The CO2 concentrations and fluxes over an urban forest site (Namsan) and an urban residential region (Boramae) in Seoul, Korea, during the non-growing season (2 4 March 2011), the growing season (10-12 June 201...The CO2 concentrations and fluxes over an urban forest site (Namsan) and an urban residential region (Boramae) in Seoul, Korea, during the non-growing season (2 4 March 2011), the growing season (10-12 June 2011), and the late-growing season (22-24 September 2011) were analyzed. The CO2 concentrations of two sites showed nearly the same diurnal variation, with a maximum value occurring during the night and a minimum value occurring during daytime, as well as the same seasonal variation, with a maximum value during the non-growing season (early spring) and a minimum value during the growing season (summer). The CO2 flux over the urban forest did not show any typical diurnal variation during the non-growing season, but did show diurnal variation with a small positive value during the night and a large negative value during daytime in the growing and late-growing seasons due to photosynthesis in the urban forest. The CO2 flux over the urban residential region showed a positive daily mean value for all periods, with large values during the non-growing season and small values during the growing season, and it also showed diurnal variation with two maxima at 0600-1000 LST and 1800-2400 LST, and two minima at 0300-0600 LST and 1100-1500 LST, and was strongly correlated with the use of liquefied natural gas for cooking and heating by surrounding houses.展开更多
[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funded by the Korea Meteorological Administration Research and Development Program (Grant No. CATER 2012-7010)the Korea National Long-Term Ecological Research (KNL-TER) project for their data distributions
文摘The CO2 concentrations and fluxes over an urban forest site (Namsan) and an urban residential region (Boramae) in Seoul, Korea, during the non-growing season (2 4 March 2011), the growing season (10-12 June 2011), and the late-growing season (22-24 September 2011) were analyzed. The CO2 concentrations of two sites showed nearly the same diurnal variation, with a maximum value occurring during the night and a minimum value occurring during daytime, as well as the same seasonal variation, with a maximum value during the non-growing season (early spring) and a minimum value during the growing season (summer). The CO2 flux over the urban forest did not show any typical diurnal variation during the non-growing season, but did show diurnal variation with a small positive value during the night and a large negative value during daytime in the growing and late-growing seasons due to photosynthesis in the urban forest. The CO2 flux over the urban residential region showed a positive daily mean value for all periods, with large values during the non-growing season and small values during the growing season, and it also showed diurnal variation with two maxima at 0600-1000 LST and 1800-2400 LST, and two minima at 0300-0600 LST and 1100-1500 LST, and was strongly correlated with the use of liquefied natural gas for cooking and heating by surrounding houses.
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.
