著者
金子 修治 城塚 可奈子 磯部 武志
出版者
関西病虫害研究会
雑誌
関西病虫害研究会報 (ISSN:03871002)
巻号頁・発行日
vol.63, pp.155-158, 2021-05-31 (Released:2021-09-01)
参考文献数
8
被引用文献数
1 1

We aimed to easily make an automatic monitoring insect trap by combining a commercially available IoT monitoring camera with a sticky pheromone trap that was assembled from parts of commercially available sticky traps in order to grasp the number of daily trap catches of insect pests on the same day. This trap is hereafter referred to as the IoT camera-equipped sticky pheromone trap. In the present study, we applied the IoT camera-equipped sticky pheromone trap to Spodoptera exigua (Hübner) and examined whether it was possible to record the daily catches of S. exigua males by the trap. According to the predetermined settings, the IoT camera automatically took a picture (3 million pixels) of the sticky board capturing S. exigua males at 9:00 AM and then immediately sent the image with lowered resolution (0.3 million pixels) to a designated e-mail address via mobile networks (LTE) of a cellular carrier (NTT docomo). Trapped S. exigua males appearing in the sent images of the sticky board could be distinguished from other insects and counted on the monitor screen of a personal computer. The number of trapped males was also counted by directly checking the sticky board in the field every 2–4 days. On each day that trapped S. exigua males were directly counted in the field, the number of S. exigua males coincided with that counted through viewing the e-mailed image. These results suggest that the daily catches of S. exigua males can be grasped using the IoT camera-equipped sticky pheromone trap. Thus, this trap might be useful for monitoring the daily occurrence of insect pests, but this needs to be verified by applying it to various insect pest species.
著者
城塚 可奈子 水野 彩夏 柴尾 学
出版者
関西病虫害研究会
雑誌
関西病虫害研究会報 (ISSN:03871002)
巻号頁・発行日
vol.60, pp.157-160, 2018-05-31 (Released:2018-09-01)
参考文献数
19
被引用文献数
3 1

Enclosing with a red insect-proof net and defuse-reflection mulch sheets were set up in an open fig orchards in Osaka Prefecture in 2017. The dominant thrips species found on the sticky color traps were Thrips tabaci Lindeman from late May to early June and Frankliniella intonsa (Trybom) from mid-June to mid-July. Thrips hawaiiensis (Morgan) was dominant inside fig fruits. The use of these materials effectively prevented thrips from immigrating into the fig orchards, reducing population numbers and infestation of figs. We recommend placing these materials by the middle of May.