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3. Reviews and syntheses: A scoping review evaluating the potential application of ecohydrological models for northern peatland restoration.

Author

Silva, Mariana P., Healy, Mark G., and Gill, Laurence

Subjects
PEATLAND restoration, KOPPEN climate classification, ECOHYDROLOGY, BOGS, SCIENCE databases, WEB databases, DATABASES
Abstract

Peatland restoration and rehabilitation action has become more widely acknowledged as a necessary response to mitigating climate change risks and improving global carbon storage. Peatland ecosystems require restoration time spans of the order of decades and, thus, cannot be dependent upon the shorter-term monitoring often carried out in research projects. Hydrological assessments using geospatial tools provide the basis for planning restoration works as well as analysing associated environmental influences. "Restoration" encompasses applications to pre-restoration and post-restoration scenarios for both bogs and fens, across a range of environmental impact fields. The aim of this scoping review is to identify, describe, and categorize current process-based modelling uses in peatlands in order to investigate the applicability and appropriateness of ecohydrological and/or hydrological models for northern peatland restoration. Two literature searches were conducted using the entire Web of Science database in September 2022 and August 2023. Of the final 211 papers included in the review, models and their applications were categorized according to this review's research interests in seven distinct categories aggregating the papers' research themes and model outputs. Restoration site context was added by identifying 229 unique study site locations from the full database, which were catalogued and analysed against raster data for the Köppen–Geiger climate classification scheme. A majority of northern peatland sites were in temperate oceanic zones or humid continental zones that experienced snow. Over one in five models from the full database of papers were unnamed and likely intended for single use. Key themes emerging from topics covered by papers in the database included the following: modelling restoration development from a bog growth perspective, the prioritization of modelling greenhouse gas (GHG) emissions dynamics as a part of policymaking, the importance of spatial connectivity within or alongside process-based models to represent heterogeneous systems, and the increased prevalence of remote sensing and machine learning techniques to predict restoration progress with little physical site intervention. Models are presented according to their application to peatlands or broader ecosystem and organized from most to least complex. This review provides valuable context for the application of ecohydrological models in determining strategies for peatland restoration and evaluating post-intervention development over time. [ABSTRACT FROM AUTHOR]

Published
2024
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5. A methodological framework to determine optimum durations for the construction of soil water characteristic curves using centrifugation

Author

Vero Sara E., Healy Mark G., Henry Tiernan, Creamer Rachel E., Ibrahim Tristan G., Forrestal Patrick J., Richards Karl G., and Fenton Owen

Subjects
centrifuge, equilibrium, soil water characteristic curve, Agriculture (General), S1-972, Nutrition. Foods and food supply, TX341-641
Abstract

During laboratory assessment of the soil water characteristic curve (SWCC), determining equilibrium at various pressures is challenging. This study establishes a methodological framework to identify appropriate experimental duration at each pressure step for the construction of SWCCs via centrifugation. Three common temporal approaches to equilibrium – 24-, 48- and 72-h – are examined, for a grassland and arable soil. The framework highlights the differences in equilibrium duration between the two soils. For both soils, the 24-h treatment significantly overestimated saturation. For the arable site, no significant difference was observed between the 48- and 72-h treatments. Hence, a 48-h treatment was sufficient to determine ‘effective equilibrium’. For the grassland site, the 48- and 72-h treatments differed significantly. This highlights that a more prolonged duration is necessary for some soils to conclusively determine that effective equilibrium has been reached. This framework can be applied to other soils to determine the optimum centrifuge durations for SWCC construction.

Published
2016
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8. Reviews and Syntheses: Evaluating the Potential Application of Ecohydrological Models for Northern Peatland Restoration: A Scoping Review.

Author

Silva, Mariana P., Healy, Mark G., and Gill, Laurence

Subjects
PEATLAND restoration, SCIENCE databases, DATABASES, ECOHYDROLOGY, GREENHOUSE gases, RESTORATION ecology, BOGS
Abstract

Peatland restoration and rehabilitation action has become more widely acknowledged as a necessary response to mitigating climate change risks and improving global carbon storage. Peatland ecosystems require restoration timespans on the order of decades and thus cannot be dependent upon the shorter-term monitoring often carried out in research projects. Hydrological assessments using geospatial tools provide the basis for planning restoration works as well as analysing associated environmental influences. "Restoration" encompasses applications to pre- and post-restoration scenarios for both bogs and fens, across a range of environmental impact fields. The aim of this scoping review is to identify, describe, and categorise current process-based modelling uses in peatlands in order to investigate the applicability and appropriateness of eco- and/or hydrological models for northern peatland restoration. Two literature searches were conducted using the Web of Science entire database in September 2022 and August 2023. Of the final 211 papers included in the review, models and their applications were categorised according to this review's research interests in 7 distinct categories aggregating the papers' research themes and model outputs. Restoration site context was added by identifying 234 unique study site locations from the full database which were catalogued and analysed against raster data for the Köppen -Geiger climate classification scheme. A majority of northern peatland sites were in temperate oceanic zones or humid continental zones experiencing snow. Over one in five models from the full database of papers was unnamed and likely single-use. The top three most-used of these models, based on the frequency of their use on distinct site locations, were LPJ, ecosys, and DigiBog, in that order. Key themes emerging from topics covered by papers in the database included: modelling restoration development from a bog growth perspective; the prioritisation of modelling GHG emissions dynamics as a part of policymaking; the importance of spatial connectivity within or alongside process-based models to represent heterogeneous systems; and the emerging prevalence of remote sensing and machine learning techniques to predict restoration progress with little physical site intervention. This review provides valuable context for the application of ecohydrological models in determining strategies for peatland restoration and evaluating post-intervention development over time. [ABSTRACT FROM AUTHOR]

Published
2023
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9. Effects of wastewater pre-treatment on clogging of an intermittent sand filter

Author

Mohamed, A.Y.A., Tuohy, P., Healy, Mark G., Ó hUallacháin, D., Fenton, O., Siggins, A., and Teagasc

Subjects
dairy wastewater, Environmental Engineering, Environmental Chemistry, filter clogging, field-saturated hydraulic conductivity, Pollution, Waste Management and Disposal, biomass growth, volumetric moisture content
Abstract

