Assessing the Balance Between Greenhouse Gases and Ammonia Emissions from Irish Pastures Amended with Cattle Slurry PDF Download
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Author: Frédéric Bourdin
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Agriculture in Ireland is the main source of ammonia (NH3) and contributes 30% of greenhouse gas emissions (GHG), with the majority of these emissions associated with livestock production. As a result, strategies promoting reductions in NH3 and GHG emissions are required. The aim of this work was: (i) to assess the impact of various NH3 abatement techniques on GHG release from a grassland soil; (ii) to investigate the consequences of organic nitrogen (N) applications in terms of carbon (C) sequestration in soils. The effects of slurry dry-matter content, application technique and timing of application were studied in a fifteen month field-plot experiment where gaseous emissions (CO2, N2O, CH4 and NH3) post-application were monitored. The natural abundance 13C tracer technique was also used to investigate the short-term dynamic of slurry-derived C and its consequences on soil CO2 efflux. Finally, 15N labelled slurries, supplemented or not with an additional C substrate, were used in a lysimeter study, under controlled conditions, to characterise the interactions between soil C and N processes post-organic fertilisation. Trailing-shoe application technique was shown to be and efficient way to lower NH3 volatilisation from land spread slurry. However, such benefice could be easily offset by an increase in direct N2O emissions and ecosystem respiration. Conversely, adjusting the timing of slurry spreading to get favourable soil and weather conditions, and to better meet herbage N requirements, had a positive effect on field N balance through a simultaneous reduction of both NH3 and N2O emissions. Emission factors (EF) calculated for slurry-induced N2O emissions were significantly lower than those calculated for mineral fertiliser and were greatly affected by weather and soil conditions. Such results support the widely spread idea of an inappropriate use of a single default EF value of 1% for both fertiliser types, under the IPCC Tier 1 methodology for national GHG inventories, and calls for the development of region-specific emission factors based on local soil types and climatic conditions. About 60% of slurry-derived C was shown to remain in the soil, even after 6 months, thus contributing to an increase of SOC pools. However, such incorporation of slurry-derived C may be offset by a positive priming effect of slurry on the degradation of the SOM. Such short-term priming of soil CO2 efflux may be, under certain conditions, compensated by a subsequent negative PE, thus minimising the impact of such phenomenon on the long-term sequestration of added slurry C. The long-term impact of these priming effects on nutrient and GHG balances remains to be further investigated, as these phenomena may occur on a regular basis in grassland ecosystems.
Author: Frédéric Bourdin
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Agriculture in Ireland is the main source of ammonia (NH3) and contributes 30% of greenhouse gas emissions (GHG), with the majority of these emissions associated with livestock production. As a result, strategies promoting reductions in NH3 and GHG emissions are required. The aim of this work was: (i) to assess the impact of various NH3 abatement techniques on GHG release from a grassland soil; (ii) to investigate the consequences of organic nitrogen (N) applications in terms of carbon (C) sequestration in soils. The effects of slurry dry-matter content, application technique and timing of application were studied in a fifteen month field-plot experiment where gaseous emissions (CO2, N2O, CH4 and NH3) post-application were monitored. The natural abundance 13C tracer technique was also used to investigate the short-term dynamic of slurry-derived C and its consequences on soil CO2 efflux. Finally, 15N labelled slurries, supplemented or not with an additional C substrate, were used in a lysimeter study, under controlled conditions, to characterise the interactions between soil C and N processes post-organic fertilisation. Trailing-shoe application technique was shown to be and efficient way to lower NH3 volatilisation from land spread slurry. However, such benefice could be easily offset by an increase in direct N2O emissions and ecosystem respiration. Conversely, adjusting the timing of slurry spreading to get favourable soil and weather conditions, and to better meet herbage N requirements, had a positive effect on field N balance through a simultaneous reduction of both NH3 and N2O emissions. Emission factors (EF) calculated for slurry-induced N2O emissions were significantly lower than those calculated for mineral fertiliser and were greatly affected by weather and soil conditions. Such results support the widely spread idea of an inappropriate use of a single default EF value of 1% for both fertiliser types, under the IPCC Tier 1 methodology for national GHG inventories, and calls for the development of region-specific emission factors based on local soil types and climatic conditions. About 60% of slurry-derived C was shown to remain in the soil, even after 6 months, thus contributing to an increase of SOC pools. However, such incorporation of slurry-derived C may be offset by a positive priming effect of slurry on the degradation of the SOM. Such short-term priming of soil CO2 efflux may be, under certain conditions, compensated by a subsequent negative PE, thus minimising the impact of such phenomenon on the long-term sequestration of added slurry C. The long-term impact of these priming effects on nutrient and GHG balances remains to be further investigated, as these phenomena may occur on a regular basis in grassland ecosystems.
