喀斯特
生态系统服务
景观生态学
生物多样性
地理
土地退化
背景(考古学)
生态系统
环境资源管理
恢复生态学
土地利用
生态学
环境科学
栖息地
考古
生物
作者
Kelin Wang,Chunhua Zhang,Hongsong Chen,Yuemin Yue,Wei Zhang,Mingyang Zhang,Xiangkun Qi,Zhiyong Fu
出处
期刊:Landscape Ecology
[Springer Science+Business Media]
日期:2019-10-28
卷期号:34 (12): 2743-2763
被引量:436
标识
DOI:10.1007/s10980-019-00912-w
摘要
Abstract Context The karst region of southwestern China, one of the largest continuous karsts in the world, is known for its unique landscapes and rich biodiversity. This region has suffered severe environmental degradation (e.g., vegetation cover loss, soil erosion and biodiversity loss). In recent decades, Chinese governments at different levels have initiated several ecological programs (e.g., Green for Grain, Mountain Closure) to restore the degraded environment and to alleviate poverty. Objectives This study summarizes landscape studies of karst landscapes patterns, their dynamics and interactions among landscape pattern, hydrological processes and ecosystem services (ES). Methods We conducted a systematic literature review of science and land use policy to identify knowledge gaps and recommend future research and policy directions. Results Karst landscapes have experienced rapid turnover in recent decades due largely to the overlap of intense human activity on the fragile karst ecosystems. Many studies have comprehensively examined hydrology, soil processes and ecosystem services (ES) and their relationships with landscape pattern. Most of these studies have found that karst ecosystems recover with improved ES. However, the importance of epikarst in hydrological and soil processes, intense anthropogenic disturbance and landscape heterogeneity in landscape models remains elusive. Conclusions Future research should focus on in-depth examination and modelling of karst specific hydrological and soil processes, investigating relationships between climatic change, landscape change, ecological processes, and region-specific ES assessments. Results from such research should provide the necessary scientific support for a comprehensive, national karst rocky desertification treatment project (Stage II) and poverty alleviation initiatives.
科研通智能强力驱动
Strongly Powered by AbleSci AI