Abstract
To estimate the service value of rivers for regional climate regulation, temperature, water vapor pressure difference, water air temperature difference and wind speed were selected as the main factors affecting river evaporation and the corresponding calculation model was proposed by Pearson correlation analysis with the Zhoukou section of Shaying River being taken as an example. It was 0.9013 that the calculation accuracy of Nash efficiency coefficient (NSE) for the model. The temperature and humidity index and comprehensive comfort index were used to define the boundary of positive and negative values of the model. According to the model, it was calculated to be 112.8 million yuan that ecological value of Zhoukou Channel for local climate regulation in 2021. The results of this study can provide reference for the study of river ecological base flow and ensure the healthy and sustainable utilization of river system.
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References
Danran S (2019) Study on the influence and optimization of urban river width on residential microclimate. Dissertation for the master degree in East China Normal University
Depeng Z (2016) Investigation on the lake surface evaporation in the Badain Jaran Desert using multiple methods. Master dissertation of China University of Geosciences (Beijing)
Haitao M, Zhengcheng W, Xiaoju W et al (2018) Establishment of water surface evaporation model and determination of key parameters for plain reservoir in Northern Xinjiang. Trans Chin Soc Agric Eng 34(6):129–136
Haiyun S, Xudong F, Yuanjian W et al (2012) Estimating potential evaporation in Lasa River basin: improved Dalton model. J Basic Sci Eng 20(2):219–227
Hongyun M, Lihe Y, Jun Z et al (2015) The impact of free air humidity on the fractionation in the process of evaporation. Geological Bull China 34(11):2087–2091
Huaien L, Siyu Y (2016) Study on the function and value of ecological base flow-a case of Baoji Section in Weihe River. J Hydropower 35(11):64–73
Huaiyu Y, Sheng L, Zhengyong Y (2011) Valuation of pond aquaculture ecosystem services: a case study of common fish aquaculture in Qingpu, Shanghai [J]. Resour Sci 33(3):575–581
Huiming Y, Jianliang H, Dezhuo P et al (2019) Dynamic evaluation and driving forces of ecosystem services in Quanzhou bay estuary wetland. China. Chinese J Appl Ecol 30(12):4286–4292
Junxian R, Hongbing C, Jie K et al (2018) Advances of natural wetlands in lake ecosystem protection. J Hunan Ecol Sci 5(1):52–572018)
Mingyang L, Hexian J, Yanan W (2019) Research status and prospect of water microclimate in China. Modern Horticult (13):22–24
Mingyang L, Hexian J, Yanan W (2019) Effects of small-scale waters in urban parks on summer microclimate: a case study of prince bay parkin Hangzhou. J Chin Urban Forestry 17(4):18–24
Rui S, Chahua C, Yulin L (2019) Climate comfort evaluation of human settlements in Chizhou County. Anhui Agric Sci Bull 25(1):140–142
Sheng L, Zhengyong Y, Huaiyu Y et al (2010) Study on the ecosystem service value of micro-climate regulation service of pond aquacultures system [J]. Resour Environ Yang tze Basin, 19(4):432–437
Wei Z, Yubi Z, Feng C (2016) The regulatory effects of local microclimate in urban wetland-a case study of West Lake in Hangzhou. China. J Southwest Univ (Nat Sci Edn) 38(4):116–123
Wei W, Bing S, Nan L et al (2020) Study on the response relationship between the area change and climate of Dongting lake based on a long time series. Hubei Agric Sci 59(17):38–42
Wei H, Yongyu L, Yulin L (2022) Evaluation and trend of human settlement climate comfort in Liuzhou city in recent 60 years. Hubei Agric Sci 61(5):135–138
Xi W, Cheng W, Binbin R et al (2019) A Comparative study on the comfort level in and outside Berlin and urban squares in summer in Fujian Province[J]. Anhui Agric Sci Bull 25(17):139–142
Xiali S, Liangjun F, Xuejun L (2009) Research and development of water surface evaporation in China. J Water Resour Water Eng 20(4):17–22, 25
Xiaocheng S (2011) CFD simulation method and field measurement study of urban rivers effect on local thamal and humidity climate. Dissertation for the master degree in Harbin Institute of Technology
Xiaoquan Z, Shuai F, Zhifei Y et al (2019) Variation characteristics and future trend analysis of climate comfort in Wuyi. Bull Sci Technol 35(10):39–45
Yu G, Dingzhi P, Chenning D et al (2022) Atmospheric-hydrological modeling for Beijing’s sub-center based on WRF and SWMM. Urban Climate 41:101066
Zhengchao W, Wenbin L, Peiqing J (2013) Water evaporation models in different airflow fields. Meteorol Hydrol Marine Instrum (2):35–40
Yuan M, Jiangping W, Yapeng R (2020) Comprehensive cognition and evaluation of river value: a case study of Wuhan City. Green Technol (10):269–273
Zhengfei X, Wanyang C (2019) Study on evaporative law in rain spell based on Dalton Evaporation Formula. Water Resour Dev Manag (4):63–66
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Wang, G., Li, Z., Yang, D., Lu, Y., Zhang, W., Zhang, J. (2024). Study on Ecological Service Value of Climate Regulation in Zhoukou Section of Shaying River Trunk Stream. In: Yuan, C. (eds) Proceedings of 5th International Conference on Resources and Environmental Research—ICRER 2023. ICRER 2023. Environmental Science and Engineering. Springer, Cham. https://doi.org/10.1007/978-3-031-56359-1_12
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DOI: https://doi.org/10.1007/978-3-031-56359-1_12
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