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- Supporting Information
- Microorganism Response to Stressed Terrestrial Environments: a Raman Spectroscopic Perspective of Extremophilic Life Strategies
- Structure of Academic Papers
- Extremozymes: a Potential Source for Industrial Applications Kelly Dumorné*, David Camacho Córdova, Marcia Astorga-Eló, and Prabhaharan Renganathan
- Summary of Field Investigations from the Mars 160 Analog Mission in Utah and Devon Island J.P
- Trivedi Mines 0052E 11567.Pdf
- Endolith, Extremophilic Organisms from Volcanic Rock: Biochip Precursors
- Commentary DOI 10.1007/S12038-012-9184-8
- The Bruneau Woodpile: a Miocene Phosphatized Fossil Wood Locality in Southwestern Idaho, USA
- Headline Discoveries Making Science Matter® Oil and Water Don’T MIX By: Gwen Myslinski
- Inner Workings: Endoliths Hunker Down and Survive in Extreme
- High Arctic Cryptoendolithic Microorganisms in a Polar Desert Environment
- Astr450 Assignment 4: Limits of Carbon-Based Life Due Thu Sep 24, 2009
- Microbial Endoliths in Skeletons of Live and Dead Corals: Porites Lobata (Moorea, French Polynesia)
- Habitable Worlds with No Signs of Life
- Bacterially-Mediated Formation of Rock Coatings in Kärkevagge, Swedish Lapland: a Mineralogical and Micro-Environmental Analog for Mars Cassandra L
- Extremophiles
- Wolf, Jordan (Applications of Extremophiles in Martian
- How Abiotic Stress Affects Biotic
- Student Version
- Applying Genome-Resolved Metagenomics to Deconvolute the Halophilic Microbiome
- Multi-Trophic Interactions Within the Seagrass Beds of Banc D'arguin, Mauritania a Chemosynthesis-Based Intertidal Ecosystem
- Présentation Powerpoint
- Endolithic Microorganisms in Ordovician Ostracod Valvds
- Stable Isotopic Records of Bleaching and Endolithic Algae Blooms in the Skeleton of the Boulder Forming Coral Montastraea Faveolata