9 bacterial groups: gut, oral, skin, ear, eye, vaginal, urinary, nasal and respiratory

Bacterial Groups in the Human Body

Perplexity AI June 2025
The human body hosts a diverse array of bacterial communities, collectively known as the microbiome, which vary significantly across different anatomical sites. These microbial ecosystems play crucial roles in maintaining health, supporting immune function, and preventing pathogen colonization 1 2. Below is a comprehensive overview of the major bacterial groups found in various body sites.

Gut Microbiota

The gut harbors the largest and most diverse microbial community in the human body, with bacteria primarily belonging to four major phyla:

  • Bacteroidetes (Bacteroidota) 1 2 3
  • Firmicutes (Bacillota) 1 4 3
  • Actinobacteria (Actinomycetota) 1 3
  • Proteobacteria (Pseudomonadota) 1 4 3
  • Verrucomicrobia (Verrucomicrobiota) 1
  • Fusobacteria (in smaller amounts) 1

Common genera in the gut include:

  • Bacteroides
  • Clostridium
  • Faecalibacterium
  • Eubacterium
  • Ruminococcus
  • Bifidobacterium
  • Peptococcus
  • Peptostreptococcus 1 3 5
Oral Microbiota

The oral cavity contains the second most diverse microbiome in the body, with dominant phyla including:

  • Firmicutes
  • Proteobacteria
  • Bacteroidetes
  • Actinobacteria
  • Fusobacteria
  • Chlamydiae (less common) 1 4

Key genera found in the oral microbiome include:

  • Streptococcus (including mitis, sanguinis, anginosus, salivarius, downei, mutans groups)
  • Prevotella
  • Fusobacterium
  • Actinomyces
  • Veillonella
  • Neisseria 1 4 2
Skin Microbiota

The skin microbiome varies by body site, with different bacterial communities inhabiting sebaceous, moist, and dry areas:

  • Actinobacteria (Actinomycetota) - dominant in sebaceous areas
  • Firmicutes (Bacillota)
  • Proteobacteria (Pseudomonadota) - dominant in dry skin areas
  • Bacteroidetes (Bacteroidota) 1 2

Common genera on the skin include:

  • Staphylococcus (e.g., S. epidermidis, S. aureus)
  • Streptococcus (e.g., S. pyogenes, S. mitis)
  • Cutibacterium (formerly Propionibacterium, e.g., C. acnes)
  • Corynebacterium
  • Acinetobacter
  • Pseudomonas 1 2

The composition varies by site, with flat skin surfaces differing from infolded areas like armpits or gluteal clefts, which are dominated by Staphylococcus or Corynebacterium species 1.

Vaginal Microbiota

The vaginal microbiome is unique in being less diverse than other body sites and typically dominated by:

  • Lactobacillus species (90-95% in healthy individuals) 6 7
    • L. crispatus
    • L. iners
    • L. jensenii
    • L. gasseri

In bacterial vaginosis (a dysbiotic state), there's a shift toward:

  • Gardnerella vaginalis
  • Atopobium vaginae
  • Prevotella species
  • Peptostreptococcus species 6 7

The vaginal microbiome undergoes fluctuations during the menstrual cycle and throughout a woman's life 7.

Urinary Tract Microbiota

Contrary to previous beliefs about sterility, the urinary tract has its own microbiome:

  • Lactobacillus (dominant in females)
  • Corynebacterium (dominant in males)
  • Prevotella
  • Gardnerella
  • Streptococcus
  • Staphylococcus 8 9 10

The urinary microbiome can be classified into several "urotypes" based on the dominant genus 8 11 12.

Respiratory Tract Microbiota

The respiratory system hosts distinct microbial communities from the nasal cavity to the lungs:

Nasal/Nasopharyngeal Microbiota
  • Actinobacteria (Corynebacterium, Propionibacterium)
  • Firmicutes (Staphylococcus, particularly S. aureus and S. epidermidis)
  • Proteobacteria
  • Moraxella
  • Dolosigranulum 13 14 15

In children, the nasal microbiome often includes Streptococcaceae, Moraxellaceae, and Neisseriaceae families 13 15.

