日志还是许可证?排放交易计划中的林地使用决策

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Dominic White, Niven Winchester
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引用次数: 0

摘要

许多国家需要负碳排放选项来实现长期气候目标。激励这些选择的一种方法是通过排放交易计划(ETS)向农民支付森林封存的碳。新西兰有一个全面的ETS,其中包括鼓励农民种植永久性的异国森林。这项研究使用了一个全经济模型、林业模型和土地利用变化函数来衡量2014年至2050年新西兰在采伐年龄拥有树木的农民的预期比例,这些树木将使土地利用从生产变为永久森林。我们还估计了对碳固存、碳价格、总排放量、GDP和福利的影响。当林业土地利用发生变化时,研究结果表明,土地所有者对碳价格的反应对碳固存有一定的影响。例如,在土地利用变化最快的情况下,到2050年,碳固存量达到2993万吨二氧化碳当量,而在没有土地利用变化的情况下为2341万吨二氧化碳(增加28%)。即使在土地利用变化最慢的情况下,到2050年,碳固存量也为2589 Mt CO2e(与没有土地利用变化相比增加了11%)。这是因为,如果林业工作者在1 今年,碳价格和最终转化为永久森林的激励措施在未来几年将更高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Logs or permits? Forestry land use decisions in an emissions trading scheme

Logs or permits? Forestry land use decisions in an emissions trading scheme

Negative carbon emissions options are required to meet long-term climate goals in many countries. One way to incentivise these options is by paying farmers for carbon sequestered by forests through an emissions trading scheme (ETS). New Zealand has a comprehensive ETS, which includes incentives for farmers to plant permanent exotic forests. This research uses an economy-wide model, a forestry model and land use change functions to measure the expected proportion of farmers with trees at harvesting age that will change land use from production to permanent forests in New Zealand from 2014 to 2050. We also estimate the impacts on carbon sequestration, the carbon price, gross emissions, GDP and welfare. When there is forestry land use change, the results indicate that the responsiveness of land owners to the carbon price has a measured impact on carbon sequestration. For example, under the fastest land use change scenario, carbon sequestration reaches 29.93 Mt CO2e by 2050 compared to 23.41 Mt CO2e in the no land use change scenario (a 28% increase). Even under the slowest land use change scenario, carbon sequestration is 25.89 Mt CO2e by 2050 (an 11% increase compared with no land use change). This is because, if foresters decide not to switch to permanent forests in 1 year, carbon prices and ultimately incentives to convert to permanent forests will be higher in future years.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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