The stringency of China's energy and climate targets in 2030 and the policy needed to realize these targets are full of controversy, mainly as a result of multiple future uncertainties. This study has developed a stochastic energy-economy-environment integrated model, to assess China's energy and climate targets in 2030, with a particular focus on the carbon intensity reduction, carbon emission peaking, and non-fossil energy development. The probabilities of realizing the targets are obtained, and the nexus among different targets is explored. It's argued that carbon emission management and policy-making should be implemented from the perspective of risk management, and policy makers can take corresponding policy measures based on the degree of confidence required under multiple future uncertainties. It is found that the probabilities of realizing carbon emission-peaking target and non-fossil energy target are low, with the business-as-usual efforts, and additional policies may still be needed. More specific, carbon pricing plays a major role in curbing and peaking carbon emissions, while the policy mix of
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A C C E P T E D M A N U S C R I P T2 carbon pricing and non-fossil energy subsidies can peak the carbon emission with relatively low cost compared to the single carbon pricing policy. It is also found that the carbon intensity reduction target is most likely to be attained, followed by the carbon-peaking target, and then the non-fossil energy target, given the same policy efforts. This indicates that, China may not deliberately increase carbon emissions rapidly over the next decade to make the carbon emission peak as high as possible; otherwise, it may be difficult to achieve the non-fossil energy target.
Tetrahydroprotoberberines (THPBs) represent a series of compounds extracted from the Chinese herb Corydalis ambigua and various species of Stephania. THPBs, dependent on the presence of hydroxyl groups in its structure, are divided into three types: nonhydroxyl-THPBs, monohydroxyl-THPBs and dihydroxyl-THPBs. THPBs are identified as a new category of dopamine receptor ligands. Among all THPBs, dihydroxyl-THPBs attracted particular attention because of their dual actions on dopamine (DA) receptors. They exhibit D(1) receptor agonistic activity while acting as D(2) receptor antagonists. This unique pharmacological profile made dihydroxyl-THPBs such as l-stepholidine (l-SPD) potential agents in the treatment of drug addiction, Parkinson's disease, and especially, schizophrenia. Clinical studies have shown that co-administration of l-SPD with a typical antipsychotic drug significantly enhances the therapeutic effects and remarkably reduces the tardive dyskinesia induced by the typical antipsychotic drug used with schizophrenic patients. Moreover, l-SPD alone was shown to have therapeutic value without inducing significant extrapyramidal side effects and also seemed to reduce the negative symptoms of schizophrenia. This is confirmed in experimental studies using animal models of schizophrenia, in which l-SPD improved social interaction and cognitive function, inhibited hyperactivity in schizophrenic animals. This review discusses the chemistry, pharmacology and clinical implications of l-THPBs in the drug development for psychosis and neurobiological diseases.
The outbreak of COVID-19 pandemic has increased the production costs of renewable energy facilities and undermines the profitability of renewable energy investment. Green finance polices, e.g. carbon pricing, tradable green certificate (TGC) and green credit, can provide low-cost finances and counteract the adverse effects of COVID-19 pandemic. In this work, the generation costs of offshore wind power before and after the COVID-19 pandemic in China are analyzed using the data of 97 offshore wind power projects implemented in the period of 2014–2020, and the effect of green finance policy on the generation cost and the project profitability are evaluated. The results show that the average levelized cost of electricity (LCOE) of offshore wind power decreased from 0.86 CNY/kWh in 2014 to 0.72 CNY/kWh in 2019, while it increased to 0.79 CNY/kWh in 2020, i.e. 10.85% increase relative to that in 2019. With the average carbon price of 50 CNY/t CO
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, the average TGC price of 170 CNY and the green-credit policy being introduced, the average LCOE decreases to 0.76 CNY/kWh, 0.67 CNY/kWh and 0.74 CNY/kWh respectively. The green finance policy mix is still necessary to support the offshore wind power investment during the Covid-19 pandemic.
The in vivo wound healing potential of a standardized pomegranate rind extract (SPRE) and its major antioxidant constituent, ellagic acid (EA, 13 %, w/w), were investigated in three rat dermal wound models. It was found that both SPRE (5 and 2.5 %) and its equivalent amount of EA (0.65 and 0.325 %) increased the tensile strength of the incision wound by a maximum of 35.43 and 31.82 %, respectively. SPRE at 5 and 2.5 % accelerated wound contraction of the excision wound and the burn wound, while EA was effective only at 0.65 % in these two wound models. Further assays revealed that SPRE enhanced the synthesis of collagen by a maximum of 21.83 mg/g and inhibited neutrophil infiltration dose-dependently, while EA was not effective in increasing collagen accumulation and its inhibitory effect on neutrophil infiltration was milder. These results indicated that SPRE is a promising phytopharmaceutical effective in facilitating the healing of wounds and is superior to its marker compound EA.
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