Abstract
AbstractA core goal of the National Ecological Observatory Network (NEON) is to measure changes in biodiversity across the 30‐yr horizon of the network. In contrast to NEON’s extensive use of automated instruments to collect environmental data, NEON’s biodiversity surveys are almost entirely conducted using traditional human‐centric field methods. We believe that the combination of instrumentation for remote data collection and machine learning models to process such data represents an important opportunity for NEON to expand the scope, scale, and usability of its biodiversity data collection while potentially reducing long‐term costs. In this manuscript, we first review the current status of instrument‐based biodiversity surveys within the NEON project and previous research at the intersection of biodiversity, instrumentation, and machine learning at NEON sites. We then survey methods that have been developed at other locations but could potentially be employed at NEON sites in future. Finally, we expand on these ideas in five case studies that we believe suggest particularly fruitful future paths for automated biodiversity measurement at NEON sites: acoustic recorders for sound‐producing taxa, camera traps for medium and large mammals, hydroacoustic and remote imagery for aquatic diversity, expanded remote and ground‐based measurements for plant biodiversity, and laboratory‐based imaging for physical specimens and samples in the NEON biorepository. Through its data science‐literate staff and user community, NEON has a unique role to play in supporting the growth of such automated biodiversity survey methods, as well as demonstrating their ability to help answer key ecological questions that cannot be answered at the more limited spatiotemporal scales of human‐driven surveys.
Highlights
As it enters its full operational stage, the National Ecological Observatory Network (NEON) is poised to deliver approximately 180 openly available data products from 81 field sites across the United States throughout a 30-yr time horizon
To build on the work that has already occurred at NEON sites, we suggest that it will be important to build “human-in-the-loop” frameworks that support ongoing interactions between NEON field crews and the community of data scientists focused on developing new techniques to better survey vegetation properties from space
We have described above several fruitful avenues for future progress toward this goal at NEON sites
Summary
As it enters its full operational stage, the National Ecological Observatory Network (NEON) is poised to deliver approximately 180 openly available data products from 81 field sites across the United States throughout a 30-yr time horizon. Such automated or technology-driven biodiversity surveys often include two components: a physical sensor able to record data in the field and a machine learning model that can use these data to detect an organism or trait of interest.
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