Over the previous two decades, Chinese economic development presented a rapid growth. However, with continuous industrialization and urbanization, China is confronted with great challenges of energy security and environmental issues. These problems are closely related to the current accounting method of economic growth to a certain extent. In order to meet these challenges, it is imperative to establish a green accounting system of economic growth and measure China’s green GDP and its changing trend based on the industrial perspective. Using the System of Environmental Economic Accounting (SEEA) and industry data, this paper estimates China’s green GDP and green value added by industry sectors in 2005, 2007, 2010, 2012, 2015, and 2017. The results reveal the following: First, the ratio of green GDP to traditional GDP gradually increases from 89.85 to 95.83% during 2005–2017, which means that the negative externalities of economic growth of the resource and environment are gradually weakened. Second, the difference between traditional GDP and green GDP during 2005–2017 is about 6.96%, with the carbon emissions accounting for 70.71% of environmental impact. Third, due to more than 80% of the environmental impact coming from three sectors: manufacturing (49.99%), electricity industry (22.63%), and other services (11.37%), these three sectors should be key sectors for energy conservation and emission reduction; fourth, the green GDP of the mining, electricity industries, and manufacturing accounts for the lowest proportion of GDP, which means that the development patterns of these three industries in recent years should be adjusted and optimized step by step.
The effect of Ca^2 on the removal of Alexandrium sp. LC3 under HDTMAB stress was investigated. The results showed that thetoxic effect of HDTMAB on Alexandrium sp. LC3 was significantly reduced in the presence of Ca^2 , especially under 4 mmol/L of Ca^2 .To understand the underlying mechanism, the SH group and MDA content of the cell membrane and membrane permeability weremeasured. It was found that the SH content of cell member increased, the MDA content and membrane permeability decreased whenAlexandrium sp. was treated with Ca^2 and HDTMAB complex, compared with using HDTMAB only. The data suggested that Ca^2 mightpromote HDTMAB stress resistance of Alexandrium sp. LC3 by reducing the permeability and increasing the stability of cell membrane. 相似文献