Intermittent sand filters (ISFs) are widely used in rural areas to treat domestic and dilute agricultural wastewater due to their simplicity, efficacy and relative low cost. However, filter clogging reduces their operational lifetime and sustainability. To reduce the potential of filter clogging, this study examined pre-treatment of dairy wastewater (DWW) by coagulation with ferric chloride (FeCl3) prior to treatment in replicated, pilot-scale ISFs and monitored their performance over an entire milking season (301 days). Over the study duration and at the end of the study, the extent of clogging across hybrid coagulation-ISFs was quantified and the results were compared to ISFs treating raw DWW without a coagulation pre-treatment, but otherwise operated under the same conditions. During operation, biomass growth/extent of clogging was higher in ISFs treating raw DWW, which were fully clogged after 280 days of operation. The hybrid coagulation-ISFs remained fully operational until the end of the study. Examination of the filter media in both filter types showed that the ISFs treating raw DWW lost approximately 85% of their initial infiltration capacity in the uppermost layer due to biomass build-up versus 40% loss for hybrid coagulation-ISFs. Furthermore, ISFs treating raw DWW retained more organic matter and proportionally higher amounts of phosphorus, nitrogen and sulphur than the pre-treated DWW, with values decreasing with depth below the filter surface. Overall, hybrid coagulation-ISFs are likely to sustain infiltration capacity for a longer period than filters treating raw wastewater; therefore, requiring smaller surface area for treatment and minimal maintenance. The authors would like to acknowledge Teagasc for the grant of a Walsh Fellowship to the first author [funding number: RMIS-0386]. The authors appreciate the help of technical staff: Seamus McShane, Adrian Hawe, Tomas Condon & John Paul Murphy (Teagasc Moorepark), Denis Brennan (Teagasc Johnstown Castle), and Emma McDermott (Centre for Microscopy and Imaging, University of Galway). peer-reviewed

Published
2023

10. The impact of alternating drainage and inundation cycles on geochemistry and microbiology of intact peat cores

Author

Healy, Mark G., Siggins, Alma, Potito, Aaron P., Molloy, Karen, O'Leary, D., Daly, E., Callery, O., European Commission, and Environmental Protection Agency

Subjects
restoration, Environmental Engineering, Nitrates, rewetting, Nitrogen, Soil-water characteristic curve, Water, Phosphorus, Pollution, Soil, Microbial community, Environmental Chemistry, Waste Management and Disposal, peatlands
Abstract

The rewetting of degraded peatlands has been adopted as a method to address climate change. Concerns have been raised about the effects of peat inundation and drying cycles, in more extreme climate events, on the potential release of nitrogen (N) species, in particular ammonium (NH4-N), once rewetted, as well as the physico-chemical and biological properties of the peat. This study used intact peat cores to measure the impact of two different cycles of peat inundation and drying (1 month and 2 month) over a total study duration of 56 weeks on the (1) NH4-N, nitrate-N (NO3-N) and dissolved reactive phosphorus (DRP) in the soil pore water; (2) microbial community structure; (3) physico-chemical properties of the peat; and (4) the structure of the peat, and therefore its ability to mitigate flood risks and storm surges. The study found that rewetted cores released NO3-N in the pore water up to a concentration of 6.25 mg L-1, but had no appreciable impact on NH4-N, which remained below 1.7 mg L-1 over the study duration. DRP moved quickly though the upper layers of the cores, but physico-chemical analysis suggested it was adsorbed to more iron-rich soil, which was present at depths below 0.4 m in the cores. Time intervals between inundation produced no significant difference on the forms of inorganic N released, nor did it compact the soil or change the microbial community structure. The depth of the water table, however, had a significant impact on inorganic N release, particularly NO3-N, which indicates that this N species, and not NH4-N, may be problematic in rewetted peatlands. The authors acknowledge the assistance of Stephen Monteverde and Dr Siubhán Comer. The authors would like to thank the European Commission and the Irish Environmental Protection Agency (EPA) (Project reference number 2019-W-MS-42) for funding the collaborative international consortium (WATERPEAT) financed under the Water JPI 2018 Joint Call of the WaterWorks2017 ERA-NET Cofund. This project is funded under the EPA Research Programme 2014-2020. The EPA Research Programme is a Government of Ireland initiative funded by the Department of Communications, Climate Action and Environment. It is administered by the Environmental Protection Agency, which has the statutory function of co-ordinating and promoting environmental research. peer-reviewed 2024-11-02

Published
2022

14. Systematic Review of Dairy Processing Sludge and Secondary STRUBIAS Products Used in Agriculture

Author

Hu, Yihuai, primary, Khomenko, Olha, additional, Shi, Wenxuan, additional, Velasco-Sánchez, Ángel, additional, Ashekuzzaman, S. M., additional, Bennegadi-Laurent, Nadia, additional, Daly, Karen, additional, Fenton, Owen, additional, Healy, Mark G., additional, Leahy, J. J., additional, Sørensen, Peter, additional, Sommer, Sven G., additional, Taghizadeh-Toosi, Arezoo, additional, and Trinsoutrot-Gattin, Isabelle, additional

Published
2021
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15. Systematic Review of Dairy Processing Sludge and Secondary STRUBIAS Products Used in Agriculture

Author

Hu, Yihuai, Khomenko, Olha, Shi, Wenxuan, Velasco-Sánchez, Ángel, Ashekuzzaman, S.M., Bennegadi-Laurent, Nadia, Daly, Karen, Fenton, Owen, Healy, Mark G., Leahy, J.J., Sørensen, Peter, Sommer, Sven G., Taghizadeh-Toosi, Arezoo, Trinsoutrot-Gattin, Isabelle, Hu, Yihuai, Khomenko, Olha, Shi, Wenxuan, Velasco-Sánchez, Ángel, Ashekuzzaman, S.M., Bennegadi-Laurent, Nadia, Daly, Karen, Fenton, Owen, Healy, Mark G., Leahy, J.J., Sørensen, Peter, Sommer, Sven G., Taghizadeh-Toosi, Arezoo, and Trinsoutrot-Gattin, Isabelle

Abstract

Worldwide dairy processing plants produce high volumes of dairy processing sludge (DPS), which can be converted into secondary derivatives such as struvite, biochar and ash (collectively termed STRUBIAS). All of these products have high fertilizer equivalent values (FEV), but future certification as phosphorus (P)-fertilizers in the European Union will mean they need to adhere to new technical regulations for fertilizing materials i.e., content limits pertaining to heavy metals (Cd, Cu, Hg, Ni, Pb, and Zn), synthetic organic compounds and pathogens. This systematic review presents the current state of knowledge about these bio-based fertilizers and identifies knowledge gaps. In addition, a review and calculation of greenhouse gas emissions from a range of concept dairy sludge management and production systems for STRUBIAS products [i.e., biochar from pyrolysis and hydrochar from hydrothermal carbonization (HTC)] is presented. Results from the initial review showed that DPS composition depends on product type and treatment processes at a given processing plant, which leads to varied nutrient, heavy metal and carbon contents. These products are all typically high in nutrients and carbon, but low in heavy metals. Further work needs to concentrate on examining their pathogenic microorganism and emerging contaminant contents, in addition to conducting an economic assessment of production and end-user costs related to chemical fertilizer equivalents. With respect to STRUBIAS products, contaminants not present in the raw DPS may need further treatment before being land applied in agriculture e.g., heated producing ashes, hydrochar, or biochar. An examination of these products from an environmental perspective shows that their water quality footprint could be minimized using application rates based on P incorporation of these products into nutrient management planning and application by incorporation into the soil. Results from the concept system showed that elimination of

Published
2021

16. An evaluation of the general composition and critical raw material content of bauxite residue in a storage area over a twelve-year period

