Methods of trees evaluation with the site-specific effect for microclimate in urban environment: the case of study Nitra (Slovakia)

Methods of trees evaluation with the site-specific effect for microclimate in urban environment: the case of study Nitra (Slovakia)

Microclimatic factors in selected vegetation structures have been monitored in a compact historical built-up layout in the Nitra municipality. We have observed relationship between microclimatic factors (air temperature, relative air humidity and surface temperature) and microclimatic environment in...

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Main Authors: Klein Ján, Rózová Zdenka
Format: Article
Language:English
Published: Sciendo 2017-03-01
Series:Ekológia (Bratislava)
Subjects:
mei
microclimaticfactors
canopylayer
trees
urbangeometry
Online Access:https://doi.org/10.1515/eko-2017-0004
id doaj-85ce5788f3ec49cea613e72c14389cb3
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spelling doaj-85ce5788f3ec49cea613e72c14389cb32021-09-05T20:44:47ZengSciendoEkológia (Bratislava)1337-947X2017-03-01361405110.1515/eko-2017-0004eko-2017-0004Methods of trees evaluation with the site-specific effect for microclimate in urban environment: the case of study Nitra (Slovakia)Klein Ján0Rózová Zdenka1Department of Ecology and Environmental Sciences, Faculty of Natural Sciences, Constantine the Philosopher University in Nitra, Tr. A. Hlinku 1, 949 74 Nitra, SlovakiaDepartment of Ecology and Environmental Sciences, Faculty of Natural Sciences, Constantine the Philosopher University in Nitra, Tr. A. Hlinku 1, 949 74 Nitra, SlovakiaMicroclimatic factors in selected vegetation structures have been monitored in a compact historical built-up layout in the Nitra municipality. We have observed relationship between microclimatic factors (air temperature, relative air humidity and surface temperature) and microclimatic environment indices (MEI). MEI were created for selected trees with varied structure on the basis of synthesis of input data (layout samples of canopy layer and urban geometry). They point out the impact of trees and environment on microclimate in an urban environment during hot days. Surface temperature is a significant factor. The model shows that the surface temperature in various structures of trees and varied urban geometry could be identified through MEI. From the microclimatic point of view, the tree cover in the narrow street with 8 MEI has the greatest cooling effect. MEI from 8 to 13 proved the cooling effect with regard to the general diameter of the area. The higher the number of MEI, the lower is the cooling effect of the trees.https://doi.org/10.1515/eko-2017-0004meimicroclimaticfactorscanopylayertreesurbangeometry
collection DOAJ
language English
format Article
sources DOAJ
author Klein Ján
Rózová Zdenka
spellingShingle Klein Ján
Rózová Zdenka
Methods of trees evaluation with the site-specific effect for microclimate in urban environment: the case of study Nitra (Slovakia)
Ekológia (Bratislava)
mei
microclimaticfactors
canopylayer
trees
urbangeometry
author_facet Klein Ján
Rózová Zdenka
author_sort Klein Ján
title Methods of trees evaluation with the site-specific effect for microclimate in urban environment: the case of study Nitra (Slovakia)
title_short Methods of trees evaluation with the site-specific effect for microclimate in urban environment: the case of study Nitra (Slovakia)
title_full Methods of trees evaluation with the site-specific effect for microclimate in urban environment: the case of study Nitra (Slovakia)
title_fullStr Methods of trees evaluation with the site-specific effect for microclimate in urban environment: the case of study Nitra (Slovakia)
title_full_unstemmed Methods of trees evaluation with the site-specific effect for microclimate in urban environment: the case of study Nitra (Slovakia)
title_sort methods of trees evaluation with the site-specific effect for microclimate in urban environment: the case of study nitra (slovakia)
publisher Sciendo
series Ekológia (Bratislava)
issn 1337-947X
publishDate 2017-03-01
description Microclimatic factors in selected vegetation structures have been monitored in a compact historical built-up layout in the Nitra municipality. We have observed relationship between microclimatic factors (air temperature, relative air humidity and surface temperature) and microclimatic environment indices (MEI). MEI were created for selected trees with varied structure on the basis of synthesis of input data (layout samples of canopy layer and urban geometry). They point out the impact of trees and environment on microclimate in an urban environment during hot days. Surface temperature is a significant factor. The model shows that the surface temperature in various structures of trees and varied urban geometry could be identified through MEI. From the microclimatic point of view, the tree cover in the narrow street with 8 MEI has the greatest cooling effect. MEI from 8 to 13 proved the cooling effect with regard to the general diameter of the area. The higher the number of MEI, the lower is the cooling effect of the trees.
topic mei
microclimaticfactors
canopylayer
trees
urbangeometry
url https://doi.org/10.1515/eko-2017-0004
work_keys_str_mv AT kleinjan methodsoftreesevaluationwiththesitespecificeffectformicroclimateinurbanenvironmentthecaseofstudynitraslovakia
AT rozovazdenka methodsoftreesevaluationwiththesitespecificeffectformicroclimateinurbanenvironmentthecaseofstudynitraslovakia
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