More than 75 percent decline over 27 years in total flying insect biomass in protected areas.

Caspar A Hallmann,Eelke Jongejans,Heinz Schwan,Werner Stenmans,Dave Goulson,Henk Siepel,Hans De Kroon,Nick Hofland,Andreas Müller,Martin Sorg,Hubert Sumser,Thomas Hörren

doi:10.1371/journal.pone.0185809

Caspar A Hallmann, Eelke Jongejans + Show 10 more

Open Access

https://doi.org/10.1371/journal.pone.0185809

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Journal: PloS one	Publication Date: Oct 18, 2017
Citations: 2207	License type: CC BY 4.0

Affiliation: Radboud University Nijmegen, University of Sussex

Abstract

Global declines in insects have sparked wide interest among scientists, politicians, and the general public. Loss of insect diversity and abundance is expected to provoke cascading effects on food webs and to jeopardize ecosystem services. Our understanding of the extent and underlying causes of this decline is based on the abundance of single species or taxonomic groups only, rather than changes in insect biomass which is more relevant for ecological functioning. Here, we used a standardized protocol to measure total insect biomass using Malaise traps, deployed over 27 years in 63 nature protection areas in Germany (96 unique location-year combinations) to infer on the status and trend of local entomofauna. Our analysis estimates a seasonal decline of 76%, and mid-summer decline of 82% in flying insect biomass over the 27 years of study. We show that this decline is apparent regardless of habitat type, while changes in weather, land use, and habitat characteristics cannot explain this overall decline. This yet unrecognized loss of insect biomass must be taken into account in evaluating declines in abundance of species depending on insects as a food source, and ecosystem functioning in the European landscape.

Highlights

OPEN ACCESSCitation: Hallmann CA, Sorg M, Jongejans E, Siepel H, Hofland N, Schwan H, et al (2017) More than 75 percent decline over 27 years in total flying insect biomass in protected areas
Biomass loss was more prominent in midsummer as compared to the start and end of the season (Fig 3A), indicating that the highest losses occur when biomass is highest during the season (Fig 2B)
Our results document a dramatic decline in average airborne insect biomass of 76%

Summary

Introduction

Preserving insect abundance and diversity should constitute a prime conservation priority. Current data suggest an overall pattern of decline in insect diversity and abundance. Severe flying insect biomass decline in protected areas listed below: Bezirksregierungen Düsseldorf &. The number of studies on insect trends with sufficient replication and spatial coverage are limited [10, 23–25] and restricted to certain wellstudied taxa. To what extent total insect biomass has declined, and the relative contribution of each proposed factor to the decline, remain unresolved yet highly relevant questions for ecosystem ecology and conservation. We investigate total aerial insect biomass between 1989 and 2016 across 96 unique location-year combinations in Germany, representative of Western European low-altitude nature protection areas embedded in a human-dominated landscape (S1 Fig).

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