D. Minogue scite author profile

D. Minogue

4Publications

31Citation Statements Received

201Citation Statements Given

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109

187

Affiliations

Teagasc - The Irish Agriculture and Food Development Authority, University College Dublin

Publications

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Characterisation of dairy soiled water in a survey of 60 Irish dairy farms

Minogue¹,

French²,

Bolger³

et al. 2015

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Dairy farming in Ireland generates an effluent known as dairy soiled water (DSW), which consists of a relatively dilute mixture of cow faeces, urine, spilt milk and detergents that is typically applied to grassland. However, relatively little is known about the volumes generated, nutrient content and management factors that influence volume and concentration. Sixty dairy farms that had a separate storage tank for storing DSW were selected for this study.

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Characterisation of soiled water on Irish dairy farms

Minogue

Murphy

French

et al. 2010

Advances in Animal Biosciences

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Applying urine collected from non-lactating dairy cows dosed with dicyandiamide to lysimeters and grass plots: effects on nitrous oxide emissions, nitrate leaching and herbage production

et al. 2015

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SUMMARYIn agricultural production systems, nitrogen (N) losses to the environment can occur through nitrous oxide (N2O) emissions and nitrate (NO3−) leaching. The objectives of the present study were to evaluate: (1) if urine excreted by non-lactating dairy cows pulse-dosed with dicyandiamide (DCD) and applied to lysimeters reduced N2O-N emissions and NO3−-N leaching on two soil types; and (2) if urine + DCD would increase herbage production over winter. Lysimeters were used to measure N2O emissions and NO3-N leaching. The soils used were a free-draining acid brown earth of sandy loam to loam texture (termed free-draining) and a poorly drained silt loam gley (termed poorly drained). Grass plots were established on the free-draining soil to measure herbage production. The N loading rate of the urine + DCD was 508 kg N/ha and the urine without DCD (urine only) was 451 kg N/ha. Total NO3−-N leaching losses from the free-draining and poorly draining soils were reduced from 100 and 81 kg NO3−-N/ha on the urine-only treatment, respectively, to 9 and 11·6 kg NO3−-N/ha on the urine + DCD treatment, respectively. Total N2O-N emissions from the free-draining and poorly drained soils were reduced significantly from 13·6 and 12·1 kg N2O-N/ha on the urine-only treatment, respectively, to 2·23 and 5·24 kg N2O-N/ha on the urine + DCD treatment, respectively. Applying urine with DCD to pastures inhibited the nitrification process for up to 56 days after treatment application. In the current experiment, there was no significant effect on spring herbage production when urine + DCD was applied to grass plots. Therefore, feeding DCD to dairy cows to apply DCD directly in urine patches was shown to be an effective mitigation strategy to reduce NO3−-N leaching and N2O-N emissions but did not appear to increase spring herbage production.

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Nitrogen fertilizer replacement value of dairy soiled water in grass swards as affected by timing and rate of application

Minogue

French

Bolger

et al. 2021

Grass and Forage Science

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Dairy soiled water (DSW) is produced on dairy farms from the washing of milking plant and cow holding areas during the milking process.In Ireland, and in other countries such as New Zealand, Australia and the UK, dairy soiled water (or, dairy shed effluent, or dirty water) is commonly collected separately to slurry from animal winter housing. In Ireland, this is a policy requirement for it to be considered as dairy soiled water (SI 605 of, 2017). Dairy soiled water typically consists of a relatively dilute mixture of cow faeces, urine, spilt milk and detergents, and therefore contains plant nutrients. The dry-matter (DM) content of DSW in Ireland would be typically <1% (Minogue et al., 2015), compared to typical cattle slurry/liquid manure DM contents of approximately 2%-16% (e.g.

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D. Minogue

Characterisation of dairy soiled water in a survey of 60 Irish dairy farms

Characterisation of soiled water on Irish dairy farms

Applying urine collected from non-lactating dairy cows dosed with dicyandiamide to lysimeters and grass plots: effects on nitrous oxide emissions, nitrate leaching and herbage production

Nitrogen fertilizer replacement value of dairy soiled water in grass swards as affected by timing and rate of application

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