Spatio-Temporal Variation in Aerial Arthropod Abundance Revealed by Weather Radars

Mungee, Mansi and Lukach, Maryna and Shortall, Chris R. and Bell, James R. and Duncan, Elizabeth J. and Addison, Freya I. and Brown, L. E. and Kunin, William E. and Hassall,, Christopher and Neely, Ryan Reynolds (2025) Spatio-Temporal Variation in Aerial Arthropod Abundance Revealed by Weather Radars. Global Change Biology, 31 (10). ISSN 1365-2486

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Abstract

Arthropod declines have been reported widely; however, a lack of comprehensive data has hindered our ability to assess their large-scale generality and drivers. Here, we used a novel and freely available dataset—atmospheric scans from a network of meteorological radars—to quantify aerial abundance of both diurnal and nocturnal arthropods across the United Kingdom, spanning different geographic regions and land cover types. Based on observations between 2014 and 2021, and across more than 35,000 km2, we estimate numbers of arthropods flying over the UK at heights between 500 and 700 m above ground at 1.12 (±0.01) × 1013 individuals during the diurnal (0800–1400 UTC) and 5.02 (±0.01) × 1012 during the nocturnal (including dusk, 1800–2200 UTC) period, showing significant spatial heterogeneity. Although spatial patterns differed, both diurnal and nocturnal arthropods increased in the south and declined mainly in the far north; on average, only nocturnal arthropods showed an overall decline. Aerial abundance of both diurnal and nocturnal arthropods showed positive relationships with woodland, grassland, and urban land cover, and negative relationships with artificial light intensity and arable land cover. Our study highlights the importance of spatial variation in temporal biodiversity trends and illustrates the need for comparative studies between nocturnal and diurnal arthropods. Notably, by extracting vertical profiles of radar reflectivity and polarization signatures, we demonstrate how weather radar datasets can be used to quantify aerial arthropod abundance, detect diurnal and seasonal activity patterns, and examine their environmental drivers across large spatial and temporal scales. © 2025 The Author(s). Global Change Biology published by John Wiley & Sons Ltd.

Item Type:	Article
Authors:	Mungee, Mansi and Lukach, Maryna and Shortall, Chris R. and Bell, James R. and Duncan, Elizabeth J. and Addison, Freya I. and Brown, L. E. and Kunin, William E. and Hassall,, Christopher and Neely, Ryan Reynolds
Document Language:	Language English
Uncontrolled Keywords:	arthropod declines; insect migration; radar entomology; spatio-temporal ecology; United Kingdom
Subjects:	Natural Sciences Natural Sciences > Earth sciences Natural Sciences > Earth sciences > Geology, hydrology, meteorology
Divisions:	Azim Premji University - Bhopal > Arts and Sciences
Full Text Status:	None
URI:	http://publications.azimpremjiuniversity.edu.in/id/eprint/6511
Publisher URL:	https://onlinelibrary.wiley.com/

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