Six years of wild bee monitoring shows changes in biodiversity within and across years and declines in abundance

Wild bees form diverse communities that pollinate plants in both native and agricultural ecosystems making them both ecologically and economically important. The growing evidence of bee declines has sparked increased interest in monitoring bee community and population dynamics using standardized met...

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Bibliographic Details
Published inEcology and evolution Vol. 12; no. 8
Main Authors Turley, Nash E., Biddinger, David J., Joshi, Neelendra K., López‐Uribe, Margarita M.
Format Journal Article
LanguageEnglish
Published Bognor Regis John Wiley & Sons, Inc 01.08.2022
John Wiley and Sons Inc
Wiley
Subjects
Abundance
Agricultural ecosystems
Bees
Biodiversity
Community Ecology
community phylogenetics
Economic importance
Environmental changes
insect declines
Monitoring
Museums
Orchards
phenology
Phylogenetics
Phylogeny
Plant reproduction
Pollinators
Population
Population dynamics
Sampling
Seasonal variations
Species
Trends
wild bees
Wildlife conservation
United States > US
Pennsylvania
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Summary:Wild bees form diverse communities that pollinate plants in both native and agricultural ecosystems making them both ecologically and economically important. The growing evidence of bee declines has sparked increased interest in monitoring bee community and population dynamics using standardized methods. Here, we studied the dynamics of bee biodiversity within and across years by monitoring wild bees adjacent to four apple orchard locations in Southern Pennsylvania, USA. We collected bees using passive Blue Vane traps continuously from April to October for 6 years (2014–2019) amassing over 26,000 bees representing 144 species. We quantified total abundance, richness, diversity, composition, and phylogenetic structure. There were large seasonal changes in all measures of biodiversity with month explaining an average of 72% of the variation in our models. Changes over time were less dramatic with years explaining an average of 44% of the variation in biodiversity metrics. We found declines in all measures of biodiversity especially in the last 3 years, though additional years of sampling are needed to say if changes over time are part of a larger trend. Analyses of population dynamics over time for the 40 most abundant species indicate that about one third of species showed at least some evidence for declines in abundance. Bee family explained variation in species‐level seasonal patterns but we found no consistent family‐level patterns in declines, though bumble bees and sweat bees were groups that declined the most. Overall, our results show that season‐wide standardized sampling across multiple years can reveal nuanced patterns in bee biodiversity, phenological patterns of bees, and population trends over time of many co‐occurring species. These datasets could be used to quantify the relative effects that different aspects of environmental change have on bee communities and to help identify species of conservation concern. Six years of bee monitoring shows that bee biodiversity is highly dynamic from month to month and across years. Looking across 40 species, 1/3 show evidence of declining abundance over time.
ISSN:2045-7758
2045-7758
DOI:10.1002/ece3.9190