Author: Food and Agriculture Organization of the United Nations
Publisher: Food & Agriculture Org.
ISBN: 925107920X
Category : Technology & Engineering
Languages : en
Pages : 139
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Book Description
Greenhouse gas emissions by the livestock sector could be cut by as much as 30 percent through the wider use of existing best practices and technologies. FAO conducted a detailed analysis of GHG emissions at multiple stages of various livestock supply chains, including the production and transport of animal feed, on-farm energy use, emissions from animal digestion and manure decay, as well as the post-slaughter transport, refrigeration and packaging of animal products. This report represents the most comprehensive estimate made to-date of livestocks contribution to global warming as well as the sectors potential to help tackle the problem. This publication is aimed at professionals in food and agriculture as well as policy makers.
Author: V.C. Nielsen
Publisher: Routledge
ISBN: 1135378584
Category : Business & Economics
Languages : en
Pages : 234
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Book Description
Proceedings of a seminar held in Silsoe, UK, 26-28 March 1990.
Author: Michael Anthony Holly
Publisher:
ISBN:
Category :
Languages : en
Pages : 270
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Book Description
Manure management contributes 8.4% of anthropogenic methane emissions (USEPA, 2015). It is extremely likely that greenhouse gas emissions including methane are correlated to an increase in global temperatures and sea level over the past century. Additionally, livestock contributes and estimated 71% of ammonia emissions and ammonia is a precursor to particulate matter which can decrease visibility and affect human health (Roe, Spivey, Lindquist, Thesing, & Strait, 2004). Therefore, to reduce future long term environmental and health complications it crucial that gaseous emissions from the production dairy are reduced. Experiments were conducted to evaluate potential mitigation strategies to reduce greenhouse gas (GHG) and ammonia (NH3) emissions from dairy manure. Results from the first experiment on the impacts of manure processing on GHG and NH3 from the storage and land application of dairy manure revealed that anaerobic digestion (AD) and solid liquid separation (SLS) significantly reduce GHG emissions. AD and SLS reduced GHG from untreated manure slurries by 34% and 22%, respectively; however, AD increases NH3 emissions by 81%. A second experiment quantified the impacts of manure additives, including More Than ManureTM (MTMTM), Pro-Act, and biochar, on manure solids, gaseous nitrogen losses, and GHG emissions. No treatments were able to reduce manure solids or gaseous nitrogen losses. Biochar was the only manure treatment to impact any manure characteristics, where the total ammonical nitrogen (TAN) was significantly greater than the control at day 14 (p=0.012). In a third experiment, raw wood (white birch, Betula papyrifera), steam treated wood, wood biochar, and corn cob biochar were investigated for their potential to reduce NH3 emissions from digested manure storages. In order to guide application strategies and better understand the mechanisms for mitigation, treatments were incorporated in the manure or applied as a cover and the TAN sorption was measured using extraction techniques. All biomass treatments reduced emissions of NH3 from the control by 40% to 96%. The highest NH3 emissions reductions were achieved with the wood biochar cover due to its ability to effectively cover the manure. Sorption results indicate that only a very small portion of the biomass mitigation potential was due to sorption and the main mechanism for NH3 reduction was the ability to act as a physical barrier. Future research should assess the GHG and NH3 reduction potential of coupling AD, SLS, and a biochar cover in a long term field trial.
