Forest–atmosphere exchange of reactive nitrogen in a  remote region – Part I: Measuring temporal dynamics

Wintjen, Pascal; Schrader, Frederik; Schaap, Martijn; Beudert, Burkhard; Brümmer, Christian

doi:10.5194/bg-19-389-2022

Cited by 6 publications

(28 citation statements)

References 113 publications

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“…Flechard et al, 2013) in space and time, which complicates the development of surface-atmosphere exchange schemes. On the basis of the FOR dataset, Wintjen et al (2022) demonstrate that mean diurnal flux courses stratified by concentration, temperature, moisture, or surface wetness reveal the strongest dependence on the actual N r concentration regardless of flux direction, i.e. situations of deposition or emission.…”

Section: Potential Applicationsmentioning

confidence: 97%

“…These gases and particles differ significantly in physical and chemical properties and in their contribution to N r . The ratio of the compounds varies throughout the annual cycle (Wintjen et al, 2022) and further depends on site characteristics and surrounding conditions. Little is known about the overall dependency of N r on the climatic parameters.…”

Section: Data-driven Gap Fillingmentioning

confidence: 99%

“…The different site-specific shares are presented alongside the flux dataset in the form of monthly integrated HONO, HNO 3 , aerosol NH 4 , and aerosol NO 3 measured by DELTA denuder and filter samplers. Further details for the WET and FOR sites can be found in the publications of Hurkuck et al (2014) and Wintjen et al (2022), respectively. In more than a third (38.3 %) of the campaign time, net emission of N r was observed at the peatland site.…”

Section: Data Descriptionmentioning

confidence: 99%

“…Sutton et al, 2009), half-hour fluxes from eddy-covariance measurements allow for investigating the mechanisms governing the surfaceatmosphere exchange on different temporal scales. For example, high temporal resolution helps to identify the bidirectional exchange of NH 3 (Nemitz et al, 2001;Zhu et al, 2015;Schulte et al, 2021) and reveals phases of net emission vs. net deposition (McGinn et al, 2016;Zöll et al, 2016;Wintjen et al, 2022). A clearer picture can be derived about the interplay of stomatal (Geßler et al, 2002) and non-stomatal pathways (Schrader et al, 2016); the exchange between soil and the atmosphere; seasonal site-specific conditions, e.g.…”

Section: Potential Applicationsmentioning

confidence: 99%

“…Although TRANC data do not reveal single compound patterns, applying the TRANC technology reduces effort and investments for studies focussing on N r balances and characteristics (e.g. Zöll et al, 2019;Wintjen et al, 2022).…”

Section: Potential Applicationsmentioning

confidence: 99%

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Reactive nitrogen fluxes over peatland and forest ecosystems using micrometeorological measurement techniques

Brümmer¹,

Rüffer²,

Delorme³

et al. 2022

Earth Syst. Sci. Data

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Abstract. Interactions of reactive nitrogen (Nr) compounds between the atmosphere and the earth's surface play a key role in atmospheric chemistry and in understanding nutrient cycling of terrestrial ecosystems. While continuous observations of inert greenhouse gases through micrometeorological flux measurements have become a common procedure, information about temporal dynamics and longer-term budgets of Nr compounds is still extremely limited. Within the framework of the research projects NITROSPHERE and FORESTFLUX, field campaigns were carried out to investigate the biosphere–atmosphere exchange of selected Nr compounds over different land surfaces. The aim of the campaigns was to test and establish novel measurement techniques in eddy-covariance setups for continuous determination of surface fluxes of ammonia (NH3) and total reactive nitrogen (ΣNr) using two different analytical devices. While high-frequency measurements of NH3 were conducted with a quantum cascade laser (QCL) absorption spectrometer, a custom-built converter called Total Reactive Atmospheric Nitrogen Converter (TRANC) connected and operated upstream of a chemiluminescence detector (CLD) was used for the measurement of ΣNr. As high-resolution data of Nr surface–atmosphere exchange are still scarce but highly desired for testing and validating local inferential and larger-scale models, we provide access to campaign data including concentrations, fluxes, and ancillary measurements of meteorological parameters. Campaigns (n=4) were carried out in natural (forest) and semi-natural (peatland) ecosystem types. The published datasets stress the importance of recent advancements in laser spectrometry and help improve our understanding of the temporal variability of surface–atmosphere exchange in different ecosystems, thereby providing validation opportunities for inferential models simulating the exchange of reactive nitrogen. The dataset has been placed in the Zenodo repository (https://doi.org/10.5281/zenodo.4513854; Brümmer et al., 2022) and contains individual data files for each campaign.

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Section: Potential Applicationsmentioning

confidence: 97%

Section: Data-driven Gap Fillingmentioning

confidence: 99%