Cargando…

In-Field Rainwater Harvesting Tillage in Semi-Arid Ecosystems: II Maize–Bean Intercrop Water and Radiation Use Efficiency

The purpose of this study was to evaluate alternative management practices such as in-field rainwater harvesting (IRWH) and intercropping techniques through conducting on-farm demonstrations. Seven homestead gardens in Thaba Nchu rural communities in the central part of South Africa were selected as...

Descripción completa

Detalles Bibliográficos
Autores principales: Tesfuhuney, Weldemichael, Ravuluma, Muthianzhele, Dzvene, Admire Rukudzo, Bello, Zaid, Andries, Fourie, Walker, Sue, Cammarano, Davide
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10459890/
https://www.ncbi.nlm.nih.gov/pubmed/37631131
http://dx.doi.org/10.3390/plants12162919
_version_ 1785097520425205760
author Tesfuhuney, Weldemichael
Ravuluma, Muthianzhele
Dzvene, Admire Rukudzo
Bello, Zaid
Andries, Fourie
Walker, Sue
Cammarano, Davide
author_facet Tesfuhuney, Weldemichael
Ravuluma, Muthianzhele
Dzvene, Admire Rukudzo
Bello, Zaid
Andries, Fourie
Walker, Sue
Cammarano, Davide
author_sort Tesfuhuney, Weldemichael
collection PubMed
description The purpose of this study was to evaluate alternative management practices such as in-field rainwater harvesting (IRWH) and intercropping techniques through conducting on-farm demonstrations. Seven homestead gardens in Thaba Nchu rural communities in the central part of South Africa were selected as demonstration trials. Two tillage systems, conventional (CON) and IRWH, as the main plot, and three cropping systems as sub-plot (sole maize and beans and intercropping) were used to measure water use and radiation use parameters. The water productivity (WP) of various treatments was positively related to the radiation use efficiency (RUE), and the degree of associations varied for different tillage systems. The water use in IRWH was higher by 15.1%, 8.3%, and 10.1% over the CON for sole maize and beans and intercropping, respectively. Similarly, the intercropping system showed water use advantages over the solely growing crops by 5% and 8% for maize and by 16% and 12% for beans under IRWH and CON tillage, respectively. Maximum RUE was found for sole maize and beans under IRWH, higher by 13% and 55% compared to the CON tillage, respectively. The RUE under IRWH tillage was estimated to be 0.65 and 0.39 g DM MJ(−1) in sole maize and intercropping, respectively. However, in sole and intercropped beans, the RUE showed higher values of 1.02 g DM MJ(−1) and 0.73 g DM MJ(−1), respectively. WP and RUE were associated with water deficits and proportional to lower radiation use. This relationship indicates that the intercepted radiation by plants for photosynthesis is directly related to the transpiration rate until radiation saturation occurs. Therefore, the higher water deficit and lesser efficiency in using the radiation available during the season can be improved by practicing IRWH techniques. Furthermore, in semi-arid areas, to enhance the efficiency of water and radiation usage in intercropping management, it is crucial to adjust plant population and sowing dates based on water availability and the onset of rainfall.
format Online
Article
Text
id pubmed-10459890
institution National Center for Biotechnology Information
language English
publishDate 2023
publisher MDPI
record_format MEDLINE/PubMed
spelling pubmed-104598902023-08-27 In-Field Rainwater Harvesting Tillage in Semi-Arid Ecosystems: II Maize–Bean Intercrop Water and Radiation Use Efficiency Tesfuhuney, Weldemichael Ravuluma, Muthianzhele Dzvene, Admire Rukudzo Bello, Zaid Andries, Fourie Walker, Sue Cammarano, Davide Plants (Basel) Article The purpose of this study was to evaluate alternative management practices such as in-field rainwater harvesting (IRWH) and intercropping techniques through conducting on-farm demonstrations. Seven homestead gardens in Thaba Nchu rural communities in the central part of South Africa were