Author

EPA, Cusack, Patricia B., Courtney, Ronan, Healy, Mark G., O'Donoghue, Lisa M.T., Ujaczki, Éva, EPA, Cusack, Patricia B., Courtney, Ronan, Healy, Mark G., O'Donoghue, Lisa M.T., and Ujaczki, Éva

Abstract

peer-reviewed, The full text of this article will not be available in ULIR until the embargo expires on the 9/10/2020, Bauxite residue, the by-product produced in the alumina industry, is being produced at an estimated global rate of approximately 150 million tonnes per annum. Currently, the reuse of bauxite residue is low (∼2%), due to limitations associated with its alkalinity, salinity, low solid content, fine particle size and potential leaching of metal(loid)s. It has been identified as a potential secondary source for critical raw materials such as vanadium, gallium and scandium, which currently have an associated supply risk and high economic cost within Europe. However, there is an uncertainty regarding the possible variation in these and other physico-chemical, elemental and mineralogical parameters within bauxite residue disposal areas. This paper aimed to address this knowledge gap by examining the variation of these parameters in a bauxite residue disposal area (BRDA) over a twelve-year period. The general composition did not vary greatly within the bauxite residue examined, with the exception of pH and electrical conductivity, which ranged from 10 ± 0.1 to 12.0 ± 0.02 and from 0.4 ± 0.01 to 3.3 ± 0.2 mS cm−1, respectively. The bauxite residue contained critical raw materials, of which the amount of vanadium, gallium and scandium did not vary significantly over time. The vanadium and gallium were present in larger amounts compared to other European bauxite residues. On average the vanadium, gallium and scandium content measured in the bauxite residue samples were 510 ± 77.8, 107 ± 7.3 and 51.4 ± 5.4 mg kg−1, respectively. This shows promise for the potential reuse of bauxite residue as a secondary source for critical raw materials and also indicates that BRDAs may be potential mines for critical raw material extraction., peer-reviewed

Published
2020

17. The role of wet wipes and sanitary towels as a source of white microplastic fibres in the marine environment

Author

Ó Briain, Oisín, Marques Mendes, Ana R., McCarron, Stephen, Healy, Mark G., Morrison, Liam, Ó Briain, Oisín, Marques Mendes, Ana R., McCarron, Stephen, Healy, Mark G., and Morrison, Liam

Abstract

Understanding source elements of the ocean plastic crisis is key to effective pollution reduction management and policy. The ubiquity of microplastic (MP) fibres in the oceans is considered to derive primarily from clothing fibres released in grey water. Microplastic fibres degraded from widely flushed personal care textile products (wet wipes and sanitary towels) have not been clearly identified in aquatic systems to date. Unregulated personal hygiene and sanitary product labelling fails to identify textile materials. This study demonstrated that white MP fibres in sediments adjacent to a wastewater treatment plant (WWTP) are comparable with white fibres from sewage-related waste and commercially available consumer sanitary products. Commercially available non-flushable wipes are manufactured from either polyethylene terephthalate (PET), polypropylene (PP), or a combination of PET and cellulose. Fifty percent of brands labelled flushable that were tested were comprised of a mixture of PET and cellulose and the remainder of cellulose alone. Sanitary towels are made from PP, PE, or a combination of high-density polyethylene (HDPE) and PP. The accumulation of large quantities of washed-up sewagerelated macro-debris (including wet wipes and sanitary towels) intermingled with seaweed biomass adjacent to the WWTP was associated with a combined sewer overflow. Microplastic fibres extracted from this waste were similar to those extracted from intertidal sediments in close proximity to the WWTP over a ten-month period. In comparison, fibres extracted from locations spatially removed from the WWTP were primarily comprised of ABS, PP and polystyrene. The results confirm that wet wipes and sanitary towels flushed down toilets are an underestimated source of white MP fibres in the environment. Given the global distribution and projected growth of the non-woven textile industry, there is a need for increased public awareness of MP pollution in the marine environment from the ina

Published
2020

18. Future phosphorus: advancing new '2D' allotropes and growing a sustainable bio economy

Author

Jarvie, Helen P., Flaten, Don, Sharpley, Andrew N., Kleinman, Peter J. A., Healy, Mark G., and King, Stephen M.

Subjects
Sustainability, New 2D Phosphorus Allotropes, Phosphorus, Bioeconomy
Abstract

With more than 40 countries currently proposing to boost their national bioeconomies, there is no better time for a clarion call for a new bioeconomy, which, at its core, tackles the current disparities and inequalities in phosphorus (P) availability. Existing biofuel production systems have widened P inequalities and contributed to a linear P economy, impairing water quality and accelerating dependence on P fertilizers manufactured from finite non-renewable phosphate rock reserves. Here, we explore how the emerging bioeconomy in novel, value-added, bio-based products offers opportunities to rethink our stewardship of P. Development of integrated value chains of new bio-based products offer opportunities for co-development of P-refineries to recover P fertilizer products from organic wastes. Advances in material sciences are exploiting unique semiconductor and opto-electrical properties of new P allotropes (2D Black Phosphorus and Blue Phosphorus). These novel P materials offer the tantalising prospect of step-change innovations in renewable energy production and storage, in biomedical applications, and in biomimetic processes, including artificial photosynthesis. They also potentially offer an antidote to the P paradox that our agricultural production systems have engineered us into, and expand the future role of P in securing sustainability across both agroecological and technological domains of the bioeconomy. However, there remains a myriad of social, technological and commercialization hurdles to be crossed before such an advanced circular P bioeconomy could be realized. The emerging bioeconomy is just one piece of a much larger puzzle of how to achieve more sustainable and circular horizons in our future use of phosphorus. HPJ was supported by the NERC National Capability projects NEC06851 and NEC07000. peer-reviewed

Published
2019

19. Presence of emerging contaminants in treated sludges and their potential impacts on the environment

Author

Healy, Mark G. and Environmental Protection Agency

Subjects
land, Biosolids, health, agriculture
Abstract

Landspreading of sewage sludge remains the most economical and practical means for its disposal, with some countries, such as Ireland, disposing up to 90% to land. Its nitrogen, phosphorus and metal content make it an effective fertiliser replacement. However, there are potentially serious issues associated with its use in agriculture. These range from impacts on the environment through surface losses of nutrients, metals, pharmaceuticals and personal care products (PPCPs), and emerging contaminants, as well as build-up of contaminants in the soil and transfer to the human food chain. This paper details the main findings of an Irish Environmental Protection Agency (EPA)-funded study which investigated these issues. This study characterised treated sewage sludge ( biosolids ) from wastewater treatment plants employing different means of sludge treatment, examined surface losses of various physico-chemical parameters following land application, measured metal uptake by ryegrass, and modelled the potential impacts on human health. This study was funded by the Irish EPA (Project reference number 2012-EH-MS-13). non-peer-reviewed

Published
2019
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20. Future phosphorus: advancing new 2D phosphorus allotropes and growing a sustainable bioeconomy

Author

Jarvie, Helen P., Flaten, Don, Sharpley, Andrew N., Kleinman, Peter J.A., Healy, Mark G., King, Stephen M., Jarvie, Helen P., Flaten, Don, Sharpley, Andrew N., Kleinman, Peter J.A., Healy, Mark G., and King, Stephen M.

