Water consumption by agriculture in Latin America and the Caribbean: impact of climate change and applications of nuclear and isotopic techniques

Water consumption by agriculture in Latin America and the Caribbean: impact of climate change and applications of nuclear and isotopic techniques

Abstract The main aim of this review is to examine agricultural water consumption in the Latin American and Caribbean (LAC) regions to understand how climate change will impact water availability and how the application of nuclear and stable isotope techniques can be used as tools for improving water use efficiency (WUE) for crop production. The status of agricultural water management in some LAC countries, such as Argentina, Brazil, Chile, Costa Rica, Cuba, Mexico, Panama, Paraguay, Peru and Uruguay, is also reviewed. In the LAC region, water consumption for agricultural irrigation ranged between 35% and 86% of the total available water. However, the WUE is very low in some LAC countries. Although the region, in general, has adequate water resources, there is still a need to improve WUE to increase the productivity of agricultural water. The impact of climate change in some LAC countries may lead to intensification and expansion of agricultural activity. In these areas, the WUE can be improved through soil and water conservation, minimizing soil evaporation (E), as well as through better irrigation management, especially by using an integrated approach on an area-wide basis to manage all land use activities and farming systems within an agricultural catchment. Nuclear and stable isotope techniques using Keeling Plot or IMB methods can play important roles in improving WUE in agriculture in LAC countries by providing information related to soil water losses for improving irrigation systems.

