Modelling of on-farm greenhouse gas emissions from dual-purpose meat and wool sheep production in different geographical regions of Norway

IF 1.8 3区 农林科学 Q2 AGRICULTURE, DAIRY & ANIMAL SCIENCE
B.A. Åby , S. Samsonstuen , K.A. Beauchemin , L. Aass
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引用次数: 0

Abstract

The whole-farm model, HolosNorSheep, was developed to estimate net greenhouse gas emissions from dual purpose sheep production in Norway. The model adopted a cradle-to-farm gate system boundary and is based on the International Panel on Climate Change methodology and includes direct emissions from enteric and manure methane (CH4; GWP100=27), direct and indirect nitrous oxide (N2O; GWP100=273) from manure and soils, direct carbon dioxide (CO2) emissions from energy use and indirect CO2 emissions from the production of input factors. Soil carbon balance is calculated using the ICBM-model. Emission intensities (CO2-eq/kg product) for sheep carcass and greasy wool, was estimated for five geographical regions of Norway (East, West, South, Mid and North). The geographical regions varied considerably in climate, feed resources, days on pasture and herd/farm management. Estimated emission intensities per kg carcass and greasy wool varied from 23.5 to 19.9 (Mid region) to 26.8 and 22.8 kg CO2-eq (North region) respectively. The difference between the Mid and North region was mainly due to higher CO2 and N2O emissions from use of fuel and N-fertilizer in the North, where a short growth season, and thus reduced grass yields, are compensated by using greater land area. Based on the distribution of sheep in the regions, and the emission intensities in each region, weighted average emission intensities per kg carcass and greasy wool were estimated as 25.1 and 23.3 kg CO2-eq, respectively. Five alternative methods for the allocation of the co-products were compared with the amounts allocated to greasy wool ranging from 0 % when using no allocation (i.e., all emissions allocated to the sheep carcass), 11 % for economic allocation, 12 % for mass allocation, 19 % for biophysical allocation based on energy requirement up to 31 % for allocation based on protein mass. The emission intensity for wool was highly sensitive to the allocation method used (range from 0 to 61 kg CO2-eq per kg greasy wool), while the effect on sheep carcass was lower (range 19 to 28 kg CO2-eq per kg carcass). For production systems where meat is the main product, as in Norway, allocation should be based on biophysical allocation based on energy requirement.

挪威不同地理区域肉羊和毛羊两用生产的农场温室气体排放建模
HolosNorSheep 是一个全农场模型,用于估算挪威两用羊生产的温室气体净排放量。该模型采用了 "从摇篮到牧场 "的系统边界,以国际气候变化专门委员会的方法为基础,包括肠道和粪便甲烷(CH4;GWP100=27)的直接排放、粪便和土壤的直接和间接氧化亚氮(N2O;GWP100=273)、能源使用的直接二氧化碳(CO2)排放以及投入要素生产的间接二氧化碳排放。土壤碳平衡采用 ICBM 模型计算。对挪威五个地理区域(东部、西部、南部、中部和北部)的绵羊胴体和油脂羊毛的排放强度(二氧化碳当量/千克产品)进行了估算。这些地理区域在气候、饲料资源、牧场日数和牧群/农场管理方面差异很大。每千克胴体和油脂羊毛的估计排放强度分别从23.5千克二氧化碳当量到19.9千克二氧化碳当量(中部地区)到26.8千克二氧化碳当量和22.8千克二氧化碳当量(北部地区)不等。中部地区和北部地区之间的差异主要是由于北部地区使用燃料和氮肥产生的二氧化碳和一氧化二氮排放量较高,而北部地区的生长季节较短,因此草产量减少,但使用的土地面积更大,从而弥补了这一不足。根据绵羊在各地区的分布以及各地区的排放强度,每千克胴体和每千克油脂羊毛的加权平均排放强度分别估计为 25.1 千克二氧化碳当量和 23.3 千克二氧化碳当量。比较了五种分配副产品的替代方法,分配给油脂羊毛的数量从不计分配时的 0%(即所有排放分配给绵羊胴体)、经济分配时的 11%、质量分配时的 12%、基于能量需求的生物物理分配时的 19%到基于蛋白质质量分配时的 31%不等。羊毛的排放强度对所使用的分配方法高度敏感(范围为每千克油脂羊毛 0 至 61 千克二氧化碳当量),而对绵羊胴体的影响较小(范围为每千克胴体 19 至 28 千克二氧化碳当量)。对于像挪威这样以肉类为主要产品的生产系统,分配应基于能量需求的生物物理分配。
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来源期刊
Livestock Science
Livestock Science 农林科学-奶制品与动物科学
CiteScore
4.30
自引率
5.60%
发文量
237
审稿时长
3 months
期刊介绍: Livestock Science promotes the sound development of the livestock sector by publishing original, peer-reviewed research and review articles covering all aspects of this broad field. The journal welcomes submissions on the avant-garde areas of animal genetics, breeding, growth, reproduction, nutrition, physiology, and behaviour in addition to genetic resources, welfare, ethics, health, management and production systems. The high-quality content of this journal reflects the truly international nature of this broad area of research.
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