Abstract

With more than 40 countries currently proposing to boost their national bioeconomies, there is no better time for a clarion call for a “new” bioeconomy, which, at its core, tackles the current disparities and inequalities in phosphorus (P) availability. Existing biofuel production systems have widened P inequalities and contributed to a linear P economy, impairing water quality and accelerating dependence on P fertilizers manufactured from finite nonrenewable phosphate rock reserves. Here, we explore how the emerging bioeconomy in novel, value-added, bio-based products offers opportunities to rethink our stewardship of P. Development of integrated value chains of new bio-based products offers opportunities for codevelopment of “P refineries” to recover P fertilizer products from organic wastes. Advances in material sciences are exploiting unique semiconductor and opto-electrical properties of new “two-dimensional” (2D) P allotropes (2D black phosphorus and blue phosphorus). These novel P materials offer the tantalizing prospect of step-change innovations in renewable energy production and storage, in biomedical applications, and in biomimetic processes, including artificial photosynthesis. They also offer a possible antidote to the P paradox that our agricultural production systems have engineered us into, as well as the potential to expand the future role of P in securing sustainability across both agroecological and technological domains of the bioeconomy. However, a myriad of social, technological, and commercialization hurdles remains to be crossed before such an advanced circular P bioeconomy can be realized. The emerging bioeconomy is just one piece of a much larger puzzle of how to achieve more sustainable and circular horizons in our future use of P.

Published
2019

21. An integrated assessment of nitrogen source, transformation and fate within an intensive dairy system to inform management change

Author

Clagnan, Elisa, primary, Thornton, Steven F., additional, Rolfe, Stephen A., additional, Wells, Naomi S., additional, Knoeller, Kay, additional, Murphy, John, additional, Tuohy, Patrick, additional, Daly, Karen, additional, Healy, Mark G., additional, Ezzati, Golnaz, additional, von Chamier, Julia, additional, and Fenton, Owen, additional

Published
2019
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23. A framework for determining unsaturated zone time lags at catchment scale

Author

Vero, Sara E., Healy, Mark G., Henry, Tiernan, Creamer, Rachel E., Ibrahim, Tristan G., Richards, Karl G., Mellander, Per-Erik, McDonald, Noeleen T., Fenton, Owen, and ~|1267880|~

Subjects
Soil, Unsaturated, Water Framework Directive, Time lag, Civil engineering, Nitrate
Abstract

The responses of waterbodies to agricultural programmes of measures are frequently delayed by hydrological time lags through the unsaturated zone and groundwater. Time lag may therefore, impede the achievement of remediation deadlines such as those described in the EU Water Framework Directive (WFD). Omitting time lag from catchment characterisation renders evaluation of management practices impossible. Time lag aside, regulators at national scale can only manage the expectations of policy-makers at larger scales (e.g. European Union) by demonstrating positive nutrient trajectories in catchments failing to achieve at least good status. Presently, a flexible tool for developing spatial and temporal estimates of trends in water quality/nutrient transport and time lags is not available. The objectives of the present study were first to develop such a flexible, parsimonious framework incorporating existing soil maps, meteorological data and a structured modelling approach, and to secondly, to demonstrate its use in a grassland and an arable catchment (~10 km2) in Ireland, assuming full implementation of measures in 2012. Data pertaining to solute transport (meteorology, soil hydraulics, depth of profile and boundary conditions) were collected for both catchments. Low complexity textural data alone gave comparable estimates of nutrient trajectories and time lags but with no spatial or soil series information. Taking a high complexity approach, coupling high resolution soil mapping (1:10,000) with national scale (1:25,000) representative profile datasets to This research was funded by the Teagasc Walsh Fellowship Scheme. peer-reviewed 2018-12-10

Published
2016

25. Zeolite combined with alum and polyaluminum chloride mixed with agricultural slurries reduces carbon losses in runoff from grassed soil boxes

Author

Fenton, O., Murnane, John G., Brennan, R.B., Healy, Mark G., Fenton, O., Murnane, John G., Brennan, R.B., and Healy, Mark G.

Abstract

peer-reviewed, Carbon (C) losses from agricultural soils to surface waters can migrate through water treatment plants and result in the formation of disinfection by-products, which are potentially harmful to human health. This study aimed to quantify total organic carbon (TOC) and total inorganic C losses in runoff after application of dairy slurry, pig slurry, or milk house wash water (MWW) to land and to mitigate these losses through coamendment of the slurries with zeolite (2.36 3.35 mm clinoptilolite) and liquid polyaluminum chloride (PAC) (10% Al2O3) for dairy and pig slurries or liquid aluminum sulfate (alum) (8% Al2O3) for MWW. Four treatments under repeated 30-min simulated rainfall events (9.6 mm h-1) were examined in a laboratory study using grassed soil runoff boxes (0.225 m wide, 1 m long; 10% slope): control soil, unamended slurries, PAC-amended dairy and pig slurries (13.3 and 11.7 kg t-1, respectively), alum-amended MWW (3.2 kg t-1), combined zeolite and PAC-amended dairy (160 and 13.3 kg t-1 zeolite and PAC, respectively) and pig slurries (158 and 11.7 kg t-1 zeolite and PAC, respectively), and combined zeolite and alumamended MWW (72 and 3.2 kg t-1 zeolite and alum, respectively). The unamended and amended slurries were applied at net rates of 31, 34, and 50 t ha-1 for pig and dairy slurries and MWW, respectively. Significant reductions of TOC in runoff compared with unamended slurries were measured for PACamended dairy and pig slurries (52 and 56%, respectively) but not for alum-amended MWW. Dual zeolite and alum-amended MWW significantly reduced TOC in runoff compared with alum amendment only. We conclude that use of PAC-amended dairy and pig slurries and dual zeolite and alum-amended MWW, although effective, may not be economically viable to reduce TOC losses from organic slurries given the relatively low amounts of TOC measured in runoff from unamended slurries compared with the amounts applied., ACCEPTED, peer-reviewed

