Extremeophiles and Extreme Environments

The Biology, Microclimate, and Geology of a Distinctive Ecosystem Within the Sandstone of Hyper-Arid Timna Valley, Israel

By Keith Cowing

Status Report

Environmental Geology Reports

September 17, 2025

Filed under Analog, Chroococcidiopsis sp., cyanobacteria, desert, endolithic, Environmental Geology Reports, extemophile, Imre Friedmann, Mars, Metagenomics, microbiology, microenvironment, Negev Desert, Roseli Ocampo-Friedmann

The Biology, Microclimate, and Geology of a Distinctive Ecosystem Within the Sandstone of Hyper-Arid Timna Valley, Israel — Photographs of the microclimate monitoring systems that were implemented in the study: (A) Air temperature and humidity sensor in a 12 cm diameter radiation shield. (B) Light sensor mounted ~10 cm above the rock surface in a stand. (C) Conductivity sensor (one of six). (D) Dew sensor (7 cm on a side) 4. Not shown are the rock temperature sensors and the tipping bucket rain gauge. (Photographs by Irit Nir). (E) Geological Map of Timna Park showing the location of the rain gauge in Timna Park. (F) Stratigraphy Index of the Geological map (Origin of the map and the index: Beyth et al. 1999). — Environmental Geology Reports

Microbial endolithic communities in the sandstone rocks of the southern Negev Desert, particularly in Timna Park, were initially discovered by Imre Friedmann and Roseli Ocampo-Friedmann in their pioneering study about 50 years ago.

Nonetheless, this harsh microecosystem, dominated by cyanobacterial taxa, raises questions about the adaptive mechanisms that enable the survival of these microorganisms. The present study provides comprehensive data, including extensive precipitation records for the Timna Valley, and multi-year microclimatic data from a colonised site.

It includes examinations of rock structure, as well as microscopic and metagenomic analysis. Our findings point to a distinct bacterial endolithic population dominated by the cyanobacterial genus Chroococcidiopsis. Although the taxa are well known, we show here how their exclusive persistence is driven by the sandstone’s fine porosity and thermal properties, combined with rare, low-volume precipitation.

This highly selective microenvironment highlights how specific rock and climate interactions can filter microbial diversity in hyper-arid deserts. Additionally, it demonstrates an adaptation strategy based on both short-term and decadal-scale dormancy.

Thus, it offers new insights for the survival of these unique ecosystems and provides valuable perspectives for astrobiology and the search for evidence of microbial life on Mars.

The Biology, Microclimate, and Geology of a Distinctive Ecosystem Within the Sandstone of Hyper-Arid Timna Valley, Israel, Environmental Geology Reports via PubMed

The Biology, Microclimate, and Geology of a Distinctive Ecosystem Within the Sandstone of Hyper-Arid Timna Valley, Israel, Environmental Geology Reports, (open access)

Astrobiology

Keith Cowing

Explorers Club Fellow, ex-NASA Space Station Payload manager/space biologist, Away Teams, Journalist, Lapsed climber, Synaesthete, Na’Vi-Jedi-Freman-Buddhist-mix, ASL, Devon Island and Everest Base Camp veteran, (he/him) 🖖🏻

Follow on Twitter