Estimación de la evapotranspiración con fines de riego en tiempo real de un olivar a partir de imágenes de un drone en zonas áridas, caso La Yarada, Tacna, Perú

Machaca-Pillaca, Rrody; Pino-Vargas, Edwin; Fernández, Lía Ramos; Quille-Mamani, Javier; Torres‐Rua, Alfonso F.

doi:10.4067/s0718-34292022000200055

Cited by 8 publications

(8 citation statements)

References 18 publications

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“…This would allow a reduction in data collection time. This is in agreement with Machaca et al [27], who used four coverages (bare soil, leaf litter, grass, and thawed water) with an R 2 of 0.97, and Torres-Rua [28], who used three coverages (bare soil, short green canopy, and tall canopy) with an R 2 between 0.58 and 0.95.…”

Section: Field Measurements 231 Thermal Imaging and Processingsupporting

confidence: 90%

Water Stress Index and Stomatal Conductance under Different Irrigation Regimes with Thermal Sensors in Rice Fields on the Northern Coast of Peru

Ramos-Fernández,

Gonzales-Quiquia,

Huanuqueño-Murillo

et al. 2024

Remote Sensing

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In the face of the climate change crisis, the increase in air temperature negatively impacts rice crop productivity due to stress from water scarcity. The objective of this study was to determine the rice crop water stress index (CWSI) and stomatal conductance (Gs) under different irrigation regimes, specifically continuous flood irrigation treatments (CF) and irrigations with alternating wetting and drying (AWD) at water levels of 5 cm, 10 cm, and 20 cm below the soil surface (AWD5, AWD10, and AWD20) in an experimental area of INIA-Vista Florida and in six commercial areas of the Lambayeque region using thermal images captured with thermal sensors. The results indicated that AWD irrigation generated more water stress, with CWSI values between 0.4 and 1.0. Despite this, the yields were similar in CF and AWD20. In the commercial areas, CWSI values between 0.38 and 0.51 were obtained, with Santa Julia having the highest values. Furthermore, a strong Pearson correlation (R) of 0.91 was established between the CWSI and Gs, representing a reference scale based on Gs values for evaluating water stress levels.

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Section: Field Measurements 231 Thermal Imaging and Processingsupporting

confidence: 90%

Water Stress Index and Stomatal Conductance under Different Irrigation Regimes with Thermal Sensors in Rice Fields on the Northern Coast of Peru

Ramos-Fernández,

Gonzales-Quiquia,

Huanuqueño-Murillo

et al. 2024

Remote Sensing

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“…It has a temperate-warm, desert climate with mean annual maximum and minimum temperatures (1950-2024 period) of 23.6 • C and 12.7 • C (Figure 2). Annual rainfall is scarce and even non-existent, characteristic of the driest desert in the world [8,[31][32][33]; the water deficit does not allow agricultural demands to be met, so groundwater is used almost entirely. Moreover, the predominant crop is the olive tree, which faces extreme stress conditions, with planting frames of 5 × 5, 7 × 7 and 10 × 10 m, mostly under drip irrigation [7].…”

Section: Study Areamentioning

confidence: 99%

“…The predominant tree crop is the olive tree [7]. The timing, duration and intensity of water restrictions significantly affect the growth and production of olive trees, affecting the process of fruit development [6,8].…”

Section: Introductionmentioning

confidence: 99%

Spatio-Temporal Evolution of Olive Tree Water Status Using Land Surface Temperature and Vegetation Indices Derived from Landsat 5 and 8 Satellite Imagery in Southern Peru

Quille-Mamani,

Huayna,

Pino-Vargas

et al. 2024

Agriculture

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Land surface temperature (LST) and its relationship with vegetation indices (VIs) have proven to be effective for monitoring water stress in large-scale crops. Therefore, the objective of this study is to find an appropriate VI to analyse the spatio-temporal evolution of olive water stress using LST images and VIs derived from Landsat 5 and 8 satellites in the semi-arid region of southern Peru. For this purpose, VIs (Normalised Difference Vegetation Index (NDVI), Enhanced Vegetation Index 2 (EVI2) and Soil Adjusted Vegetation Index (SAVI)) and LST were calculated. The information was processed in Google Earth Engine (GEE) for the period 1985 to 2024, with an interval of every five years for the summer season. The triangle method was applied based on the LST-VIs scatterplot analysis, a tool that establishes wet and dry boundary conditions for the Temperature Vegetation Dryness Index (TVDI). The results indicated a better appreciation of olive orchard water stress over time, with an average of 39% drought (TVDINDVI and TVDISAVI), 24% severe drought (TVDINDVI) and 25% (TVDISAVI) of the total area, compared to TVDIEVI2, which showed 37% drought and 16% severe drought. It is concluded that TVDINDVI and TVDISAVI provide a better visualisation of the water stress map of the olive crop and offer a range of options to address current and future problems in water resource management in the olive sector in semi-arid areas of southern Peru.

