Spatiotemporal Estimation of Reference Evapotranspiration for Agricultural Applications in Punjab, Pakistan

Estimation of reference evapotranspiration (ETo) is a key element in water resources management and crop water requirement which, in turn, affects irrigation scheduling. ETo is subject to the influence of various climatic parameters including minimum temperature (Tmin), maximum temperature (Tmax), r...

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Published in	Agriculture (Basel) Vol. 13; no. 7; p. 1388
Main Authors	Ashraf, Hadeed, Qamar, Saliha, Riaz, Nadia, Shamshiri, Redmond R., Sultan, Muhammad, Khalid, Bareerah, Ibrahim, Sobhy M., Imran, Muhammad, Khan, Muhammad Usman
Format	Journal Article
Language	English
Published	Basel MDPI AG 01.07.2023
Subjects	Agriculture Climate change climatic factors Cotton Crops Evapotranspiration geographic weighted regression Hydrology Irrigation Irrigation scheduling Methods multiscale geographic weighted regression Pakistan Parameters Precipitation reference evapotranspiration Relative humidity Remote sensing Rice Seasons solar radiation Temperature Variables water requirement Water resources Water resources management Wheat Wind Wind speed United Kingdom Pakistan China India Punjab Pakistan
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Abstract	Estimation of reference evapotranspiration (ETo) is a key element in water resources management and crop water requirement which, in turn, affects irrigation scheduling. ETo is subject to the influence of various climatic parameters including minimum temperature (Tmin), maximum temperature (Tmax), relative humidity (RH), windspeed (WS), and sunshine hours (SH). Usually, the influence of the climatic parameters and a dominating climatic factor influencing ETo is estimated on yearly basis. However, in diverse climatic regions, ETo varies with the varying climate. Therefore, this study aims to estimate the spatiotemporal variation in the influence of the climatic parameters on ETo in Punjab, Pakistan, for the period 1950–2021, specifically focusing on decennial, annual, and monthly patterns. The study area was divided into five agroclimatic zones. The Penman–Monteith model was used to estimate ETo. The influence was assessed using geographic weighted regression (GWR) and multiscale geographic weighted regression (MGWR) as the primary methods. As per results from MGWR, ETo in Punjab was highly influenced by the Tmin, Tmax, and WS. Additionally, annual ETo exhibited a higher value in southern Punjab in comparison to northern Punjab, with a range of 2975 mm/year in the cotton–wheat zone to 1596 mm/year in the rain-fed zone. Over the course of the past seventy years, Punjab experienced an average increasing slope of 5.18 mm/year in ETo. Tmin was the highest monthly dominant factor throughout the year, whereas WS and SH were recorded to be the dominant factor in the winters, specifically. All in all, accurate estimation of ETo, which serves as an essential component for crop water requirement, could potentially help improve the irrigation scheduling of crops in the agroclimatic zones.
AbstractList	Estimation of reference evapotranspiration (ETo) is a key element in water resources management and crop water requirement which, in turn, affects irrigation scheduling. ETo is subject to the influence of various climatic parameters including minimum temperature (Tmin), maximum temperature (Tmax), relative humidity (RH), windspeed (WS), and sunshine hours (SH). Usually, the influence of the climatic parameters and a dominating climatic factor influencing ETo is estimated on yearly basis. However, in diverse climatic regions, ETo varies with the varying climate. Therefore, this study aims to estimate the spatiotemporal variation in the influence of the climatic parameters on ETo in Punjab, Pakistan, for the period 1950–2021, specifically focusing on decennial, annual, and monthly patterns. The study area was divided into five agroclimatic zones. The Penman–Monteith model was used to estimate ETo. The influence was assessed using geographic weighted regression (GWR) and multiscale geographic weighted regression (MGWR) as the primary methods. As per results from MGWR, ETo in Punjab was highly influenced by the Tmin, Tmax, and WS. Additionally, annual ETo exhibited a higher value in southern Punjab in comparison to northern Punjab, with a range of 2975 mm/year in the cotton–wheat zone to 1596 mm/year in the rain-fed zone. Over the course of the past seventy years, Punjab experienced an average increasing slope of 5.18 mm/year in ETo. Tmin was the highest monthly dominant factor throughout the year, whereas WS and SH were recorded to be the dominant factor in the winters, specifically. All in all, accurate estimation of ETo, which serves as an essential component for crop water requirement, could potentially help improve the irrigation scheduling of crops in the agroclimatic zones. Estimation of reference evapotranspiration (ETₒ) is a key element in water resources management