利用无人机系统对大豆病害进行早期检测

C. Brodbeck, E. Sikora, D. Delaney, G. Pate, J. Johnson
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引用次数: 12

摘要

随着对无人机系统(UAS)的兴趣增加,对这些系统在农业中的应用也越来越感兴趣。各种传感器,包括多光谱、近红外、热传感器和真彩色传感器,在安装到无人机上时,有可能使农民受益。但是由于这是一个新兴的领域,几乎没有可用的数据来证明它们在作物生产中用于早期检测植物病害。2016年,一项初步研究启动,旨在研究利用无人机的航空图像检测大豆作物病害的潜力。选择了阿拉巴马州的两块灌溉田:试验1为50公顷的农田,试验2为5公顷的农田。每个试验包括使用两种叶面杀菌剂处理和未处理对照的重复地块。在本研究中,每两周收集一次航空图像(多光谱和真彩色)。利用多光谱影像,生成归一化差异植被指数(NDVI)和归一化差异红边指数(NDRE),并与野外直接观测结果进行比较。每两周监测大豆锈病、炭腐病和斑孢叶枯病的严重程度,并与UAS图像进行相关。初步结果表明,利用无人机图像可以检测到植物的胁迫。实验1中,在NDRE图像中可以看到与木炭腐病相关的应力。这一点令人感兴趣,因为在飞行时,虽然注意到植物变黄,但根部和茎部的疾病本身并没有通过直接观察确定。试验2采用直接观测和NDRE、NDVI影像对大豆锈病进行观测。在试验2中,大豆锈病确实对产量产生了负面影响,但严重的干旱条件可能抵消了试验1中可能由木炭腐病引起的产量损失。
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Using Unmanned Aircraft Systems for Early Detection of Soybean Diseases
As the interest in Unmanned Aerial Systems (UAS) has increased, so has the interest in the application of these systems for use in agriculture. A variety of sensors, including Multi-Spectral, Near-Infrared, Thermal, and True-Color have the potential to benefit farmers when mounted to a UAS. But as this is an emerging field, there is little data available to demonstrate their use for early detection of plant diseases in crop production. In 2016, a preliminary study was launched to examine the potential of using aerial imagery from UAS to detect diseases in soybean crops. Two irrigated fields in Alabama were selected: Experiment 1, a 50-hectare field, and Experiment 2, a 5-hectare field. Each trial consisted of replicated plots using two foliar fungicide treatments and an untreated control. Aerial imagery (multi-spectral and true-color) was collected on a biweekly basis during this study. Using multi-spectral imagery, both the Normalized Difference Vegetative Index (NDVI) and Normalized Difference Red Edge Index (NDRE) were generated and compared to direct observations in the field. Disease severity of soybean rust, charcoal rot and Cercospora leaf blight were monitored on a biweekly basis and correlated to the UAS imagery. Preliminary results indicated plant stress can be detected using UAS imagery. In Experiment 1, stress associated with charcoal rot was visible in the NDRE imagery. This was of interest because at the time of flight, while it was noted that plants were yellowing, the root and stem disease itself had not been identified by direct observation. In Experiment 2, soybean rust was observed by direct observation and in both the NDRE and NDVI imagery. Soybean rust did have a negative impact on yield in Experiment 2, however severe drought conditions may have negated the yield loss likely caused by the development of charcoal rot in Experiment 1.
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Proceedings of the British Society of Animal Science Proceedings of the XIIIth International Symposium on Ruminant Physiology (ISRP 2019) Proceedings of the British Society of Animal Science Proceedings of the Seventeenth Biennial Conference of the Australasian Pig Science Association (APSA) Proceedings of the 9th Workshop on Modelling Nutrient Digestion and Utilization in Farm Animals (MODNUT)
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