Declines in an abundant aquatic insect, the burrowing mayfly, across major North American waterways

Declines in an abundant aquatic insect, the burrowing mayfly, across major North American waterways

Seasonal animal movement among disparate habitats is a fundamental mechanism by which energy, nutrients, and biomass are transported across ecotones. A dramatic example of such exchange is the annual emergence of mayfly swarms from freshwater benthic habitats, but their characterization at macroscal...

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Veröffentlicht in:Proceedings of the National Academy of Sciences - PNAS 2020-02, Vol.117 (6), p.2987-2992
Hauptverfasser: Stepanian, Phillip M., Entrekin, Sally A., Wainwright, Charlotte E., Mirkovic, Djordje, Tank, Jennifer L., Kelly, Jeffrey F.
Format: Artikel
Sprache:eng
Schlagworte:
Airspace
Animal Distribution
Animals
Aquatic ecosystems
Aquatic insects
Biological Sciences
Biomass
Biomass energy production
Ecosystem
Ecotones
Emergence
Environmental changes
Ephemeroptera - growth & development
Ephemeroptera - physiology
Female
Insects
Lake basins
Male
Mississippi
Nutrient cycles
Nutrients
Physical Sciences
Population Dynamics
Prey
Rivers
Swarms
Terrestrial ecosystems
Terrestrial environments
Trophic levels
Waterways
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Zusammenfassung:Seasonal animal movement among disparate habitats is a fundamental mechanism by which energy, nutrients, and biomass are transported across ecotones. A dramatic example of such exchange is the annual emergence of mayfly swarms from freshwater benthic habitats, but their characterization at macroscales has remained impossible. We analyzed radar observations of mayfly emergence flights to quantify long-term changes in annual biomass transport along the Upper Mississippi River and Western Lake Erie Basin. A single emergence event can produce 87.9 billion mayflies, releasing 3,078.6 tons of biomass into the airspace over several hours, but in recent years, production across both waterways has declined by over 50%. As a primary prey source in aquatic and terrestrial ecosystems, these declines will impact higher trophic levels and environmental nutrient cycling.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1913598117