Assessing urban habitat quality using spectral characteristics of Tilia leaves

Monitoring environmental quality in urban areas is an important issue offering possibilities to control and improve urban habitat quality as well as to avoid adverse effects on human health. A tree leaf reflectance-based bio-monitoring method was used to assess the urban habitat quality of two contr...

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Veröffentlicht in:	Environmental pollution (1987) 2013-07, Vol.178, p.7-14
Hauptverfasser:	Khavanin Zadeh, A.R., Veroustraete, F., Buytaert, J.A.N., Dirckx, J., Samson, R.
Format:	Artikel
Sprache:	eng
Schlagworte:	adverse effects Air Pollutants Applied sciences Asymmetry Atmospheric pollution Belgium Bio-monitoring Cities Ecosystem Environmental monitoring Environmental Monitoring - methods environmental quality Exact sciences and technology Habitats human health Image processing Leaf reflectance leaves Linden Matlab photosynthetically active radiation Plant Leaves - chemistry Pollution Reflectance Reflectivity Spectra spectral analysis Tilia Tilia - chemistry Tilia - physiology Trees urban areas Urban habitat quality
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container_title	Environmental pollution (1987)
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creator	Khavanin Zadeh, A.R. Veroustraete, F. Buytaert, J.A.N. Dirckx, J. Samson, R.
description	Monitoring environmental quality in urban areas is an important issue offering possibilities to control and improve urban habitat quality as well as to avoid adverse effects on human health. A tree leaf reflectance-based bio-monitoring method was used to assess the urban habitat quality of two contrasting habitat classes in the city of Gent (Belgium). As test trees, two Tilia species were selected. Custom made Matlab code is applied to process the measurements of leaf reflectance. This enables the discrimination between polluted and less polluted habitats. The results elicit, that leaf reflectance in the PAR range, as well as the NDAI (Normalised Difference Asymmetry index) are species dependent while Dorsiventral Leaf Reflectance Correlation (DLRC) seems to be independent of species. Therefore the assessment of urban habitat quality is perfectly feasible using leaf reflectance, when taking account of the species specificity of tree leaf physiological and structural responses to habitat quality. ► Leaf structure and physiological changes in urban habitat classes. ► Leaf reflectance of Linden tree species is affected by urban habitat quality. ► Species dependent leaf reflectance changes due to urban habitat pollution. ► Dorsiventral leaf reflectance properties for assessing habitat quality. ► High capability of the leaf reflectance technique for assessing habitat quality. Leaf reflectance and dorsiventral properties of Linden tree species can be used to assess urban habitat quality.
doi_str_mv	10.1016/j.envpol.2013.02.021
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A tree leaf reflectance-based bio-monitoring method was used to assess the urban habitat quality of two contrasting habitat classes in the city of Gent (Belgium). As test trees, two Tilia species were selected. Custom made Matlab code is applied to process the measurements of leaf reflectance. This enables the discrimination between polluted and less polluted habitats. The results elicit, that leaf reflectance in the PAR range, as well as the NDAI (Normalised Difference Asymmetry index) are species dependent while Dorsiventral Leaf Reflectance Correlation (DLRC) seems to be independent of species. Therefore the assessment of urban habitat quality is perfectly feasible using leaf reflectance, when taking account of the species specificity of tree leaf physiological and structural responses to habitat quality. ► Leaf structure and physiological changes in urban habitat classes. ► Leaf reflectance of Linden tree species is affected by urban habitat quality. ► Species dependent leaf reflectance changes due to urban habitat pollution. ► Dorsiventral leaf reflectance properties for assessing habitat quality. ► High capability of the leaf reflectance technique for assessing habitat quality. 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Therefore the assessment of urban habitat quality is perfectly feasible using leaf reflectance, when taking account of the species specificity of tree leaf physiological and structural responses to habitat quality. ► Leaf structure and physiological changes in urban habitat classes. ► Leaf reflectance of Linden tree species is affected by urban habitat quality. ► Species dependent leaf reflectance changes due to urban habitat pollution. ► Dorsiventral leaf reflectance properties for assessing habitat quality. ► High capability of the leaf reflectance technique for assessing habitat quality. 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Therefore the assessment of urban habitat quality is perfectly feasible using leaf reflectance, when taking account of the species specificity of tree leaf physiological and structural responses to habitat quality. ► Leaf structure and physiological changes in urban habitat classes. ► Leaf reflectance of Linden tree species is affected by urban habitat quality. ► Species dependent leaf reflectance changes due to urban habitat pollution. ► Dorsiventral leaf reflectance properties for assessing habitat quality. ► High capability of the leaf reflectance technique for assessing habitat quality. Leaf reflectance and dorsiventral properties of Linden tree species can be used to assess urban habitat quality.</abstract><cop>Kidlington</cop><pub>Elsevier Ltd</pub><pmid>23517817</pmid><doi>10.1016/j.envpol.2013.02.021</doi><tpages>8</tpages></addata></record>
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subjects	adverse effects Air Pollutants Applied sciences Asymmetry Atmospheric pollution Belgium Bio-monitoring Cities Ecosystem Environmental monitoring Environmental Monitoring - methods environmental quality Exact sciences and technology Habitats human health Image processing Leaf reflectance leaves Linden Matlab photosynthetically active radiation Plant Leaves - chemistry Pollution Reflectance Reflectivity Spectra spectral analysis Tilia Tilia - chemistry Tilia - physiology Trees urban areas Urban habitat quality
title	Assessing urban habitat quality using spectral characteristics of Tilia leaves
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