Abstract
The continuous growth of the economy and population have promoted increasing consumption of natural resources, and raised concerns regarding the upper limits of the terrestrial ecosystems with biomass accessible for humanity. Here, human appropriation of net primary production (HANPP) was employed to assess the influence of human activities on terrestrial net primary production (NPP), and a detailed method was introduced to simulate the magnitude and trends of HANPP in the Yangtze River Delta. The results showed that the total HANPP of the Yangtze River Delta increased from 102.3 Tg C yr−1 to 142.2 Tg C yr−1, during 2005–2015, with an average of 121.3 Tg C yr−1. NPP changes induced by harvest (HANPPharv) made the dominant contribution of 79.9% to the total HANPP, and the increase of HANPPharv in cropland was the main driver of total HANPP growth, which was significantly correlated with the improvement in agricultural production conditions, such as total agricultural machinery power and effective irrigation area. The proportion of HANPP ranged from 59.3% to 72.4% of potential NPP during 2005–2015 in the Yangtze River Delta, and distinguishable differences in the proportions were found among the four provinces in the Yangtze River Delta. Shanghai had the largest proportion of 84.3%, while Zhejiang had the lowest proportion of 32.0%.
Highlights
Terrestrial ecosystems are the basic resource for the sustainable development of human society
The total HANPPharv was significantly greater than HANPPluc which changed from 9.2 Tg C yr−1 to 36.7 Tg C yr−1
The main findings of this study are as follows: (1) The total human appropriation of net primary production (HANPP) of the Yangtze River Delta increased from 102.3 Tg C yr−1 to 142.2 Tg C yr−1, during 2005–2015, with an average of 121.3 Tg C yr−1
Summary
Terrestrial ecosystems are the basic resource for the sustainable development of human society. How to assess the status and change trends of terrestrial ecosystems objectively and comprehensively has become one of the key issues related to the sustainable development of human society. Net primary production (NPP) is the key component of the global carbon cycle [6], and provides a measurable and unified boundary for terrestrial ecosystems [7]. Extensive research on NPP has shown that human activities have become the major factor affecting NPP changes [8], and NPP has been selected as an indicator to assess the impact of human activities on terrestrial ecosystems [9,10,11,12]
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