The FAIR-Device - a non-lethal and generalist semi-automatic Malaise trap for insect biodiversity monitoring: Proof of concept

Juan Andres Chiavassa, Martin Kraft, Patrick Noack, Simon Walther, Ameli Kirse, Christoph Scherber
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Abstract

Field monitoring plays a crucial role in understanding insect dynamics within ecosystems. It facilitates pest distribution assessment, control measure evaluation, and prediction of pest outbreaks. Additionally, it provides important information on bioindicators with which the state of biodiversity and ecological integrity in specific habitats and ecosystems can be accurately assessed. However, traditional monitoring systems can present various difficulties, leading to a limited temporal and spatial resolution of the obtained information. Despite recent advancements in automatic insect monitoring traps, also called e-traps, most of these systems focus exclusively on studying agricultural pests, rendering them unsuitable for monitoring diverse insect populations. To address this issue, we introduce the Field Automatic Insect Recognition (FAIR)-Device, a novel non-lethal field tool that relies on semi-automatic image capture and species identification using artificial intelligence via the iNaturalist platform. Our objective was to develop an automatic, cost-effective, and non-specific monitoring solution capable of providing high-resolution data for assessing insect diversity. During a 26-day proof-of-concept evaluation, the FAIR-Device recorded 24.8 GB of video, identifying 431 individuals from 9 orders, 50 families, and 69 genera. While improvements are possible, our device demonstrated potential as a cost-effective, non-lethal tool for monitoring insect biodiversity. Looking ahead, we envision new monitoring systems such as e-traps as valuable tools for real-time insect monitoring, offering unprecedented insights for ecological research and agricultural practices.
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FAIR-Device - 用于昆虫生物多样性监测的非致命通用型半自动马拉伊斯诱捕器:概念验证
实地监测对了解生态系统中的昆虫动态起着至关重要的作用。它有助于害虫分布评估、控制措施评估和害虫爆发预测。此外,它还提供了有关生物指标的重要信息,通过这些信息可以准确评估特定栖息地和生态系统的生物多样性和生态完整性状况。然而,传统的监测系统可能存在各种困难,导致所获信息的时间和空间分辨率有限。尽管最近昆虫自动监测诱捕器(也称电子诱捕器)取得了进步,但这些系统大多只专注于研究农业害虫,因此不适合监测多种昆虫种群。为了解决这个问题,我们推出了田间昆虫自动识别(FAIR)设备,这是一种新型的非致命性田间工具,通过 iNaturalist 平台利用人工智能进行半自动图像捕捉和物种识别。我们的目标是开发一种自动、经济、非特异性的监测解决方案,能够为评估昆虫多样性提供高分辨率数据。在为期 26 天的概念验证评估中,FAIR-设备录制了 24.8 GB 的视频,识别了来自 9 目、50 科和 69 属的 431 个个体。虽然还有改进的余地,但我们的设备证明了其作为一种具有成本效益、非致命性的昆虫生物多样性监测工具的潜力。展望未来,我们设想新的监测系统(如电子诱捕器)将成为实时监测昆虫的宝贵工具,为生态研究和农业实践提供前所未有的见解。
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