Fresh Analysis Reveals Greater Impact of Agriculture on Insect Diversity
by Robert Schreiber
Berlin, Germany (SPX) May 12, 2025

It has long been established that agricultural practices contribute to the decline in insect biodiversity. Factors such as habitat loss, frequent mowing, and pesticide use significantly reduce available resources for many insect species.

Now, a team from the Julius-Maximilians-Universitat Wurzburg (JMU) has employed advanced analytical techniques to reveal that the impact of agricultural land use on insect diversity is even more severe than previously believed. The research analyzed specimens from 400 insect families, collected across diverse habitats in Bavaria, using cutting-edge DNA metabarcoding methods.

Led by Professor Jorg Muller, Chair of Conservation Biology and Forest Ecology at JMU, the study highlights a stark 44 percent drop in total insect species diversity on farmland compared to near-natural habitats. These findings were recently published in the journal Proceedings of the Royal Society B.

The research involved collecting insect samples from both agricultural and near-natural sites using specialized traps. The collected genetic material was then analyzed through DNA metabarcoding, a rapid method for identifying all species present in a given sample. This approach, combined with customized statistical tools, provided more accurate assessments of biodiversity by accounting for the unique properties of metabarcoding data.

One unexpected finding was that sampling in farmland yielded a more complete inventory of species present, compared to more diverse, near-natural sites. This adjustment revealed a significant loss in overall insect diversity-up to 44 percent-within agricultural landscapes.

Moreover, the study revealed that nearly 30 percent of evolutionary diversity, which captures the range of evolutionary relationships among species, is also being lost in these environments. This suggests that previous studies may have significantly underestimated the impact of agriculture on insect biodiversity, due to incomplete sampling and the lack of comprehensive data on phylogenetic diversity.

"This study underscores the urgent need for biodiversity-sensitive land use. A continued decline in insect diversity could have far-reaching consequences for the health and stability of ecosystems," says Dr. Mareike Kortmann, the study's lead author. The new approach provides a valuable, practice-oriented tool for monitoring ecological changes in complex insect communities.

Research Report:A shortcut to sample coverage standardization in meta-barcoding data provides new insights into land use effects on insect diversity

Related Links
University of Warzburg
Darwin Today At TerraDaily.com