Add to ORKGAbstract: The polar desert is one of the most extreme environments on Earth. Endolithic organisms can escape or mitigate the hazards of the polar desert by using the resources available in the interior of rocks. We examined endolithic communities within crystalline rocks that have undergone shock metamorphism as a result of an asteroid or comet impact. Specifically, we present a characterization of the heterotrophic endolithic community and its environment in the interior of impact-shocked gneisses and their host polymict breccia from the Haughton impact structure on Devon Island, Nunavut, Canadian High Arctic. Microbiological colonization of impact-shocked rocks is facilitated by impact-induced fissures and cavities, which occur throughout...
Asteroid and comet impacts can have a profound influence on the habitats available for lithophytic m...
The input of nutrients into arctic polar deserts, aided by some physical processes, can result in lo...
Endolithic microorganisms, ranging from microeukaryotes to bacteria and archaea, live within the cra...
The polar desert is one of the most extreme environments on Earth. Endolithic organisms can escape o...
The polar desert is one of the most extreme environments on Earth. In these regions, microorganisms ...
Asteroid and comet impacts on Earth are commonly viewed as agents of ecosystem destruction, be it on...
The colonization of rocks by endolithic communities is an advantageous trait, especially in environm...
Impact-shocked gneiss shocked to greater than 10 GPa in the Haughton impact structure in the Canadia...
Impact-shocked gneiss shocked to greater than 10 GPa in the Haughton impact structure in the Canadia...
Rocks shocked by asteroid or comet impact events can be made more porous by the shock volatilization...
From the proceedings of the Workshop on Impact Craters as Indicators for Planetary Environmental Evo...
Meteorite impacts are ubiquitous throughout our solar system and are a fundamental geological proces...
Finely laminated carbonate columns---endostromatolites, grow in carbonate rock fissures in permafros...
Meteorite impacts, one of the most ubiquitous processes in the solar system, have the ability to des...
Asteroid and cornet impacts can have a profound influence on the habitats available for lithophytic ...
Asteroid and comet impacts can have a profound influence on the habitats available for lithophytic m...
The input of nutrients into arctic polar deserts, aided by some physical processes, can result in lo...
Endolithic microorganisms, ranging from microeukaryotes to bacteria and archaea, live within the cra...
The polar desert is one of the most extreme environments on Earth. Endolithic organisms can escape o...
The polar desert is one of the most extreme environments on Earth. In these regions, microorganisms ...
Asteroid and comet impacts on Earth are commonly viewed as agents of ecosystem destruction, be it on...
The colonization of rocks by endolithic communities is an advantageous trait, especially in environm...
Impact-shocked gneiss shocked to greater than 10 GPa in the Haughton impact structure in the Canadia...
Impact-shocked gneiss shocked to greater than 10 GPa in the Haughton impact structure in the Canadia...
Rocks shocked by asteroid or comet impact events can be made more porous by the shock volatilization...
From the proceedings of the Workshop on Impact Craters as Indicators for Planetary Environmental Evo...
Meteorite impacts are ubiquitous throughout our solar system and are a fundamental geological proces...
Finely laminated carbonate columns---endostromatolites, grow in carbonate rock fissures in permafros...
Meteorite impacts, one of the most ubiquitous processes in the solar system, have the ability to des...
Asteroid and cornet impacts can have a profound influence on the habitats available for lithophytic ...
Asteroid and comet impacts can have a profound influence on the habitats available for lithophytic m...
The input of nutrients into arctic polar deserts, aided by some physical processes, can result in lo...
Endolithic microorganisms, ranging from microeukaryotes to bacteria and archaea, live within the cra...