinling mountains |
| spellingShingle | XU Xiaoming YAN Shanshan PENG Xiaobang Carbon sequestration effects of the typical restored vegetation types in Eastern Qinling Mountains Xibei zhiwu xuebao carbon density stand age slope aspect typical vegetation type eastern qinling mountains |
| title | Carbon sequestration effects of the typical restored vegetation types in Eastern Qinling Mountains |
| title_full | Carbon sequestration effects of the typical restored vegetation types in Eastern Qinling Mountains |
| title_fullStr | Carbon sequestration effects of the typical restored vegetation types in Eastern Qinling Mountains |
| title_full_unstemmed | Carbon sequestration effects of the typical restored vegetation types in Eastern Qinling Mountains |
| title_short | Carbon sequestration effects of the typical restored vegetation types in Eastern Qinling Mountains |
| title_sort | carbon sequestration effects of the typical restored vegetation types in eastern qinling mountains |
| topic | carbon density stand age slope aspect typical vegetation type eastern qinling mountains |
| url | http://xbzwxb.alljournal.net/xbzwxb/article/abstract/20240401?st=article_issue |
| work_keys_str_mv | AT xuxiaoming carbonsequestrationeffectsofthetypicalrestoredvegetationtypesineasternqinlingmountains AT yanshanshan carbonsequestrationeffectsofthetypicalrestoredvegetationtypesineasternqinlingmountains AT pengxiaobang carbonsequestrationeffectsofthetypicalrestoredvegetationtypesineasternqinlingmountains |