Review and Integration of Biosphere-Atmosphere Modelling of Reactive Trace Gases and Volatile Aerosols 2013
DOI: 10.1007/978-94-017-7285-3_2
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Advances in Understanding, Models and Parameterizations of Biosphere-Atmosphere Ammonia Exchange

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Cited by 28 publications
(37 citation statements)
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“…Here, we leverage the tiled structure of the GFDL land model to efficiently represent the subgrid scale heterogeneity of surface properties and their evolution in a changing climate. We have shown that the shift of N emissions from oxidized to reduced N in North America will exacerbate the sensitivity of N deposition to small-scale 290 heterogeneities, which highlights the need to improve the representation of non-stomatal surface resistances (R sf,v , R sf,s , and R sf,g ) (Flechard et al, 2013;Wentworth et al, 2016;Wu et al, 2018).…”
mentioning
confidence: 95%
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“…Here, we leverage the tiled structure of the GFDL land model to efficiently represent the subgrid scale heterogeneity of surface properties and their evolution in a changing climate. We have shown that the shift of N emissions from oxidized to reduced N in North America will exacerbate the sensitivity of N deposition to small-scale 290 heterogeneities, which highlights the need to improve the representation of non-stomatal surface resistances (R sf,v , R sf,s , and R sf,g ) (Flechard et al, 2013;Wentworth et al, 2016;Wu et al, 2018).…”
mentioning
confidence: 95%
“…Future work will aim at coupling 295 the representation of dry deposition presented here to the N cycle in the GFDL land model (Gerber et al, 2010), which will enable us to represent the bidirectional exchange of NH 3 (Nemitz et al, 2001;Flechard et al, 2013;Bash et al, 2013) and improve our understanding of the impact of N deposition on ecosystems and carbon cycling (Magnani et al, 2007;Janssens et al, 2010;Fleischer et al, 2013Fleischer et al, , 2015. and Rs (Wesely, 1989) for all models.…”
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confidence: 99%
“…Despite its importance, there are still many knowledge gaps on ammonia. Long-term observational data series are in general scarce compared to, e.g., ozone [11], and hourly observations of ammonia are even more rare due to their expense and complexity caused by feedback mechanisms [12] and general comprehensive experimental setups [e.g., 13]. Agriculture was responsible for 94% of the total NH 3 emissions in the EU in 2010 (European Environment Agency, www.eea.…”
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confidence: 99%
“…Many integrated effects of meteorology and climate on ammonia remain to be studied and this has been highlighted by the IPCC [20] as an area that is poorly understood. Improvement of representation of processes that lead to ammonia emissions in atmospheric models has therefore frequently been highlighted as an area that needs scientific attention [12,17].…”
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confidence: 99%
“…This is secondly due to the fact that ammonia emission is a diffusion-based process which is limited by 721 the surface resistances, as modelled in Eq. (9), which leads to small fluxes when ( ) and { 3 } get 722 large, which happens during low wind speeds (they are both roughly inversely proportional to wind speed) and 723 stable conditions, which also happens at night (Flechard et al, 2013). In real situations, the combination of small 724 turbulence and high surface concentration leads to a further decrease of the flux which is dependent on the 725 difference between pground and the concentration in the atmosphere above (a feature which was not accounted 726 for in this study as this would imply a higher degree of complexity in the modelling approach).…”
Section: Sensor Positioning and Conditioning Number 680mentioning
confidence: 99%