Published
2017

26. Carbon and nitrogen dynamics and greenhouse gas emissions in constructed wetlands treating wastewaters: a review

Author

Healy, Mark G. and ~|6201984|~

Subjects
Nitrogen, Wetlands, Greenhouse gas emissions, Carbon
Abstract

The removal efficiency of carbon (C) and nitrogen (N) in constructed wetlands (CWs) is very inconsistent and frequently does not reveal whether the removal processes are due to physical attenuation or whether the different species have been transformed to other reactive forms. This paper aims to address this knowledge gap by reviewing the biogeochemical dynamics and fate of C and N in CWs and their potential impact on the environment, and by presenting novel ways in which these knowledge gaps may be eliminated. Nutrient removals in CWs vary with the type of CW, vegetation, climate, season, geographical region and management practices. Horizontal flow CWs tend to have good nitrate (NO3-) removal, as they provide good conditions for denitrification, but cannot remove ammonium (NH4+) due to limited ability to nitrify NH4+. Vertical flow CWs have good NH4+ removals, but their denitrification ability is low. Surface flow CWs decrease nitrous oxide (N2O) emissions but increase methane (CH4) emissions; subsurface flow CWs increase N2O and carbon dioxide (CO2) emissions, but decrease CH4 emissions. Mixed species of vegetation perform better than monocultures in increasing C and N removal and decreasing GHG emissions, but empirical evidence is still scarce. Lower hydraulic loadings with higher hydraulic retention times enhance nutrient removal, but more empirical evidence is required to determine an optimum design. A conceptual model highlighting the current state of knowledge is presented and experimental work that should be undertaken to address knowledge gaps across CW, vegetation and wastewater types, hydraulic loading rates and regimes, and retention times, is suggested. We recommend that further research on process-based C and N removal and on the balancing of end products into reactive and benign forms is critical to the assessment of the environmental performance of CWs. peer-reviewed

Published
2016

28. Resource recovery from sludge

Author

Healy, Mark G. and ~|Environmental Protection Agency|~

Subjects
Biosolids, Municipal solid waste, Resource recovery, Land application
Abstract

Book chapter [no abstract available] EPA ireland (Project reference number 2012-EH-MS-1); EU COST Action Water_2020

Published
2015

29. A methodological framework to determine optimum durations for the construction of soil water characteristic curves using centrifugation

Author

Vero, Sara E., Healy, Mark G., Henry, Tiernan, Creamer, Rachel E., Ibrahim, Tristan G., Forrestal, Patrick J., Richards, Karl G., Fenton, Owen, Vero, Sara E., Healy, Mark G., Henry, Tiernan, Creamer, Rachel E., Ibrahim, Tristan G., Forrestal, Patrick J., Richards, Karl G., and Fenton, Owen

Abstract

During laboratory assessment of the soil water characteristic curve (SWCC), determining equilibrium at various pressures is challenging. This study establishes a methodological framework to identify appropriate experimental duration at each pressure step for the construction of SWCCs via centrifugation. Three common temporal approaches to equilibrium – 24-, 48- and 72-h – are examined, for a grassland and arable soil. The framework highlights the differences in equilibrium duration between the two soils. For both soils, the 24-h treatment significantly overestimated saturation. For the arable site, no significant difference was observed between the 48- and 72-h treatments. Hence, a 48-h treatment was sufficient to determine ‘effective equilibrium’. For the grassland site, the 48- and 72-h treatments differed significantly. This highlights that a more prolonged duration is necessary for some soils to conclusively determine that effective equilibrium has been reached. This framework can be applied to other soils to determine the optimum centrifuge durations for SWCC construction.

Published
2016

30. Optimizing nitrate removal and evaluating pollution swapping trade-offs from laboratory denitrification bioreactors

Author

Healy, Mark G., Barrett, Maria, Serrenho, Ana, and ~|Dept of Agriculture & Food |~

Subjects
Bioreactors, Greenhouse gas emissions, Denitrification, Pollution swapping
Abstract

Journal article Denitrification bioreactors, typically containing woodchips, are artificial sinks used to remediate nitrate (NO3-) losses on agricultural landscapes. Analysis of these bioreactors frequently considers their efficacy in terms of only a single contaminant (for example, NO3-), but does not consider other losses ammonium (NH4+), phosphorus (PO43-), methane (CH4), carbon dioxide (CO2) and nitrous oxide (N2O). In this study, laboratory-scale denitrifying bioreactors operated at hydraulic retention times (HRTs) ranging from 4 to 22 d, containing either lodgepole pine woodchips (LPW), lodgepole pine needles (LPN), barley straw (BBS) or cardboard, were investigated to elucidate operational optima considering three scenarios using: (1) only NO3- net fluxes (2) NO3-, NH4+ and PO43- combined fluxes (3) all fluxes (water and gaseous) combined. At the end of the experiment, after up to 745 days of operation, the bioreactors were destructively sampled for microbial analysis. In Scenario 1, there was a net removal in the bioreactors, which generally performed best at shorter HRTs. In Scenario 2, there was a net release of contaminants from all bioreactors, which substantially increased in Scenario 3. Total greenhouse gas emissions were highest for the cardboard bioreactors (296 g CO2-eq m-2 d-1) at the longest HRT, and were dominated by CH4 emissions. Highest N2O emissions emanated from LPN and LPW bioreactors, which also had a greater proportion of denitrifiers than the other bioreactors. Overall, considering all three scenarios, LPN bioreactors were the best performing at all HRTs. However, the long-term availability of its carbon source may be limited, as there was an 80% reduction over a 560 d period. Department of Agriculture, Fisheries and Food - Research Stimulus Programme 2007 (RSF 07 525) peer-reviewed

Published
2014

31. The impact of service-learning on voluntary and community organizations in the west of Ireland

Author

Healy, Mark G., McIlrath, Lorraine, and ~

Subjects
benefit to organizations, service-learning, education, Higher education, College students, Ireland
Abstract

http://ojs.aishe.org/index.php/aishe-j/article/view/154 The aim of this study was to investigate the impact of student volunteers on community organizations and to identify deficits in training within service learning modules which, if addressed, could enable community organizations to benefit more from student volunteers. An anonymous survey aimed to measure students impact, as perceived by host community organizations, relative to non-student volunteers and paid staff, and to investigate if their impact and the types of work they undertook was correlated with organization attributes. The perceived impact of student volunteers on the organization mission was high, but the nature of their work was functional and not academic in nature. Host organizations felt that student preparedness, prior to their engagement, could be enhanced by members of the organizations either addressing the student body within a classroom context, or by playing a role in the design of modules which may have an impact on their area of focus. peer-reviewed

Published
2014

32. The performance of granitic, shale and limestone forest road aggregates under repeated loading

Author

Healy, Mark G. and ~|Other|~

Subjects
Aggregates, roads, Loads, Forests, Access roads
Abstract

Journal article This study compared the performance of three aggregate layerings, commonly used in the construction of unbound forest roads in Ireland, when they were subjected to repeated loading in a new large-scale test rig. These layerings comprised (i) a layer of uncrushed, granitic, sandy gravel - a good quality road aggregate (ii) a layer of shale - a poor quality aggregate, and (iii) a layer of crushed limestone an excellent quality aggregate with a wet mix macadam (WMM) grading on top of a poor quality shale sub-base layer . The repeated load testing rig was designed and constructed to test different surface or completion layering thicknesses of the aggregates over a common formation or subgrade material of silty sandy soil. This testing was achieved by surface loading the aggregates through a 200 mm-diameter rubber pad - attached to a hydraulic actuator on the test rig - for up to 150,000 load applications. The subgrade pressures and surface deflections were measured at applied stresses of 500 kPa, 750 kPa and 1000 kPa. The good quality granitic aggregate performed much better than the poor quality shale aggregate under the repeated loading and is suitable as a completion material for use in unbound forest roads. The shale aggregate can be used in unbound forest roads as a sub base material. peer-reviewed

