In Florida study, nonnative leaf-litter ants are replacing native ants


Date:
April 7, 2023
Source:
University of Illinois at Urbana-Champaign, News Bureau
Summary:
A new look at decades of data from museum collections and surveys of
leaf-litter ants in Florida reveals a steady decline in native ants
and simultaneous increase in nonnative ants -- even in protected
natural areas of the state, researchers report.


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FULL STORY ==========================================================================
A new look at decades of data from museum collections and surveys of
leaf- litter ants in Florida reveals a steady decline in native ants
and simultaneous increase in nonnative ants -- even in protected natural
areas of the state, researchers report.


==========================================================================
The study tracked leaf-litter ant abundance from 1965 to 2019. Nonnative
ants represented 30% of the 177 ground-dwelling species detected in
surveys across the state in later years, the team reports. Their dominance
grew most notably in southern Florida, where nonnatives increased from
43% to 73% over the decades studied. The nonnative ants are most likely arriving with goods transported to Florida from around the world.

Reported in the journal Current Biology, the findings point to a potential future devoid of native ants, the researchers said.

"Leaf-litter ants tend to be very small, just a few millimeters in length,
so moving through soil, leaves and other litter is like climbing over
hills for them," said University of Illinois Urbana-Champaign evolution, ecology and behavior professor Andrew Suarez, who led the research with
Douglas Booher, a research entomologist with the U.S. Department of
Agriculture Forest Service; and Corrie Moreau, a professor of entomology
and of ecology and evolution at Cornell University. "Many of them are
small specialist predators, like trap-jaw ants of the genus Strumigenys,
which are solitary hunters that specialize in catching small arthropods
like springtails." These ants rely on the litter that accumulates under
trees and other plants, Suarez said.

"These communities are sensitive to habitat loss, especially the loss
of canopy trees," he said. "They also are very susceptible to heat and
water stress, as they require humid environments." While native and
nonnative leaf-litter ants share many traits and likely perform some
of the same ecosystem services, the science is still unsettled as to
whether the invasives will fill the same niches, the researchers said.

Future studies should examine whether certain ecological functions are
lost when native ants decline.

"Our biggest worry is that the loss of a few key species that act
as specialized predators or seed-dispersers could have ecological
consequences for these already threatened ecosystems," Booher said.

Native leaf-litter ants differ from the invaders in at least one
significant trait, the researchers found. The team tested how well the
ants tolerated sharing their nests with individuals of the same species
from other nests.

"We collected more than 300 live ant colonies and set them up in
artificial nests," Booher said. "By marking individuals of the same
species from different colonies and introducing them to one another, we evaluated if workers from different colonies were adopted or excluded."
Most of the nonnative workers adopted conspecific worker ants from
different colonies, but most natives rejected the outsiders, the team
found.

This difference seems to give nonnative ants an advantage, Booher said. By accepting and cooperating with ants from various nests, nonnative ants "effectively act like a single unified colony over a large landscape,"
he said.

There are still many more native than nonnative leaf-litter ants in
Florida, but the nonnative ants "are becoming more abundant and common,"
Booher said.

"This concerning trend has increased steadily over the past 54
years. Across all regions of Florida, nonnative species have doubled
in collection frequency." The research highlights the importance
of museum collections for understanding species diversity and loss,
Moreau said. "Only through comparing past species diversity and abundance
with current data can we really understand how biodiversity is changing
through time," she said.

"While we are starting to appreciate just how bad insect declines are
globally, we often don't have species-level data for many groups,"
Suarez said. "By looking at trends for individual species over long
periods, we can get an idea of the possible ecological consequences
of these patterns." Suarez also is a professor of entomology and an
affiliate of the Beckman Institute for Advanced Science and Technology
and the Carle R. Woese Institute for Genomic Biology at the U. of I.

The National Science Foundation supported this research.

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========================================================================== Story Source: Materials provided by University_of_Illinois_at_Urbana-Champaign,_News_Bureau.

Note: Content may be edited for style and length.


========================================================================== Journal Reference:
1. Douglas B. Booher, Nicholas J. Gotelli, Matthew P. Nelsen,
Leo Ohyama,
Mark Deyrup, Corrie S. Moreau, Andrew V. Suarez. Six
decades of museum collections reveal disruption of native ant
assemblages by introduced species. Current Biology, 2023; DOI:
10.1016/j.cub.2023.03.044 ==========================================================================

Link to news story: https://www.sciencedaily.com/releases/2023/04/230407110722.htm

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