Farm-scale carbon and nitrogen fluxes in pastoral dairy production systems using different nitrogen fertilizer regimes

The nitrogen (N) fertilizer application rate (kg ha −1 year −1 ) in pastoral dairy systems affects the flow of N through the soil, plant and animal pools of the system. With better understanding of the magnitude of these pools and their fluxes, dairy systems could be managed to improve N use effici...

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Veröffentlicht in:	Nutrient cycling in agroecosystems 2020-05, Vol.117 (1), p.1-12
Hauptverfasser:	Beukes, Pierre C., Gregorini, Pablo, Cameron, Keith, Attwood, Graeme T.
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Sprache:	eng
Schlagworte:	Agriculture Biomedical and Life Sciences Carbon Emissions Farm buildings Farms Fertilizer application Fertilizers Fluxes Greenhouse effect Greenhouse gases Immobilization Leaching Life Sciences Microorganisms Milk Milk production Nitrogen Original Article Pasture Pools Scale models Soils
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creator	Beukes, Pierre C. Gregorini, Pablo Cameron, Keith Attwood, Graeme T.
description	The nitrogen (N) fertilizer application rate (kg ha −1 year −1 ) in pastoral dairy systems affects the flow of N through the soil, plant and animal pools of the system. With better understanding of the magnitude of these pools and their fluxes, dairy systems could be managed to improve N use efficiency, therefore reducing losses to the environment. A study with three levels of N fertilizer, 0 (N0), 150 (N150) and 300 (N300) kg N ha −1 year −1 , was conducted in the Canterbury region of New Zealand from 1 June 2017 till 31 May 2018. Farm measurements, e.g. pasture and milk production, were used to calibrate three different farm-scale models, DairyNZ’s Whole Farm Model, DairyMod, and Overseer ® . The models were used to extrapolate periodic farm measurements to predictions of carbon (C) and N pools and fluxes on an annual basis. Pasture and milk production per hectare increased from N0 to N300 by 70 and 58%, respectively. There was a concomitant increase in farm-gate N surplus (input–output) of 43%, resulting in predicted increases in N leaching and greenhouse gas emissions of 72 and 67%, respectively. By increasing N fertilizer from 0 to 300 kg N ha −1 year −1 , 53% more feed N flowed through the dairy herd with surplus N deposited as urinary N increasing by 49%. Plant uptake and soil immobilization increased by 58 and 343%, respectively, but not enough to avoid substantial increases in leaching and emission losses. Carbon flux through the soil system increased through increased litter and faecal deposition, but with very little C sequestration because of accelerated microbial respiration rates.
doi_str_mv	10.1007/s10705-020-10052-2
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subjects	Agriculture Biomedical and Life Sciences Carbon Emissions Farm buildings Farms Fertilizer application Fertilizers Fluxes Greenhouse effect Greenhouse gases Immobilization Leaching Life Sciences Microorganisms Milk Milk production Nitrogen Original Article Pasture Pools Scale models Soils
title	Farm-scale carbon and nitrogen fluxes in pastoral dairy production systems using different nitrogen fertilizer regimes
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