Published
2014

33. Impact of biochar addition to soil on greenhouse gas emissions following pig manure application

Author

Troy, Shane M., O' Flynn, Cornelius J., Healy, Mark G., and ~|Other|~

Subjects
pig manure, nitrous oxide, methane, carbon dioxide, biochar, soil
Abstract

The application of biochar produced from wood and crop residues, such as sawdust, straw, sugar bagasse and rice hulls, to highly weathered soils under tropical conditions has been shown to influence soil greenhouse gas (GHG) emissions. However, there is a lack of data concerning GHG emissions from soils amended with biochar derived from manure, and from soils outside tropical and subtropical regions. The objective of this study was to quantify the effect on emissions of carbon dioxide (CO2), nitrous oxide (N2O) and methane (CH4) following the addition, at a rate of 18 t ha-1, of two different types of biochar to an Irish tillage soil. A soil column experiment was designed to compare three treatments (n=8): (1) non-amended soil (2) soil mixed with biochar derived from the separated solid fraction of anaerobically digested pig manure and (3) soil mixed with biochar derived from Sitka Spruce (Picea sitchensis). The soil columns were incubated at 10 oC and 75 % relative humidity, and leached with 80 mL distilled water, twice per week. Following 10 weeks of incubation, pig manure, equivalent to 170 kg nitrogen ha-1 and 36 kg phosphorus ha-1, was applied to half of the columns in each treatment (n=4). Gaseous emissions were analysed for 28 days following manure application. Biochar addition to the soil increased N2O emissions in the pig manure-amended column, most likely as a result of increased denitrification caused by higher water filled pore space and organic carbon (C) contents. Biochar addition to soil also increased CO2 emissions. This was caused by increased rates of C mineralisation in these columns, either due to mineralisation of the labile C added with the biochar, or through increased mineralisation of the soil organic matter. peer-reviewed

Published
2013

34. Impact of chemically amended pig slurry on greenhouse gas emissions, soil properties and leachate

Author

O'Flynn, Cornelius J., Healy, Mark G., and ~|IRCSET|~

Subjects
Water Framework Directive, nitrate, P sorbing amendments, pig slurry
Abstract

The effectiveness of chemical amendment of pig slurry to ameliorate phosphorus (P) losses in runoff is well studied, but research mainly has concentrated only on the runoff pathway. The aims of this study were to investigate changes to leachate nutrient losses, soil properties and greenhouse gas (GHG) emissions due to the chemical amendment of pig slurry spread at 19 kg total phosphorus (TP), 90 kg total nitrogen (TN), and 180 kg total carbon (TC) ha-1. The amendments examined were: (1) commercial grade liquid alum (8% Al2O3) applied at a rate of 0.88:1 [Al:TP] (2) commercial-grade liquid ferric chloride (38% FeCl3) applied at a rate of 0.89:1 [Fe:TP] and (3) commercial-grade liquid poly-aluminium chloride (PAC) (10% Al2O3) applied at a rate of 0.72:1 [Al:TP]. Columns filled with sieved soil were incubated for 8 mo at 10oC and were leached with 160 ml (19 mm) distilled water wk-1. All amendments reduced the Morgan s phosphorus and water extractable P content of the soil to that of the soil-only treatment, indicating that they have the ability to reduce P loss in leachate following slurry application. There were no significant differences between treatments for nitrogen (N) or carbon (C) in leachate or soil, indicating no deleterious impact on reactive N emissions or soil C cycling. Chemical amendment posed no significant change to GHG emissions from pig slurry, and in the cases of alum and PAC, reduced cumulative N2O and CO2 losses. Chemical amendment of land applied pig slurry can reduce P in runoff without any negative impact on nutrient leaching and GHG emissions. Future work must be conducted to ascertain if more significant reductions in GHG emissions are possible with chemical amendments. peer-reviewed

Published
2013

35. Chemical amendment of pig slurry: control of runoff related risks due to episodic rainfall events up to 48 hours after application

Author

O'Flynn, C.J., Healy, Mark G., and ~|IRCSET|~

Subjects
Nitrates Directive, Water Framework Directive, Runoff, Suspended solids, Phosphorus, Phosphorus sorbing amendments, Pig slurry
Abstract

Losses of phosphorus (P) from soil and slurry during episodic rainfall events can contribute to eutrophication of surface water. However, chemical amendments have the potential to decrease P and suspended solids (SS) losses from land application of slurry. Current legislation attempts to avoid losses to a waterbody by prohibiting slurry spreading when heavy rainfall is forecast within 48h. Therefore, in some climatic regions slurry spreading opportunities may be limited. The current study examined the impact of three time intervals (TIs) (12, 24 and 48h) between pig slurry application and simulated rainfall with an intensity of 11.0±0.59 mm h-1. Intact grassed soil samples, 1 m long, 0.225 m wide and 0.05 m deep, were placed in runoff boxes and pig slurry or amended pig slurry was applied to the soil surface. The amendments examined were: (1) commercial grade liquid alum (8% Al2O3) applied at a rate of 0.88:1 [Al: total phosphorus (TP)] (2) commercial-grade liquid ferric chloride (38% FeCl3) applied at a rate of 0.89:1 [Fe:TP] and (3) commercial-grade liquid poly-aluminium chloride (PAC) (10 % Al2O3) applied at a rate of 0.72:1 [Al:TP]. Results showed that an increased TI between slurry application and rainfall led to decreased P and SS losses in runoff, confirming that the prohibition of land-spreading slurry if heavy rain is forecast in the next 48h is justified. Averaged over the three TIs, the addition of amendment reduced all types of P losses to concentrations significantly different (p

Published
2013

37. The use of digital resources in civil engineering education: Enhancing student learning and achieving accreditation criteria

Author

Nash, Stephen, McCabe, Bryan, Goggins, Jamie, Healy, Mark G., and ~

Subjects
Digital resources
Abstract

The use of digital resources in higher education has risen significantly over the last ten years and will continue to do so for the foreseeable future. The challenge for educational instructors is in determining how to utilise digital resources effectively; the basis for this should not be their availability alone, but rather their ability to enhance the student learning experience and achieve desired learning outcomes. This paper describes the successful widespread integration of digital resources in the undergraduate teaching of civil engineering at the National University of Ireland, Galway. Various types of digital resources, including animations, videos, design software and case studies, are utilised. The recently completed Engineering building is itself a digital resource. Designed as a living laboratory, the building¿s structure, energy systems and internal environment are heavily instrumented and the structural, environmental and energy datasets are used as teaching tools. The higher education teaching of Engineering differs significantly from that of other disciplines, such as the Arts or Humanities, in that engineering degrees are typically subject to a strict accreditation process by the national professional engineering body. In Ireland, this body (Engineers Ireland) prescribe six programme outcomes for Level 8 engineering degree programmes. The learning outcomes of individual course modules must therefore map onto one or more of these prescribed programme outcomes. The aim of this paper is to elucidate how digital resources have been used successfully by academic staff in the teaching of civil engineering subjects to help achieve professional accreditation criteria whilst also providing a more engaging student learning experience. peer-reviewed

