The effect of urbanization gradients and forest types on microclimatic regulation by trees, in association with climate, tree sizes and species compositions in Harbin city, northeastern China

Rapid urbanization and climate change require stronger microclimatic regulation by urban trees, and maximizing their cooling, humidifying, and shading functions requires an exact understanding of the underlying mechanisms affected by climatic conditions and the forest characteristics. By measuring d...

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Veröffentlicht in:	Urban ecosystems 2019-04, Vol.22 (2), p.367-384
Hauptverfasser:	Wang, Wenjie, Zhang, Bo, Zhou, Wei, Lv, Hailiang, Xiao, Lu, Wang, Hongyuan, Du, Hongju, He, Xingyuan
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Schlagworte:	Afforestation Biomedical and Life Sciences Climate change Climatic conditions Composition Cooling Cooling effects Decoupling Ecology Environmental Management Forest management Forests Green infrastructure Humidification Life Sciences Maximization Microclimate Nature Conservation Redundancy Regulation Rural roads Shading Trees Urban areas Urban Ecology Urban forests Urbanization Variation
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creator	Wang, Wenjie Zhang, Bo Zhou, Wei Lv, Hailiang Xiao, Lu Wang, Hongyuan Du, Hongju He, Xingyuan
description	Rapid urbanization and climate change require stronger microclimatic regulation by urban trees, and maximizing their cooling, humidifying, and shading functions requires an exact understanding of the underlying mechanisms affected by climatic conditions and the forest characteristics. By measuring different aspects of microclimate regulation by urban trees in 165 plots in Harbin city and measuring climatic conditions, tree size, and compositional differences, we define changes in patterns along various urban-rural gradients (ring-road development and urban history) and for different forest types and decoupling the complex associations among them. We found that the horizontal cooling (1.7 °C to 4.0 °C) was larger than the vertical cooling (−1.71 °C to 0.33 °C) and soil cooling (0.28 °C to 2.17 °C); The humidifying effect (ΔRH) ranged from −0.34% to 7.30%, and total radiation intercepted (ΔE) ranged from 11.07 kLux to 45.95 kLux. We also found higher under-branch height, larger canopy, and higher percentage of Ulmaceae, but lower percentage of Salicaceae in more urbanized regions. The relative importance of tree compositions and size on microclimatic regulation was shown using redundancy analysis (RDA), and RDA variation partitioning showed that tree sizes explained 24.7% of the variations in the microclimate regulations, and tree composition and their interactions with climatic conditions explained 9.5% and 25.4% of the variations, respectively. Our findings reveal that maximizing microclimatic regulation by urban forests in northeastern China could possibly be achieved through specific-function-oriented afforestation and an increase conservation of large existing trees, and the data in this paper could favor policy decision of urban forest manager and local administration of urban green infrastructure.
doi_str_mv	10.1007/s11252-019-0823-9
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The relative importance of tree compositions and size on microclimatic regulation was shown using redundancy analysis (RDA), and RDA variation partitioning showed that tree sizes explained 24.7% of the variations in the microclimate regulations, and tree composition and their interactions with climatic conditions explained 9.5% and 25.4% of the variations, respectively. 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By measuring different aspects of microclimate regulation by urban trees in 165 plots in Harbin city and measuring climatic conditions, tree size, and compositional differences, we define changes in patterns along various urban-rural gradients (ring-road development and urban history) and for different forest types and decoupling the complex associations among them. We found that the horizontal cooling (1.7 °C to 4.0 °C) was larger than the vertical cooling (−1.71 °C to 0.33 °C) and soil cooling (0.28 °C to 2.17 °C); The humidifying effect (ΔRH) ranged from −0.34% to 7.30%, and total radiation intercepted (ΔE) ranged from 11.07 kLux to 45.95 kLux. We also found higher under-branch height, larger canopy, and higher percentage of Ulmaceae, but lower percentage of Salicaceae in more urbanized regions. The relative importance of tree compositions and size on microclimatic regulation was shown using redundancy analysis (RDA), and RDA variation partitioning showed that tree sizes explained 24.7% of the variations in the microclimate regulations, and tree composition and their interactions with climatic conditions explained 9.5% and 25.4% of the variations, respectively. Our findings reveal that maximizing microclimatic regulation by urban forests in northeastern China could possibly be achieved through specific-function-oriented afforestation and an increase conservation of large existing trees, and the data in this paper could favor policy decision of urban forest manager and local administration of urban green infrastructure.</description><subject>Afforestation</subject><subject>Biomedical and Life Sciences</subject><subject>Climate change</subject><subject>Climatic conditions</subject><subject>Composition</subject><subject>Cooling</subject><subject>Cooling effects</subject><subject>Decoupling</subject><subject>Ecology</subject><subject>Environmental Management</subject><subject>Forest management</subject><subject>Forests</subject><subject>Green infrastructure</subject><subject>Humidification</subject><subject>Life Sciences</subject><subject>Maximization</subject><subject>Microclimate</subject><subject>Nature 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Xingyuan</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>The effect of urbanization gradients and forest types on microclimatic regulation by trees, in association with climate, tree sizes and species compositions in Harbin city, northeastern China</atitle><jtitle>Urban ecosystems</jtitle><stitle>Urban Ecosyst</stitle><date>2019-04-01</date><risdate>2019</risdate><volume>22</volume><issue>2</issue><spage>367</spage><epage>384</epage><pages>367-384</pages><issn>1083-8155</issn><eissn>1573-1642</eissn><abstract>Rapid urbanization and climate change require stronger microclimatic regulation by urban trees, and maximizing their cooling, humidifying, and shading functions requires an exact understanding of the underlying mechanisms affected by climatic conditions and the forest characteristics. By measuring different aspects of microclimate regulation by urban trees in 165 plots in Harbin city and measuring climatic conditions, tree size, and compositional differences, we define changes in patterns along various urban-rural gradients (ring-road development and urban history) and for different forest types and decoupling the complex associations among them. We found that the horizontal cooling (1.7 °C to 4.0 °C) was larger than the vertical cooling (−1.71 °C to 0.33 °C) and soil cooling (0.28 °C to 2.17 °C); The humidifying effect (ΔRH) ranged from −0.34% to 7.30%, and total radiation intercepted (ΔE) ranged from 11.07 kLux to 45.95 kLux. We also found higher under-branch height, larger canopy, and higher percentage of Ulmaceae, but lower percentage of Salicaceae in more urbanized regions. The relative importance of tree compositions and size on microclimatic regulation was shown using redundancy analysis (RDA), and RDA variation partitioning showed that tree sizes explained 24.7% of the variations in the microclimate regulations, and tree composition and their interactions with climatic conditions explained 9.5% and 25.4% of the variations, respectively. Our findings reveal that maximizing microclimatic regulation by urban forests in northeastern China could possibly be achieved through specific-function-oriented afforestation and an increase conservation of large existing trees, and the data in this paper could favor policy decision of urban forest manager and local administration of urban green infrastructure.</abstract><cop>New York</cop><pub>Springer US</pub><doi>10.1007/s11252-019-0823-9</doi><tpages>18</tpages></addata></record>
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subjects	Afforestation Biomedical and Life Sciences Climate change Climatic conditions Composition Cooling Cooling effects Decoupling Ecology Environmental Management Forest management Forests Green infrastructure Humidification Life Sciences Maximization Microclimate Nature Conservation Redundancy Regulation Rural roads Shading Trees Urban areas Urban Ecology Urban forests Urbanization Variation
title	The effect of urbanization gradients and forest types on microclimatic regulation by trees, in association with climate, tree sizes and species compositions in Harbin city, northeastern China
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