Peredibacteraceae 🔎

The term "Peredibacteraceae" refers to a group of bacteria that belong to the family Phyla, specifically the Phylum Bacteria, which also includes several other families such as Euryarchaeota and Actinobacteria. These bacteria are characterized by their ability to divide rapidly, forming numerous colonies in a single area, and their ability to survive on a variety of substrates, including organic matter.

Radiella 🔎

Radiella is a type of bacteria that belongs to the genus Euryarchaeota, which includes some of the most common and well-studied bacteria in nature. They are known for their ability to produce hydrogen peroxide as a byproduct of photosynthesis, making them important for understanding the role of oxygen in photosynthesis.

Chrysomerophyceae 🔎

Chrysomerophyceae are a family of prokaryotic fungi that belong to the order Euryarchaeota, which is part of the class Prokarya. These fungi have a similar structure to bacteria and contain a single cell membrane but lack a nucleus or mitochondria. They are known for their ability to produce spores through a process called meiosis, which produces two genetically identical daughter cells with different genetic material, allowing them to reproduce rapidly.

Euryarchaeota 🔎

Euryarchaeota are microorganisms that primarily inhabit soil, typically in symbiosis with other organisms like plants and animals. They have a diverse range of functions within the ecosystem, including decomposing organic matter, producing essential nutrients for plant growth, and serving as primary producers in aquatic ecosystems. Euryarchaeota play an important role in maintaining the balance of life on Earth and are considered crucial for maintaining biodiversity.

Selenodriella 🔎

Selenodriella is a genus of bacteria that belongs to the order Euryarchaeota, which is also known as "selenophiles". These bacteria are found in soil and water bodies, such as lakes, rivers, and wetlands. They primarily consume organic matter from these environments, leading to the production of sulfur compounds through glycolysis. Selenodriella is a facultative anaerobic bacterium that prefers acidic conditions, making it an important resource for biological

Conexibacteraceae 🔎

The term "Conexibacteraceae" is a genus in the family Conexibacaceae, which includes bacteria that are part of the class Euryarchaeota. These bacteria have distinct characteristics including their ability to form colonies and utilize various environmental media for growth.

Euryarchaeotes 🔎

Euryarchaeotes is a genus of bacteria that belongs to the order Euryarchaeota, which includes bacteria that are known for their ability to form complex structures and utilize organic molecules in various metabolic pathways.

Cladocopina 🔎

"Cladocopina" is a type of protein found in the cell membrane of certain types of bacteria, particularly those that are part of the phylum Euryarchaeota. This protein plays an important role in the assembly and function of the bacterial flagellum, which is responsible for motility and movement within the cell.

Euryarchaeotal 🔎

Euryarchaeotal is a type of species that has two or more generations in a single generation, often occurring in aquatic environments. These organisms have a complex life cycle and can grow up to 15 meters long. They are typically found in freshwater habitats like lakes, rivers, and streams.

Titanogrypa 🔎

Titanogrypa is a genus of unicellular organisms from the class Euryarchaeota, which belongs to the phylum Prochloroferinae and the order Lysosphaeridae. These organisms are characterized by their unique, extremely small body size, often ranging up to 1-2 micrometers in diameter (0.05-0.06 inches). They are usually found in aquatic environments and have a high degree of complexity due to their complex

Ecosystem Biomes

Ecosystems can be broadly categorized into various types based on their characteristics and the organisms they support. Here are some common types of ecosystems:

Terrestrial Biomes

Tundra Taiga Montane Grasslands and Shrublands Alpine Tundra Coniferous Forests Broadleaf and Mixed Forests Deciduous Forests Grasslands Savannas Shrublands Tropical Forest Rainforest Seasonal Forest Tropical Coniferous Forests Moist Broadleaf Forests Dry Broadleaf Forests Tropical Grasslands, Savannas, and Shrublands Mediterranean Forests, Woodlands, and Scrub Deserts and Xeric Shrublands Steppe Flooded Grasslands and Savannas Riparian Wetland Mangrove

Aquatic Biomes

Pond Littoral Intertidal Mangroves Kelp Forests Coral Reefs Neritic Zone Pelagic Zone Benthic Zone Hydrothermal Vents Cold Seeps Demersal Zone

Other Biomes

Endolithic Zone

Biogeographic Realms

Afrotropical Antarctic Australasian Holarctic Nearctic Palearctic Indomalayan Neotropical Oceanian Antarctic / Southern Ocean Arctic Central Indo-Pacific Eastern Indo-Pacific Temperate Australasia Temperate Northern Atlantic Temperate Northern Pacific Temperate South America Temperate Southern Africa Tropical Atlantic Tropical Eastern Pacific Western Indo-Pacific ocean river lake pond stream swamp marsh

Search Results
Abditibacteriota
Acidobacteriota, phenotypically diverse and mostly uncultured
Actinomycetota, High-G+C Gram positive species
Aquificota, deep-branching
Armatimonadota
Atribacterota
Bacillota, Low-G+C Gram positive species, such as the spore-formers Bacilli (aerobic) and Clostridia (anaerobic)
Bacteroidota
Balneolota
Bdellovibrionota
Caldisericota, formerly candidate division OP5, Caldisericum exile is the sole representative
Calditrichota
Campylobacterota
Chlamydiota
Chlorobiota, green sulphur bacteria
Chloroflexota, green non-sulphur bacteria
Chrysiogenota, only 3 genera (Chrysiogenes arsenatis, Desulfurispira natronophila, Desulfurispirillum alkaliphilum)
Coprothermobacterota
Deferribacterota
Deinococcota, Deinococcus radiodurans and Thermus aquaticus are "commonly known" species of this phyla
Dictyoglomota
Elusimicrobiota, formerly candidate division Thermite Group 1
Fibrobacterota
Fusobacteriota
Gemmatimonadota
Ignavibacteriota
Kiritimatiellota
Lentisphaerota, formerly clade VadinBE97
Mycoplasmatota, notable genus: Mycoplasma
Myxococcota
Nitrospinota
Nitrospirota
Planctomycetota
Pseudomonadota, the most well-known phylum, containing species such as Escherichia coli or Pseudomonas aeruginosa
Rhodothermota
Spirochaetota, species include Borrelia burgdorferi, which causes Lyme disease
Synergistota
Thermodesulfobacteriota
Thermomicrobiota
Thermotogota, deep-branching
Verrucomicrobiota

Ecosystem Species

Various species inhabit these ecosystems, each playing a unique role in maintaining the ecological balance.