Published
2012

38. Economic analysis of pig manure treatment options in Ireland

Author

Troy, Shane M., Healy, Mark G., and ~|Dept of Agriculture & Food |~

Subjects
Constructed wetlands, Anaerobic digestion, Compost, Spreading, Separation
Abstract

An economic analysis was performed on treatment options for pig manure in Ireland. Costs were based on a 500 sow integrated pig farm producing 10,500 m3 of manure per year at 4.8 % dry matter. The anaerobic digestion of pig manure and grass silage (1:1; volatile solids basis) was unviable under the proposed tariffs, with costs at Euro 5.2 m-3 manure. Subsequent solid-liquid separation of the digestate would cost an additional Euro 12.8 m-3 manure. The treatment of the separated solid fraction by composting and of the liquid fraction by integrated constructed wetlands, would add Euro 2.8 and Euro 4.6 m-3 manure, respectively to the treatment costs. The cost analysis presented showed that the technologies investigated are currently not cost effective in Ireland. Transport and spreading of raw manure, at Euro 4.9 m-3 manure (15 km maximum distance from farm) is the most cost effective option. Department of Agriculture Food and Fisheries peer-reviewed

Published
2012

39. The use of digital resources in civil engineering education: student learning and achieving accreditation criteria

Author

Nash, Stephen, McCabe, Bryan A., Goggins, Jamie, Healy, Mark G., and ~

Subjects
Civil Engineering, Digital media, Education
Abstract

The use of digital resources in higher education has risen significantly over the last ten years and will continue to do so for the foreseeable future. The challenge for educational instructors is in determining how to utilise digital resources effectively; the basis for this should not be their availability alone, but rather their ability to enhance the student learning experience and achieve desired learning outcomes. This paper describes the successful widespread integration of digital resources in the undergraduate teaching of civil engineering at the National University of Ireland, Galway. Various types of digital resources, including animations, videos, design software and case studies, are utilised. The recently completed Engineering building is itself a digital resource. Designed as a living laboratory, the building’s structure, energy systems and internal environment are heavily instrumented and the structural, environmental and energy datasets are used as teaching tools. The higher education teaching of Engineering differs significantly from that of other disciplines, such as the Arts or Humanities, in that engineering degrees are typically subject to a strict accreditation process by the national professional engineering body. In Ireland, this body (Engineers Ireland) prescribe six programme outcomes for Level 8 engineering degree programmes. The learning outcomes of individual course modules must therefore map onto one or more of these prescribed programme outcomes. The aim of this paper is to elucidate how digital resources have been used successfully by academic staff in the teaching of civil engineering subjects to help achieve professional accreditation criteria whilst also providing a more engaging student learning experience.

Published
2012

40. Evaluation of chemical amendments to control phosphorus losses from dairy slurry

Author

Brennan, Raymond B., Fenton, Owen, Rodgers, M., and Healy, Mark G.

Subjects
Ferric chloride, Water treatment residual, Flue gas desulphurization by-product, Lime, Flyash, Aluminium chloride, Alum
Abstract

peer-reviewed Land application of dairy slurry can result in incidental losses of phosphorus (P) to runoff in addition to increased loss of P from soil as a result of a buildup in soil test P (STP). An agitator test was used to identify the most effective amendments to reduce dissolved reactive phosphorus (DRP) loss from the soil surface after land application of chemically amended dairy cattle slurry. This test involved adding slurry mixed with various amendments (mixed in a beaker using a jar test flocculator at 100 rpm), to intact soil samples at approximate field capacity. Slurry/amended slurry was applied with a spatula, submerged with overlying water and then mixed to simulate overland flow. In order of effectiveness, at optimum application rates, ferric chloride (FeCl2) reduced the DRP in overlying water by 88%, aluminium chloride (AlCl2) by 87%, alum (Al2(SO4)3·nH2O) by 83%, lime by 81%, aluminium water treatment residuals (Al-WTR; sieved to

Published
2011

41. Agricultural Dairy Wastewaters

Author

Fenton, Owen, Healy, Mark G., Brennan, Raymond B., Serrenho, Ana Joao, Lalor, Stan T.J., hUallacháin, Daire O, and Richards, Karl G.

Published
2011

42. Characterization of separated pig manure composted with a variety of bulking agents at low initial C/N ratios

Author

Troy, Shane M., Healy, Mark G., Kwapinski, Witold, and ~

Subjects
Losses, Oxygen uptake rate, Swine, Organic household waste, Straw, Storage, Germination, Sawdust litter, Oxitop system, Turnover, Carbon, Phytotoxicity, Decanter centrifuge, Maturity, Different litter amendments
Abstract

The aim of this study was to investigate the composting of separated pig manure solids with or without a variety of bulking agents at a low initial C/N ratio (12.5-23.3). Compost stability was investigated using an oxygen uptake rate (OUR) test and compost maturity was investigated using a germination index test. All treatments showed typical patterns of compost temperature. Temperatures above 60 degrees C were achieved by Day 2, followed by a thermophilic phase (50-60 degrees C), which lasted for 1 to 2 weeks followed by a cooling phase. The stability of one of treatments which did not contain any bulking agent - OUR of 25 mmol O-2 kg(-1) OM hour(-1) - was negatively affected by its initial high water content (69%). The addition of a bulking agent and initial water content below 60% were necessary to compost the separated solid fraction of pig manure at a low initial C/N ratio. Irish Department of Agriculture Food and Fisheries - Research Stimulus Fund Programme (RSFP) - National Development Plan 2007-2013 peer-reviewed

Published
2011

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

Author

Ruane, Eimear M., Healy, Mark G., Rodgers, Michael, and ~

Subjects
Agricultural wastewater treatment, Filter, Wastewater filtration, Woodchip, Nitrogen removal, Solids-liquid separation, Dairy soiled water
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. (C) 2011 Elsevier Ltd. All rights reserved. peer-reviewed

Published
2011

44. Implications of the proposed Soil Framework Directive on agricultural systems in Atlantic Europe – a review

Author

Creamer, Rachel E., Brennan, Fiona P., Fenton, Owen, Healy, Mark G., Lalor, Stanley T. J., Lanigan, Gary, Regan, J. T., and Griffiths, Bryan

Subjects
Soil organic matter, Contamination, Erosion, Soil protection, Compaction, Soil quality
Abstract

peer-reviewed The main threats to soils outlined in the pending Soil Framework Directive (SFD) are: contamination, loss of organic matter, erosion, compaction, sealing, salinization and desertification. The first four threats are pertinent to agricultural systems in Atlantic Europe, but vary in their extent between countries depending on the spatial soil distribution. Loss of soil biodiversity has not been included as a potential threat in the SFD due to lack of information that is currently available both spatially and temporally to facilitate any legislation to protect it. This paper gives emphasis to the four main threats outlined above associated with Agricultural systems in Atlantic Europe. Each soil threat is discussed in relation to the agricultural management calendar for cultivated and grazed grassland soils. The paper discusses current soil protection policies and possible changes to such legislation with the adoption of the SFD by member states.

