Skin A study of 20 skin sites on each of ten healthy humans found 205 identified genera in 19 bacterial phyla, with most sequences assigned to four phyla:
Actinomycetota (51.8%),
Bacillota (24.4%),
Pseudomonadota (16.5%), and
Bacteroidota (6.3%). A large number of fungal genera are present on healthy human skin, with some variability by region of the body; however, during pathological conditions, certain genera tend to dominate in the affected region. Fungal genera include
Candida,
Aspergillus, and
Penicillium. Birth by
Cesarean section or vaginal delivery also influences the gut's microbial composition. Babies born through the vaginal canal have non-pathogenic, beneficial gut microbiota similar to those found in the mother. However, the gut microbiota of babies delivered by C-section harbor more pathogenic bacteria such as
Escherichia coli and
Staphylococcus and require more time to develop non-pathogenic, beneficial gut microbiota. The relationship between some
gut microbiota and humans is not merely
commensal (a non-harmful coexistence), but rather a
mutualistic relationship. The systemic importance of the SCFAs and other compounds they produce are like
hormones and the gut flora itself appears to function like an
endocrine organ, The composition of human gut microbiota changes over time, when the diet changes, and as overall health changes.
Esophagus It was thought that the esophagus was sterile of a microbiome. But since the 1980s, it has been shown that the
esophagus is not sterile but in fact contains a diverse microbiome. However it is poorly studied with little known about its role in disease
pathogenesis and esophageal health. This is partially due to the difficulty in sampling the microbes in the esophagus. Many bacteria can be found here such as
Firmicutes (
Streptococcus,
Veillonella,
Megaspheaera,
Granulicatella,
Gemella,
Clostridium, and
Bulleidia),
Bacteroidetes (
Prevotella and
Bacteroides),
Fusobacteria,
Actinobacteria (
Rotia and
Actinomyces), and
Saccharibacteria. The most abundant species found was
Streptococcus mitis. In a healthy esophagus, it is dominated by gram-positive bacteria such as
Streptococcus.
Urethra and bladder The
genitourinary system appears to have a microbiota, which is an unexpected finding in light of the long-standing use of standard clinical
microbiological culture methods to detect
bacteria in urine when people show signs of a
urinary tract infection; it is common for these tests to show no bacteria present. It appears that common
culture methods do not detect many kinds of bacteria and other
microorganisms that are normally present. To properly assess the microbiome of the bladder as opposed to the genitourinary system, the urine specimen should be collected directly from the bladder, which is often done with a
catheter.
Vagina Vaginal microbiota refers to those species and genera that colonize the vagina. These organisms play an important role in protecting against infections and maintaining vaginal health. Ethnicity also influences vaginal flora. The occurrence of hydrogen peroxide-producing lactobacilli is lower in African American women and vaginal pH is higher. Other influential factors such as sexual intercourse and antibiotics have been linked to the loss of lactobacilli. Moreover, studies have found that sexual intercourse with a condom does appear to change lactobacilli levels, and does increase the level of
Escherichia coli within the vaginal flora. such as
candidiasis or
bacterial vaginosis. However, the existence of a microbiome in the placenta is controversial as criticized in several researches. So called "placental microbiome" is likely derived from contamination of regents because low-biomass samples are easily contaminated.
Uterus Until recently, the upper reproductive tract of women was considered to be a sterile environment. A variety of microorganisms inhabit the uterus of healthy, asymptomatic women of reproductive age. The microbiome of the uterus differs significantly from that of the vagina and gastrointestinal tract.
Oral cavity The environment present in the human mouth allows the growth of characteristic microorganisms found there. It provides a source of water and nutrients, as well as a moderate temperature. Genera of fungi that are frequently found in the mouth include
Candida,
Cladosporium,
Aspergillus,
Fusarium,
Glomus,
Alternaria,
Penicillium, and
Cryptococcus, among others. Saliva plays a key biofilm homeostatic role allowing recolonization of bacteria for formation and controlling growth by detaching biofilm buildup. It also provides a means of nutrients and temperature regulation. The location of the biofilm determines the type of exposed nutrients it receives. Oral bacteria have evolved mechanisms to sense their environment and evade or modify the host. However, a highly efficient innate host defense system constantly monitors the bacterial colonization and prevents bacterial invasion of local tissues. A dynamic equilibrium exists between
dental plaque bacteria and the innate host defense system. A healthy equilibrium presents a symbiotic relationship where oral microbes limit growth and adherence of pathogens while the host provides an environment for them to flourish. Pathogen colonization at the periodontium cause an excessive immune response resulting in a periodontal pocket- a deepened space between the tooth and gingiva.-->
Staphylococcus aureus is a major pathogenic species in the nasal cavity.
Lung Much like the oral cavity, the upper and lower respiratory system possess mechanical deterrents to remove microbes. Goblet cells produce mucus which traps microbes and moves them out of the respiratory system via continuously moving
ciliated epithelial cells. Pulmonary bacterial microbiota belong to 9 major bacterial genera:
Prevotella,
Sphingomonas,
Pseudomonas,
Acinetobacter,
Fusobacterium,
Megasphaera,
Veillonella,
Staphylococcus, and
Streptococcus. Some of the bacteria considered "normal biota" in the respiratory tract can cause serious disease especially in immunocompromised individuals; these include
Streptococcus pyogenes,
Haemophilus influenzae,
Streptococcus pneumoniae,
Neisseria meningitidis, and
Staphylococcus aureus. Fungal genera that compose the pulmonary mycobiome include
Candida,
Malassezia,
Neosartorya,
Saccharomyces, and
Aspergillus, among others. Their bacterial flora often contains antibiotic-resistant and slow-growing bacteria, and the frequency of these pathogens changes in relation to age.
Blood The presence of viable bacteria in the bloodstream can provoke strong immune activation, resulting in clinical syndromes ranging from relatively mild forms of bacteremia to the potentially life-threatening condition known as
sepsis. Bacteremia may occur spontaneously or as a complication of medical procedures, including
liver transplantation. Even in the absence of live microorganisms, bacterial breakdown products, particularly fragments of microbial DNA, can enter the circulation and persist transiently until cleared by renal filtration or enzymatic degradation. This observation has led to the concept of a
blood microbiome, which primarily reflects circulating microbial DNA rather than intact, viable bacteria. The precise mechanisms by which microbial DNA enters the bloodstream remain incompletely understood, though translocation from the gastrointestinal tract is considered a major source, particularly in the setting of impaired intestinal barrier function, a feature observed in several chronic inflammatory diseases. Blood-derived microbial DNA signatures have been explored as potential non-invasive biomarkers for a variety of conditions, including diabetes, cardiovascular disease, and cancer. Some studies suggest that such signatures may even differentiate between cancer types. Despite growing interest, the existence and biological relevance of a distinct blood microbiome remain debated. Major concerns include technical limitations in sequencing and bioinformatic analysis, as well as the high risk of contamination and analytical artifacts. To address these uncertainties, rigorously controlled, prospective, and multinational proof-of-concept studies have been proposed to determine how representative circulating microbial DNA is of the overall human microbiome. == Disease and death ==