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Global network for the development and maintenance of nutrition-related strategies for mitigation of methane and nitrous oxide emissions from ruminant livestock – GLOBAL NETWORK

Submission summary

Ruminant husbandry is a major source of anthropogenic greenhouse gases (GHG). There is a large
body of nutrition-related GHG and ammonia (NH3) mitigation data. These data, however, are not
well organized. The GLOBAL NETWORK we propose herein will accumulate, analyze, and
systematize these existing resources. The goals of this project are to: (1) Create, update, and
expand animal and feed databases for mitigation of enteric methane (CH4); (2) Gain understanding
of the contribution of genetic and microbial factors to variation in enteric CH4 production, digestion,
and nutrient utilization; (3) Validate markers of enteric methanogenesis for the development and
monitoring of CH4 mitigation strategies in ruminants; (4) Create, update, and expand a database of
mitigation strategies aimed at improving dietary N utilization and lowering N excretion and NH3 and
nitrous oxide (N2O) emissions from manure; (5) Develop Standard Operating Procedures (SOP) and
guidelines for conducting and assessing data from in vitro and in vivo studies designed to evaluate
nutritional strategies for mitigation of CH4, NH3, and N2O emissions; (6) Develop new and evaluate
existing models for predicting CH4 emission and N excretions under various nutritional, animal, and
farm management scenarios; and (7) Identify and recommend CH4, NH3, and N2O mitigation
technologies that are practical and feasible for the specific conditions of livestock production
systems in the consortium countries. These activities will be integrated with the activities of the
“Network and Database on Feed and Nutrition in Relation to Greenhouse Gas Emissions” (FNN,
currently with 23 member-countries). The research we propose will go beyond developing and
maintaining an enteric CH4 mitigation database to also include dietary manipulations to reduce N
excretion by the animal, which will mitigate NH3 and N2O emissions from manure storage or land
application/deposition. Our multinational team of FNN member countries will assess the
performance and relevance of various quantification protocols and SOP developed to calculate
emission reduction potential of mitigation strategies for enteric CH4 and N excretion. Intensive
research will be conducted to understand genetic and microbial factors contributing to variability in
CH4 production and to validate markers of enteric methanogenesis. Based on the mitigation
databases, the team will develop, improve, and evaluate models for predicting CH4 production
under various dietary, animal, and farm management conditions and also the impact of diet on
excreta composition as related to NH3 and N2O emissions from manure. The proposed GLOBAL
NETWORK will fill important knowledge gaps and provide the much needed expert
recommendations for future research priorities, methodologies and science-based GHG mitigation
solutions to government and non-governmental organizations, advisory/extension networks, and
the ruminant livestock sector.

Project coordination

Maguy EUGENE (Organisme de recherche)

The author of this summary is the project coordinator, who is responsible for the content of this summary. The ANR declines any responsibility as for its contents.

Partner

TEAGASC - AGRICULTURE AND FOOD DEVELOPMENT AUTHORITY TEAGASC - AGRICULTURE AND FOOD DEVELOPMENT AUTHORITY
University of Reading University of Reading
CONSEJO SUPERIOR DE INVESTIGACIONES CIENTIFICAS CONSEJO SUPERIOR DE INVESTIGACIONES CIENTIFICAS
MAA JA ELINTARVIKETALOUDEN TUTKIMUSKESKUS MAA JA ELINTARVIKETALOUDEN TUTKIMUSKESKUS
Pennsylvania State University Pennsylvania State University

Help of the ANR 157,154 euros
Beginning and duration of the scientific project: April 2014 - 48 Months

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