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Author
dc.contributor.author
Musyimi, Peter Kinyae 
Author
dc.contributor.author
Székely, Balázs 
Author
dc.contributor.author
Weidinger, Tamás 
Availability Date
dc.date.accessioned
2022-09-12T12:31:05Z
Availability Date
dc.date.available
2022-09-12T12:31:05Z
Release
dc.date.issued
2020
uri
dc.identifier.uri
http://hdl.handle.net/10831/77744
Language
dc.language.iso
angolhu_HU
Title
dc.title
Long term (1901‒2016) temperature based potential evapotranspiration and aridity index analysis for lower eastern region of Kenyahu_HU
Type
dc.type
könyvfejezethu_HU
Version
dc.description.version
megjelent változathu_HU
Language
dc.language.rfc3066
eng
Rights
dc.rights.holder
ELTE TTK Földrajz- és Földtudományi Intézet Meteorológiai Tanszékhu_HU
Abstract in English
dc.description.abstracteng
Climate change has caused unreliable precipitation (P) and temperature (T) changes influencing global, regional and local water availability, agricultural production hence food insecurity. Precipitation and temperature are key climatic parameters among others in estimating potential evapotranspiration (PET). The main goal of this paper was to estimate long term (1901‒2016) potential evapotranspiration time series using seven temperature- and two temperature and terrestrial radiation-based methods and compare the values estimates within four counties of Kenya. Data was sought from the World Bank database constructed based on CRU TS (Climatic Research Unit Timeseries). The estimates were computed and Thornthwaite method was used as a reference in comparison with the other methods. The study established that Hamon III and Thornthwaite equations gave lower annual PET estimates than the other methods. For instance, in Makueni county, the two methods gave potential evapotranspiration estimates ranging from 899±49.6 mm/year to 1131±49.6 mm/year and 918±76.3 mm/year to 1274±76.3 mm/year respectively for the whole time period. Jensen-Haise and McGuinness-Borden PET estimates were the highest ranging from 2782±119.9 mm/year to 3343±120.0 mm/year and 2040±70.7 mm/year to 2371±70.7 mm/year in Makueni, respectively. Thornthwaite method depicted an increasing linear trend in all stations. Further, the Aridity Index (in our case P/PET based on the Thornthwaite method) varied from one climatic period (30 years) to the other with a large range of 0.3 to 1.2 in Makueni county. The study also established that Kitui county had the highest estimate values of PET from all methods used. The study concludes that different temperature- and temperature and terrestrial radiation-based methods perform differently and give different PET estimation based on the parameter specific requirement. The study is suitable in selection and comparisons of best temperature-based, temperature and terrestrial radiation methods in PET estimation in the tropical, data scarce regions in Kenya.hu_HU
Conference city
dc.description.city
Budapesthu_HU
Conference country
dc.description.country
Magyarországhu_HU
book author / editor
dc.identifier.bookauthors
Pongrácz Rita; Mészáros Róbert; Kis Annahu_HU
Address Book
dc.identifier.booktitle
Jelenlegi PhD-kutatások a 75 éves Meteorológiai Tanszékenhu_HU
Doi ID
dc.identifier.doi
10.31852/EMF.33.2020.074.083
MTMT ID
dc.identifier.mtmt
32630472
Last Page
dc.identifier.lpage
83hu_HU
First Page
dc.identifier.spage
74hu_HU
Place of publication
dc.publisher.place
Budapesthu_HU
access
dc.rights.access
hozzáférhetőhu_HU
Keyword English
dc.subject.en
temperature changeshu_HU
Keyword English
dc.subject.en
potential evapotranspirationhu_HU
Keyword English
dc.subject.en
Kenyahu_HU
Class
dc.type.genre
publikáció/alkotáshu_HU
Type
dc.type.resrep
tudományoshu_HU
Author
dc.contributor.inst
ELTE Természettudományi Kar Földrajz- és Földtudományi Intézet Földtudományi Központ Geofizikai és Űrtudományi Tanszékhu_HU
Keywords
dc.subject.hu
Egyetemi Meteorológiai Füzetekhu_HU
Rent
dc.publisher.name
ELTE TTK Földrajz- és Földtudományi Intézet Meteorológiai Tanszékhu_HU
Type
dc.type.type
könyvfejezethu_HU
Release Date
dc.description.issuedate
2020hu_HU


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Long term (1901‒2016) temperature based potential evapotranspiration and aridity index analysis for lower eastern region of Kenya
 

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