Your search keyword '"Eimear M. Ruane"' showing total 5 results

1. An appraisal of carbon footprint of milk from commercial grass-based dairy farms in Ireland according to a certified life cycle assessment methodology

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Author

Padraig Brennan, Eimear M. Ruane, D. O'Brien, James Humphreys, and Laurence Shalloo

Subjects

Engineering, business.industry, food and beverages, Certification, Large sample, Agricultural science, Milk yield, Environmental Science(all), Environmental protection, Greenhouse gas, Grazing, Carbon footprint, Livestock, business, Life-cycle assessment, General Environmental Science

Abstract

Life cycle assessment (LCA) studies of carbon footprint (CF) of milk from grass-based farms are usually limited to small numbers of farms (

Published

2014

2. Does the recoupling of dairy and crop production via cooperation between farms generate environmental benefits? A case-study approach in Europe

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Author

O. Barrantes, Jérémy Berland, M.C. Hanegraaf, Eimear M. Ruane, Thomas Nesme, Sylvain Pellerin, Silvia Marton, H. Korevaar, J. Regan, Interactions Sol Plante Atmosphère (ISPA), Institut National de la Recherche Agronomique (INRA)-Ecole Nationale Supérieure des Sciences Agronomiques de Bordeaux-Aquitaine (Bordeaux Sciences Agro), Life Cycle Assessment, Institute for Sustainability Sciences, Agroscope, Swiss Federal Institute of Technology, Departamento de Ciencias Agrarias y del Medio Natural, University of Zaragoza - Universidad de Zaragoza [Zaragoza], Teagasc Food Research Centre [Fermoy, County Cork, Ireland], Nutriënten Management Instituut, SARL Déshyouest, Coopedom, Plant Research International, Wageningen University and Research Centre [Wageningen] (WUR), Interactions Sol Plante Atmosphère (UMR ISPA), Teagasc Food Research Centre [Fermoy, Ireland], Wageningen University and Research [Wageningen] (WUR), and Ecole Nationale Supérieure des Sciences Agronomiques de Bordeaux-Aquitaine (Bordeaux Sciences Agro)-Institut National de la Recherche Agronomique (INRA) more...

Subjects

[SDV.SA]Life Sciences [q-bio]/Agricultural sciences, agriculture durable, Land Use and Food Security, Soil Science, Plant Science, 010501 environmental sciences, farm specialisation, crop-livestock integration, Nutrient cycling, 01 natural sciences, Ecosystem services, Sustainable agriculture, resource use efficiency, Dairy production, 0105 earth and related environmental sciences, relation élevage agriculture, 2. Zero hunger, dairy production, farm censuses, business.industry, Intensive farming, Landgebruik en Voedselzekerheid, nutrient cycling, 04 agricultural and veterinary sciences, 15. Life on land, Product (business), sustainable agriculture, Crop-livestock integration, enquête en exploitation agricole, Agronomy, Agriculture, Resource use efficiency, Sustainability, 040103 agronomy & agriculture, Farm specialisation, 0401 agriculture, forestry, and fisheries, Livestock, Business, Arable land, ecosystem services, Agronomy and Crop Science

Abstract

The intensification of agriculture in Europe has contributed significantly to the decline of mixed crop-livestock farms in favour of specialised farms. Specialisation, when accompanied by intensive farming practices, leaves farms poorly equipped to sustainably manage by-products of production, capture beneficial ecological interactions, and adapt in a volatile economic climate. An often proposed solution to overcome these environmental and economic constraints is to recouple crop and livestock production via cooperation between specialised farms. If well-managed, synergies between crop and livestock production beyond farm level have the potential to improve feed and fertiliser autonomy, and pest regulation. However, strategies currently used by farmers to recouple dairy livestock and crop production are poorly documented; there is a need to better assess these strategies using empirical farm data. In this paper, we employed farm surveys to describe, analyse and assess the following strategies: (1) Local exchange of materials among dairy and arable farms; (2) Land renting between dairy and arable farms; (3) Animal exchanges between lowland and mountainous areas; and (4) Industrially mediated transfers of dehydrated fodder. For each strategy, cooperating farm groups were compared to non-cooperating farm groups using indicators of metabolic performance (input autonomy, nutrient cycling and use efficiency), and ecosystem services provision. The results indicate that recoupling of crop and dairy production through farm cooperation gives farmers access to otherwise inaccessible or underutilised local resources such as land, labour, livestock feed or organic nutrients. This in turn leads to additional outlets for by-products (e.g. animal manure). Farmers' decisions about how to allocate the additional resources accessed via cooperation essentially determine if the farm diversifies, intensifies or expands operations. The key finding is that in three of the four crop-livestock integration strategies assessed, these newly accessed resources facilitated more intensive farming practices (e.g. higher stocking rate or number of milking cows per hectare) on cooperating dairy farms relative to non-cooperating, specialised dairy farms. As a consequence, cooperation was accompanied by limited environmental benefits but helped to improve resource use efficiency per unit of agricultural product produced. This article provides a critical step toward understanding real-world results of crop-livestock cooperation beyond the farm level relative to within-farm crop-livestock integration. As such, it brings practical knowledge of vital importance for policy making to promote sustainable farming. more...

