| Abstract |
Tardigrades are known for their ability to survive extreme conditions. Reports indicate that tardigrade thermal tolerance is enhanced in the desiccated state; however, these reports have almost always used a single tardigrade species and drying/heating methods vary between studies. Using six different species of tardigrades we confirm that desiccation enhances thermal tolerance in tardigrades. Furthermore, we show that differences in thermal tolerance exist between tardigrade species both when hydrated and desiccated. While Viridiscus viridianus survives the highest temperatures in the hydrated state of any species tested here, under hydrated conditions, the thermal tolerance of V. viridianus is restricted to an acute transient stress. Furthermore, unlike other stresses, such as desiccation, where mild initial exposure preconditions some species to survive subsequent harsher treatment, for V. viridianus exposure to mild thermal stress in the hydrated state does not confer protection to harsher heating. Our results suggest that while tardigrades have the capacity to tolerate mild thermal stress while hydrated, survival of high temperatures in a desiccated state is a by-product of tardigrades' ability to survive desiccation. |
| Authors |
Jacob Loeffelholz  , Emma Meese , Ilaria Giovannini  , Karsyn Ullibarri , Sogol Momeni , Nicholas Merfeld , Jessica Wessel , Roberto Guidetti , Lorena Rebecchi , Thomas C. Boothby
|
| Journal Info |
The Company of Biologists | Biology Open , vol: 13
, iss: 10
|
| Publication Date |
9/4/2024 |
| ISSN |
2046-6390 |
Type |
article |
| Open Access |
gold
|
| DOI |
https://doi.org/10.1242/bio.060485 |
| Keywords |
Tardigrade (Score: 0.7924156) , Cryptobiosis (Score: 0.54317)
|
