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03/26/2026 19:00

Evolution in Fast-Forward: How Thale Cress Adapts – or Goes Extinct

Dr. Markus Bernards Public Relations und Kommunikation
Goethe-Universität Frankfurt am Main

In an unprecedented field experiment, an international research team led by Goethe University Frankfurt, the University of California, Berkeley, and CNRS Montpellier investigated the evolutionary adaptation of thale cress (Arabidopsis thaliana) to a wide range of climates, from the Alps to the Negev Desert. At 30 locations worldwide, team members sowed the plants, monitored their development, and analyzed genetic changes. The result: many Arabidopsis populations rapidly adapted to local climates – some, however, went extinct. The findings demonstrate how genetic diversity ensures population survival.

FRANKFURT. The large-scale experiment began in autumn 2017 with 360 small plastic tubes containing a mixture of Arabidopsis thaliana seeds, an inconspicuous annual plant with small white flowers. The tubes were shipped to 30 locations across Western and Northern Europe, the Mediterranean region, and the United States. At each site, biologists from a global network sowed the seeds in twelve plots, each about a quarter of a square meter, establishing twelve Arabidopsis populations. These populations persisted into the following year thanks to their seeds.

For up to five years, researchers monitored plant growth and performance and collected tissue samples annually for genetic analysis. Their shared goal: to trace how plants evolve to adapt to highly diverse environments.

The network “Genomics of Rapid Evolution in Novel Environment” (GrENE-net) was launched in 2016 by Niek Scheepens, Professor of Plant Evolutionary Ecology at Goethe University Frankfurt, together with Dr. François Vasseur of the Centre d’Écologie Fonctionelle et Évolutive in Montpellier and Professor Moisés Expósito-Alonso of the University of California, Berkeley.

Plant samples from the first three years have now been genetically analyzed by the U.S. team. The result: in most climate zones, populations survived and adapted to their local environmental conditions. This became evident through millions of changes across their entire set of genes—the genome. Many of these genomic changes were statistically similar across all twelve populations at a given site. Moreover, sites with similar climates exhibited similar genetic changes, affecting genes related to traits such as drought tolerance or flowering time.

Scheepens explains: “Both findings show how climate exerts evolutionary selection pressure, favoring genes and gene variants that help the plant better adapt to its environment.”

However, some thale cress populations – mostly at particularly hot and dry sites – went extinct after three years, leaving their plots barren. Genome analyses revealed that strong genetic fluctuations had preceded these extinctions, and the twelve populations did not evolve in the same direction. Scheepens notes: “In these populations, random changes apparently dominated due to the relatively small population size within each plot. Instead of successful adaptation, so-called ‘genetic drift’ prevailed.”

Evolutionary ecologist Niek Scheepens concludes: “With this experiment, we can watch evolution unfold almost in real time. It demonstrates that evolutionary adaptation can occur very rapidly – provided sufficient genetic diversity is present. Rare plant species with small populations and low genetic diversity are therefore poorly equipped to cope with environmental changes, including climate change. Overall, our experiment is a compelling appeal to preserve biodiversity: diversity ensures survival.”

Picture download:
https://www.uni-frankfurt.de/184316322

Captions:
1 Genetic diversity ensures survival: thale cress, Arabidopsis thaliana. Photo: Niek Scheepens, Goethe University Frankfurt

2 Thale cress plants grew in twelve plots, each one-quarter of a square meter. Photo: Niek Scheepens, Goethe University Frankfurt

3 Each year during flowering, tissue samples were collected from all plants for genetic analysis. Photo: Niek Scheepens, Goethe University Frankfurt

4 The sites varied in climate, ranging from mountains to desert. Photo: Jean-Gabriel Valay, Jardin du Lautaret

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Contact for scientific information:

Professor J.F. Niek Scheepens
Evolutionary Ecology of Plants
Institute of Ecology, Evolution and Diversity
Department of Biological Sciences
Goethe University Frankfurt
Tel. +49 (0)69 798-42132
Scheepens@bio.uni-frankfurt.de
https://www.bio.uni-frankfurt.de/96381923/J_F__Niek_Scheepens

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Original publication:

Xing Wu, Tatiana Bellagio, Yunru Peng, Lucas Czech, Meixi Lin, Patricia Lang, Ruth Epstein, Mohamed Abdelaziz, Jake Alexander, Carlos Alonso- Blanco, Heidi Lie Andersen, Modesto Berbel, Joy Bergelson, Oliver Bossdorf, Liana Burghardt, Mireille Caton- Darby, Robert Colautti, Carolin Delker, Panayiotis G. Dimitrakopoulos, Kathleen Donohue, Walter Durka, Gema Escribano- Avila, Steven J. Franks, Felix B. Fritschi, Alexandros Galanidis, Alfredo Garcia-Fernández, Ana García- Muñoz, Elena Hamann, Allison Hutt, José M. Iriondo, Thomas E. Juenger, Stephen R. Keller, Karin Koehl, Arthur Korte, Pamela Korte, Alexander Kutschera, Carlos Lara-Romero, Laura Leventhal, Daniel Maag, Arnald Marcer, Martí March- Salas, Juliette de Meaux, Belén Méndez-Vigo, Javier Morente-López, Timothy C. Morton, Zuzana Münzbergova, Anne Muola, Hanna Akiko Nomoto, Meelis Pärtel, F. Xavier Picó, Brandie Quarles- Chidyagwai, Marcel Quint, Niklas Reichelt, Agnieszka Rudak, Johanna Schmitt, Gregor Schmitz, Merav Seifan, Basten L. Snoek, Remco Stam, Marc Stift, John R. Stinchcombe, Mark A. Taylor, Peter Tiffin, Irène Till-Bottraud, Anna Traveset, Jean- Gabriel Valay, Martijn Van Zanten, Vigdis Vandvik, Cyrille Violle, Detlef Weigel, Maciej Wódkiewicz, François Vasseur, J. F. Scheepens, Moises Exposito- Alonso. Rapid adaptation and extinction in synchronized outdoor evolution experiments of Arabidopsis. Science (2026) https://doi.org/10.1126/science.adz0777

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More information:

https://grene-net.org/ GrENE-net project website

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<
Genetic diversity ensures survival: thale cress, Arabidopsis thaliana.
Source: Niek Scheepens
Copyright: Goethe University Frankfurt

<
The sites varied in climate, ranging from mountains to desert.
Source: Jean-Gabriel Valay
Copyright: Jardin du Lautaret

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Criteria of this press release:
Journalists, Scientists and scholars, Students, Teachers and pupils, all interested persons
Biology, Environment / ecology, Oceanology / climate
transregional, national
Research results, Scientific Publications
English

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