The impacts of climate changes and human activities on net primary productivity vary across an ecotone zone in Northwest China.

The variations in net primary productivity (NPP) and its controls are critical to understand the mechanisms that maintain ecosystem services under ongoing climate change and human activities. However, such knowledge is still incomplete in ecotone areas where plant species may reach their physiological thresholds. Our study quantified the variations in NPP and its controls resulting from interannual climate variations and human activities in the Qilian Mountain region (QLMR), an ecotone zone in central Asia. To achieve this goal, three indexes, including actual NPP (ANPP), potential NPP (PNPP), and human-induced NPP (HNPP), and their variations during 2001–2012 were estimated by combining the Carnegie–Ames–Stanford approach and a residual trend method. The results showed that the average PNPP, HNPP and ANPP values across the whole QLMR increased at rates of 4.71, 3.08, and 1.63 g C m−2 yr−1, respectively. The ANPP increased in 66.8% of the area during 2001–2012. The impacts of climate variations and human activities on NPP varied across the ecotone zone, vegetation types and altitudinal gradient. Climate-derived impacts caused the ANPP to increase in over 53% of the area in all vegetation ecosystems except forests. Climate variations were expected to account for most of the changes in ANPP in high-altitude zones (above 3500 m), while the impacts of human activities on ANPP were concentrated mainly in mid- and low-elevation zones. Our results suggest that increasing precipitation is a dominant factor underlying the increase in ANPP in such semiarid regions, while human activity is the primary reason for declines in NPP even if there is vegetation restoration. To improve the functions of vegetation ecosystems in such ecotones, a holistic strategy that combines spatially distinct measures is urgently needed. Unlabelled Image • Both climate variations and human activities can alter NPP in semiarid ecotones. • The impacts of climate changes and human activities on NPP vary across vegetation types and different altitude zones. • Increased precipitation is a dominant factor underlying the increase in the actual NPP in the Qilian Mountain region. • Human activity is the primary reason for the decline in NPP even with vegetation restoration. [ABSTRACT FROM AUTHOR]