Published
2010

46. Methodology for the location of a subsurface permeable reactive barrier for the remediation of point source pollution on an Irish farm

Author

Healy, Mark G. and ~

Subjects
Permeable reactive barrier, Hydrogeological investigation, Nitrate, Groundwater, Point source pollution
Abstract

Nutrient loss from agricultural sources to water continues to be a national challenge. Diffuse pollution from agricultural sources is considered to be the primary cause of slight-to-moderate water pollution in Ireland, but agricultural point sources, such as farmyards, are often not considered due to their scattered spatial distribution and small areal extent. Agricultural point sources tend to be small and localised hot spots of nutrients and, therefore, can be efficiently treated using environmental technologies developed for wastewater and contaminated land treatment. A small area associated with soiled water irrigation, on a 4.27 ha case study site at Teagasc, Johnstown Environmental Research Centre, Ireland, was identified, where groundwater nitrate-nitrogen (NO3-N) concentration exceeds the maximum admissible drinking water concentration of 11.3 mg N L-1. A continuous, shallow permeable reactive barrier may be suitable to remediate point source pollution at this site. A methodology, based on site and groundwater characterisation, successfully located a site for a permeable reactive barrier. peer-reviewed

Published
2008

47. Harvesting effects on biomass and nutrient retention in phragmites australis in a free-water surface constructed wetland in western Ireland

Author

Healy, Mark G., Newell, J, Rodgers, M., EPA, and ~

Subjects
Vegetation, Constructed wetlands, Free-water surface, food and beverages, Phragmites australis, Biomass, Nutrient uptake, General Agricultural and Biological Sciences, Free water surface, Civil Engineering, Mathematics, Constructed wetland, General Environmental Science
Abstract

The aim of this study was to examine the seasonal variation in biomass, total nitrogen (Tot-N) and total phosphorus (Tot-P) content of Phragmites australis in a 3-cell free-water surface (FWS) constructed wetland in western Ireland and to investigate the effects of harvesting on their biomass and nutrient content. One cell of the wetland was divided into two plots: one plot, measuring 80 m2, was completely harvested on the 16th June, 2005, while the other plot, the control plot, remained uncut throughout the study duration. At approximately monthly intervals over an 8-month study duration, completely randomised 0.64m2 areas within each plot were harvested to water level and the shoot biomass and nutrient content were measured. In the control plot, the plant biomass, Tot-N and Tot-P content peaked in August. In the June-cut plot, the shoot biomass, total nitrogen (Tot-N) and total phosphorus (Tot-P) content peaked in September. The mean rate of dry matter production (RPD), defined as the mean daily rate of dry matter production per unit area per day between harvests, attained maximum rates of 12.8g m-2d-1 and 4.2g m-2d-1 for the control and June-cut plots, respectively, indicating that annual harvesting of emergent vegetation may not have any beneficial effect on biomass production or nutrient content under Irish climatic conditions. peer-reviewed

Published
2008

48. Constructed wetlands for the treatment of highway runoff

Author

Keating, E., Healy, Mark G., Rodgers, Michael, and NUI Galway

Subjects
Detention ponds, Constructed wetlands, Highway runoff, Civil Engineering, Filter strips, Sedimentation tanks
Abstract

Highway surface runoff contains pollutants such as total suspended solids (TSS), hydrocarbons, de-icing salts, and heavy metals. Treatment methods for highway runoff include storage/treatment facilities, such as constructed wetlands (CWs), detention ponds, or sedimentation tanks; stormwater infiltration facilities, such as soakaways, trenches, or basins; and filter strips and swales. These facilities are commonly referred to as SuDS - Sustainable Drainage Systems.The treatment of highway runoff using CWs is widely used in America, Australia and most of Europe. CWs are a suitable choice for the treatment of highway runoff, due to their relative low cost and good efficiency in treating contaminants such as TSS, organic matter, heavy metals, as well as hydrocarbons and inorganic salts. This review paper aims to characterise highway surface runoff, quantify the removal mechanisms of influent pollutants, evaluate the performance of CWs in the treatment of highway runoff, discuss their design criteria, and compare their performance with other treatment methods. peer-reviewed

Published
2008

49. A review of remediation and control systems for the treatment of agricultural wastewater in Ireland to satisfy the requirements of the Water Framework Directive

Author

Fenton, Owen, Healy, Mark G., Schulte, R.P.O., and Teagasc

Subjects
Water framework directive in Ireland, Denitrification walls, Agriculture, Civil Engineering, Surface runoff, Chemical amendments to slurry
Abstract

In Ireland, agricultural activities have been identified as major sources of nutrient input to receiving waters and it has been estimated that these activities contribute 75.3% of the nitrogen (N) and 33.4% of the phosphorus (P) in these waters. Strategy at European level focuses on the prevention of nutrient loss by improved farm management. However, it does not focus on nutrient remediation or incidental nutrient loss of farmyard manures to surface and groundwater. This review describes the impact of agriculture on the environment in Ireland and examines emerging technologies for agricultural wastewater treatment. An integrated approach at pre-treatment and field stages for nitrate (NO3) remediation and P control is recommended. peer-reviewed

Published
2008

50. Methodology for the location of a subsurface permeable reactive barrier for the remediation of point source pollution on an Irish farm

Author

Fenton, Owen, Healy, Mark G., and Richards, Karl G.

Subjects
Permeable reactive barrier, Hydrogeological investigation, Nitrate, Groundwater, Point source pollution
Abstract

peer-reviewed Nutrient loss from agricultural sources to water continues to be a national challenge. Diffuse pollution from agricultural sources is considered to be the primary cause of slight-to-moderate water pollution in Ireland, but agricultural point sources, such as farmyards, are often not considered due to their scattered spatial distribution and small areal extent. Agricultural point sources tend to be small and localised hot spots of nutrients and, therefore, can be efficiently treated using environmental technologies developed for wastewater and contaminated land treatment. A small area associated with soiled water irrigation, on a 4.27 ha case study site at Teagasc, Johnstown Environmental Research Centre, Ireland, was identified, where groundwater nitrate-nitrogen (NO3-N) concentration exceeds the maximum admissible drinking water concentration of 11.3 mg N L-1. A continuous, shallow permeable reactive barrier may be suitable to remediate point source pollution at this site. A methodology, based on site and groundwater characterisation, successfully located a site for a permeable reactive barrier.

Published
2008

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