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Rare biosphere
Where Less May Be More: How the Rare Biosphere Pulls Ecosystems Strings
Amplification by PCR Artificially Reduces the Proportion of the Rare Biosphere in Microbial Communities
The Rare Bacterial Biosphere
1 Marine Microbial Diversity and Genomics Frank Oliver Glöckner Seas and Oceans Cover Over 70% of the Earth's Surface And
Ultradeep Microbial Communities at 4.4 Km Within Crystalline Bedrock: Implications for Habitability in a Planetary Context
Archaea and Bacteria with Surprising Microdiversity Show Shifts in Dominance Over 1,000-Year Time Scales in Hydrothermal Chimneys
Habitability Models for Astrobiology
Consistent Effects of Vegetation Loss on Abundant and Rare Soil Microbial Phylotypes Across Nitrogen- Enrichment Levels
Diversity of Archaea Domain in Cuatro Cienegas Basin: Archaean Domes
Structure of the Rare Archaeal Biosphere and Seasonal Dynamics of Active Ecotypes in Surface Coastal Waters
Effects of Multiple Dimensions of Bacterial Diversity on Functioning, Stability and Multifunctionality
Fungal Endophyte Communities Reflect Environmental Structuring Across a Hawaiian Landscape
Aquatic Microbial Ecology 78:51
Tackling the Diversity of the Marine Microbial Rare Biosphere: Methodological Challenges and Ecological Insights
A First Comprehensive Census of Fungi in Soil Reveals Both Hyperdiversity
Quantifying the Importance of the Rare Biosphere for Microbial Community
Divergent Temporal Response of Abundant and Rare Bacterial Communities to Transient Escherichia Coli O157:H7 Invasion
Habitability Models for Planetary Sciences
Top View
Archaeal Lineages Within the Human Microbiome: Absent, Rare Or Elusive?
Seasonal Water Level Fluctuation and Concomitant Change of Nutrients Shift Microeukaryotic Communities in a Shallow Lake
Soil Bacterial Diversity Is Positively Correlated with Decomposition Rates During Early Phases of Maize Litter Decomposition
Rare Biosphere Archaea Assimilate Acetate in Precambrian Terrestrial Subsurface at 2.2 Km Depth
Identification of Growing Bacteria During Litter Decomposition In
Chapter 5 Vulnerability of Marine Microbes on the Great Barrier Reef to Climate Change
Ecology of the Rare Microbial Biosphere of the Arctic Ocean
Jeff S. Bowman Lamont-Doherty Earth Observatory PO Box 1000 Palisades NY, USA 10964-8000
[email protected]
+1 425 753 3735
Scaling Laws Predict Global Microbial Diversity
The Impact of Multiple Displacement Amplification on Microbial Ecology
A Macroecological Theory of Microbial Biodiversity
Ecology of the Rare Microbial Biosphere of the Arctic Ocean
Rare Prokaryotic Sub-Communities Dominate the Complexity of Ecological Networks and Soil Multinutrient Cycling During Long-Term
How Species Richness and Total Abundance Constrain the Distribution of Abundance
Rapid Microbial Community Changes During Initial Stages of Pine Litter Decomposition
Ecology of the Rare Microbial Biosphere of the Arctic Ocean
Dynamics of Soil Bacterial and Fungal Communities During the Secondary Succession Following Swidden Agriculture in Lowland Forests
A Suite of Rare Microbes Interacts with a Dominant, Heritable, Fungal Endophyte to Influence Plant Trait Expression Joshua G
Hypotheses on the Role of the Protistan Rare Biosphere in a Changing World
Microbial Diversity in the Deep Sea and the Underexplored ''Rare Biosphere''
NASA ASTROBIOLOGY STRATEGY 2015 I
Paleo-Rock-Hosted Life on Earth and the Search on Mars: a Review and Strategy for Exploration