Lower Respiratory Tract

The lung microbiome includes:

  • Bacteroidetes
  • Firmicutes
  • Proteobacteria
  • Fusobacteria
  • Actinobacteria 13

Common genera include:

  • Prevotella
  • Veillonella
  • Streptococcus
  • Pseudomonas
  • Fusobacterium
  • Sphingomonas
  • Acinetobacter 13
Ear Microbiota

The ear canal has its own microbial ecosystem:

  • Firmicutes and Actinobacteria (dominant in healthy ears)
  • Proteobacteria and Bacteroides (more common in otitis) 16

Specific species include:

  • Cutibacterium acnes (most abundant in healthy ears)
  • Staphylococcus auricularis
  • Staphylococcus capitis/caprae
  • Corynebacterium otitidis 16

In ear infections, Pseudomonas aeruginosa, Staphylococcus aureus, and Corynebacterium jeikeium become more prevalent 16.

Ocular Microbiota

The eye surface, despite constant washing by tears, maintains a distinct microbiome:

  • Gram-positive genera predominate:
    • Coagulase-negative Staphylococci (most common, present in 20-80% of conjunctival swabs)
    • Streptococcus
    • Propionibacterium
    • Corynebacterium
    • Micrococcus 17
  • Other genera found include:
    • Acinetobacter
    • Pseudomonas
    • Sphingomonas
    • Rothia
    • Bacillus 17

The density of microbes is typically lowest in tears and highest on eyelids 17.

Conclusion

The human microbiome represents a complex ecosystem with hundreds to thousands of bacterial species distributed across various body sites 1 2 3. While certain phyla are common across multiple sites (particularly Firmicutes, Bacteroidetes, Actinobacteria, and Proteobacteria), the specific genera and species vary significantly by location 1 2. These bacterial communities play essential roles in health maintenance, including digestion, immune modulation, and protection against pathogens 1 2 3. The composition of these microbial communities is influenced by numerous factors including body location, environment, diet, hygiene, and individual genetics 1 5.

  1. https://pmc.ncbi.nlm.nih.gov/articles/PMC10061322/
  2. https://en.wikipedia.org/wiki/Human_microbiome
  3. https://pmc.ncbi.nlm.nih.gov/articles/PMC7043356/
  4. https://www.nature.com/articles/s41392-022-00974-4
  5. https://www.psu.edu/news/eberly-college-science/story/gut-bacteria-variation-among-human-social-groups-emerges-three-months
  6. https://en.wikipedia.org/wiki/Vaginal_flora
  7. https://pmc.ncbi.nlm.nih.gov/articles/PMC8058480/
  8. https://pmc.ncbi.nlm.nih.gov/articles/PMC10224287/
  9. https://www.sciencedirect.com/science/article/pii/S0944501322000507
  10. https://pmc.ncbi.nlm.nih.gov/articles/PMC10252372/
  11. https://www.frontiersin.org/journals/cellular-and-infection-microbiology/articles/10.3389/fcimb.2021.617002/full
  12. https://pmc.ncbi.nlm.nih.gov/articles/PMC8775962/
  13. https://pmc.ncbi.nlm.nih.gov/articles/PMC7599718/
  14. https://www.nature.com/articles/s42003-024-05822-5
  15. https://pmc.ncbi.nlm.nih.gov/articles/PMC7074508/
  16. https://pmc.ncbi.nlm.nih.gov/articles/PMC8786117/
  17. https://www.frontiersin.org/journals/immunology/articles/10.3389/fimmu.2020.609765/full
  18. https://academic.oup.com/ofid/article/11/9/ofae471/7735779
  19. https://www.medicalnewstoday.com/articles/human-microbiota-the-microorganisms-that-make-us-their-home
  20. https://www.health.harvard.edu/blog/an-emerging-link-between-the-urinary-microbiome-and-urinary-incontinence-2020081220712

