Eyes on nature: Embedded vision cameras for multidisciplinary biodiversity monitoring

Author:

Darras Kevin F.A.ORCID,Balle Marcel,Xu Wenxiu,Yan Yang,Zakka Vincent G.ORCID,Toledo-Hernández ManuelORCID,Sheng Dong,Lin Wei,Zhang Boyu,Lan Zhenzhong,Fupeng Li,Wanger Thomas C.

Abstract

AbstractGlobal environmental challenges require comprehensive data to manage and protect biodiversity. Currently, vision-based biodiversity monitoring efforts are mixed, incomplete, human-dependent, and passive. To tackle these issues, we present a portable, modular, low-power device with embedded vision for biodiversity monitoring. Our camera uses interchangeable lenses to resolve barely visible and remote subjects, as well as customisable algorithms for blob detection, region-of-interest classification, and object detection to identify targets. We showcase our system in six case studies from the ethology, landscape ecology, agronomy, pollination ecology, conservation biology, and phenology disciplines. Using the same devices, we discovered bats feeding on durian tree flowers, monitored flying bats and their insect prey, identified nocturnal insect pests in paddy fields, detected bees visiting rapeseed crop flowers, triggered real-time alerts for waterbirds, and tracked flower phenology over months. We measured classification accuracies between 55% and 96% in our field surveys and used them to standardise observations over highly-resolved time scales. The cameras are amenable to situations where automated vision-based monitoring is required off the grid, in natural and agricultural ecosystems, and in particular for quantifying species interactions. Embedded vision devices such as this will help addressing global biodiversity challenges and facilitate a technology-aided global food systems transformation.

Publisher

Cold Spring Harbor Laboratory

Reference91 articles.

1. Rockström, J. et al. Planetary Boundaries: Exploring the Safe Operating Space for Humanity. Ecol. Soc. 14, (2009).

2. Steffen, W. et al. Planetary boundaries: Guiding human development on a changing planet. Science 347, (2015).

3. UNEP. First draft of the post-2020 global biodiversity framework. (2020).

4. Dove, S. , Bohm, M. , Freeman, R. , McRae, L. & Murrell, D. J . How much data do we need? Reliability and data deficiency in global vertebrate biodiversity trends. 2023.03.18.532273 Preprint at https://doi.org/10.1101/2023.03.18.532273 (2023).

5. UNECE. Guidelines for developing national biodiversity monitoring systems. (United Nations, 2023).

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