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Authors: | Haozhe Zhang, Long He, F. Di Gioia |
Keywords: | automated irrigation systems, matrix water potential, precision agriculture, smart agricultural technology, volumetric water content, water management |
DOI: | 10.17660/ActaHortic.2023.1377.79 |
Abstract:
Internet of things (IoT) sensor-based precision irrigation technologies offer the opportunity to enhance yield, quality, and resource use efficiency of current crop production systems allowing automated, real-time, site-specific, dynamic management of water inputs.
A greenhouse study was conducted to evaluate the efficacy of an IoT sensor-based irrigation system employing low-cost and easy to implement LoRaWAN (long range wide-area network) technology for the automated irrigation management of ‘Italian Genovese’ basil grown in a peat and perlite medium soilless system.
The IoT sensor-based irrigation system was implemented using soil matrix water potential (MP) sensors set to start irrigation at -15 kPa (MP-15) and -25 kPa (MP-25), and volumetric water content (VWC) sensors set to start irrigation at 20% VWC. The performance of the IoT sensor-based irrigation systems was compared to that of pre-set timer-based irrigation scheduling in terms of system feasibility, plant growth and physiology, yield, and quality.
Regardless the type of sensor and irrigation threshold used, the tested IoT sensor-based irrigation systems ensured a more efficient management of water inputs compared to the timer-based irrigation scheduling.
IoT sensor-based irrigation resulted in higher total plant fresh and dry weight and leaf area compared to timer-based irrigation scheduling.
The more efficient water management ensured by the IoT sensor-based irrigation systems allowed to preserve better nitrogen resources available in the growing medium compared to the timer-based irrigation scheduling, thereby affecting leaf SPAD index, color, and plant nutrient accumulation at harvest.
The present study suggests that LoRaWAN IoT sensor-based precision irrigation system implemented using soil matric water potential and/or water volumetric sensors is an effective solution for the real-time automated management of irrigation or fertigation in medium-based soilless crops and have great potential for enhancing the resource use efficiency and sustainability of current soilless production systems.
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