Biosystems and Food Engineering Research Collection
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Browsing Biosystems and Food Engineering Research Collection by Subject "Air pollution"
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- PublicationAtmospheric ammonia and nitrogen deposition on Irish Natura 2000 sites: Implications for Irish agriculture(Elsevier, 2021-09-15)
; ; ; ; ; With growing global demand for food, the agriculture sector worldwide is under pressure to intensify and expand, risking acceleration of existing negative biodiversity impacts. Agriculture is the dominant source of ammonia (NH3) emissions, which can impact biodiversity directly through dry deposition as NH3 and by wet deposition following conversion to ammonium (NH4) in the atmosphere. Nitrogen deposition is one of the leading causes of global decline in biodiversity alongside changing land use and climate. Natura 2000 sites which are intended to protect important habitats and species across Europe, require strict levels of protection to ensure designated features achieve favourable conservation status. Many of these sites are nitrogen-limited, and/or contain sensitive species such as lichens or mosses. This project carried out ambient NH3 monitoring on selected Irish Natura 2000 sites, in order to establish potential impacts from agricultural NH3. Monitoring on twelve Natura 2000 sites observed concentrations ranging from 0.47 to 4.59 μg NH3 m−3, from which dry deposition was calculated to be 1.22–11.92 kg N ha−1 yr−1. European Monitoring and Evaluation Programme (EMEP) was used to quantify wet deposited NH4 and nitrogen oxides (NOx), in addition to dry deposited NOx on monitored sites. Estimated total nitrogen deposition ranged between 5.93 and 17.78 kg N ha−1 yr−1. On average across all monitored sites, deposition was comprised of 50.4%, 31.7%, 7.5%, and 10.3% dry NH3, wet NH4, dry NOx and wet NOx respectively. Implications for Irish agriculture are discussed in the light of both this monitoring and the European Commission Dutch Nitrogen Case (C 293/17 & C 294/17), highlighting a number of recommendations to aid compliance with the EU Habitats Directive (92/43/EEC).267Scopus© Citations 9 - Publication
373 - PublicationNational Ecosystem Monitoring Network (NEMN)-Design: Monitoring Air Pollution Impacts across Sensitive Ecosystems(Environmental Protection Agency, 2021-07-15)
; ; ; ; ; ; ; ; ; ; ; ; ; ; Under the EC National Emissions Ceiling Directive (NECD 2016/2284), EU member states are required to monitor (Article 9) and report (Article 10.4) air pollution pressure and impacts on ecosystems that are representative of each country’s freshwater, forest, natural and semi-natural habitats. Ireland developed the National Ecosystem Monitoring Network (NEMN) in 2018, with the first data submission on 1st July 2019. In response to recommendations from the EC, Ireland is seeking to improve its NEMN. In this document, we propose methods for monitoring air quality and ecosystem parameters, and for selecting sites to be included in NEMN to improve representative coverage across sensitive habitat types and major pollution gradients. The air pollution impacts of interest are in the first instance those relating to the substances for which reduction commitments are set in Annex II to the NECD (i.e. SO2, NOX, NMVOC and NH3), that is those contributing to acidification and eutrophication of ecosystems, and as precursors of ozone damage to vegetation growth and biodiversity changes. The development of the NEMN is intended to be an iterative process, with incremental improvements over time. The existing network is composed of International Co-operative Programme (ICP) Forests and Waters sites operated under the Air Convention (UN-ECE CLRTAP) and Water Framework Directive (2000/60/EC), respectively. The existing network structure is based on that of ICP Forests, which is composed of two networks with different monitoring intensity, Level II and Level I.517