selected as demonstration trials. Two tillage systems, conventional (CON) and IRWH, as the main plot, and three cropping systems as sub-plot (sole maize and beans and intercropping) were used to measure water use and radiation use parameters. The water productivity (WP) of various treatments was positively related to the radiation use efficiency (RUE), and the degree of associations varied for different tillage systems. The water use in IRWH was higher by 15.1%, 8.3%, and 10.1% over the CON for sole maize and beans and intercropping, respectively. Similarly, the intercropping system showed water use advantages over the solely growing crops by 5% and 8% for maize and by 16% and 12% for beans under IRWH and CON tillage, respectively. Maximum RUE was found for sole maize and beans under IRWH, higher by 13% and 55% compared to the CON tillage, respectively. The RUE under IRWH tillage was estimated to be 0.65 and 0.39 g DM MJ(−1) in sole maize and intercropping, respectively. However, in sole and intercropped beans, the RUE showed higher values of 1.02 g DM MJ(−1) and 0.73 g DM MJ(−1), respectively. WP and RUE were associated with water deficits and proportional to lower radiation use. This relationship indicates that the intercepted radiation by plants for photosynthesis is directly related to the transpiration rate until radiation saturation occurs. Therefore, the higher water deficit and lesser efficiency in using the radiation available during the season can be improved by practicing IRWH techniques. Furthermore, in semi-arid areas, to enhance the efficiency of water and radiation usage in intercropping management, it is crucial to adjust plant population and sowing dates based on water availability and the onset of rainfall. MDPI 2023-08-11 /pmc/articles/PMC10459890/ /pubmed/37631131 http://dx.doi.org/10.3390/plants12162919 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Tesfuhuney, Weldemichael
Ravuluma, Muthianzhele
Dzvene, Admire Rukudzo
Bello, Zaid
Andries, Fourie
Walker, Sue
Cammarano, Davide
In-Field Rainwater Harvesting Tillage in Semi-Arid Ecosystems: II Maize–Bean Intercrop Water and Radiation Use Efficiency
title In-Field Rainwater Harvesting Tillage in Semi-Arid Ecosystems: II Maize–Bean Intercrop Water and Radiation Use Efficiency
title_full In-Field Rainwater Harvesting Tillage in Semi-Arid Ecosystems: II Maize–Bean Intercrop Water and Radiation Use Efficiency
title_fullStr In-Field Rainwater Harvesting Tillage in Semi-Arid Ecosystems: II Maize–Bean Intercrop Water and Radiation Use Efficiency
title_full_unstemmed In-Field Rainwater Harvesting Tillage in Semi-Arid Ecosystems: II Maize–Bean Intercrop Water and Radiation Use Efficiency
title_short In-Field Rainwater Harvesting Tillage in Semi-Arid Ecosystems: II Maize–Bean Intercrop Water and Radiation Use Efficiency
title_sort in-field rainwater harvesting tillage in semi-arid ecosystems: ii maize–bean intercrop water and radiation use efficiency
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10459890/
https://www.ncbi.nlm.nih.gov/pubmed/37631131
http://dx.doi.org/10.3390/plants12162919
work_keys_str_mv AT tesfuhuneyweldemichael infieldrainwaterharvestingtillageinsemiaridecosystemsiimaizebeanintercropwaterandradiationuseefficiency
AT ravulumamuthianzhele infieldrainwaterharvestingtillageinsemiaridecosystemsiimaizebeanintercropwaterandradiationuseefficiency
AT dzveneadmirerukudzo infieldrainwaterharvestingtillageinsemiaridecosystemsiimaizebeanintercropwaterandradiationuseefficiency
AT bellozaid infieldrainwaterharvestingtillageinsemiaridecosystemsiimaizebeanintercropwaterandradiationuseefficiency
AT andriesfourie infieldrainwaterharvestingtillageinsemiaridecosystemsiimaizebeanintercropwaterandradiationuseefficiency
AT walkersue infieldrainwaterharvestingtillageinsemiaridecosystemsiimaizebeanintercropwaterandradiationuseefficiency
AT cammaranodavide infieldrainwaterharvestingtillageinsemiaridecosystemsiimaizebeanintercropwaterandradiationuseefficiency