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1.
Environ Pollut ; 254(Pt B): 112987, 2019 Nov.
Article in English | MEDLINE | ID: mdl-31454579

ABSTRACT

A mass balance approach to quantify methane (CH4) emission of four co-located landfills by means of airborne measurements and dispersion modelling was proposed and assessed. By flying grids at different heights above the landfills, atmospheric CH4 densities and wind components were measured along the edges and inside the study atmospheric volume, in order to calculate mass flows in the along- and across-wind directions. A steady-state Gaussian dispersion model was applied to build the concentration fields associated to unit emission from each landfill, while the contribution of each one to the total emission was assessed using a General Linear Model approach, minimizing the difference between measured and modeled mass flows. Results showed that wind spatial and temporal variability is the main factor controlling the accuracy of the method, as a good agreement between measured and modeled mass flows was mainly found for flights made in steady wind conditions. CH4 emissions of the entire area ranged from 213.5 ±â€¯33.5 to 317.9 ±â€¯90.4 g s-1 with a mean value of 252.5 ±â€¯54.2 g s-1. Contributions from individual sources varied from 17.5 to 40.1 g m-2 day-1 indicating a substantial heterogeneity of the different landfills, which differed in age and waste composition. The proposed method was validated against tower eddy covariance flux measurements made at one of the landfills, revealing an overall agreement within 20%.


Subject(s)
Air Pollutants/analysis , Methane/analysis , Aircraft , Environmental Monitoring , Linear Models , Refuse Disposal , Waste Disposal Facilities , Wind
2.
Environ Monit Assess ; 161(1-4): 11-27, 2010 Feb.
Article in English | MEDLINE | ID: mdl-19184491

ABSTRACT

A conditional time-averaged gradient (COTAG) system has been developed to provide direct long-term (weekly to monthly) average flux gradient measurements for a range of trace gases, between land and atmosphere. Over daily periods, atmospheric conditions can range from high stability, where the vertical gradients of ambient concentration are enhanced due to very small diffusivity, to highly unstable conditions, in which concentration gradients are small due to the intense turbulent activity of the surface layer. The large vertical gradients generated by high stability would bias the estimate of the actual flux: to avoid this, the COTAG system samples conditionally, within a carefully refined range of stability. A comparison with a continuous flux gradient system suggested that the removal of stable conditions from the sampling period does not substantially modify the evaluation of the long-term fluxes.


Subject(s)
Environmental Monitoring/economics , Environmental Monitoring/methods , Quaternary Ammonium Compounds/analysis , Sulfur Dioxide/analysis , Models, Theoretical
3.
Environ Pollut ; 150(1): 125-39, 2007 Nov.
Article in English | MEDLINE | ID: mdl-17604887

ABSTRACT

Recent research in nitrogen exchange with the atmosphere has separated research communities according to N form. The integrated perspective needed to quantify the net effect of N on greenhouse-gas balance is being addressed by the NitroEurope Integrated Project (NEU). Recent advances have depended on improved methodologies, while ongoing challenges include gas-aerosol interactions, organic nitrogen and N(2) fluxes. The NEU strategy applies a 3-tier Flux Network together with a Manipulation Network of global-change experiments, linked by common protocols to facilitate model application. Substantial progress has been made in modelling N fluxes, especially for N(2)O, NO and bi-directional NH(3) exchange. Landscape analysis represents an emerging challenge to address the spatial interactions between farms, fields, ecosystems, catchments and air dispersion/deposition. European up-scaling of N fluxes is highly uncertain and a key priority is for better data on agricultural practices. Finally, attention is needed to develop N flux verification procedures to assess compliance with international protocols.


Subject(s)
Air Pollutants/chemistry , Greenhouse Effect , Models, Chemical , Nitrogen Compounds/chemistry , Air Pollutants/analysis , Atmosphere , Ecosystem , Environmental Monitoring/methods , Europe , Nitrogen Compounds/analysis
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