Abstract
Evapotranspiration is an important component of the water cycle, and possible trends in evapotranspiration can, among others, influence water management and agricultural production. Potential evapotranspiration (ETp) is a measure of the ability of the atmosphere to remove water from the surface through the processes of evaporation and transpiration. It plays an important role in assessing regional dry–wet conditions and variations in meteorological conditions. This study analyzed the change trends of monthly ETp and surface dryness and wetness in the Hancang River Basin and, through principal component analysis and correlation analysis, explored the main meteorological factors that affected ETp and the interactions between meteorological factors; ETp values were estimated using the FAO-56 Penman–Monteith method. The results showed that there was a large gap in ETp between different months in the Hancang River Basin, with a trend of first increasing and then decreasing within a year. The highest monthly evapotranspiration was 114.119 mm (July), and the lowest was 42.761 mm (January). The maximum relative humidity index was 0.822 (August), and the minimum was -0.979 (January). The average temperature, precipitation, average relative humidity, and solar radiation are positive factors that affect ETp, while average air pressure is a negative factor that affects ETp. This study provides a reference for the wet conditions of small watersheds and for countermeasures to address climate change.
Highlights
Evapotranspiration is an important component of the water cycle, and possible trends in evapotranspiration can, among others, influence water management and agricultural production
Evapotranspiration is an important component of the water cycle and energy balance and drives the Earth’s climate system at various s cales[12,13]
Cesar and Šraj provided an overview of the influencing factors and methods for calculating reference evapotranspiration rates and conducted a sensitivity analysis of climatic factors affecting reference evapotranspiration[26]; their results showed that reference evapotranspiration values mainly depended on solar radiation which was followed in importance by air temperature and relative humidity while wind speed had the least influence
Summary
Evapotranspiration is an important component of the water cycle, and possible trends in evapotranspiration can, among others, influence water management and agricultural production. Cesar and Šraj provided an overview of the influencing factors and methods for calculating reference evapotranspiration rates and conducted a sensitivity analysis of climatic factors affecting reference evapotranspiration[26]; their results showed that reference evapotranspiration values mainly depended on solar radiation which was followed in importance by air temperature and relative humidity while wind speed had the least influence. There are few literature studies on the seasonal and monthly variation trend analysis of E Tp in temperate monsoon regions with significant dry and wet climates and the main meteorological factors affecting E Tp. The important components of the hydrological cycle and the impact of climate change on ETp are unclear. It is necessary to create new methods for the study of evapotranspiration in small basins and the surface dry and wet conditions
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