Viability of thermal imaging in detecting nests of the invasive hornet <i>Vespa velutina</i>

Lioy, Simone; Bianchi, Ettore; Biglia, Alessandro; Bessone, Mattia; Laurino, Daniela; Porporato, Marco

doi:10.1111/1744-7917.12760

Cited by 15 publications

(12 citation statements)

References 28 publications

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“…Recently, new methods for active searching for nests of V. velutina were developed and tested. Some of these are based on the radar system, 50,51 thermal imaging 52 and dron‐assisted tracking 53 . The appropriate method of destruction is essential to succeed.…”

Section: Discussionmentioning

confidence: 99%

Six years of controlling the invasive species Vespa velutina in a Mediterranean island: The promising results of an eradication plan

Leza

Herrera

Picó³

et al. 2021

Pest Management Science

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BACKGROUND The yellow‐legged hornet, Vespa velutina nigrithorax, is an invasive alien species (IAS) which was accidentally introduced in Europe from Asia. This social insect preys primarily on honeybees but also on other pollinators and insects. Consequently, the establishment of this pest has a negative impact on biodiversity, pollination and economy. There is no clear coordination and uniformed methods for eradication measures between countries. Here we present the first field study of the strategy of eradication of the pest species V. velutina that has been conducted in the westernmost Mediterranean archipelago. RESULTS We investigated the combination of different eradication methods, such as trapping; the use of the citizen science data for detection of presence, the active search of nests and the removal of nests using mechanical methods. The progression of the number of secondary nests found was 1 (2015), 9 (2016) and 20 (2017), with zero during 2018, 2019 and 2020, and just one embryo nest in 2018. More than half of the nests (58%) were detected thanks to citizen science data. The people sent us adult detections, and we started the triangulation method to find the nests. The last hornet found in the traps was in June 2018. CONCLUSION Early detections of the IAS are crucial to minimise their effects, and citizen science may offer an important source of information to determine the presence and distribution of V. velutina. The findings we present here indicate successful management for this globally significant pest and could contribute to advance the ‘science of eradication’. © 2021 Society of Chemical Industry

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Section: Discussionmentioning

confidence: 99%

Six years of controlling the invasive species Vespa velutina in a Mediterranean island: The promising results of an eradication plan

Leza

Herrera

Picó³

et al. 2021

Pest Management Science

View full text Add to dashboard Cite

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“…Therefore, if a particle filter or an unscented Kalman filter that further covers nonlinearity is applied in the developed system for more advanced tracking, the dynamic target can be estimated and tracked more efficiently [41]. Alternatively, an event-driven heterogeneous robot system (e.g., a radiotracking UAV equipped with a thermal infrared camera [42]) is scalable and can be more useful than conventional systems for tracking radio-tagged flying targets [43].…”

Section: E Results Of Field Testsmentioning

confidence: 99%

Investigation of an Autonomous Tracking System for Localization of Radio-Tagged Flying Insects

Son

2022

IEEE Access

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The tracking of flying insects is one of the main challenges in the field of ecosystem and biodiversity protection. In the case of invasive insects such as Asian hornets, extensive considerations must be made in estimating the habitat because of the limitations of available sensors and environmental uncertainty. In this study, we propose an approach for localizing and autonomously tracking radio-tagged flying insects and developing an unmanned aerial vehicle (UAV)-based robotic system. The extended Kalman filter is applied to the received signal strength emitted from a radio telemetry transmitter to estimate the insect's position while reducing the measurement error and noise. The proposed autonomous tracking strategy involves a method in which the UAV rotates around one point to measure the signal strength and control its position in relation to the direction of the strongest signal. We also designed a system architecture that includes a tracking sensor system and a UAV system for radio-tagged flying insects. The effectiveness of the proposed system for estimating and autonomously tracking the target position was evaluated via numerical dynamics simulation. Furthermore, feasibility tests with unmanned ground vehicle replacements for insects and UAVs were performed to validate the proposed approach. Finally, to verify the UAV system, field tests were conducted to track a fixed radio-tagged flying target on a vast flatland. This study is unique because we propose and validate a novel mobile robot-based tracking system to localize radio tags of flying insects. INDEX TERMSRadio-tagged flying insects, unmanned aerial vehicles, radio telemetry localization, autonomous tracking, sensor systems I. INTRODUCTION

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“…Recent applications for IAS detection have primarily centred on the use of multispectral and LiDAR sensors in conjunction with machine‐learning algorithms like artificial neural networks to recognize invasive trees, forbs, and marsh plants (Martin et al ., 2018; Abeysinghe et al ., 2019; Zhu et al ., 2019). Thermal imaging has proven feasible for the detection of animal IAS, but has seen limited use to date (Lioy et al ., 2021). Camera traps (also known as trail cameras) and other remote stationary cameras have also been used to great effect in detecting and monitoring the abundance of mammals [e.g.…”

Section: Ias Occurrence Datamentioning

confidence: 99%

A framework to integrate innovations in invasion science for proactive management

et al. 2022

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Invasive alien species (IAS) are a rising threat to biodiversity, national security, and regional economies, with impacts in the hundreds of billions of U.S. dollars annually. Proactive or predictive approaches guided by scientific knowledge are essential to keeping pace with growing impacts of invasions under climate change. Although the rapid development of diverse technologies and approaches has produced tools with the potential to greatly accelerate invasion research and management, innovation has far outpaced implementation and coordination. Technological and methodological syntheses are urgently needed to close the growing implementation gap and facilitate interdisciplinary collaboration and synergy among evolving disciplines. A broad review is necessary to demonstrate the utility and relevance of work in diverse fields to generate actionable science for the ongoing invasion crisis. Here, we review such advances in relevant fields including remote sensing, epidemiology, big data analytics, environmental DNA (eDNA) sampling, genomics, and others, and present a generalized framework for distilling existing and emerging data into products for proactive IAS research and management. This integrated workflow provides a pathway for scientists and practitioners in diverse disciplines to contribute to applied invasion biology in a coordinated, synergistic, and scalable manner.

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Viability of thermal imaging in detecting nests of the invasive hornet Vespa velutina

Cited by 15 publications

References 28 publications

Six years of controlling the invasive species Vespa velutina in a Mediterranean island: The promising results of an eradication plan

Six years of controlling the invasive species Vespa velutina in a Mediterranean island: The promising results of an eradication plan

Investigation of an Autonomous Tracking System for Localization of Radio-Tagged Flying Insects

A framework to integrate innovations in invasion science for proactive management

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