Electronic Sensor-Based Automated Irrigation System for Rice Cultivated Under Alternate Wetting and Drying Technique
Rice is a water-intensive crop, conventionally grown under submerged conditions, with standing water for about 80% of its growth period. There is an urgent need for water-saving technologies to address challenges associated with conventional irrigation techniques for rice. The alternate wetting and...
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MDPI AG
2024-12-01
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| author | Mukesh Kumar Ramesh Kumar Sahni Abhishek M. Waghaye Manoj Kumar Ravindra D. Randhe |
| author_facet | Mukesh Kumar Ramesh Kumar Sahni Abhishek M. Waghaye Manoj Kumar Ravindra D. Randhe |
| author_sort | Mukesh Kumar |
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| description | Rice is a water-intensive crop, conventionally grown under submerged conditions, with standing water for about 80% of its growth period. There is an urgent need for water-saving technologies to address challenges associated with conventional irrigation techniques for rice. The alternate wetting and drying (AWD) technique is one of these water-saving techniques; however, it requires continuous monitoring of water levels in the field. The implementation of real-time, electronic sensor-based precision irrigation technology may address the problems associated with conventional irrigation systems and AWD leading to high water use efficiency. Therefore, a study was undertaken to develop a suitable sensor-based automated irrigation system to maintain optimal water levels in rice fields. This study conceptualized an electronic sensor-based automated irrigation system for rice cultivated under the AWD technique. In this method, the rice field is initially flooded to a maximum depth of 5 cm. Irrigation is reapplied once the water level reduces to 10 cm below the soil surface. This developed system helps address water scarcity by regulating water levels, preventing excess ponding. It uses magnetic float-based sensors and electronic circuits to detect water levels, converting them into electronic signals transmitted wirelessly via radio frequency (RF) to a controller. The controller has been programmed for different growth stages that need to be set manually during the cropping period. The system is designed primarily for the AWD method but includes an option for continuous ponding (CP), needed during the flowering stage. The maximum water level at full maturity is set at 5 cm above the soil surface, while irrigation with the AWD method begins when the water level falls 10 cm below the soil surface. The developed system was tested during the Kharif season of 2018–19; the irrigation water productivity was 6.15 kg ha<sup>−1</sup>mm<sup>−1</sup> with the automated system, compared to 3.06 kg ha<sup>−1</sup>mm<sup>−1</sup> in the control (continuous ponding). Total water productivity was 4.80 kg ha<sup>−1</sup>mm<sup>−1</sup> for the automated system and 2.63 kg ha<sup>−1</sup>mm<sup>−1</sup> for the control. The automated system achieved 36% more water savings over the control, which used continuous ponding as farmers practice. The developed system supports AWD, a proven water-saving technique in rice cultivation. |
| format | Article |
| id | doaj-art-a03668f5dcb9474881c753bcbaac5e8a |
| institution | OA Journals |
| issn | 2624-7402 |
| language | English |
| publishDate | 2024-12-01 |
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| series | AgriEngineering |
| spelling | doaj-art-a03668f5dcb9474881c753bcbaac5e8a2025-08-20T02:01:01ZengMDPI AGAgriEngineering2624-74022024-12-01644720473810.3390/agriengineering6040270Electronic Sensor-Based Automated Irrigation System for Rice Cultivated Under Alternate Wetting and Drying TechniqueMukesh Kumar0Ramesh Kumar Sahni1Abhishek M. Waghaye2Manoj Kumar3Ravindra D. Randhe4Irrigation and Drainage Engineering Division, ICAR-Central Institute of Agricultural Engineering, Nabibagh, Bhopal 462038, IndiaAgricultural Mechanization Division, ICAR-Central Institute of Agricultural Engineering, Nabibagh, Bhopal 462038, IndiaIrrigation and Drainage Engineering Division, ICAR-Central Institute of Agricultural Engineering, Nabibagh, Bhopal 462038, IndiaAgricultural Mechanization Division, ICAR-Central Institute of Agricultural Engineering, Nabibagh, Bhopal 462038, IndiaIrrigation and Drainage Engineering Division, ICAR-Central Institute of Agricultural Engineering, Nabibagh, Bhopal 462038, IndiaRice is a water-intensive crop, conventionally grown under submerged conditions, with standing water for about 80% of its growth period. There is an urgent need for water-saving technologies to address challenges associated with conventional irrigation techniques for rice. The alternate wetting and drying (AWD) technique is one of these water-saving techniques; however, it requires continuous monitoring of water levels in the field. The implementation of real-time, electronic sensor-based precision irrigation technology may address the problems associated with conventional irrigation systems and AWD leading to high water use efficiency. Therefore, a study was undertaken to develop a suitable sensor-based automated irrigation system to maintain optimal water levels in rice fields. This study conceptualized an electronic sensor-based automated irrigation system for rice cultivated under the AWD technique. In this method, the rice field is initially flooded to a maximum depth of 5 cm. Irrigation is reapplied once the water level reduces to 10 cm below the soil surface. This developed system helps address water scarcity by regulating water levels, preventing excess ponding. It uses magnetic float-based sensors and electronic circuits to detect water levels, converting them into electronic signals transmitted wirelessly via radio frequency (RF) to a controller. The controller has been programmed for different growth stages that need to be set manually during the cropping period. The system is designed primarily for the AWD method but includes an option for continuous ponding (CP), needed during the flowering stage. The maximum water level at full maturity is set at 5 cm above the soil surface, while irrigation with the AWD method begins when the water level falls 10 cm below the soil surface. The developed system was tested during the Kharif season of 2018–19; the irrigation water productivity was 6.15 kg ha<sup>−1</sup>mm<sup>−1</sup> with the automated system, compared to 3.06 kg ha<sup>−1</sup>mm<sup>−1</sup> in the control (continuous ponding). Total water productivity was 4.80 kg ha<sup>−1</sup>mm<sup>−1</sup> for the automated system and 2.63 kg ha<sup>−1</sup>mm<sup>−1</sup> for the control. The automated system achieved 36% more water savings over the control, which used continuous ponding as farmers practice. The developed system supports AWD, a proven water-saving technique in rice cultivation.https://www.mdpi.com/2624-7402/6/4/270rice irrigationalternate wetting and dryingautomated irrigation systemwater level sensorponding water |
| spellingShingle | Mukesh Kumar Ramesh Kumar Sahni Abhishek M. Waghaye Manoj Kumar Ravindra D. Randhe Electronic Sensor-Based Automated Irrigation System for Rice Cultivated Under Alternate Wetting and Drying Technique AgriEngineering rice irrigation alternate wetting and drying automated irrigation system water level sensor ponding water |
| title | Electronic Sensor-Based Automated Irrigation System for Rice Cultivated Under Alternate Wetting and Drying Technique |
| title_full | Electronic Sensor-Based Automated Irrigation System for Rice Cultivated Under Alternate Wetting and Drying Technique |
| title_fullStr | Electronic Sensor-Based Automated Irrigation System for Rice Cultivated Under Alternate Wetting and Drying Technique |
| title_full_unstemmed | Electronic Sensor-Based Automated Irrigation System for Rice Cultivated Under Alternate Wetting and Drying Technique |
| title_short | Electronic Sensor-Based Automated Irrigation System for Rice Cultivated Under Alternate Wetting and Drying Technique |
| title_sort | electronic sensor based automated irrigation system for rice cultivated under alternate wetting and drying technique |
| topic | rice irrigation alternate wetting and drying automated irrigation system water level sensor ponding water |
| url | https://www.mdpi.com/2624-7402/6/4/270 |
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