Published

2017

3. Performance of a woodchip filter to treat dairy soiled water

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Author

Eimear M. Ruane, Eoghan Clifford, Michael Rodgers, Paul N. C. Murphy, Edmond O'Reilly, and P. French

Subjects

Suspended solids, Environmental Engineering, Chemical oxygen demand, Environmental engineering, Industrial Waste, General Medicine, Management, Monitoring, Policy and Law, Agricultural wastewater treatment, Pulp and paper industry, Waste Disposal, Fluid, Wood, law.invention, Filter (aquarium), Dairying, Nutrient, law, Environmental science, Nitrification, Woodchips, Picea, Waste Management and Disposal, Filtration

Abstract

The milking process on dairy farms produces wastewaters, known as dairy soiled waters (DSW), which contain variable concentrations of nutrients. The most common method of disposal is by application to land. However, this practise can result in the pollution of nearby receiving water bodies. A laboratory study, comprising two sets of 0.5 m, 1 m and 1.5 m-deep filters loaded at two loading rates, examined the performance of woodchip filters in treating DSW. The filters comprised de-barked Sitka spruce (Picea sitchensis) woodchips. Dried DSW was reconstituted to 1% and 3% suspended solids (SS) concentrations and was applied at 28 L/m2.d to the surface of the filters at loading rates of 280 g SS/m2.d and 840 g SS/m2.d, respectively. Filters were loaded for a maximum of 277 days. The filters achieved substantial decreases in SS (>99%), chemical oxygen demand (COD) (>97%) and total nitrogen (TN) (>89%). The dominant treatment mechanism appears to be physical filtration, but sorption and biological uptake likely also play a role. As the filters are aerobic, mineralisation and nitrification occur, but gaseous N losses are probably not significant. Woodchip shows potential as a filter medium for treating DSW, significantly decreasing the concentrations of SS, COD and TN. more...

Published

2012

4. Comparison of a stratified and a single-layer laboratory sand filter to treat dairy soiled water from a farm-scale woodchip filter

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Author

P. French, Paul N. C. Murphy, Mark G. Healy, Eimear M. Ruane, and ~|Dept of Agriculture & Food |~

Subjects

chemistry.chemical_classification, Suspended solids, Environmental Engineering, Ecological Modeling, Chemical oxygen demand, Sand filter, Environmental engineering, Intermittent filtration, Pulp and paper industry, Dairy soiled water, Pollution, Filter (aquarium), Treatment, chemistry, Sand, Environmental Chemistry, Organic matter, Nitrification, Water quality, Effluent, Water Science and Technology

Abstract

Journal article Washing-down parlours and standing areas, following milking on dairy farms, produces dairy soiled water (DSW) that contains variable concentrations of nutrients. Aerobic woodchip filters can remove organic matter, nutrients and suspended solids (SS) in DSW, but the effluent exiting the filters may have to be further treated before it is suitable for re-use for washing yard areas. The performance of a single-layer sand filter (SF) and a stratified SF, loaded at a 20 L m-2 d-1, to polish effluent from a woodchip filter was investigated over 82 days. Average influent unfiltered chemical oxygen demand (CODT), total nitrogen (TN), ammonium-N (NH4-N), ortho-phosphorus (PO4-P) and SS concentrations of 1991±296, 163±40, 42.3±16.9, 27.2±6.9 and 84±30 mg L-1 were recorded. The single-layer SF decreased the influent concentration of CODT, TN, NH4-N, PO4-P and SS by 39, 36, 34, 58 and 52%, respectively. Influent concentrations of CODT, TNT, NH4-N, PO4-P and SS were decreased by 56, 57, 41, 74 and 62% in the stratified SF. The single-layer SF and the stratified SF were capable of reducing the influent concentration of total coliforms by 96 and 95%, respectively. Although a limited amount of biomass accumulated in the upper-most layers of both SFs, organic and particulate matter deposition within both filters affected rates of nitrification. Both types of SFs produced final water quality in excess of the standards for re-use in the washing of milking parlours. Teagasc peer-reviewed more...

Published

2014

5. On-farm treatment of dairy soiled water using aerobic woodchip filters

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Author

Mark G. Healy, P. French, Michael Rodgers, Eimear M. Ruane, and Paul N. C. Murphy

Subjects

Environmental Engineering, Nitrogen, Agricultural wastewater treatment, Waste Disposal, Fluid, Water Purification, Nutrient, Animals, Organic matter, Waste Management and Disposal, Effluent, Water Science and Technology, Civil and Structural Engineering, chemistry.chemical_classification, Suspended solids, Ecological Modeling, Chemical oxygen demand, Environmental engineering, Temperature, Agriculture, Phosphorus, Pollution, Wood, Aerobiosis, Carbon, Filter (aquarium), Dairying, chemistry, Costs and Cost Analysis, Environmental science, Seasons, Filtration, Water Pollutants, Chemical, Renewable resource

Abstract

Dairy soiled water (DSW) is produced on dairy farms through the washing-down of milking parlours and holding areas, and is generally applied to land. However, there is a risk of nutrient loss to surface and ground waters from land application. The aim of this study was to use aerobic woodchip filters to remove organic matter, suspended solids (SS) and nutrients from DSW. This novel treatment method would allow the re-use of the final effluent from the woodchip filters to wash down yards, thereby reducing water usage and environmental risks associated with land spreading. Three replicate 100 m(2) farm-scale woodchip filters, each 1 m deep, were constructed and operated to treat DSW from 300 cows over an 11-month study duration. The filters were loaded at a hydraulic loading rate of 30 L m(-2) d(-1), applied in four doses through a network of pipes on the filter surface. Average influent concentrations of chemical oxygen demand (COD), SS and total nitrogen (TN) of 5750 ± 1441 mg L(-1), 602 ± 303 mg L(-1) and 357 ± 100 mg L(-1), respectively, were reduced by 66, 86 and 57% in the filters. Effluent nutrient concentrations remained relatively stable over the study period, indicating the effectiveness of the filter despite increasing and/or fluctuating influent concentrations. Woodchip filters are a low cost, minimal maintenance treatment system, using a renewable resource that can be easily integrated into existing farm infrastructure. more...

Published

2011