Author: Michael Anthony Holly
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
Manure management contributes 8.4% of anthropogenic methane emissions (USEPA, 2015). It is extremely likely that greenhouse gas emissions including methane are correlated to an increase in global temperatures and sea level over the past century. Additionally, livestock contributes and estimated 71% of ammonia emissions and ammonia is a precursor to particulate matter which can decrease visibility and affect human health (Roe, Spivey, Lindquist, Thesing, & Strait, 2004). Therefore, to reduce future long term environmental and health complications it crucial that gaseous emissions from the production dairy are reduced. Experiments were conducted to evaluate potential mitigation strategies to reduce greenhouse gas (GHG) and ammonia (NH3) emissions from dairy manure. Results from the first experiment on the impacts of manure processing on GHG and NH3 from the storage and land application of dairy manure revealed that anaerobic digestion (AD) and solid liquid separation (SLS) significantly reduce GHG emissions. AD and SLS reduced GHG from untreated manure slurries by 34% and 22%, respectively; however, AD increases NH3 emissions by 81%. A second experiment quantified the impacts of manure additives, including More Than Manure"!(MTM"!, Pro-Act, and biochar, on manure solids, gaseous nitrogen losses, and GHG emissions. No treatments were able to reduce manure solids or gaseous nitrogen losses. Biochar was the only manure treatment to impact any manure characteristics, where the total ammonical nitrogen (TAN) was significantly greater than the control at day 14 (p=0.012). In a third experiment, raw wood (white birch, Betula papyrifera), steam treated wood, wood biochar, and corn cob biochar were investigated for their potential to reduce NH3 emissions from digested manure storages. In order to guide application strategies and better understand the mechanisms for mitigation, treatments were incorporated in the manure or applied as a cover and the TAN sorption was measured using extraction techniques. All biomass treatments reduced emissions of NH3 from the control by 40% to 96%. The highest NH3 emissions reductions were achieved with the wood biochar cover due to its ability to effectively cover the manure. Sorption results indicate that only a very small portion of the biomass mitigation potential was due to sorption and the main mechanism for NH3 reduction was the ability to act as a physical barrier. Future research should assess the GHG and NH3 reduction potential of coupling AD, SLS, and a biochar cover in a long term field trial
Author: Pierre J. Gerber
Publisher: Food & Agriculture Organization of the UN (FAO)
ISBN:
Category : Nature
Languages : en
Pages : 240
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Book Description
The current analysis was conducted to evaluate the potential of nutritional, manure and animal husbandry practices for mitigating methane (CH4) and nitrous oxide (N2O) - i.e. non-carbon dioxide (CO2) - GHG emissions from livestock production. These practices were categorized into enteric CH4, manure management and animal husbandry mitigation practices. Emphasis was placed on enteric CH4 mitigation practices for ruminant animals (only in vivo studies were considered) and manure mitigation practices for both ruminant and monogastric species. Over 900 references were reviewed; simulation and life cycle assessment analyses were generally excluded
Author: Robert Jarrige
Publisher: John Libbey Eurotext
ISBN: 9780861962471
Category : Nature
Languages : en
Pages : 400
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Book Description
Deals with feed evaluation systems, the nutrient requirements of ruminant livestock and the feeding value of a wide range of feedstuffs. This book lists about 800 typical forages, 65 crop residues and 120 concentrate and by-product feeds. It is suitable for teachers, specialist scientists and industrialists.
Author: Henning Steinfeld
Publisher: Food & Agriculture Org.
ISBN: 9789251055717
Category : Business & Economics
Languages : en
Pages : 418
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Book Description
"The assessment builds on the work of the Livestock, Environment and Development (LEAD) Initiative"--Pref.
Author: Tom Misselbrook
Publisher: Frontiers Media SA
ISBN: 288963227X
Category :
Languages : en
Pages : 249
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Book Description
This eBook presents highlight papers from the 17th International conference of the Recycling of Agricultural, Municipal and Industrial Residues to Agriculture Network (RAMIRAN) that was held in Wexford, Ireland in September 2017. The book contains a broad range of papers around this multidisciplinary theme covering topics including regional and national organic resource use planning, impact of livestock diet on manure composition, fate and utilisation of excreta from grazing livestock, anaerobic digestion, overcoming barriers to resource reuse, hygienic aspects of residue recycling and impacts on soil health. The overarching theme being addressed is the sustainable recycling of organic residues to agriculture, to promote effective nutrient use and minimise environmental impact.
Author: Conor Dowling
Publisher:
ISBN:
Category : Ammonia
Languages : en
Pages : 182
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Book Description
