Environmental Flow Assessments (EFAs) are becoming the global standard for determining the amount of water required to sustain aquatic ecosystems and sustain socio-economic development. EFAs comprise structured, sci...Environmental Flow Assessments (EFAs) are becoming the global standard for determining the amount of water required to sustain aquatic ecosystems and sustain socio-economic development. EFAs comprise structured, science-based approaches to determine how much water must be left in the river to protect the aquatic ecosystems and achieve the desired ecological state, The building block methodology (BBM) that was used in this study is designed to identify a series of important flows (the building blocks) which will together provide the essential aspects of the natural hydrological regime that ensure the persistence of as much of the biodiversity as possible. The results show that a total inflow into eastern wetland of 5.52-6.81 m^3/s is required in order to sustain an outflow of 1-2 m^3/s past Ng'iriama and hence meet the "minimum" recommended flow rates further downstream at BBM1 and BBM2 during the drought low flow conditions. The rationale being that a satisfactory flow during drought low flow conditions will guarantee sufficient flows during low flow periods in normal and wet years. The low flows of 2.5 m^3/s and 19 m^3/s are recommended for the driest and wettest months, respectively.展开更多
Quantifying the whole process of ecosystem services from generation through transfer to use,and analyzing the balance between the supply and demand of regional ecosystem services are of great significance for formulat...Quantifying the whole process of ecosystem services from generation through transfer to use,and analyzing the balance between the supply and demand of regional ecosystem services are of great significance for formulating regional sustainable development strategies,realizing regional ecosystem management,and effective resource allocation.Based on the SWAT model,InVEST model,ArcGIS,and other software,this study analyzed the supply-demand balance of water provision services in Jinghe River Basin,a typical region located in the Loess Plateau,using multi-source data.This research then analyzed the spatial-temporal distribution pattern and spatial matching characteristics of the supply and demand of water provision services in Jinghe River Basin from 2000 to 2015.On this basis,a spatial flow model of water provision service was constructed,the flow rules(flow paths)of the water provision service were explored at the subwatershed scale,and the spatial scope of the supply area and benefit area were depicted.The results show that:(1)Water resource supply and demand in the Jinghe River basin both showed increasing trends from 2000 to 2015.(2)The supply-demand balance of water resources was generally up to the standard,however,there were significant differences between urban and rural areas.The supply-demand balances of the central urban areas of each county were relatively low,and even exceeded the supply in the lower reaches of the Jingyang River,such as Gaoling County,Qindu District,and Jingyang County.In rural areas,due to the small population and industrial distribution,coupled with a better ecological environmental base,the supply-demand balance was relatively high,such as Pengyang County,Lingtai County,Huachi County,Huanxian County,Ningxian County,and Zhenyuan County.(3)From 2000 to 2015,the spatial matching pattern of supply and demand in the Jinghe River Basin showed a trend of decline with fluctuations.In 2015,the supply-demand ratios of more than 60%of the subwatersheds showed trends of decline,and the proportion of under-supply area increased by 55.7%in 2015 compared with that in 2000.(4)The supply areas of water provision service in Jinghe River Basin are distributed in the upper reaches of the basin,and the benefit areas are Huating County,Chongxin County,Yongshou County,Chunhua County,Ganxian County,Liquan County,Qindu District,and others in the middle and lower reaches.展开更多
文摘Environmental Flow Assessments (EFAs) are becoming the global standard for determining the amount of water required to sustain aquatic ecosystems and sustain socio-economic development. EFAs comprise structured, science-based approaches to determine how much water must be left in the river to protect the aquatic ecosystems and achieve the desired ecological state, The building block methodology (BBM) that was used in this study is designed to identify a series of important flows (the building blocks) which will together provide the essential aspects of the natural hydrological regime that ensure the persistence of as much of the biodiversity as possible. The results show that a total inflow into eastern wetland of 5.52-6.81 m^3/s is required in order to sustain an outflow of 1-2 m^3/s past Ng'iriama and hence meet the "minimum" recommended flow rates further downstream at BBM1 and BBM2 during the drought low flow conditions. The rationale being that a satisfactory flow during drought low flow conditions will guarantee sufficient flows during low flow periods in normal and wet years. The low flows of 2.5 m^3/s and 19 m^3/s are recommended for the driest and wettest months, respectively.
基金The National Natural Science Foundation of China(41701601,41871196)。
文摘Quantifying the whole process of ecosystem services from generation through transfer to use,and analyzing the balance between the supply and demand of regional ecosystem services are of great significance for formulating regional sustainable development strategies,realizing regional ecosystem management,and effective resource allocation.Based on the SWAT model,InVEST model,ArcGIS,and other software,this study analyzed the supply-demand balance of water provision services in Jinghe River Basin,a typical region located in the Loess Plateau,using multi-source data.This research then analyzed the spatial-temporal distribution pattern and spatial matching characteristics of the supply and demand of water provision services in Jinghe River Basin from 2000 to 2015.On this basis,a spatial flow model of water provision service was constructed,the flow rules(flow paths)of the water provision service were explored at the subwatershed scale,and the spatial scope of the supply area and benefit area were depicted.The results show that:(1)Water resource supply and demand in the Jinghe River basin both showed increasing trends from 2000 to 2015.(2)The supply-demand balance of water resources was generally up to the standard,however,there were significant differences between urban and rural areas.The supply-demand balances of the central urban areas of each county were relatively low,and even exceeded the supply in the lower reaches of the Jingyang River,such as Gaoling County,Qindu District,and Jingyang County.In rural areas,due to the small population and industrial distribution,coupled with a better ecological environmental base,the supply-demand balance was relatively high,such as Pengyang County,Lingtai County,Huachi County,Huanxian County,Ningxian County,and Zhenyuan County.(3)From 2000 to 2015,the spatial matching pattern of supply and demand in the Jinghe River Basin showed a trend of decline with fluctuations.In 2015,the supply-demand ratios of more than 60%of the subwatersheds showed trends of decline,and the proportion of under-supply area increased by 55.7%in 2015 compared with that in 2000.(4)The supply areas of water provision service in Jinghe River Basin are distributed in the upper reaches of the basin,and the benefit areas are Huating County,Chongxin County,Yongshou County,Chunhua County,Ganxian County,Liquan County,Qindu District,and others in the middle and lower reaches.
