Upwind impacts of ammonia from an intensive poultry unit

Jones, Laurence; Nizam, Masarat; Reynolds, B.; Bareham, S.; Oxley, E. R. B.

doi:10.1016/j.envpol.2013.05.012

Cited by 41 publications

(18 citation statements)

References 31 publications

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“…While the effects of atmospheric deposition have received recent attention in dry dune 60 habitats (Plassmann et al, 2009; Remke et al 2009;Jones et al 2013), relatively little attention has 61 been given to the impact of other sources of nutrients in dune wetlands, indeed in wetlands in general, 62 and the issue of groundwater or surface water-derived nutrients is not explicitly considered within 63 atmospheric critical loads frameworks. In dune systems that are not isolated hydrologically from 64 surrounding groundwater, there is the potential for nutrient inputs to these habitats from agricultural and 65 other sources via groundwater to add to the nutrient load already received from atmospheric deposition.…”

Section: Contact Ceh Nora Team At Noraceh@cehacukmentioning

confidence: 99%

Evidence for sensitivity of dune wetlands to groundwater nutrients

Rhymes

Wallace²,

Fenner

et al. 2014

Science of The Total Environment

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. 2014. Evidence for sensitivity of dune wetlands to groundwater nutrients. Contact CEH NORA team at noraceh@ceh.ac.ukThe NERC and CEH trademarks and logos ('the Trademarks') are registered trademarks of NERC in the UK and other countries, and may not be used without the prior written consent of the Trademark owner.Manuscript for Science of the total environment ACCEPTED Dune slacks are seasonal wetlands, high in biodiversity, which experience considerable within-year and 24 between-year variations in water-table. They are subject to many pressures including climate change, 25 land use change and eutrophication. Despite their biological importance and the threats facing them, 26 the hydrological and nutrient parameters that influence their soil properties and biodiversity are poorly 27 understood and there have been no empirical studies to date testing for biological effects in dune 28Manuscript for Science of the total environment ACCEPTED 2 systems resulting from groundwater nutrients at low concentrations. In this study we examined the 29 impact of groundwater nutrients on water chemistry, soil chemistry and vegetation composition of dune 30 slacks at three distance classes (0-150 m, 150-300 m, 300-450 m) away from known (off-site) nutrient 31 sources at Aberffraw dunes in North Wales, whilst controlling for differences in water- (Provoost et al., 2011;Jones et al. 2011; Beaumont et 56 al. 2014). With regard to the latter; nutrients from atmospheric deposition have increased dramatically 57 from their pre-industrial levels of 2 -6 kg N ha -1 yr -1 (Fowler, 2004). As a consequence, the critical load 58 defined for dune slacks, 10-15kg N ha -1 yr -1 (Bobbink and Hettelingh, 2011), is exceeded across much 59Manuscript for Science of the total environment ACCEPTED 3 of Europe. While the effects of atmospheric deposition have received recent attention in dry dune 60 habitats (Plassmann et al., 2009; Remke et al. 2009;Jones et al. 2013), relatively little attention has 61 been given to the impact of other sources of nutrients in dune wetlands, indeed in wetlands in general, 62 and the issue of groundwater or surface water-derived nutrients is not explicitly considered within 63 atmospheric critical loads frameworks. In dune systems that are not isolated hydrologically from 64 surrounding groundwater, there is the potential for nutrient inputs to these habitats from agricultural and 65 other sources via groundwater to add to the nutrient load already received from atmospheric deposition. grasslands (Heil and Diemont, 1983). However, in dune slacks there is still relatively little empirical 82 evidence of nutrient impacts either from atmospheric deposition or from other sources, especially at 83 realistic N loads. One of the few studies, using high nutrient loads on dune vegetation at Braunton 84 Burrows demonstrated that Agrostis stolonifera dominated a dune slack following surface additions of N 85 and P (Willis, 1963). 86 87 Dune slack water tables tend to be at their highest in winter and fall in the summer m...

