Get all your news in one place.
100’s of premium titles.
One app.
Start reading
The Conversation
The Conversation
Sarah Watts, PhD researcher in plant ecology and conservation, University of Stirling

Tiny but tenacious: arctic-alpine plants are engineers and warning bells

Purple saxifrage, snow pearlwort and drooping saxifrage (left to right). Sarah Watts, Author provided

When most people consider the arctic, or high-altitude mountain landscapes, they think of endless snow, ice and bare rock. But pastel-coloured flowers, sometimes just a few millimetres wide, bloom in these dramatic places too. The miniature flowers not only weather some of the toughest habitats on Earth, but can also help engineer the landscape for other species.


You can listen to more articles from The Conversation, narrated by Noa, here.


Don’t be fooled by their delicate petals. Some species of rock jasmine and sandwort grow at well over 6,000 metres on Mount Everest, while purple saxifrage flourishes on the northernmost point of land in the world – Kaffeklubben Island, north of Greenland – and throughout the Arctic, Alaska and the tips of the European Alps.

Trailing azalea close up. Sarah Watts, Author provided

Plants in freezing cold environments are typically small and often form as ground-hugging rosettes, or dense tufts with short stems, known as cushions. Antarctic pearlwort sits no more than 5cm high and displays a tight bunch of minute yellow blooms. The summits of the Scottish Highlands, where temperatures can drop to -27℃ in winter, are home to tiny flowers also found in the Arctic, such as moss campion, dwarf willow, trailing azalea and starry saxifrage.

Many people think of plants as nice-looking greens. Essential for clean air, yes, but simple organisms. A step change in research is shaking up the way scientists think about plants: they are far more complex and more like us than you might imagine. This blossoming field of science is too delightful to do it justice in one or two stories. This article is part of a series, Plant Curious, exploring scientific studies that challenges the way you view plantlife.

Although plants such as these may appear fragile, their minute size helps them cope with freezing weather and fierce winds. Low stature and tightly packed leaves act as an aerodynamic trap and storage system for water and solar radiation. Microspaces within the dense, dome-like foliage are efficient structures for retaining moisture and heat. An arctic-alpine cushion’s internal temperature can be 15°C warmer than its surroundings.

Trailing azalea has tiny pink flowers. Sarah Watts, Author provided

Pioneer plants

Cushion plants and mosses can be integral to their local environment (known as keystone species) and ecosystem engineers because they stabilise their harsh microclimate, and are often the first to colonise bare ground. As the cushions grow, they improve the moisture and nutrient content of thin soils by accumulating organic material both directly within the plant itself, and through their root systems. By buffering temperature extremes, cushions reduce the frost risk in their immediate surroundings. These processes create a habitat more suitable for less stress-tolerant plant species including arctic-alpines in the daisy and pea families.

Cushion formers are therefore vital “nurse” plants in mountain and polar regions. They also shelter small arthropods including beetles and tiny wingless insects called springtails.

Rove beetle on snow pearlwort. Sarah Watts, Author provided

These animals may in turn pollinate the plants they take refuge in, and provide food for others higher up the food chain.

An alarming trend

However, these tiny arctic-alpine plants are now sounding a warning bell for the loss of biodiversity (the richness and variety of living things on earth) due to climate change. The plants have an important relationship with snow, which offers them protection from disturbance and erosion. But rising temperatures are causing earlier snow melt, allowing the spread of other species previously restricted to lower altitudes and latitudes. Consequently, taller generalist plants, such as common grasses and sedges are crowding out the smaller arctic-alpines.

Snow pearlwort growing on Scottish munro Ben Lawers. Sarah Watts, Author provided

High mountain areas are warming at twice the global average and are geographically isolated from other places with similar climates, leaving the specialist flowers nowhere to relocate to.

Arctic-alpine plant numbers are plummeting in Britain and climate change is impacting numbers across the world, threatening the future of species that depend on them. Snow pearlwort, a cushion plant usually no bigger than a penny, is the first flowering plant in Britain to have its International Union Conservation of Nature status moved from vulnerable to endangered due to climate change. Our research using long-term monitoring data from the Scottish Highlands has shown that snow pearlwort, mountain sandwort and drooping saxifrage are withdrawing uphill and face mountaintop extinction because there is no higher ground left for them to retreat to as temperatures rise.

If we lose these plants from their British mountaintop outposts – at the edge of where they occur globally – this will signal that their strongholds in the Arctic and the Alps are also in danger.

Moss campion is a mountain wildflower. Sarah Watts, Author provided

Polar and mountain regions are havens for biodiversity, nurturing species found nowhere else in the world. We risk losing the cultural and inspirational value that rare species give us, with implications for the preservation of our natural heritage.

Plants are the building blocks of habitats and food webs on which other lifeforms across the planet depend, but they are frequently overlooked in conservation news stories. There’s a name for this phenomenon - plant blindness. Scientists, nature writers and the media usually turn to trees or species with large colourful flowers to open people’s eyes to the importance of plant life.

But we must celebrate and protect our tiniest of plants. If we don’t the spectrum of diversity across earth’s extremes will be lost for generations to come.

The Conversation

Sarah Helen Watts receives funding from the University of Stirling, Woodland Trust, Corrour Estate, Forest Research, The Scottish Forestry Trust, The National Trust for Scotland, Future Woodlands Scotland and the Macaulay Development Trust. She is affiliated with The Mountain Woodland Action Group and is on the Committee for Scotland for the Botanical Society of Britain and Ireland. Her research on arctic-alpine plants at Ben Lawers NNR utilised 40 years of long-term monitoring data collected together with staff and volunteers from The National Trust for Scotland.

This article was originally published on The Conversation. Read the original article.

Sign up to read this article
Read news from 100’s of titles, curated specifically for you.
Already a member? Sign in here
Related Stories
Top stories on inkl right now
One subscription that gives you access to news from hundreds of sites
Already a member? Sign in here
Our Picks
Fourteen days free
Download the app
One app. One membership.
100+ trusted global sources.