Applying assisted reproductive technology and reproductive management to reduce CO₂-equivalent emission in dairy and beef cattle: a review.

IF 1.6 4区农林科学 Q2 AGRICULTURE, DAIRY & ANIMAL SCIENCE

Animal Reproduction Pub Date : 2023-09-08 eCollection Date: 2023-01-01 DOI:10.1590/1984-3143-AR2023-0060

Pietro Sampaio Baruselli, Laís Ângelo de Abreu, Vanessa Romário de Paula, Bruno Carvalho, Emanuelle Almeida Gricio, Fernando Kenji Mori, Lígia Mattos Rebeis, Sofía Albertini, Alexandre Henrily de Souza, Michael D'Occhio

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引用次数: 0

Abstract

Methane emission from beef and dairy cattle combined contributes around 4.5-5.0% of total anthropogenic global methane. In addition to enteric methane (CH₄) produced by the rumen, cattle production also contributes carbon dioxide (CO₂) (feed), nitrous oxide (N₂O) (feed production, manure) and other CH₄ (manure) to the total greenhouse gas (GHG) budget of beef and dairy production systems. The relative contribution in standard dairy systems is typically enteric CH₄ 58%, feed 29% and manure 10%. Herds with low production efficiency can have an enteric CH₄ contribution up to 90%. Digestibility of feed can impact CH₄ emission intensity. Low fertility herds also have a greater enteric CH₄ contribution. Animals with good feed conversion efficiency have a lower emission intensity of CH₄/kg of meat or milk. Feed efficient heifers tend to be lean and have delayed puberty. Fertility is a major driver of profit in both beef and dairy cattle, and it is highly important to apply multi-trait selection when shifting herds towards improved efficiency and reduced CH₄. Single nucleotide polymorphisms (SNPs) have been identified for feed efficiency in cattle and are used in genomic selection. SNPs can be utilized in artificial insemination and embryo transfer to increase the proportion of cattle that have the attributes of efficiency, fertility and reduced enteric CH₄. Prepubertal heifers genomically selected for favourable traits can have oocytes recovered to produce IVF embryos. Reproductive technology is predicted to be increasingly adopted to reduce generation interval and accelerate the rate of genetic gain for efficiency, fertility and low CH₄ in cattle. The relatively high contribution of cattle to anthropogenic global methane has focussed attention on strategies to reduce enteric CH₄ without compromising efficiency and fertility. Assisted reproductive technology has an important role in achieving the goal of multiplying and distributing cattle that have good efficiency, fertility and low CH₄.

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应用辅助生殖技术和生殖管理来减少奶牛和肉牛的二氧化碳当量排放：综述。

牛肉和奶牛的甲烷排放总量约占全球人为甲烷总量的4.5-5.0%。除了瘤胃产生的肠道甲烷（CH4）外，牛的生产还为牛肉和乳制品生产系统的总温室气体预算贡献了二氧化碳（CO2）（饲料）、一氧化二氮（N2O）（饲料生产、粪肥）和其他CH4（粪肥）。标准乳制品系统中的相对贡献通常为肠道CH4 58%、饲料29%和粪肥10%。生产效率低的群体可以具有高达90%的肠道CH4贡献。饲料的可消化性会影响CH4的排放强度。低生育率畜群对肠道CH4的贡献也更大。具有良好饲料转化效率的动物具有较低的CH4/kg肉或奶的排放强度。饲料效率高的小母牛往往比较瘦，青春期延迟。生育能力是牛肉和奶牛利润的主要驱动力，在将牛群转向提高效率和减少CH4时，应用多性状选择非常重要。单核苷酸多态性（SNPs）已被鉴定用于牛的饲料效率，并用于基因组选择。SNPs可用于人工授精和胚胎移植，以增加具有效率、生育能力和减少肠道CH4属性的牛的比例。根据基因选择具有有利性状的青春期前小母牛可以回收卵母细胞，产生试管婴儿胚胎。据预测，繁殖技术将越来越多地被采用，以缩短世代间隔，加快牛的遗传增益率，从而提高效率、生育能力和低CH4。牛对人为全球甲烷的贡献相对较高，这使人们关注在不影响效率和生育能力的情况下减少肠道CH4的策略。辅助生殖技术在实现繁殖和分配效率高、生育能力强、CH4含量低的牛的目标方面发挥着重要作用。

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

Animal Reproduction AGRICULTURE, DAIRY & ANIMAL SCIENCE-

CiteScore

2.30

自引率

11.80%

发文量

审稿时长

70 days

期刊介绍： Animal Reproduction (AR) publishes original scientific papers and invited literature reviews, in the form of Basic Research, Biotechnology, Applied Research and Review Articles, with the goal of contributing to a better understanding of phenomena related to animal reproduction. The scope of the journal applies to students, researchers and practitioners in the fields of veterinary, biology and animal science, also being of interest to practitioners of human medicine. Animal Reproduction Journal is the official organ of the Brazilian College of Animal Reproduction in Brazil.