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2. Effects of E2 on the IDO1‐mediated metabolic KYN pathway in OVX female mice.

Author

Jiang, Xi, Yu, Xuefeng, Hu, Shuran, Dai, Huidan, Zhang, Hanqin, Hang, Yuyang, Xie, Xupei, Yang, Yubo, and Wu, Fan

Subjects
SMALL interfering RNA, INFLAMMATORY mediators, GENE expression, OXIDATIVE stress, OVARIECTOMY
Abstract

The aim of this study was to investigate the role of 17β‐estradiol (E2)‐mediated oestrogen receptor (ER) in modulating the depressive‐like behaviours of ovariectomy (OVX) mice and the associated mechanisms. E2 was administrated in OVX mice. The behaviour and physiological changes of OVX mice including immobility time in tail suspension test (TST) and forced swimming test (FST), levels of serum E2, inflammatory mediators, oxidative stress factors, indoleamine2,3‐dioxygenase 1 (IDO1) and the neurotransmitters mediated by IDO1 activation were then recorded. Cell injury models established by lipopolysaccharide (LPS) or H2O2 stimulation in HT22 and BV2 cells were employed to further explore the mechanisms of E2's function. E2 treatment improved OVX‐induced increase of immobility time in FST and TST. Meanwhile, E2 ameliorated the changes of inflammatory factors (NF‐κB, TNF‐α and IL‐6), IDO1, IDO1‐mediated TRP/KYN pathway and oxidative stress factors (iNOS, MDA, GSH and SOD) in the hippocampus of OVX mice. Interestingly, ERβ inhibitor abolished E2's inhibitory effects on the inflammation and IDO1‐mediated TRP/KYN pathway; ERβ inhibitor also abolished E2's anti‐oxidative stress effect. In cell experiments, ERβ small interfering RNA (siRNA) pretreatment reversed E2's anti‐inflammatory effect on LPS‐treated HT22 and BV2 cells and E2's inhibitory effect on IDO1 expression in LPS‐treated BV2 cells. ERβ siRNA pretreatment also reversed E2's anti‐oxidation effect on H2O2‐treated HT22 cells. E2 exert the antidepressant function in OVX mice via ERβ‐modulated suppression of NF‐κB‐mediated inflammatory pathway, oxidative stress factors and IDO1‐mediated TRP/KYN pathway in the hippocampus. [ABSTRACT FROM AUTHOR]

Published
2024
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3. How to Promote the Application of Biogas Power Technology: A Perspective of Incentive Policy

Author

Zhao Xin-gang, Wang Wei, Hu Shuran, and Lu Wenjie

Subjects
incentive policies, biogas power, system dynamic, technology adoption, decision-making, Technology
Abstract

To combat climate change, the Chinese government has implemented a package of policies to support the development of the biogas power generation industry. However, the promotion of biogas power generation technology in China is relatively slow. Therefore, it is of practical significance to study the promotion of biogas power generation technology against the background of policy support. In order to study the effect of policy on the promotion of biogas power generation technology, a system dynamics model is constructed in this paper. The results show that under the feed-in tariff subsidy policy, biogas power generation technology can be well promoted because it has good economic and environmental effects. In addition, if the biogas power generation technology is considered to participate in carbon emission trading, the carbon price also has a positive impact on the promotion of biogas power generation technology because it increases the perceived economic value of biogas power generation projects. Finally, this study can also provide reference value for the promotion of biogas power generation technology in other areas.

Published
2023
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4. How to optimize allocation of renewable portfolio standards for renewable energy development in China?

Author

Zhao Xin-gang, Lu Wenjie, Wang Wei, Hu Shuran, and Zuo Yi

Subjects
Renewable Energy, Sustainability and the Environment
Abstract

A renewable portfolio standard is implemented to promote the development of renewable energy at a minimum cost through tradable green certificate market mechanism. Formulating a scientific and feasible renewable energy quota allocation scheme helps RPS function smoothly and optimize resource allocation. This paper proposed a bi-level programming model combined with entropy weight method to allocate renewable portfolio standard quotas with provincial heterogeneity and stakeholders' behavior, and an optimized quota allocation scheme among China's 30 provinces in 2020 was obtained. By comparing with the government's issued scheme, the following were the results under the optimized scheme: (1) Quotas in most provinces have increased, and the responsibility for renewable electricity generation is shared with the provinces with developed economy and well-constructed transmission facilities, where electricity producers can meet the quotas by purchasing tradable green certificate. (2) Quota allocation has positive effects on energy, economy, and environment. Specifically, the non-hydro renewable electricity generation increased by 43.8%, the non-hydro renewable electricity producers' profit increased by 18.4%, and the environmental pollution cost reduced by 27.9%. (3) Quota allocation equity measured by the environmental Gini coefficient increased by 14.3%. Based on these findings, some policy implications related to quota allocation and renewable portfolio standard's institutional arrangement have been put forward.

Published
2023

6. Impacts of Government Policies on the Adoption of Biomass Power: A System Dynamic Perspective

Author

Zhao Xin-gang, Wang Wei, Hu Shuran, and Liu Xuan

Subjects
Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, government policies, biomass power, system dynamic, adoption, Building and Construction, Management, Monitoring, Policy and Law
Abstract

As a kind of renewable energy, biomass power has great development potential in mitigating greenhouse gas emissions. Therefore, under the background of carbon peak and carbon neutrality, the diffusion of biomass power generation technology has practical significance. To address these issues, this paper constructs a system dynamics model to study the impact of different policy effects on the diffusion of biomass power generation technologies. The results show that the feed-in tariff policy can significantly promote the installed capacity growth of biomass power generation projects; on the other hand, carbon emission trading increases the investment value of projects and promotes the growth of the installed capacity of biomass power generation projects, to a certain extent, so relevant policies need to be improved to achieve the promotion of biomass power generation technology in the future.

Published
2023

7. The sustainable development of a low-carbon system using a system dynamics model: A case study of China

Author

Wang Wei, Zhao Xin-gang, Lu Wenjie, and Hu Shuran

Subjects
Renewable Energy, Sustainability and the Environment
Abstract

With the process of economic transformation and structural adjustment, low-carbon development has become an intrinsic and realistic demand for China's national economic and social development. This paper builds a system dynamic (SD) model of China's low-carbon development based on the internal influencing mechanisms of carbon sources, carbon flows, and carbon sinks, and then explores the impact of carbon sources, carbon flows, and carbon sinks system on carbon emissions under different scenarios. The model in our study is effective and practical, and it can not only clearly demonstrate the interaction mechanism between various systems but also provide effective policy recommendations for policymakers. The results show that (1) with the steady growth of the economy, China's total energy consumption and carbon emissions have increased significantly. By 2025, the total energy consumption will reach 628 798 ten thousand tons, and the carbon emissions will reach 689 257 ten thousand tons; (2) as for energy and industrial structure, on the one hand, energy restructuring is more effective in reducing carbon emissions than is industrial restructuring; (3) carbon sinks also play an important role in reducing greenhouse gas emissions.

Published
2023

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