and crop water requirement which, in turn, affects irrigation scheduling. ETₒ is subject to the influence of various climatic parameters including minimum temperature (Tₘᵢₙ), maximum temperature (Tₘₐₓ), relative humidity (RH), windspeed (WS), and sunshine hours (SH). Usually, the influence of the climatic parameters and a dominating climatic factor influencing ETₒ is estimated on yearly basis. However, in diverse climatic regions, ETₒ varies with the varying climate. Therefore, this study aims to estimate the spatiotemporal variation in the influence of the climatic parameters on ETₒ in Punjab, Pakistan, for the period 1950–2021, specifically focusing on decennial, annual, and monthly patterns. The study area was divided into five agroclimatic zones. The Penman–Monteith model was used to estimate ETₒ. The influence was assessed using geographic weighted regression (GWR) and multiscale geographic weighted regression (MGWR) as the primary methods. As per results from MGWR, ETₒ in Punjab was highly influenced by the Tₘᵢₙ, Tₘₐₓ, and WS. Additionally, annual ETₒ exhibited a higher value in southern Punjab in comparison to northern Punjab, with a range of 2975 mm/year in the cotton–wheat zone to 1596 mm/year in the rain-fed zone. Over the course of the past seventy years, Punjab experienced an average increasing slope of 5.18 mm/year in ETₒ. Tₘᵢₙ was the highest monthly dominant factor throughout the year, whereas WS and SH were recorded to be the dominant factor in the winters, specifically. All in all, accurate estimation of ETₒ, which serves as an essential component for crop water requirement, could potentially help improve the irrigation scheduling of crops in the agroclimatic zones. Estimation of reference evapotranspiration (ET[sub.o]) is a key element in water resources management and crop water requirement which, in turn, affects irrigation scheduling. ET[sub.o] is subject to the influence of various climatic parameters including minimum temperature (T[sub.min]), maximum temperature (T[sub.max]), relative humidity (RH), windspeed (WS), and sunshine hours (SH). Usually, the influence of the climatic parameters and a dominating climatic factor influencing ET[sub.o] is estimated on yearly basis. However, in diverse climatic regions, ET[sub.o] varies with the varying climate. Therefore, this study aims to estimate the spatiotemporal variation in the influence of the climatic parameters on ET[sub.o] in Punjab, Pakistan, for the period 1950–2021, specifically focusing on decennial, annual, and monthly patterns. The study area was divided into five agroclimatic zones. The Penman–Monteith model was used to estimate ET[sub.o]. The influence was assessed using geographic weighted regression (GWR) and multiscale geographic weighted regression (MGWR) as the primary methods. As per results from MGWR, ET[sub.o] in Punjab was highly influenced by the T[sub.min], T[sub.max], and WS. Additionally, annual ET[sub.o] exhibited a higher value in southern Punjab in comparison to northern Punjab, with a range of 2975 mm/year in the cotton–wheat zone to 1596 mm/year in the rain-fed zone. Over the course of the past seventy years, Punjab experienced an average increasing slope of 5.18 mm/year in ET[sub.o]. T[sub.min] was the highest monthly dominant factor throughout the year, whereas WS and SH were recorded to be the dominant factor in the winters, specifically. All in all, accurate estimation of ET[sub.o], which serves as an essential component for crop water requirement, could potentially help improve the irrigation scheduling of crops in the agroclimatic zones.
Audience	Academic
Author	Riaz, Nadia Imran, Muhammad Sultan, Muhammad Khan, Muhammad Usman Ashraf, Hadeed Shamshiri, Redmond R. Khalid, Bareerah Ibrahim, Sobhy M. Qamar, Saliha
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Snippet	Estimation of reference evapotranspiration (ETo) is a key element in water resources management and crop water requirement which, in turn, affects irrigation... Estimation of reference evapotranspiration (ET[sub.o]) is a key element in water resources management and crop water requirement which, in turn, affects... Estimation of reference evapotranspiration (ETₒ) is a key element in water resources management and crop water requirement which, in turn, affects irrigation...
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SubjectTerms	Agriculture Climate change climatic factors Cotton Crops Evapotranspiration geographic weighted regression Hydrology Irrigation Irrigation scheduling Methods multiscale geographic weighted regression Pakistan Parameters Precipitation reference evapotranspiration Relative humidity Remote sensing Rice Seasons solar radiation Temperature Variables water requirement Water resources Water resources management Wheat Wind Wind speed
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Title	Spatiotemporal Estimation of Reference Evapotranspiration for Agricultural Applications in Punjab, Pakistan
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