1. Efficacy evaluation of apple sunburn mitigation techniques in WA 38 cultivar using crop physiology sensing system.
- Author
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Ranjan, Rakesh, Amogi, Basavaraj R., Chandel, Abhilash K., Khot, Lav R., Sallato, Bernardita V., and Troy Peters, R.
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CROP physiology , *EVAPORATIVE cooling , *SUNBURN , *FRUIT quality , *SURFACE temperature , *ORCHARDS , *APPLES - Abstract
• Crop physiology sensing system was upgraded (CPS2.0) for season-long sunburn monitoring. • Aerial thermal-RGB imaging was conducted to map canopy level heat-stress. • Modified evaporative cooling (EC) and shade net (SN) treatments were evaluated. • Fruit qualities were analyzed to evaluate the efficacy of sunburn management treatments. • SN and wet EC effectively reduced the fruit surface temperature and improved the fruit quality. This study evaluated the efficacy of two heat stress mitigation techniques, i.e., modified evaporative cooling (EC), and drape/shade net (SN) against untreated control (UC) in terms of fruit surface temperature (FST) suppression and internal fruit quality for cv. WA 38. The EC treatment used foggers (flow rate: 4.1 L s−1 ha−1) spaced at 3.3 m along the row to create mist within the canopy. The experiment was conducted in a 0.2 acre block planted on two randomly distributed rootstocks [Geneva 41 (G41) and Malling 9-Nic 29 (M9)], trained in a bi-axis vertical wall architecture. Treatments were divided into three sub-blocks. Alternate wet and dry zones were observed in the sub-block treated with fogger-based EC and was therefore subdivided into EC-Wet and EC-Dry treatments. The proximal thermal-RGB imaging and in-field weather sensing integrated crop physiology sensing system (CPS2.0) was upgraded with edge computing capability to monitor real-time apple FST, an indicator of heat stress. Deployed nodes monitored imagery and weather data based FST in each treatment at an interval of 5-min throughout the growing season (i.e., during fruit maturation). Aerial imagery-based canopy temperature mapping with ground sampling distance of 4 cm/pixel was also utilized to monitor the canopy heat stress at key growth stages. CPS2.0 imagery derived apple FST was effectively reduced by EC-Wet (G41: 27.1 ± 0.4 and M9: 28.8 ± 0.4 °C) (mean ± std. error) and SN (G41: 29.8 ± 0.2 and M9: 30.5 ± 0.1 °C) treatments compared to the UC (G41: 33.1 ± 0.2 and M9: 31.4 ± 0.4 °C) throughout the production season. However, convective cooling from EC-Dry (G41: 33.1 ± 0.2 and M9: 32.5 ± 0.2 °C) treatment failed to mitigate heat stress. Results suggest that fogger spacing, and orientation need adjustments along tree-rows for effective sunburn management. Overall, canopy temperature quantified by aerial imagery was significantly lower under modified EC (30.3 ± 1.3 °C) than UC (34.2 ± 1.3 °C) treatment. Compared to UC, EC-Wet and SN protection enhanced fruit quality with higher or similar crop load, fruit firmness, and quality. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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