Equations to predict methane emissions from cows fed at maintenance energy level in pasture-based systems

•Nonpregnant nonlactating cows were fed solely fresh-cut grass at maintenance level.•100 digestibility/gas-exchange data were used to develop methane output predictions.•Existing models underestimated methane emissions from animals fed fresh-cut grass.•New models increased prediction accuracy and ma...

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Veröffentlicht in:Agriculture, ecosystems & environment ecosystems & environment, 2016-03, Vol.220, p.8-20
Hauptverfasser: Stergiadis, Sokratis, Zou, Caixia, Chen, Xianjiang, Allen, Michelle, Wills, David, Yan, Tianhai
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Sprache:eng
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Zusammenfassung:•Nonpregnant nonlactating cows were fed solely fresh-cut grass at maintenance level.•100 digestibility/gas-exchange data were used to develop methane output predictions.•Existing models underestimated methane emissions from animals fed fresh-cut grass.•New models increased prediction accuracy and may be more suitable for grazing cattle.•Feeding high quality grass may reduce methane emissions in pasture-based systems. Ruminant production is a vital part of food industry but it raises environmental concerns, partly due to the associated methane outputs. Efficient methane mitigation and estimation of emissions from ruminants requires accurate prediction tools. Equations recommended by international organizations or scientific studies have been developed with animals fed conserved forages and concentrates and may be used with caution for grazing cattle. The aim of the current study was to develop prediction equations with animals fed fresh grass in order to be more suitable to pasture-based systems and for animals at lower feeding levels. A study with 25 nonpregnant nonlactating cows fed solely fresh-cut grass at maintenance energy level was performed over two consecutive grazing seasons. Grass of broad feeding quality, due to contrasting harvest dates, maturity, fertilisation and grass varieties, from eight swards was offered. Cows were offered the experimental diets for at least 2 weeks before housed in calorimetric chambers over 3 consecutive days with feed intake measurements and total urine and faeces collections performed daily. Methane emissions were measured over the last 2 days. Prediction models were developed from 100 3-day averaged records. Internal validation of these equations, and those recommended in literature, was performed. The existing in greenhouse gas inventories models under-estimated methane emissions from animals fed fresh-cut grass at maintenance while the new models, using the same predictors, improved prediction accuracy. Error in methane outputs prediction was decreased when grass nutrient, metabolisable energy and digestible organic matter concentrations were added as predictors to equations already containing dry matter or energy intakes, possibly because they explain feed digestibility and the type of energy-supplying nutrients more efficiently. Predictions based on readily available farm-level data, such as liveweight and grass nutrient concentrations were also generated and performed satisfactorily. New models may be recommend
ISSN:0167-8809
1873-2305
DOI:10.1016/j.agee.2015.12.023