38+ VitaminDWiki pages have BACTERIA(L) in the title

The list is automatically updated

Items found: 38
Title Modified
9 bacterial groups: gut, oral, skin, ear, eye, vaginal, urinary, nasal and respiratory 21 Jun, 2025
Gut bacteria, Vitamin D, B Vitamins and Sleep - Gominak Dec 2024 02 Mar, 2025
Autism is strongly associated with 31 gut microbiota (bacteria, archaea, fungi, and viruses) – July 2024 12 Jul, 2024
Coronary plaque associated with poor gut bacteria (Might vitamin D or K help) – July 2023 20 Jul, 2023
Metabolic Syndrome prevented by Vitamin D, Phytochemicals and improved gut bacteria - Feb 2023 11 Feb, 2023
Calcidiol (bacterial fermentation-derived vitamin D) OK with pigs (perhaps lower cost) - Aug 2022 13 Aug, 2022
14th activator of the Vitamin D Receptor – Butyrate (from gut bacteria, or supplement) 01 Jul, 2022
Poor oral bacteria associated with poor Vitamin D Receptor - June 2022 24 Jun, 2022
Bacterial infections reduced by Vitamin D without antibiotics – Oct 2019 24 Jun, 2021
Health problems not vary with vitamin D if everyone has enough (bacterial meningitis in this case) – June 2018 25 Feb, 2021
Vitamin D (10,000 IU) changes bacteria in the gut – RCT Jan 2020 13 Dec, 2020
Poor absorption of Vitamin D is strongly related to type of gut bacteria – Dec 2020 11 Dec, 2020
Prediabetics had different gut bacteria – April 2018 30 Dec, 2019
Vitamin D Receptor in gut can be activated by lithocholic acid produced by gut bacteria 16 Nov, 2019
Low vitamin D in pregnancy linked to potentially harmful vaginal bacteria in black women - May 2019 05 Jun, 2019
Gut bacteria of Crohn's disease patients improved by Vitamin D – March 2018 15 May, 2018
Inhaled nanoemulsion of Vitamin D killed lung bacteria – Sept 2017 19 Apr, 2018
Recurrent wheeze 2X more likely if endotoxin (on some bacteria) and low vitamin D – May 2016 15 Dec, 2017
Omega-3 improves gut bacteria, reduces inflammation and depression – Dec 2017 12 Dec, 2017
Less bad gut bacteria in infant if even tiny amount of vitamin D during pregnancy – Nov 2017 09 Nov, 2017
Lung bacteria decreased by 1,000 IU of vitamin D (only in non-smokers) – RCT Sept 2017 10 Sep, 2017
Bacterial vaginosis in pregnancy increased prematurity risk by 60 percent - meta-analysis 1999 06 Mar, 2017
8 times less bacteria in blood of HIV patients if Vitamin D levels greater than 30 ng – April 2016 17 Dec, 2016
Bacterial vaginosis during pregnancy 3X more likely when low on vitamin D – Sept 2010 26 Jul, 2016
360X more bacterial than human genes in the body – June 2012 08 May, 2016
Bacterial vaginosis reduced 3X by 2,000 IU of vitamin D – RCT June 2015 19 Apr, 2016
Bacterial vaginosis reduced 10 times by 2,000 IU of vitamin D – RCT June 2015 19 Apr, 2016
Off topic - Parkinson’s Disease changes gut bacteria – March 2015 20 Jan, 2016
Prediabetic have very different gut bacteria – March 2015 09 Mar, 2015
Hypothesis: Bacteria Control Host Appetites - Feb 2013 21 Jan, 2015
Hypothesis: antibiotic resistant bacteria can be controlled with vitamin D 11 Jan, 2015
Your health has a symbiotic relationship with 100 Trillion Bacteria – Mercola Aug 2014 28 Aug, 2014
Vitamin D reduced bacterial infection in cows – RCT Sept 2013 11 Oct, 2013
Increase immunity to TB-like bacteria if visit high altitude – Sept 2013 15 Sep, 2013
Sepsis bacteria can be killed by blue as well as UV light – Jan 2013 29 Jan, 2013
Bacterial infection in cows reduced with vitamin D – Oct 2011 07 Feb, 2012
Vitamin D converted by bacteria and enzymes – July 2010 28 Jul, 2010
Anti-bacterial action of vitamin D – March 2010 02 Jun, 2010

Bacterial Infections Fought by Vitamin D (6) and Glutathione (6)

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VitaminDWiki - Glutathione and Vitamin D synergism - many studies

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