Animals

Porifera (Sponges) Cnidaria (Jellyfish, Corals) Platyhelminthes (Flatworms) Nematoda (Roundworms) Annelida (Segmented Worms) Mollusca (Snails, Squids) Arthropoda (Insects, Crustaceans) Echinodermata (Sea Stars, Urchins) Jawless Fish (Agnatha) Cartilaginous Fish (Chondrichthyes) Bony Fish (Osteichthyes) Amphibians Reptiles Birds Mammals

Plants

Bryophyta (Mosses) Marchantiophyta (Liverworts) Anthocerotophyta (Hornworts) Lycophyta (Club Mosses) Pteridophyta (Ferns) Coniferophyta (Conifers) Cycadophyta (Cycads) Ginkgophyta (Ginkgo) Gnetophyta (Gnetum, Ephedra) Magnoliophyta (Flowering Plants)

Fungi

Chytridiomycota (Chytrids) Zygomycota (Bread Molds) Glomeromycota (Mycorrhizal Fungi) Ascomycota (Sac Fungi) Basidiomycota (Club Fungi)

Protists

Amoebozoa (Amoebas, Slime Molds) Excavata (Euglena, Giardia) Chromalveolata (Diatoms, Dinoflagellates) Rhizaria (Radiolarians, Forams) Archaeplastida (Red & Green Algae)

Bacteria

Proteobacteria Firmicutes Actinobacteria Cyanobacteria (Blue-Green Algae) Bacteroidetes Spirochaetes Chlamydiae Planctomycetes

Archaea

Euryarchaeota (Methanogens, Halophiles) Crenarchaeota (Thermophiles) Nanoarchaeota Korarchaeota fish bird insect mammal reptile amphibian mollusk fungi

Peredibacteraceae 🔎

The term "Peredibacteraceae" refers to a group of bacteria that belong to the family Phyla, specifically the Phylum Bacteria, which also includes several other families such as Euryarchaeota and Actinobacteria. These bacteria are characterized by their ability to divide rapidly, forming numerous colonies in a single area, and their ability to survive on a variety of substrates, including organic matter.

Radiella 🔎

Radiella is a type of bacteria that belongs to the genus Euryarchaeota, which includes some of the most common and well-studied bacteria in nature. They are known for their ability to produce hydrogen peroxide as a byproduct of photosynthesis, making them important for understanding the role of oxygen in photosynthesis.

Chrysomerophyceae 🔎

Chrysomerophyceae are a family of prokaryotic fungi that belong to the order Euryarchaeota, which is part of the class Prokarya. These fungi have a similar structure to bacteria and contain a single cell membrane but lack a nucleus or mitochondria. They are known for their ability to produce spores through a process called meiosis, which produces two genetically identical daughter cells with different genetic material, allowing them to reproduce rapidly.

Euryarchaeota 🔎

Euryarchaeota are microorganisms that primarily inhabit soil, typically in symbiosis with other organisms like plants and animals. They have a diverse range of functions within the ecosystem, including decomposing organic matter, producing essential nutrients for plant growth, and serving as primary producers in aquatic ecosystems. Euryarchaeota play an important role in maintaining the balance of life on Earth and are considered crucial for maintaining biodiversity.

Selenodriella 🔎

Selenodriella is a genus of bacteria that belongs to the order Euryarchaeota, which is also known as "selenophiles". These bacteria are found in soil and water bodies, such as lakes, rivers, and wetlands. They primarily consume organic matter from these environments, leading to the production of sulfur compounds through glycolysis. Selenodriella is a facultative anaerobic bacterium that prefers acidic conditions, making it an important resource for biological

Conexibacteraceae 🔎

The term "Conexibacteraceae" is a genus in the family Conexibacaceae, which includes bacteria that are part of the class Euryarchaeota. These bacteria have distinct characteristics including their ability to form colonies and utilize various environmental media for growth.

Euryarchaeotes 🔎

Euryarchaeotes is a genus of bacteria that belongs to the order Euryarchaeota, which includes bacteria that are known for their ability to form complex structures and utilize organic molecules in various metabolic pathways.

Cladocopina 🔎

"Cladocopina" is a type of protein found in the cell membrane of certain types of bacteria, particularly those that are part of the phylum Euryarchaeota. This protein plays an important role in the assembly and function of the bacterial flagellum, which is responsible for motility and movement within the cell.

Euryarchaeotal 🔎

Euryarchaeotal is a type of species that has two or more generations in a single generation, often occurring in aquatic environments. These organisms have a complex life cycle and can grow up to 15 meters long. They are typically found in freshwater habitats like lakes, rivers, and streams.

Titanogrypa 🔎

Titanogrypa is a genus of unicellular organisms from the class Euryarchaeota, which belongs to the phylum Prochloroferinae and the order Lysosphaeridae. These organisms are characterized by their unique, extremely small body size, often ranging up to 1-2 micrometers in diameter (0.05-0.06 inches). They are usually found in aquatic environments and have a high degree of complexity due to their complex

Deciduous Forest 🔎