A “greenhouse gas balance” for aviation in line with the Paris Agreement

IF 9.4 1区 环境科学与生态学 Q1 ENVIRONMENTAL STUDIES
J. Fuglestvedt, M. Lund, Steffen Kallbekken, B. Samset, David S. Lee
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引用次数: 1

Abstract

The effects of aviation on climate pose unique policy challenges. A large fraction of the CO2 emissions (65%) is international and not (explicitly) included in the Paris Agreement. The interpretation of Article 4.1 on achieving a “balance between anthropogenic emissions by sources and removals by sinks of greenhouse gases” is ambiguous in the context of aviation because of the substantial non‐CO2 effects associated with the sector. For the achievement of the temperature goal in Article 2, both CO2 and non‐CO2 effects are important. The non‐CO2 effects contribute 66% of the sectoral total climate effect (in terms of Effective Radiative Forcing; ERF) at present, with significant uncertainties. The largest of these non‐CO2 effects, contrail‐cirrus and the net‐effect of NOx, are not caused by direct greenhouse gas emissions, representing another ambiguity as to whether they should be included in the balance concept. We discuss the role of aviation in the context of the Paris Agreement, and present illustrative calculations of a hypothetical aviation “greenhouse gas balance.” Several questions are addressed: Which components should be included? If an aggregate of components is adopted for the “balance,” which metric should be used? How can the large differences in timescales as well as the large intrinsic underlying ERF uncertainties be handled? We demonstrate that these choices result in very different requirements for CO2‐removal from the atmosphere and different temperature outcomes over time. The article provides policymakers with an overview of issues and choices that are important regarding which approach is most appropriate for defining and achieving a greenhouse gas balance for aviation in the context of the Paris Agreement.

Abstract Image

符合《巴黎协定》的航空“温室气体平衡”
航空业对气候的影响带来了独特的政策挑战。二氧化碳排放量的很大一部分(65%)是国际性的,没有(明确)纳入《巴黎协定》。关于实现“温室气体人为源排放量和汇清除量之间的平衡”的第4.1条的解释在航空领域是模糊的,因为该部门具有实质性的非二氧化碳影响。为了实现第2条中的温度目标,二氧化碳和非二氧化碳效应都很重要。目前,非二氧化碳影响占部门总气候影响的66%(就有效辐射强迫而言;ERF),具有重大的不确定性。这些非二氧化碳影响中最大的一个,即卷云和氮氧化物的净影响,不是由直接温室气体排放引起的,这代表着是否应将其纳入平衡概念的另一个模糊性。我们讨论了航空在《巴黎协定》中的作用,并对假设的航空“温室气体平衡”进行了说明性计算。我们提出了几个问题:应该包括哪些组成部分?如果“余额”采用了组成部分的总和,那么应该使用哪个指标?如何处理时间尺度上的巨大差异以及ERF内在的巨大不确定性?我们证明,随着时间的推移,这些选择会导致从大气中去除二氧化碳的要求非常不同,以及不同的温度结果。这篇文章向政策制定者概述了在《巴黎协定》的背景下,哪种方法最适合定义和实现航空温室气体平衡的重要问题和选择。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Wiley Interdisciplinary Reviews: Climate Change
Wiley Interdisciplinary Reviews: Climate Change METEOROLOGY & ATMOSPHERIC SCIENCES-
CiteScore
20.00
自引率
2.20%
发文量
58
审稿时长
>12 weeks
期刊介绍: WIREs Climate Change serves as a distinctive platform for delving into current and emerging knowledge across various disciplines contributing to the understanding of climate change. This includes environmental history, humanities, physical and life sciences, social sciences, engineering, and economics. Developed in association with the Royal Meteorological Society and the Royal Geographical Society (with IBG) in the UK, this publication acts as an encyclopedic reference for climate change scholarship and research, offering a forum to explore diverse perspectives on how climate change is comprehended, analyzed, and contested globally.
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