肯尼亚不同气候区棕榈型土壤蒸散模拟

IF 1.4 Q2 GEOGRAPHY
P. Musyimi, B. Székely, Arun Gandhi, T. Weidinger
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引用次数: 0

摘要

参考蒸散发(ET0)和实际蒸散发(ET)是水文过程和气候相关研究的重要组成部分。了解它们在估算中的可变性对于微气象学和农业规划过程同样至关重要。本研究的主要目的是利用2000 - 2009年3小时分辨率的长期质量控制天气站数据集,分析和比较肯尼亚两个不同气候区的(ET0)和(ET)估算值。一个气象站(Voi, 63793)是从海拔579米的低地寻找的,其特点是热带草原气候,而另一个气象站(Kitale, 63661)是从肯尼亚高原寻找的,那里条件潮湿,海拔1850米。参考蒸散量是根据粮农组织56的每日标准方法计算的。采用一维palmer型土壤模型,利用每个站点在1 m土层的凋萎点、田间容量和土壤饱和点估算实际蒸散量。实际蒸散量与参考蒸散量之比与土壤水分应力呈线性关系。估算蒸散量按日和月计算。还应用了特定地点作物系数(KC)。结果表明,在不施用作物系数(ETKc)和施用作物系数(ETKc)的情况下,日尺度和月尺度的蒸散发(ET)计算差异不大。这是由于高温、全球辐射,以及肯尼亚所在的热带地区降水不足造成的土壤水分压力。Voi的月平均ET0为11月的148.3±11.6 mm至3月的175.3±10.8 mm, ET为9月的8.0±4.5 mm至1月的105.8±50.3 mm。Kitale地区6月的ET0为121.5±8.5 mm/月~ 3月的157.1±8.5 mm/月,ET为41.7±32.6 mm/月~ 9月的126.6±12.2 mm/月。这是由于两个气候区域之间温度和降水的变化。研究认为,在月尺度上,干旱和半干旱气候区蒸散发0和计算的年际变率略高于湿润地区。这项研究对于制定可行的战略手段,以提高肯尼亚最佳作物水分利用和减少估算的蒸散发损失,从而实现最佳农业产量和产量最大化具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Palmer-type soil modelling for evapotranspiration in different climatic regions of Kenya
Reference evapotranspiration (ET0) and real evapotranspiration (ET) are vital components in hydrological processes and climate-related studies. Understanding their variability in estimation is equally crucial for micro-meteorology and agricultural planning processes. The primary goal of this study was to analyze and compare estimates of (ET0) and (ET) from two different climatic regions of Kenya using long-term quality controlled synoptic station datasets from 2000 to 2009 with 3-hour time resolution. One weather station (Voi, 63793) was sought from lowlands with an elevation of 579 m and characterized by tropical savannah climate while the other (Kitale, 63661) was sought from Kenya highlands with humid conditions and elevation of 1850 m above sea level. Reference evapotranspiration was calculated based on the FAO 56 standard methodology of a daily basis. One dimension Palmer-type soil model was used for estimating of real evapotranspiration using the wilting point, field capacity, and soil saturation point for each station at 1 m deep soil layer. The ratio of real and reference evapotranspiration dependent on the soil moisture stress linearly. Calculations of estimated evapotranspiration were made on daily and monthly basis. Applications of the site-specific crop coefficients (KC) were also used. The result indicated that the differences among daily and monthly scale calculations of evapotranspiration (ET) were small without and with an application of crop coefficients (ETKc). This was due to high temperatures, global radiation, and also high soil moisture stress due to inadequate precipitation experienced in the tropics where Kenya lies. Results from Voi showed that mean monthly ET0 ranged from 148.3±11.6 mm in November to 175.3±10.8 mm in March while ET was from 8.0±4.5 mm in September to 105.8±50.3 mm in January. From Kitale, ET0 ranged from 121.5±8.5 mm/month in June to 157.1±8.5 mm/month in March while ET ranged from 41.7±32.6 mm/month in March to 126.6±12.2 mm/month in September. This was due to variability in temperature and precipitation between the two climatic regions. The study concludes that ET0 and calculated evapotranspiration variability among the years on a monthly scale is slightly higher in arid and semi-arid climate regions than in humid regions. The study is important in strategizing viable means to enhance optimal crop water use and reduce ET losses estimates for optimal agricultural yields and production maximization in Kenya.
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来源期刊
Hungarian Geographical Bulletin
Hungarian Geographical Bulletin Social Sciences-Geography, Planning and Development
CiteScore
3.20
自引率
0.00%
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24
审稿时长
24 weeks
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