In order to relieve urban environmental problems due to stormwater runoff,approaches involving the planning of green space for sponge city construction were previously proposed.In this study,water retention characteri...In order to relieve urban environmental problems due to stormwater runoff,approaches involving the planning of green space for sponge city construction were previously proposed.In this study,water retention characteristics of 168 green spaces are surveyed to develop estimates of stormwater retention in Shanghai City’s center,suburbs and outskirts.Multidisciplinary methods of community investigation,soil tests,artificial rainfall simulation experiments,and simulations in Autodesk storm and sanitary analysis(SSA)and storm water management model(SWMM)are used.The factors affecting the capacity of stormwater management are identified and used to calculate storage estimates.The relationships among rainfall interception capacity(RIC),runoff,soil water storage properties,and vegetative cover are analyzed,which can provide the theoretical foundation for the assessment of the water-holding capacity in urban green spaces.A criterion for the selection of low impact development(LID)techniques for the Shanghai area is developed on the basis of the data from this study.展开更多
This study aims to assess the hydrological effects of four herbs and four shrubs planted in a selfestablished test area in Xining Basin of northeastern Qinghai-Tibet Plateau, China. The RainfallIntercepting Capability...This study aims to assess the hydrological effects of four herbs and four shrubs planted in a selfestablished test area in Xining Basin of northeastern Qinghai-Tibet Plateau, China. The RainfallIntercepting Capability(RIC) of the herbs and shrubs was evaluated in rainfall interception experiment at the end of the third, fourth and fifth month of the growth period in 2007. The leaf transpiration rate and the effects of roots on promoting soil moisture evaporation in these plants were also assessed in transpiration experiment and root-soil composite system evaporation experiment in the five month's growth period. It is found that the RIC of the fourstudied herbs follows the order of E. repens, E. dahuricus, A. trachycaulum and L. secalinus; the RIC of the four shrubs follows the order of A. canescens, Z. xanthoxylon, C. korshinskii and N. tangutorum. The RIC of all the herbs is related linearly to their mean height and canopy area(R^2 ≥ 0.9160). The RIC of all the shrubs bears a logarithmic relationship with their mean height(R^2 ≥ 0.9164), but a linear one with their canopy area(R^2 ≥ 0.9356). Moreover, different species show different transpiration rates. Of the four herbs, E. repens has the highest transpiration rate of 1.07 mg/(m^2·s), and of the four shrubs, A. canescens has the highest transpiration rate(0.74 mg/(m^2·s)). The roots of all the herbs and shrubs can promote soil moisture evaporation. Of the four herbs, the evaporation rate of E. repens root-soil composite system is the highest(2.14%), and of the four shrubs,the root-soil composite system of A. canescens has the highest evaporation rate(1.41%). The evaporation rate of the root-soil composite system of E. dahuricus and Z. xanthoxylon bears a second-power linear relationship with evaporation time(R^2 ≥ 0.9924). The moisture content of all the eight root-soil composite systems decreases exponentially with evaporation time(R^2 ≥ 0.8434). The evaporation rate and moisture content of all the plants' root-soil composite systems increases logarithmically(R^2 ≥ 0.9606) and linearly(R^2 ≥ 0.9777) with root volume density. The findings of this study indicate that among the four herbs and four shrubs, E. repens and A. canescens possess the most effective hydrological effects in reducing the soil erosion and shallow landslide in this region.展开更多
文摘In order to relieve urban environmental problems due to stormwater runoff,approaches involving the planning of green space for sponge city construction were previously proposed.In this study,water retention characteristics of 168 green spaces are surveyed to develop estimates of stormwater retention in Shanghai City’s center,suburbs and outskirts.Multidisciplinary methods of community investigation,soil tests,artificial rainfall simulation experiments,and simulations in Autodesk storm and sanitary analysis(SSA)and storm water management model(SWMM)are used.The factors affecting the capacity of stormwater management are identified and used to calculate storage estimates.The relationships among rainfall interception capacity(RIC),runoff,soil water storage properties,and vegetative cover are analyzed,which can provide the theoretical foundation for the assessment of the water-holding capacity in urban green spaces.A criterion for the selection of low impact development(LID)techniques for the Shanghai area is developed on the basis of the data from this study.
基金financially supported by the National Natural Science Foundation of China (Grant Nos.41572306,41162010)Natural Science Foundation of Qinghai Province (Grant No.2014ZJ-906)+2 种基金Hundred Talents Program in Chinese Academy of Sciences (Grant No.Y110091025)Scientific and Technologic Support Plan of Qinghai Province (2015-SF-117)Ministry of Education 'Innovative Team Development Scheme' (IRT_17R62)
文摘This study aims to assess the hydrological effects of four herbs and four shrubs planted in a selfestablished test area in Xining Basin of northeastern Qinghai-Tibet Plateau, China. The RainfallIntercepting Capability(RIC) of the herbs and shrubs was evaluated in rainfall interception experiment at the end of the third, fourth and fifth month of the growth period in 2007. The leaf transpiration rate and the effects of roots on promoting soil moisture evaporation in these plants were also assessed in transpiration experiment and root-soil composite system evaporation experiment in the five month's growth period. It is found that the RIC of the fourstudied herbs follows the order of E. repens, E. dahuricus, A. trachycaulum and L. secalinus; the RIC of the four shrubs follows the order of A. canescens, Z. xanthoxylon, C. korshinskii and N. tangutorum. The RIC of all the herbs is related linearly to their mean height and canopy area(R^2 ≥ 0.9160). The RIC of all the shrubs bears a logarithmic relationship with their mean height(R^2 ≥ 0.9164), but a linear one with their canopy area(R^2 ≥ 0.9356). Moreover, different species show different transpiration rates. Of the four herbs, E. repens has the highest transpiration rate of 1.07 mg/(m^2·s), and of the four shrubs, A. canescens has the highest transpiration rate(0.74 mg/(m^2·s)). The roots of all the herbs and shrubs can promote soil moisture evaporation. Of the four herbs, the evaporation rate of E. repens root-soil composite system is the highest(2.14%), and of the four shrubs,the root-soil composite system of A. canescens has the highest evaporation rate(1.41%). The evaporation rate of the root-soil composite system of E. dahuricus and Z. xanthoxylon bears a second-power linear relationship with evaporation time(R^2 ≥ 0.9924). The moisture content of all the eight root-soil composite systems decreases exponentially with evaporation time(R^2 ≥ 0.8434). The evaporation rate and moisture content of all the plants' root-soil composite systems increases logarithmically(R^2 ≥ 0.9606) and linearly(R^2 ≥ 0.9777) with root volume density. The findings of this study indicate that among the four herbs and four shrubs, E. repens and A. canescens possess the most effective hydrological effects in reducing the soil erosion and shallow landslide in this region.
