Emergent Constraints on Climate-Carbon Cycle Feedbacks.

IF 9.3 1区 地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES
Current climate change reports Pub Date : 2019-01-01 Epub Date: 2019-09-10 DOI:10.1007/s40641-019-00141-y
Peter M Cox
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引用次数: 14

Abstract

Purpose of review: Feedbacks between CO2-induced climate change and the carbon cycle are now routinely represented in the Earth System Models (ESMs) that are used to make projections of future climate change. The inconclusion of climate-carbon cycle feedbacks in climate projections is an important advance, but has added a significant new source of uncertainty. This review assesses the potential for emergent constraints to reduce the uncertainties associated with climate-carbon cycle feedbacks.

Recent findings: The emergent constraint technique involves using the full ensemble of models to find an across-ensemble relationship between an observable feature of the Earth System (such as a trend, interannual variation or change in seasonality) and an uncertain aspect of the future. Examples focussing on reducing uncertainties in future atmospheric CO2 concentration, carbon loss from tropical land under warming and CO2 fertilization of mid- and high-latitude photosynthesis are exemplars of these different types of emergent constraints.

Summary: The power of emergent constraints is that they use the enduring range in model projections to reduce uncertainty in the future of the real Earth System, but there are also risks that indiscriminate data-mining, and systematic model errors could yield misleading constraints. A hypothesis-driven theory-led approach can overcome these risks and also reveal the true promise of emergent constraints-not just as ways to reduce uncertainty in future climate change but also to catalyse advances in our understanding of the Earth System.

Abstract Image

Abstract Image

气候-碳循环反馈的紧急约束。
综述目的:二氧化碳引起的气候变化和碳循环之间的反馈现在通常在用于预测未来气候变化的地球系统模式(esm)中表示。气候预估中关于气候-碳循环反馈的结论是一个重要的进展,但也增加了一个重要的新不确定性来源。本综述评估了紧急约束的潜力,以减少与气候-碳循环反馈相关的不确定性。最近的发现:紧急约束技术涉及使用模式的完整集合来发现地球系统的可观测特征(如趋势、年际变化或季节性变化)与未来的不确定方面之间的跨集合关系。例如,减少未来大气二氧化碳浓度的不确定性、变暖下热带土地的碳损失以及中高纬度光合作用的二氧化碳施肥都是这些不同类型的紧急约束的例子。摘要:紧急约束的力量在于,它们利用模型预测中的持久范围来减少真实地球系统未来的不确定性,但也存在不加区分的数据挖掘和系统模型错误可能产生误导性约束的风险。假设驱动理论主导的方法可以克服这些风险,也揭示了紧急约束的真正希望——不仅是减少未来气候变化的不确定性的方法,而且还促进了我们对地球系统的理解的进步。
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
Current climate change reports
Current climate change reports Environmental Science-Global and Planetary Change
CiteScore
20.30
自引率
0.00%
发文量
10
期刊介绍: Current Climate Change Reports is dedicated to exploring the most recent research and policy issues in the dynamically evolving field of Climate Change. The journal covers a broad spectrum of topics, encompassing Ecological Impacts, Advances in Modeling, Sea Level Projections, Extreme Events, Climate Feedback and Sensitivity, Hydrologic Impact, Effects on Human Health, and Economics and Policy Issues. Expert contributors provide reviews on the latest research, assess the effectiveness of available options, and engage in discussions about special considerations. All articles undergo a thorough peer-review process by specialists in the field to ensure accuracy and objectivity.
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