YoungsubimToken官网下载 Matthew Shin
来源:网络整理 2024-02-27
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2024年2月23日出版的《科学》杂志发表了这一最新研究成果, the offsetting positive forcing was smaller,imToken下载,imToken官网下载, Youngsub Matthew Shin, 然而。
突出了同时减排的紧迫性,随着生物源性有机排放的增加。
据了解, David J. Beerling。
造林被广泛提出用于去除二氧化碳(CO2)。
Nathan Luke Abraham, forestation decreased surface albedo,此外。
when forestation was pursued alongside other strategies that achieve the 2C Paris Agreement target, 附:英文原文 Title: Chemistry-albedo feedbacks offset up to a third of forestations CO2 removal benefits Author: James Weber, 本期文章:《科学》:Volume 383 Issue 6685 化学反照率反馈抵消了造林的二氧化碳去除效益的三分之一, James A. King,但其通过改变大气成分和地表反照率对气候的影响仍然相对未被探索,造林降低了地表反照率,这抵消了在升温4C情景下额外二氧化碳去除产生的负强迫的三分之一, Maria Val Martin IssueVolume: 2024-02-23 Abstract: Forestation is widely proposed for carbon dioxide (CO2) removal,造林增加了气溶胶散射和温室气体甲烷和臭氧。
warming). This offset up to a third of the negative forcing from the additional CO2 removal under a 4C warming scenario. However, highlighting the urgency for simultaneous emission reductions. DOI: adg6196 Source: https://www.science.org/doi/10.1126/science.adg6196 期刊信息 Science: 《科学》,从而产生了正辐射强迫(即变暖),这一成果由英国谢菲尔德大学Maria Val Martin研究小组经过不懈努力而取得, Stephanie Roe, which yielded a positive radiative forcing (i.e.,隶属于美国科学促进会,创刊于1880年。
用两个地球系统模型评估了这些响应,当造林与实现《巴黎协定》2C目标的其他战略同时进行时,研究组发现, Peter Lawrence,最新IF:63.714 官方网址: https://www.sciencemag.org/ , 课题组人员通过比较适宜地区全球森林广泛扩张的情景和其他可预见的未来情景, but its impact on climate through changes to atmospheric composition and surface albedo remains relatively unexplored. We assessed these responses using two Earth system models by comparing a scenario with extensive global forest expansion in suitable regions to other plausible futures. We found that forestation increased aerosol scattering and the greenhouse gases methane and ozone following increased biogenic organic emissions. Additionally, Christopher J. Smith, Daniel P. Grosvenor,抵消的正作用力较小,。