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Main Authors: Salazar,Osvaldo, Chinchilla-Soto,Cristina, Santos-Villalobos,Sergio de los, Ayala,Marisol, Benavides,Luciano, Berriel,Verónica, Cardoso,Renan, Chavarrí,Eduardo, Anjos,Roberto Meigikos dos, González,Alba Liz, Nario,Adriana, Samudio,Antonio, Villarreal,José, Sibello-Hernández,Rita, Govan,Joseph, Heng,Lee
Format: Digital revista
Language:English
Published: Pontificia Universidad Católica de Chile.Facultad de Agronomía e Ingeniería Forestal 2022
Online Access:http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S2452-57312022000100001
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spelling oai:scielo:S2452-573120220001000012022-05-23Water consumption by agriculture in Latin America and the Caribbean: impact of climate change and applications of nuclear and isotopic techniquesSalazar,OsvaldoChinchilla-Soto,CristinaSantos-Villalobos,Sergio de losAyala,MarisolBenavides,LucianoBerriel,VerónicaCardoso,RenanChavarrí,EduardoAnjos,Roberto Meigikos dosGonzález,Alba LizNario,AdrianaSamudio,AntonioVillarreal,JoséSibello-Hernández,RitaGovan,JosephHeng,Lee Agricultural water management consumptive water use irrigation water use efficiency Abstract The main aim of this review is to examine agricultural water consumption in the Latin American and Caribbean (LAC) regions to understand how climate change will impact water availability and how the application of nuclear and stable isotope techniques can be used as tools for improving water use efficiency (WUE) for crop production. The status of agricultural water management in some LAC countries, such as Argentina, Brazil, Chile, Costa Rica, Cuba, Mexico, Panama, Paraguay, Peru and Uruguay, is also reviewed. In the LAC region, water consumption for agricultural irrigation ranged between 35% and 86% of the total available water. However, the WUE is very low in some LAC countries. Although the region, in general, has adequate water resources, there is still a need to improve WUE to increase the productivity of agricultural water. The impact of climate change in some LAC countries may lead to intensification and expansion of agricultural activity. In these areas, the WUE can be improved through soil and water conservation, minimizing soil evaporation (E), as well as through better irrigation management, especially by using an integrated approach on an area-wide basis to manage all land use activities and farming systems within an agricultural catchment. Nuclear and stable isotope techniques using Keeling Plot or IMB methods can play important roles in improving WUE in agriculture in LAC countries by providing information related to soil water losses for improving irrigation systems.info:eu-repo/semantics/openAccessPontificia Universidad Católica de Chile.Facultad de Agronomía e Ingeniería ForestalInternational journal of agriculture and natural resources v.49 n.1 20222022-04-01text/htmlhttp://www.scielo.cl/scielo.php?script=sci_arttext&pid=S2452-57312022000100001en10.7764/ijanr.v49i1.2342
institution SCIELO
collection OJS
country Chile
countrycode CL
component Revista
access En linea
databasecode rev-scielo-cl
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region America del Sur
libraryname SciELO
language English
format Digital
author Salazar,Osvaldo
Chinchilla-Soto,Cristina
Santos-Villalobos,Sergio de los
Ayala,Marisol
Benavides,Luciano
Berriel,Verónica
Cardoso,Renan
Chavarrí,Eduardo
Anjos,Roberto Meigikos dos
González,Alba Liz
Nario,Adriana
Samudio,Antonio
Villarreal,José
Sibello-Hernández,Rita
Govan,Joseph
Heng,Lee
spellingShingle Salazar,Osvaldo
Chinchilla-Soto,Cristina
Santos-Villalobos,Sergio de los
Ayala,Marisol
Benavides,Luciano
Berriel,Verónica
Cardoso,Renan
Chavarrí,Eduardo
Anjos,Roberto Meigikos dos
González,Alba Liz
Nario,Adriana
Samudio,Antonio
Villarreal,José
Sibello-Hernández,Rita
Govan,Joseph
Heng,Lee
Water consumption by agriculture in Latin America and the Caribbean: impact of climate change and applications of nuclear and isotopic techniques
author_facet Salazar,Osvaldo
Chinchilla-Soto,Cristina
Santos-Villalobos,Sergio de los
Ayala,Marisol
Benavides,Luciano
Berriel,Verónica
Cardoso,Renan
Chavarrí,Eduardo
Anjos,Roberto Meigikos dos
González,Alba Liz
Nario,Adriana
Samudio,Antonio
Villarreal,José
Sibello-Hernández,Rita
Govan,Joseph
Heng,Lee
author_sort Salazar,Osvaldo
title Water consumption by agriculture in Latin America and the Caribbean: impact of climate change and applications of nuclear and isotopic techniques
title_short Water consumption by agriculture in Latin America and the Caribbean: impact of climate change and applications of nuclear and isotopic techniques
title_full Water consumption by agriculture in Latin America and the Caribbean: impact of climate change and applications of nuclear and isotopic techniques
title_fullStr Water consumption by agriculture in Latin America and the Caribbean: impact of climate change and applications of nuclear and isotopic techniques
title_full_unstemmed Water consumption by agriculture in Latin America and the Caribbean: impact of climate change and applications of nuclear and isotopic techniques
title_sort water consumption by agriculture in latin america and the caribbean: impact of climate change and applications of nuclear and isotopic techniques
description Abstract The main aim of this review is to examine agricultural water consumption in the Latin American and Caribbean (LAC) regions to understand how climate change will impact water availability and how the application of nuclear and stable isotope techniques can be used as tools for improving water use efficiency (WUE) for crop production. The status of agricultural water management in some LAC countries, such as Argentina, Brazil, Chile, Costa Rica, Cuba, Mexico, Panama, Paraguay, Peru and Uruguay, is also reviewed. In the LAC region, water consumption for agricultural irrigation ranged between 35% and 86% of the total available water. However, the WUE is very low in some LAC countries. Although the region, in general, has adequate water resources, there is still a need to improve WUE to increase the productivity of agricultural water. The impact of climate change in some LAC countries may lead to intensification and expansion of agricultural activity. In these areas, the WUE can be improved through soil and water conservation, minimizing soil evaporation (E), as well as through better irrigation management, especially by using an integrated approach on an area-wide basis to manage all land use activities and farming systems within an agricultural catchment. Nuclear and stable isotope techniques using Keeling Plot or IMB methods can play important roles in improving WUE in agriculture in LAC countries by providing information related to soil water losses for improving irrigation systems.
publisher Pontificia Universidad Católica de Chile.Facultad de Agronomía e Ingeniería Forestal
publishDate 2022
url http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S2452-57312022000100001
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