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Section: Contact Ceh Nora Team At Noraceh@cehacukmentioning

confidence: 99%

Evidence for sensitivity of dune wetlands to groundwater nutrients

Rhymes

Wallace²,

Fenner

et al. 2014

Science of The Total Environment

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“…This leads to an increase in the level of biologically available nitrogen, which can affect species diversity and can lead to eutrophication of aquatic ecosystems (Jones et al, 2013;Paerl, 1988;U.S. EPA SAB, 2007).…”

Section: Introductionmentioning

confidence: 98%

Evaluating ammonia (NH3) predictions in the NOAA National Air Quality Forecast Capability (NAQFC) using in situ aircraft, ground-level, and satellite measurements from the DISCOVER-AQ Colorado campaign

Battye

Bray

Aneja

et al. 2016

Atmospheric Environment

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“…Ammonia and particulate ammonium compounds (NH 4 + ) in the atmosphere are deposited through both wet and dry processes to terrestrial and aquatic ecosystems, leading to increased levels of biologically available nitrogen, termed reactive nitrogen, in these ecosystems. This can lead to eutrophication of aquatic ecosystems and losses of species diversity (Battye et al, ; Jones et al, ; Paerl, ; U.S. EPA SAB, ). A portion of the NH 3 and NH 4 + is also converted to gaseous nitrous oxide (N 2 O) by soil and aquatic microorganisms.…”

Section: Introductionmentioning

confidence: 99%

Evaluating Ammonia (NH₃) Predictions in the NOAA NAQFC for Eastern North Carolina Using Ground Level and Satellite Measurements

et al. 2019

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Ammonia (NH3) in the atmosphere contributes to the formation of airborne fine particulate matter (PM2.5), which is associated with adverse human health effects. The emission, transport, reactions, and deposition of NH3 in the atmosphere are modeled using the Community Multiscale Air Quality (CMAQ) model, within the U.S. National Air Quality Forecast Capability (NAQFC). The purpose of this current work is to evaluate the capability of the NAQFC CMAQ model and to identify potential improvements to NH3 emissions estimates and prediction methods. This study focuses on CMAQ predictions of atmospheric NH3 in North Carolina, including a region with intensive animal production and enhanced NH3 emissions. The CMAQ model is run for July 2011 using a version of the 2011 National Emissions Inventory in which agricultural NH3 emissions were adjusted to reflect the lower end of the range of estimates from the current process‐based emissions model. The NAQFC CMAQ model overpredicted atmospheric NH3 at a continuous monitor in Clinton, NC, within the region of intensive animal production. The average concentration measured by the monitor was 6.6 ppbv, while the average predicted by the model was 10.5 ppbv, a 60% overprediction. Outside of the region of intensive animal production, both measured and modeled NH3 concentrations were low, 1.3 ppbv or less. The model underpredicted wet deposition of NH4+ and dry deposition of NH3. It is believed that the overestimation of NH3 at Clinton is attributable at least in part to the underestimation of wet and dry deposition in North Carolina.

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Upwind impacts of ammonia from an intensive poultry unit

Cited by 41 publications

References 31 publications

Evidence for sensitivity of dune wetlands to groundwater nutrients

Evidence for sensitivity of dune wetlands to groundwater nutrients

Evaluating ammonia (NH3) predictions in the NOAA National Air Quality Forecast Capability (NAQFC) using in situ aircraft, ground-level, and satellite measurements from the DISCOVER-AQ Colorado campaign

Evaluating Ammonia (NH₃) Predictions in the NOAA NAQFC for Eastern North Carolina Using Ground Level and Satellite Measurements

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Upwind impacts of ammonia from an intensive poultry unit

Cited by 41 publications

References 31 publications

Evidence for sensitivity of dune wetlands to groundwater nutrients

Evidence for sensitivity of dune wetlands to groundwater nutrients

Evaluating ammonia (NH3) predictions in the NOAA National Air Quality Forecast Capability (NAQFC) using in situ aircraft, ground-level, and satellite measurements from the DISCOVER-AQ Colorado campaign

Evaluating Ammonia (NH3) Predictions in the NOAA NAQFC for Eastern North Carolina Using Ground Level and Satellite Measurements

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Product

Resources

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Evaluating Ammonia (NH₃) Predictions in the NOAA NAQFC for Eastern North Carolina Using Ground Level and Satellite Measurements