Non-negligible cascading impacts of global urban expansion on net primary productivity

Abstract

Abstract Accelerated global urban expansion not only directly occupies surrounding ecosystems, but also induces cascading losses of natural vegetation elsewhere through cropland displacement. Yet how such effects alter the net primary productivity (NPP) worldwide remains unclear. Here, we quantified the direct and cascading impacts of global urban expansion on terrestrial NPP from 1992 to 2020, and projected the impacts under the shared socioeconomic pathways (SSPs) framework by 2100. We found that global urban expansion caused a cascading loss of 7.2 to 44.6 Tg C/year of terrestrial NPP in the historical period (1992-2020), accounting for 3-20% of the total direct NPP loss. Instead, our projections indicate that during 2020-2100, mainly due to the increased relocation of displaced croplands to low-productive ecosystems, the cascading impacts gradually change from negative to positive, leading to a net NPP increase. Such an increase may offset up to 7% of the total direct NPP loss, better balancing crop compensation with NPP maintenance. Our findings highlight the unexpected large cascading impacts of urban expansion on the carbon cycle and stress the importance of regulating land transitions to curtail land use emissions.