Flux associations and their relationship to the underlying heterogeneous surface characteristics

This thesis consists of analysis of three different data sets: (i) Aircraft-based eddy correlation data collected above irrigated and non-irrigated agricultural land in Southern California during the California Ozone Deposition Experiment (CODE) summer 1991; (ii) micrometeorological tower data, coll...

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Main Author: Brown Mitic, Constance Maria.
Other Authors: Schuepp, Peter (advisor)
Format: Others
Language:en
Published: McGill University 1999
Subjects:
Online Access:http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=35988
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spelling ndltd-LACETR-oai-collectionscanada.gc.ca-QMM.359882014-02-13T03:46:40ZFlux associations and their relationship to the underlying heterogeneous surface characteristicsBrown Mitic, Constance Maria.Eddy flux.Atmosphere -- Latent heat release.Water vapor transport.Atmospheric carbon dioxide.Atmospheric ozone.Crops -- California.Taigas -- Manitoba -- Thompson Region.Taigas -- Saskatchewan -- Prince Albert Region.This thesis consists of analysis of three different data sets: (i) Aircraft-based eddy correlation data collected above irrigated and non-irrigated agricultural land in Southern California during the California Ozone Deposition Experiment (CODE) summer 1991; (ii) micrometeorological tower data, collected over grape and cotton canopies as part of CODE; (iii) aircraft-based eddy correlation flux data above two grid sites in the Canadian boreal forest during the Boreal Ecosystem-Atmosphere Study (BOREAS), spring and summer of 1994 and 1996.Results from the CODE aircraft data document composition and size of the dominant structures, which transport heat and gases (H2O, CO 2 and ozone) over water stressed and non-water stressed surfaces, and the relative frequency with which structures carrying only a single scalar, or given combinations of scalars, were encountered along the flight paths. Interpretation of results provides further evidence for the existence of a second (nonphysiological) sink for ozone. The relative preponderance of structures that carry moisture, carbon dioxide and ozone simultaneously, particularly in the gradient-up mode, reflects the importance of vegetation as co-located source/sink for these scalars. The detrending procedures described in this study may help to define a more effective separation between local and mesoscale events in biosphere-atmosphere interaction.Results from the CODE tower data indicates a single vegetated ozone sink for the grape site, but a vegetated as well as a non-vegetated sink for the cotton site. For both sites, structures simultaneously transporting significant flux contributions of CO2, H2O, heat and ozone dominate during unstable conditions. During stable conditions, unmixed single flux structures dominated over cotton but not over grape. The results of this study contribute empirical evidence about the relationship between ozone uptake and the physical and physiological state of vegetation, as well as the limitations placed on eddy scales in simulation models.Results from the BOREAS aircraft data shows a decoupling between the surface and the atmosphere, where the patterns of vegetation, greenness and surface temperature may be quite dissimilar to those of the fluxes of sensible heat, latent heat and---to a lesser degree---CO2. Reasons for this lie in the extraordinary boundary layer conditions, high vapour pressure deficit, moist soil and hot canopies, and the response of the vegetation to these conditions. Analysis of the coherent structure compositions to some extent permits the characterization of the different sources and sinks. Overall, this study shows the importance of understanding the various interacting components of soil, vegetation and atmosphere when attempting to design process-based models for predictions in 'micrometeorologiacally' complex ecosystems.McGill UniversitySchuepp, Peter (advisor)1999Electronic Thesis or Dissertationapplication/pdfenalephsysno: 001738012proquestno: NQ55307Theses scanned by UMI/ProQuest.All items in eScholarship@McGill are protected by copyright with all rights reserved unless otherwise indicated.Doctor of Philosophy (Department of Natural Resource Sciences.) http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=35988
collection NDLTD
language en
format Others
sources NDLTD
topic Eddy flux.
Atmosphere -- Latent heat release.
Water vapor transport.
Atmospheric carbon dioxide.
Atmospheric ozone.
Crops -- California.
Taigas -- Manitoba -- Thompson Region.
Taigas -- Saskatchewan -- Prince Albert Region.
spellingShingle Eddy flux.
Atmosphere -- Latent heat release.
Water vapor transport.
Atmospheric carbon dioxide.
Atmospheric ozone.
Crops -- California.
Taigas -- Manitoba -- Thompson Region.
Taigas -- Saskatchewan -- Prince Albert Region.
Brown Mitic, Constance Maria.
Flux associations and their relationship to the underlying heterogeneous surface characteristics
description This thesis consists of analysis of three different data sets: (i) Aircraft-based eddy correlation data collected above irrigated and non-irrigated agricultural land in Southern California during the California Ozone Deposition Experiment (CODE) summer 1991; (ii) micrometeorological tower data, collected over grape and cotton canopies as part of CODE; (iii) aircraft-based eddy correlation flux data above two grid sites in the Canadian boreal forest during the Boreal Ecosystem-Atmosphere Study (BOREAS), spring and summer of 1994 and 1996. === Results from the CODE aircraft data document composition and size of the dominant structures, which transport heat and gases (H2O, CO 2 and ozone) over water stressed and non-water stressed surfaces, and the relative frequency with which structures carrying only a single scalar, or given combinations of scalars, were encountered along the flight paths. Interpretation of results provides further evidence for the existence of a second (nonphysiological) sink for ozone. The relative preponderance of structures that carry moisture, carbon dioxide and ozone simultaneously, particularly in the gradient-up mode, reflects the importance of vegetation as co-located source/sink for these scalars. The detrending procedures described in this study may help to define a more effective separation between local and mesoscale events in biosphere-atmosphere interaction. === Results from the CODE tower data indicates a single vegetated ozone sink for the grape site, but a vegetated as well as a non-vegetated sink for the cotton site. For both sites, structures simultaneously transporting significant flux contributions of CO2, H2O, heat and ozone dominate during unstable conditions. During stable conditions, unmixed single flux structures dominated over cotton but not over grape. The results of this study contribute empirical evidence about the relationship between ozone uptake and the physical and physiological state of vegetation, as well as the limitations placed on eddy scales in simulation models. === Results from the BOREAS aircraft data shows a decoupling between the surface and the atmosphere, where the patterns of vegetation, greenness and surface temperature may be quite dissimilar to those of the fluxes of sensible heat, latent heat and---to a lesser degree---CO2. Reasons for this lie in the extraordinary boundary layer conditions, high vapour pressure deficit, moist soil and hot canopies, and the response of the vegetation to these conditions. Analysis of the coherent structure compositions to some extent permits the characterization of the different sources and sinks. Overall, this study shows the importance of understanding the various interacting components of soil, vegetation and atmosphere when attempting to design process-based models for predictions in 'micrometeorologiacally' complex ecosystems.
author2 Schuepp, Peter (advisor)
author_facet Schuepp, Peter (advisor)
Brown Mitic, Constance Maria.
author Brown Mitic, Constance Maria.
author_sort Brown Mitic, Constance Maria.
title Flux associations and their relationship to the underlying heterogeneous surface characteristics
title_short Flux associations and their relationship to the underlying heterogeneous surface characteristics
title_full Flux associations and their relationship to the underlying heterogeneous surface characteristics
title_fullStr Flux associations and their relationship to the underlying heterogeneous surface characteristics
title_full_unstemmed Flux associations and their relationship to the underlying heterogeneous surface characteristics
title_sort flux associations and their relationship to the underlying heterogeneous surface characteristics
publisher McGill University
publishDate 1999
url http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=35988
work_keys_str_mv AT brownmiticconstancemaria fluxassociationsandtheirrelationshiptotheunderlyingheterogeneoussurfacecharacteristics
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