Over the past few decades, climate change and urban expansion have strongly affected
vegetation dynamics and overall carbon sink capacity of Himalayan ecosystem. However …

The magnitude and spatial patterns of carbon fluxes in alpine grasslands determine the
regional terrestrial carbon balance of the Tibetan Plateau. However, the patterns and …

Abstract Background The Qinghai-Tibet Plateau is the “sensitive area” of climate change,
and also the “driver” and “amplifier” of global change. The response and feedback of its …

Carbon budget estimation is crucial for scientifically assessing the ecosystem's carbon
sequestration capacity. Grasslands in the Qilian Mountains are widely recognized as …

Grassland ecosystems are a significant part of the global ecosystem and support the
livelihoods of millions of people. The Inner Mongolia grassland is the largest temperate …

Although alpine grassland net primary productivity (NPP) plays an important role in
balancing the carbon cycle and is extremely vulnerable to climate factors, on the Tibetan …

The terrestrial ecosystem in southwestern China has been a long‐term carbon sink, but its
spatial–temporal pattern during the previous two decades and its response to karst rocky …

The grassland in the Hindu Kush Himalayan (HKH) region is one of the largest and most
biodiverse mountain grassland types in the world, and its ecosystem service functions have …

草地碳汇/源是植被生态系统中碳收支和碳平衡的一个重要内容, 区分碳汇和碳源对气候变化的
响应可为减源增汇提供科学依据. 基于MODIS NPP 数据和土壤呼吸模型量化了2001—2019 …

Urban cluster carbon sinks are key parts of the terrestrial carbon cycle, and play an
important role in global climate change. Based on the inversion results of net ecosystem …