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From The Ice Age, Plants Became Cold Specialists

by Freeha Sabir
Published: Last Updated on

Planting in response to the changing climate is a critical part of plant growth. In order for plants to grow and change, they need temperature tolerance so that their leaves can turn green and their flowers can come out. Cold relics are an ideal resource for this purpose because they have low temperatures but high humidity levels, which makes them perfect hosts for growing cold-tolerant plants.


Plant life during the Ice Ages typically resembled that of today’s plants, with a few important exceptions. For one thing, most trees and shrubs died because they were covered by ice for extended periods of time. As a result, there are very few older specimens remaining to illustrate how cold relics can quickly adapt to changing climates. As cold relics in an increasingly warming world, plants of the spoonweed group changed with time and quickly adapted to a changing climate during the Ice Ages of the last two million years.

Furthermore, plants are not simply passive objects waiting to be changed or remodeled by humans. They undergo an evolutionary process that allows them to develop into new forms and types, which can ultimately help us adapt to changing environments. Moreover, they have a unique and complex genetic history, as well as environmental factors that can influence their future adaptability.

An international team of evolutionary biologists and botanists led by Prof. Dr. Marcus Koch of Heidelberg University used genomic analyses to study what factors favor adaptation to extreme climatic conditions. As, climate change is a threat to plant life in many ways, including the possibility of extinction for some species if they are unable to adapt. Meanwhile, the evolutionary history of the Brassicaceae family provides insights into how plants may be able to cope with climate change in the future.


“With the challenges of increasing global warming, developing a basic understanding of how plants adapted to severe environmental change is increasingly urgent,” stresses Prof. Koch, whose “Biodiversity and Plant Systematics” working group conducts research at the Centre for Organismal Studies (COS). In many cases, their evolutionary past also strongly determines the future adaptability of plants as well as their ability to develop into new forms and types, he continues.

The spoonweed genus, or Latin Cochlearia, from the Brassicaceae family, separated from its Mediterranean relatives more than ten million years ago. While their direct descendants specialised in response to drought stress, the spoonweeds conquered the cold and arctic habitats at the beginning of the Ice Age 2.5 million years ago.

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In controlled lab experiments, the researchers studied cultivated species from both groups to determine how they repeatedly adapted during the relatively rapidly alternating cold and warm periods over the last two million years. A “cold training” indicates that the physiological adaptations to drought and salt stress during their early evolution later helped the plants develop a high tolerance to cold.

plants of the spoonweed group

Although the researchers expected that both groups would show a pronounced response to this “cold training,” there appeared to be no significant difference in response to cold stress between the cold specialists of the Arctic and Alpine regions and the dry specialists or species adapted to saltwater from the Mediterranean.

Furthermore, the newly emerged plants adapted to cold developed separate gene pools that frequently came into contact with one another in the cold regions.  This results in plant explosions that cause significant changes within the genomes of both organisms. Meanwhile, these types of plants grew and reproduced faster, as they had diverse genes that worked together in synergy to create a more efficient plant.

Because spoonweeds have hardly any genetic barriers to contact between species, populations with multiple sets of chromosomes developed that, subsequently, were continually reduced in their size. “Time after time, these species were then able to occupy cold ecological niches,” explains Marcus Koch.

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While the gene pool of the cold specialists from the Arctic expanded, the European spoonweed population has shrunk since the last Ice Age. Cold habitats in Europe are disappearing in the face of significant global warming, thus seriously endangering all spoonweed species. Only the Danish spoonweed, with its abundant sets of chromosomes, remains unscathed and in some cases is even spreading.

“It is the only species of spoonweed that changed its life cycle and flourishes in salt and sand locations. In some of its ecological features, it resembles its faraway Mediterranean cousins,” adds Prof. Koch.

For the researchers, the physiological adaptability of the spoonweeds makes them a promising model system to simultaneously study adaptations to drought, cold, and salt stress. Because they found that all the plants responded to salt, cold, and drought stress in a similar way. In addition, they discovered that some key aspects of how these stresses affect plant growth—such as changes in water uptake or root growth—were also consistent across all plants.

The research was conducted mainly within the framework of the priority program “Evolutionary Plant Solutions to Ecological Challenges” (SPP 1529) of the German Research Foundation. The data are available in a public access database. The results of the research were published in the journal eLife.

Note: Content may be edited for style and length.

Journal Reference: 

  1. Wolf, E., Gaquerel, E., Scharmann, M., Yant, L., & Koch, M. A. (2021). Evolutionary footprints of a cold relic in a rapidly warming world. Elife, 10, e71572. DOI: 10.7554/eLife.71572


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CropForLife (August 19, 2022) From The Ice Age, Plants Became Cold Specialists. Retrieved from https://cropforlife.com/from-the-ice-age-plants-became-cold-specialists/.
"From The Ice Age, Plants Became Cold Specialists." CropForLife - August 19, 2022, https://cropforlife.com/from-the-ice-age-plants-became-cold-specialists/
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"From The Ice Age, Plants Became Cold Specialists." CropForLife - Accessed August 19, 2022. https://cropforlife.com/from-the-ice-age-plants-became-cold-specialists/

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