数字应用供应链对气候的影响

Lin Shi, Adam R. Brandt, Dan Iancu, Katharine J. Mach, Christopher Field, Mu-Jung Cho, Michelle Ng, Kyung Jin (Sarah) Chey, Nilam Ram, Tom Robinson, Byron Reeves
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摘要

信息和通信技术(ICT)已成为我们生活中不可或缺的一部分。之前关于信息和通信技术设备和服务对气候影响的研究主要集中在使用生命周期评估(LCA)和能源建模框架的内含碳排放上。这些观点主要强调与数字设备生产供应链中的制造和分销相关的碳排放。然而,人们对数字设备使用过程中监控或促进的碳排放却研究甚少。在这项研究中,我们提出了数字使用供应链(DUSC)的概念,作为数字设备生命周期的一个正交维度。DUSC 指的是使用数字设备所记录或诱发的生产活动和资源消耗。我们提出了一个框架,通过使用 Screenomics 范式量化与数字行为相关的温室气体排放。通过 Screenomics 对用户数字行为的细粒度记录,我们对数字设备追踪到的基于行为的温室气体排放进行了评估。DUSC 概念将个人数字行为与其对全球气候变化的影响联系起来,有助于对数字经济的气候影响进行更细致、更全面的评估。我们的案例研究表明,与数字活动相关的温室气体排放估计规模要比仅与设备生命周期相关的排放高出 3 个数量级。通过个性化教育或行为改变计划,DUSC 可以在有意义、可操作的层面上减缓气候变化。它还能促进新颖的数据驱动反馈回路,让数字设备用户深入了解个人对气候的影响。对 DUSC 的认识和未来研究可以加速数字设备 "碳手印 "的量化和标准化,并从数字产品和服务中产生积极的气候影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Climate impacts of digital use supply chains
Information and communications technology (ICT) has become an indispensable part of our lives. Prior research on climate impact of ICT devices and services climate impact have largely focused on the embodied carbon emissions using life cycle assessment (LCA) and energy modeling frameworks. These perspectives view mainly emphasize the carbon emissions associated with the construction and distribution of digital devices along production supply chains. However, the carbon emissions monitored or facilitated by digital device use is largely under studied. In this study, we propose the concept of Digital Use Supply Chains (DUSC) as an orthogonal dimension of digital devices’ life cycle. DUSC refers to the production activities and resource consumption recorded or induced using digital devices. We propose a framework to quantify digital behaviors related greenhouse gas emissions through use of the Screenomics paradigm, where users’ digital screen data are unobtrusively collected moment-by-moment. Through Screenomics’ granular recording of users’ digital behavior, we evaluate behavior-based greenhouse gas emissions traced by the digital devices. The DUSC concept connects individual’s digital behaviors to their global climate change impact, contributing to a more nuanced and complete evaluation of the climate impacts of the digital economy. Our case study indicates the estimated scale of the greenhouse gas emissions linking to digital activities is 3 orders of magnitude higher than the emissions associated with the devices life cycle alone. DUSC could enable climate change mitigation at a meaningful, actionable level through personalized educational or behavior change programs. It also facilitates novel data-driven feedback loops that may provide digital device users with insights into their personal climate impacts. Recognition and future studies of DUSC could accelerate the quantification and standardization of a “carbon handprint” of digital devices and create positive climate impacts from digital products and services.
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