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“…Para la calibración radiométrica de las imágenes multiespectrales, se utilizó un panel de reflectancia calibrada (tarjeta AIRNOV) y un sensor de luz solar (Sushine) que ajusta automáticamente las lecturas a la luz ambiental. Además, se aplicó la ecuación de calibración obtenidos de la corrección de la cámara multiespectral con un espectrorradiómetro (Machaca-Pillaca et al, 2022). La calibración atmosférica se realizó a las imágenes térmicas, con el software Flir vue Pro se registraron los datos de temperatura del ambiente, humedad relativa y emisividad (Durán Gómez et al, 2021).…”

Section: Colecta De Imágenes Multiespectrales Térmicas Y Rgbunclassified

“…El albedo se calculó como la media entre las reflectancias normalizadas de las bandas Rojo (R) e infrarrojo cercano (IRC) de las imágenes multiespectrales (Machaca-Pillaca et al, 2022;Quille-Mamani et al, 2021;Tsouni et al, 2008). En relación con las variables internas de la Rn, es importante destacar que se utilizaron las ecuaciones propuestas por Allen et al (2007).…”

Section: Le = Rn -G -Hunclassified

RPAS para precisión de la evapotranspiración en arrozales y reducir el consumo de agua

Quispe-Tito,

Ramos-Fernández,

Pino-Vargas

et al. 2024

Agron. Mesoam.

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Introducción. La estimación de la evapotranspiración del cultivo (ETc) permite conocer los requerimientos de agua del cultivo, que ayudan a proponer técnicas de riego con ahorro de agua. Objetivo. Usar el Sistema de Aeronave Pilotada Remotamente (RPAs) para mayor precisión de la evapotranspiración en arrozales a fin de reducir el consumo de agua. Materiales y métodos. La distribución de parcelas siguió un diseño de bloques completamente al azar con estructura factorial de dos experimentos, riego inundado (E1) y riego con secas controladas (E2), con tres variedades de arroz (IR43, IR71706, Sahod Ulan 12) en el Área Experimental de Riego (AER) de la Unalm. Se realizó ocho vuelos, de un RPAs, distribuidos entre las etapas de macollamiento y punto de algodón, en enero y febrero del 2019. Resultados. El análisis combinado de tratamientos con análisis de varianza y prueba de Duncan con p < 0,05, reveló diferencia significativa de la ETc, entre E1 y E2; Sin embargo, no se encontró diferencia significancia entre las variedades de arroz. Se obtuvo valores máximos de ETc y rendimiento para E1 de 4,50 (mm/d), 10389 (Kg/ha) y para E2 de 3,7 (mm/d), 9710 Kg/ha), respectivamente. Conclusiones. El uso de un sistema de aeronave pilotada remotamente permitió mejorar la resolución temporal y espacial de las imágenes multiespectrales y térmicas para obtener mayor precisión en la evapotranspiración del cultivo (ETc) bajo dos regímenes de riego. En el riego con secas controladas se obtuvo una reducción del 24 % de la ETc lo que permitió un ahorro de agua de 855 m3/ha.

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Estimación de la evapotranspiración con fines de riego en tiempo real de un olivar a partir de imágenes de un drone en zonas áridas, caso La Yarada, Tacna, Perú

Cited by 8 publications

References 18 publications

Water Stress Index and Stomatal Conductance under Different Irrigation Regimes with Thermal Sensors in Rice Fields on the Northern Coast of Peru

Water Stress Index and Stomatal Conductance under Different Irrigation Regimes with Thermal Sensors in Rice Fields on the Northern Coast of Peru

Spatio-Temporal Evolution of Olive Tree Water Status Using Land Surface Temperature and Vegetation Indices Derived from Landsat 5 and 8 Satellite Imagery in Southern Peru

RPAS para precisión de la evapotranspiración en arrozales y reducir el consumo de agua

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