The authors used known 'indicator values' for thermal preferences of plant species permitted to link microhabitat life conditions with biodiversity, the number and abundance of species.
"In this study we examined if different vegetation types and plant species occur under different micro-habitat temperatures," said Körner. "We also estimated the potential loss and shift in abundance of micro-habitat temperatures under a warming climate scenario."
"Comparing various slopes, the study made it obvious that slope exposure and ruggedness of terrain produce a broad spectrum of life conditions not seen over similar areas in forests or in the forelands and plains," said Scherrer. "While it was known from measurements with thermometers that plant and air temperatures can differ substantially in alpine terrain, the high degree of sustained thermal contrasts among habitats still came as a surprise."
Depending on exposure, low stature alpine vegetation warms up dramatically when the sun is out, but under cloudy weather part of that warmth remains stored in the soil, which also makes nights cosier for roots in many places.
"We found that the occurrences of plant species across these mosaics of warmth match with their known temperature preferences," explained Körner. "This means that rugged alpine terrain offers refuge habitats -- or at least stepping stones to these -- at short distance, for both small plants and animals that prefer cool life conditions."
The authors simulated the frequency of certain temperatures for a 2 degrees warmer climate with a computer, and found that only 3% of all types of temperature conditions will disappear. So, while the extent of some of the cooler habitats will shrink, importantly, they will not be lost altogether.
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