Environmental Impacts of Cultured Meat: A Cradle-to-Gate Life Cycle Assessment.

IF 2.8 Q2 FOOD SCIENCE & TECHNOLOGY ACS food science & technology Pub Date : 2024-12-30 eCollection Date: 2025-01-17 DOI:10.1021/acsfoodscitech.4c00281

Derrick Risner, Patrick Negulescu, Yoonbin Kim, Cuong Nguyen, Justin B Siegel, Edward S Spang

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Abstract

Interest in animal cell-based meat (ACBM) as an environmentally conscious replacement for livestock production has been increasing; however, a life cycle assessment (LCA) for the existing production methods of ACBM has not been conducted. Currently, ACBM products are being produced at a small scale, but ACBM companies are intending to scale-up production. Updated findings from recent technoeconomic assessments (TEAs) of ACBM were utilized to perform an LCA of near-term ACBM production. A scenario analysis was conducted utilizing the metabolic requirements examined in the TEAs of ACBM, and a purification factor was utilized to account for growth medium component processing. The results indicate that the environmental impact of near-term ACBM production has the potential to be significantly higher than beef if a highly refined growth medium is utilized for ACBM production. This study highlights the need to develop a sustainable animal cell growth medium that is optimized for high-density animal cell proliferation for ACBM to generate positive economic and environmental benefits.

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人造肉对环境的影响：从摇篮到大门的生命周期评估。

对以动物细胞为基础的肉类（ACBM）作为一种具有环保意识的牲畜生产替代品的兴趣正在增加；然而，对现有的ACBM生产方法进行生命周期评估（LCA）尚未进行。目前，ACBM产品的生产规模较小，但ACBM公司打算扩大生产规模。利用ACBM近期技术经济评估（tea）的最新发现，对近期ACBM产量进行了LCA分析。利用在ACBM的tea中检测的代谢需求进行情景分析，并使用纯化因子来解释生长介质成分处理。结果表明，如果在ACBM生产中使用高度精炼的生长培养基，那么近期ACBM生产对环境的影响可能显著高于牛肉。本研究强调了开发一种可持续的动物细胞生长培养基的必要性，该培养基对ACBM的高密度动物细胞增殖进行了优化，以产生积极的经济和环境效益。

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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ACS food science & technology

CiteScore

3.30

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0.00%

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