Abstract
Under the combined effect of climate variations and anthropogenic activities, the forest ecosystem in the Yangtze River Basin (YRB) has experienced dramatic changes in recent decades. Quantifying their relative contributions can provide a valuable reference for forest management and ecological sustainability. In this study, we selected net primary productivity (NPP) as an indicator to investigate forest variations. Meanwhile, we established eight scenarios based on the slope coefficients of the potential NPP (PNPP) and actual NPP (ANPP), and human-induced NPP (HNPP) to quantify the contributions of anthropogenic activities and climate variations to forest variations in the YRB from 2000 to 2015. The results revealed that in general, the total forest ANPP increased by 10.42 TgC in the YRB, and forest restoration occurred in 57.25% of the study area during the study period. The forest degradation was mainly observed in the Wujiang River basin, Dongting Lake basin, and Poyang Lake basin. On the whole, the contribution of anthropogenic activities was greater than climate variations on both forest restoration and degradation in the YRB. Their contribution to forest restoration and degradation varied in different tributaries. Among the five forest types, shrubs experienced the most severe degradation during the study period, which should arouse great attention. Ecological restoration programs implemented in YRB have effectively mitigated the adverse effect of climate variations and dominated forest restoration, while rapid urbanization in the mid-lower region has resulted in forest degradation. The forest degradation in Dongting Lake basin and Poyang Lake basin may be ascribed to the absence of the Natural Forest Conservation Program. Therefore, we recommend that the extent of the Natural Forest Conservation Program should expand to cover these two basins. The current research could improve the understanding of the driving mechanism of forest dynamics and promote the effectiveness of ecological restoration programs in the YRB.
Highlights
Licensee MDPI, Basel, Switzerland.As one of the most substantial terrestrial ecosystems, forest covers more than 4.0 × 107 km2, accounting for about 31% of the Earth’s land area
The highest actual NPP (ANPP) was observed in the Jinsha River basin (JSRB), with a mean value of 693.43 gC m−2 yr−1
The results of the current study revealed the overall trend of forest ANPP and determined the relative contribution of climate variations and anthropogenic activities to forest dynamics in the Yangtze River Basin (YRB), which can provide a valuable reference for forest ecosystem restoration and management in the future
Summary
As one of the most substantial terrestrial ecosystems, forest covers more than 4.0 × 107 km , accounting for about 31% of the Earth’s land area. This vegetation type plays an important role in the global carbon cycle and contains approximately half of the vegetation biomass carbon [1]. In September 2015, the United Nations adopted the 2030 Agenda, the core elements of which are the 17 Sustainable Development Goals (SDGs) [5]. To implement SDG 15.3 (Land Degradation Neutralization Initiative) more effectively, it is important to explore the driving mechanism of forest dynamics
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