[Objective] The aim was to study on effects of greenbelts in different varieties on temperature drop under solar thermal radiation. [Method] In residential regions, effects of temperature reduction by five varieties o...[Objective] The aim was to study on effects of greenbelts in different varieties on temperature drop under solar thermal radiation. [Method] In residential regions, effects of temperature reduction by five varieties of greenbelts (megaphanerophyte, dungarunga, shrub, herbaceous plant and bare land) and changing rules with days under the same solar thermal radiation were researched. [Result] Greenbelts' temperature changed with intensity of solar thermal radiation, among which greenbelt of megaphanerophyte absorbed, transfered and reflected thermal radiation through crown canopy. Temperature of underlying surface was reduced accordingly, where correlation between underlying surface's temperature and solar thermal radiation (R) was 0.156 and the temperature declined by 1.9 ℃. In contrast, correlation of temperature of underlying surface (of lawn) with solar thermal radiation (R) was as high as 0.820, but the temperature only declined by 0.6℃. [Conclusion] The established linear relationship between crown's temperature and air temperature actually provides references for temperature measurement of greenbelts at scale.展开更多
基金Supported by Major Program of Shanghai Science and Technology Commission(10DZ1200403,10dz1200905and11dz1211404)Shanghai Greening Administration(G102407)~~
文摘[Objective] The aim was to study on effects of greenbelts in different varieties on temperature drop under solar thermal radiation. [Method] In residential regions, effects of temperature reduction by five varieties of greenbelts (megaphanerophyte, dungarunga, shrub, herbaceous plant and bare land) and changing rules with days under the same solar thermal radiation were researched. [Result] Greenbelts' temperature changed with intensity of solar thermal radiation, among which greenbelt of megaphanerophyte absorbed, transfered and reflected thermal radiation through crown canopy. Temperature of underlying surface was reduced accordingly, where correlation between underlying surface's temperature and solar thermal radiation (R) was 0.156 and the temperature declined by 1.9 ℃. In contrast, correlation of temperature of underlying surface (of lawn) with solar thermal radiation (R) was as high as 0.820, but the temperature only declined by 0.6℃. [Conclusion] The established linear relationship between crown's temperature and air temperature actually provides references for temperature measurement of greenbelts at scale.
