Risk mapping of redheaded cockchafer (Adoryphorus couloni) (Burmeister) infestations using a combination of novel k-means clustering and on-the-go plant and soil sensing technologies

Cosby A. M.; Falzon G. A.; Trotter M. G.; Stanley J. N.; Powell K. S.; Lamb D. W.

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Risk mapping of redheaded cockchafer (Adoryphorus couloni) (Burmeister) infestations using a combination of novel k-means clustering and on-the-go plant and soil sensing technologies

机译：红发金龟子（Adoryphorus couloni）（Burmeister）侵染的风险图谱，结合新颖的k均值聚类和移动植物和土壤传感技术

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The ability to identify areas of pasture that are more likely to support damaging levels of the soil-borne, redheaded cockchafer (Adoryphorus couloni) (Burmeister) (RHC) would allow farmers to target expensive control measures. This study explored soil properties, measured via electromagnetic surveys (EM38), pasture biomass via active optical sensors (CropCircle (TM)) and topography via GPS elevation survey as potential indicators of RHC population density. A combination of these variables was used to produce risk maps with an accuracy of 88 % at predicting likely RHC density-categories on a dairy property in the Gippsland region of Victoria, Australia. This risk mapping protocol could be used to improve sampling programs and direct site-specific pest management.

机译：能够确定更可能支持土壤传播的红发金龟子（Adoryphorus couloni）（Burmeister）（RHC）破坏程度的牧场的能力将使农民能够针对昂贵的控制措施。这项研究探索了通过电磁测量（EM38）测量的土壤特性，通过有源光学传感器（CropCircle（TM））测量的牧场生物量以及通过GPS高程测量作为RHC人口密度的潜在指标的地形。在预测澳大利亚维多利亚州吉普斯兰地区乳制品业可能的RHC密度类别时，使用这些变量的组合来生成风险图，其准确性为88％。该风险图谱协议可用于改进采样程序和直接针对特定地点的有害生物管理。

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《Precision Agriculture》 |2016年第1期|共17页
作者
Cosby A. M.; Falzon G. A.; Trotter M. G.; Stanley J. N.; Powell K. S.; Lamb D. W.;
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正文语种 eng
中图分类农业科学;
关键词
Site-specific management; Risk mapping; Normalised difference vegetation index; Soil electrical conductivity;

机译：特定地点管理;风险图;归一化植被指数;土壤电导率;
入库时间 2022-08-18 16:56:57

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1. Risk mapping of redheaded cockchafer (Adoryphorus couloni) (Burmeister) infestations using a combination of novel k-means clustering and on-the-go plant and soil sensing technologies [J] . Cosby A. M., Falzon G. A., Trotter M. G., Precision Agriculture . 2016,第1期

机译：红发金龟子（Adoryphorus couloni）（Burmeister）侵染的风险图谱，结合新颖的k均值聚类和移动植物和土壤传感技术
2. Field evaluation of the entomogenous fungus Metarhizium anisopliae (DAT F-001) as a biocontrol agent for the redheaded pasture cockchafer, Adoryphorus couloni (Coleoptera: Scarabaeidae) [J] . Crop and Pasture Science . 1995,第2期

机译：昆虫致病真菌Metarhizium anisopliae（DAT F-001）作为红发牧场金龟子Adoryphorus couloni（鞘翅目：Scarabaeidae）的生物防治剂的现场评估
3. Evaluation of sensing technologies for on-the-go detection of macro-nutrients in cultivated soils [J] . Sinfield Joseph V., Fagerman Daniel, Colic Oliver Computers and Electronics in Agriculture . 2010,第1期

机译：持续检测耕作土壤中的常量营养素的传感技术评估
4. Detection of soil borne pathogens in coffee plantations by modified k-means clustering [C] . Krishnan Murali, Jabert G. 2013 1st International Conference on Optical Imaging Sensor and Security . 2013

机译：改进的K-均值聚类法检测咖啡种植园中土壤传播的病原体
5. Development of on-the-go soil sensing technology for mapping soil pH, potassium and nitrate contents. [D] . Sethuramasamyraja, Balaji. 2006

机译：用于绘制土壤pH，钾和硝酸盐含量的移动土壤传感技术的开发。
6. Contemporary Remotely Sensed Data Products Refine Invasive Plants Risk Mapping in Data Poor Regions [O] . Tuyet T. A. Truong, Giles E. St. J. Hardy, Margaret E. Andrew -1

机译：当代的遥感数据产品完善了数据贫困地区的入侵植物风险图谱
7. Remote Sensing Time-Series Analysis, Machine Learning, and K-Means Clustering Improves Dryland Vegetation and Biological Soil Crust Classification [O] . Joshua Enterkine -1

机译：遥感时间序列分析，机器学习和K均值集群改善了旱地植被和生物土壤地壳分类

Risk mapping of redheaded cockchafer (Adoryphorus couloni) (Burmeister) infestations using a combination of novel k-means clustering and on-the-go plant and soil sensing technologies

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