{"title":"碳定价的成本效益之谜","authors":"Christian Gollier","doi":"10.1016/j.jeem.2024.103062","DOIUrl":null,"url":null,"abstract":"<div><div>Any global temperature target must be translated into an intertemporal carbon budget and its associated cost-efficient carbon price schedule. Under the Hotelling’s rule without uncertainty, the growth rate of this price should be equal to the interest rate. It is therefore a puzzle that many cost-efficiency IAM models yield carbon prices that increase at an average real growth rate above 7% per year, a very large return for traders of carbon assets. I explore whether uncertainties surrounding the development of green technologies could solve this puzzle. I show that future marginal abatement costs and aggregate consumption are positively correlated. This justifies doing less for climate change than in the safe case, implying a smaller initial carbon price, and an expected growth rate of carbon price that is larger than the interest rate. 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引用次数: 0
摘要
任何全球气温目标都必须转化为跨时碳预算及其相关的具有成本效益的碳价格表。在没有不确定性的霍特林法则下,该价格的增长率应等于利率。因此,令人费解的是,许多成本效益 IAM 模型得出的碳价格年平均实际增长率超过 7%,这对碳资产交易者来说是一个非常大的回报。我探讨了绿色技术发展的不确定性能否解决这一难题。我的研究表明,未来的边际减排成本与总消费呈正相关。这就证明,与安全情况相比,我们有理由减少对气候变化的投入,这意味着初始碳价格较小,碳价格的预期增长率大于利率。在我的模型的基准校准中,我得到的均衡利率约为 1%,碳价格的预期增长率约为 3.5%,从而在未来几年内得到一个高于 200 美元/吨二氧化碳的最优碳价格。我还表明,成本效益碳定价的刚性碳预算方法意味着支持这一约束的未来碳价格具有很大的不确定性。我的研究表明,绿色投资者应该通过预期碳价格增长率中包含的巨大风险溢价来补偿这种风险,而不是像通常建议的那样通过碳价格的领口来补偿。
Any global temperature target must be translated into an intertemporal carbon budget and its associated cost-efficient carbon price schedule. Under the Hotelling’s rule without uncertainty, the growth rate of this price should be equal to the interest rate. It is therefore a puzzle that many cost-efficiency IAM models yield carbon prices that increase at an average real growth rate above 7% per year, a very large return for traders of carbon assets. I explore whether uncertainties surrounding the development of green technologies could solve this puzzle. I show that future marginal abatement costs and aggregate consumption are positively correlated. This justifies doing less for climate change than in the safe case, implying a smaller initial carbon price, and an expected growth rate of carbon price that is larger than the interest rate. In the benchmark calibration of my model, I obtain an equilibrium interest rate around 1% and an expected growth rate of carbon price around 3.5%, yielding an optimal carbon price above 200 USD/tCO within the next few years. I also show that the rigid carbon budget approach to cost-efficiency carbon pricing implies a large uncertainty surrounding the future carbon prices that support this constraint. I show that green investors should be compensated for this risk by a large risk premium embedded in the growth rate of expected carbon prices, rather than by a collar on carbon prices as often recommended.
期刊介绍:
The Journal of Environmental Economics and Management publishes theoretical and empirical papers devoted to specific natural resources and environmental issues. For consideration, papers should (1) contain a substantial element embodying the linkage between economic systems and environmental and natural resources systems or (2) be of substantial importance in understanding the management and/or social control of the economy in its relations with the natural environment. Although the general orientation of the journal is toward economics, interdisciplinary papers by researchers in other fields of interest to resource and environmental economists will be welcomed.
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