Combining the Eddy Covariance Method and Dry Matter Intake Measurements for Enteric Methane Emission Estimation from Grazing Dairy Cows

Combining the Eddy Covariance Method and Dry Matter Intake Measurements for Enteric Methane Emission Estimation from Grazing Dairy Cows

Effective greenhouse gas mitigation strategies in the agricultural sector are crucial for reducing emissions. Methane (CH<sub>4</sub>) emissions associated with agriculture are predominantly the result of enteric fermentation from ruminant production systems. Accurate measurement of thes...

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Bibliographic Details
Main Authors: Marie-Sophie R. Eismann, Hendrik P. J. Smit, Arne Poyda, Ralf Loges, Christof Kluß, Friedhelm Taube
Format: Article
Language:English
Published: MDPI AG 2024-10-01
Series:Atmosphere
Subjects:
sustainable agriculture
greenhouse gas mitigation
climate smart agriculture
low-input system
eco-efficiency
Online Access:https://www.mdpi.com/2073-4433/15/11/1269
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Summary:Effective greenhouse gas mitigation strategies in the agricultural sector are crucial for reducing emissions. Methane (CH<sub>4</sub>) emissions associated with agriculture are predominantly the result of enteric fermentation from ruminant production systems. Accurate measurement of these emissions is essential for assessing environmental impacts and developing effective mitigation strategies. The eddy covariance (EC) method is widely used to measure trace gas and energy fluxes and has since also been adapted to measure enteric CH<sub>4</sub> emissions from grazing ruminants effectively. This study combined EC measurements of CH<sub>4</sub> emissions from pasture-based Jersey cows with milk production, feed intake data and CH<sub>4</sub> prediction equations during four measurement campaigns between September and November 2022 in northern Germany. Cows’ distance relative to the EC station was controlled by a specialized fencing system and its effect on the measured CH<sub>4</sub> fluxes was adjusted by means of footprint (FP) flux allocation based on a two-dimensional FP model. The EC method presented very low daily emissions of 205 g CH<sub>4</sub> cow<sup>−1</sup> day<sup>−1</sup>, below the estimations based on the Intergovernmental Panel on Climate Change (IPCC) Tier 2 default values and other equations based on feed intake and feed quality parameters. The results of this study indicated that the EC method, in combination with a specialized fencing design, is an appropriate method to measure enteric CH<sub>4</sub> emissions of dairy cows in pasture-based systems. Moreover, this study showed that a comprehensive dataset of animal-related data is a practical tool to contextualize the results.
ISSN:2073-4433

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