Despite the fact that China’s economy has grown swiftly since the reform and opening up, the problem of environmental degradation in China has become increasingly significant. Specifically, renewable energy consumption and oil rent contribute to environmental sustainability because of their negative effects on greenhouse gas emissions. On the contrary, economic growth and natural resources hinder environmental sustainability due to their positive effects on greenhouse gas emissions.
There are several solutions available to minimize greenhouse gas emissions in the face of the unsustainable development of natural resources, energy consumption, economic growth, and greenhouse gas emissions, as advocated by different experts. For example, Kirikkaleli and Adebayo [1] proposed that people could reduce greenhouse gas emissions by discouraging the use of non-renewable energy and increasing the amount of renewable energy. Magazzino et al. [2] thought that a complete transition from fossil to renewable resources could reduce greenhouse gas emissions. Ponce and Khan [3] came to the conclusion that improving energy efficiency was a substantial and successful strategy for reducing greenhouse gas emissions. Yuping et al. [4] discovered that globalization had reduced greenhouse gas emissions. In fact, many academics have proposed various strategies to limit greenhouse gas emissions [5][6][7]. Meanwhile, among the alternative solutions evaluated in the fourth assessment report of the International Panel on Climate Change were energy conservation and efficiency, a transition away from fossil fuels, use of new renewable energy sources, nuclear power, and carbon capture and storage. In reality, any portfolio of mitigation alternatives for reducing greenhouse gas emissions should be thoroughly evaluated, including their diverse mitigation potential, their contribution to sustainable development, and all related risks and costs.
Model: log gge = f(log nr, log ec, log eg, log or) | |||
---|---|---|---|
Variable | Long-run Effect | Variable | Short-run Effect |
Section model | auto-regressive distributed lag (1,0,1,0,0) | ||
log ec | −0.292 *** (−3.860) |
Δlog ec | −0.984 *** (−2.820) |
log eg | 0.458 *** (12.447) |
Δlog eg | 0.519 ** (2.544) |
log or | −0.142 *** (−4.378) |
Δlog or | −0.022 * (−1.817) |
log nr | 0.242 *** (5.800) |
Δlog nr | 0.046 ** (2.074) |
Du2001 | 0.047 * (1.938) |
Du2001 | 0.096 * (1.869) |
C | 2.057 *** (6.281) |
ect−1 | −0.294 *** (−2.899) |
Diagnostic Tests | F-statistic | p-value | |
Normality test | 1.438 | 0.401 | |
χ2serial | 0.164 [8][9] | 0.849 | |
χ2white | 0.508 [10][11] | 0.479 | |
χ2ramsey | 2.121 [12][13] | 0.154 | |
CUSUM test | Stable | ||
CUSUM of Squares Test | Stable |
This entry is adapted from the peer-reviewed paper 10.3390/su14031579