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.
An evaluation of thermal tolerance in six tardigrade species in an active and dry state
These authors contributed equally to the work
- Award Group:
- Funder(s): National Science Foundation
- Award Id(s): 2213983
- Funder(s):
- Award Group:
- Funder(s): National Insititutes of Health
- Award Id(s): 2P20GM103432
- Funder(s):
- Award Group:
- Funder(s): Italian Ministry of University and Research
- Award Id(s): CN_00000033
- Funder(s):
Jacob Loeffelholz, Emma Meese, Ilaria Giovannini, Karsyn Ullibarri, Sogol Momeni, Nicholas Merfeld, Jessica Wessel, Roberto Guidetti, Lorena Rebecchi, Thomas C. Boothby; An evaluation of thermal tolerance in six tardigrade species in an active and dry state. Biol Open 2024; bio.060485. doi: https://doi.org/10.1242/bio.060485
Download citation file:
Advertisement
Cited by
Biologists @ 100 - join us in Liverpool in March 2025
We are excited to invite you to a unique scientific conference, celebrating the 100-year anniversary of The Company of Biologists, and bringing together our different communities. The conference will incorporate the Spring Meetings of the BSCB and the BSDB, the JEB Symposium Sensory Perception in a Changing World and a DMM programme on antimicrobial resistance. Find out more and register your interest to join us in March 2025 in Liverpool, UK.
There are many ways to produce goosebumps
In this Research Article, Jonathon McPhetres investigates the different stimuli that can produce goosebumps and how the body’s response is different depending on the trigger. This phenomenon highlights a shared trait with animals, suggesting that while goosebumps may seem less functional for humans, they reflect a complex interplay of physiological reactions. The author shows that goosebumps are more nuanced than previously thought.
Offering high-quality peer review through Review Commons
Did you know that BiO is an affiliate journal for Review Commons? This platform offers high-quality peer review of preprints before journal submission. This is just one of the many transfer options we offer to and from BiO. Read published articles that have come to us through this route in our Review Commons collection.
Reasons to submit to Biology Open
Discover the many reasons there are to publish in Biology Open. Biology Open prioritises making it easy for our authors by providing fast and fair decisions and rapid publication. Submissions are handled by expert Academic Editors covering a range of topics and trusted by our readers. Additionally, Biology Open strives to support our biological community.
How we support early-career researchers
Biology Open, its sister journals and its not-for-profit publisher, The Company of Biologists, support early-career researchers in numerous ways, helping them grow their network and raise their profile. Find out what we can do to support you.