The enteric methane emission conundrum: U.S. beef cattle producer adoption of climate-focused technology

IF 10.9 1区 环境科学与生态学 Q1 ENVIRONMENTAL STUDIES
Jaime R. Luke, Glynn T. Tonsor
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引用次数: 0

Abstract

Cattle are ruminant livestock that emit enteric methane (CH4) as part of their natural digestive process. The U.S. beef cattle industry is receiving pressure to reduce greenhouse gas emissions, including methane. The U.S. Roundtable for Sustainable Beef has set a target for the U.S. feedlot sector to reduce emissions by 10 % per pound of beef by 2030. Feed additive 3-Nitrooxypropanol (3-NOP) has been developed to help mitigate methane emissions. While not yet approved for use in U.S. beef production, adoption of 3-NOP in U.S. feedlots upon approval remains unknown as no widespread economic incentive currently exists in the marketplace to spur adoption. The objectives of this study are: (1) to determine potential 3-NOP adoption by U.S. feedlot cattle producers given various marketplace incentives and (2) to explore how differing approaches to reducing emissions from beef production to achieve sector targets impact social welfare. Our study uses data from a U.S. feedlot producer survey to estimate willingness-to-adopt (WTA) measures. Regression results are used to map potential adoption of 3-NOP given various market and policy scenarios. The survey sample is then split into small producers (<2000 head sold in last 12 months) and large producers (2000+ head sold in last 12 months) to determine differences in WTA based on operation size. We find that producers prefer incentives in the form of processor premiums over government subsidies. The incentive level needed to spur adoption increases as the implementation cost of 3-NOP increases and decreases if net profit estimations are included in the messaging. On average, small producers require a higher incentive to adopt 3-NOP than large producers. Improving the emissions reduction efficacy of 3-NOP reduces the level of incentive needed to achieve aggregate emissions targets. The least expensive avenue to achieve emissions reduction targets results in greater outlays to large producers as compared to small producers. The marginal cost to society of feeding 3-NOP to an additional steer or heifer in the feedlot increases with each animal. As such, it may be that improving the efficacy of 3-NOP through increased investment in research and development is less costly than spurring more producers to adopt the additive in their feed rations. Ultimately, producers, processors, beef consumers, voting residents, taxpayers, and policymakers all have influence in shaping how the beef industry tackles the emissions reduction conundrum.

肠道甲烷排放难题:美国肉牛生产商采用以气候为重点的技术
牛是反刍家畜,在自然消化过程中会排放肠道甲烷(CH4)。美国肉牛业正面临着减少温室气体排放(包括甲烷)的压力。美国可持续牛肉圆桌会议为美国饲养业设定了一个目标,即到 2030 年,每磅牛肉的甲烷排放量要减少 10%。饲料添加剂 3-硝基氧基丙醇(3-NOP)的开发有助于减少甲烷排放。虽然 3-NOP 尚未获准用于美国牛肉生产,但由于目前市场上还没有广泛的经济激励措施来刺激 3-NOP 的采用,因此 3-NOP 获准后在美国饲养场的采用情况仍是未知数。本研究的目标是(1) 确定在各种市场激励机制下,美国饲养场养牛生产商采用 3-NOP 的可能性;(2) 探讨不同的牛肉生产减排方法对实现行业目标的社会福利有何影响。我们的研究利用美国饲养场生产者调查的数据来估算采用意愿(WTA)指标。回归结果用于绘制在各种市场和政策情景下采用 3-NOP 的潜在可能性图。然后将调查样本分为小型生产商(过去 12 个月中售出 2000 头)和大型生产商(过去 12 个月中售出 2000 头以上),以确定基于经营规模的 WTA 差异。我们发现,与政府补贴相比,生产者更青睐加工商溢价形式的激励措施。随着 3-NOP 实施成本的增加,采用激励措施所需的激励水平也随之增加,而如果将净利润估算纳入信息传递,激励水平则会降低。平均而言,小生产者采用 3-NOP 所需的激励水平高于大生产者。提高 3-NOP 的减排效果可降低实现总体减排目标所需的激励水平。与小生产者相比,实现减排目标的最低成本途径会使大生产者付出更多。在饲养场中,每多饲喂一头公牛或母牛,社会的边际成本就会增加。因此,通过增加研发投资来提高 3-NOP 的功效,可能比促使更多的生产商在饲料中采用该添加剂的成本更低。归根结底,生产者、加工商、牛肉消费者、有投票权的居民、纳税人和政策制定者都对牛肉业如何解决减排难题具有影响力。
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来源期刊
Sustainable Production and Consumption
Sustainable Production and Consumption Environmental Science-Environmental Engineering
CiteScore
17.40
自引率
7.40%
发文量
389
审稿时长
13 days
期刊介绍: Sustainable production and consumption refers to the production and utilization of goods and services in a way that benefits society, is economically viable, and has minimal environmental impact throughout its entire lifespan. Our journal is dedicated to publishing top-notch interdisciplinary research and practical studies in this emerging field. We take a distinctive approach by examining the interplay between technology, consumption patterns, and policy to identify sustainable solutions for both production and consumption systems.
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