These data refer to an experiment on repeated anhydrobiosis in the tardigrade Richtersius coronifer. Specimens used in the study originate from a population at Öland, southern Sweden. The report from the analysis of these data has been submitted to PLOS ONE
Tardigrades are well known for their capacity to enter an anhydrobiotic state, and remain ametabolic...
The disaccharide trehalose is an important factor in many anhydrobiotic organisms, as it has a stron...
The TARDIKISS project (Tardigrades in Space) investigates the physiological and molecular effects of...
We report a study on anhydrobiotic survival in the eutardigrades Richtersius coronifer and Ramazzott...
Tardigrades represent one of the main animal groups with anhydrobiotic capacity at any stage of thei...
Anhydrobiosis is a desiccation tolerance that denotes the ability to survive almost complete dehydra...
The ability of some animal taxa (e.g., nematodes, rotifers, and tardigrades) to enter an ametabolic ...
Studies of geographic variation in anhydrobiosis may increase our understanding of the population dy...
Tardigrades represent one of the main animal groups with anhydrobiotic capacity at any stage of thei...
Tardigrades represent one of the main animal groups with anhydrobiotic capacity at any stage of thei...
This study represents the ®rst systematic investigation of long-term anhydrobiotic survival in tardi...
The TARDIKISS project (Tardigrades in Space) investigated the physiological and molecular effects of...
Tardigrades can handle extreme conditions such as heat, cold and drought, thanks to a process called...
Tardigrades often colonise extreme habitats, in which they survive using both types of dormancy: qui...
The TARDIKISS project (Tardigrades in Space) investigates the physiological and molecular effects of...
Tardigrades are well known for their capacity to enter an anhydrobiotic state, and remain ametabolic...
The disaccharide trehalose is an important factor in many anhydrobiotic organisms, as it has a stron...
The TARDIKISS project (Tardigrades in Space) investigates the physiological and molecular effects of...
We report a study on anhydrobiotic survival in the eutardigrades Richtersius coronifer and Ramazzott...
Tardigrades represent one of the main animal groups with anhydrobiotic capacity at any stage of thei...
Anhydrobiosis is a desiccation tolerance that denotes the ability to survive almost complete dehydra...
The ability of some animal taxa (e.g., nematodes, rotifers, and tardigrades) to enter an ametabolic ...
Studies of geographic variation in anhydrobiosis may increase our understanding of the population dy...
Tardigrades represent one of the main animal groups with anhydrobiotic capacity at any stage of thei...
Tardigrades represent one of the main animal groups with anhydrobiotic capacity at any stage of thei...
This study represents the ®rst systematic investigation of long-term anhydrobiotic survival in tardi...
The TARDIKISS project (Tardigrades in Space) investigated the physiological and molecular effects of...
Tardigrades can handle extreme conditions such as heat, cold and drought, thanks to a process called...
Tardigrades often colonise extreme habitats, in which they survive using both types of dormancy: qui...
The TARDIKISS project (Tardigrades in Space) investigates the physiological and molecular effects of...
Tardigrades are well known for their capacity to enter an anhydrobiotic state, and remain ametabolic...
The disaccharide trehalose is an important factor in many anhydrobiotic organisms, as it has a stron...
The TARDIKISS project (Tardigrades in Space) investigates the physiological and molecular effects of...
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