The Salivary microbiome is the nonpathogenic, commensal bacteria present in the healthy human salivary glands. It is distinct from bacteria that may cause infection in the glands. It differs from the oral microbiome which is located in the oral cavity. Oral microorganisms tend to adhere to teeth. The oral microbiome possesses its own characteristic microorganisms found there. Resident microbes of the mouth adhere to the teeth and gums. "here may be important interactions between the saliva microbiome and other microbiomes in the human body, in particular, that of the intestinal tract."
"There is high diversity in the salivary microbiome within and between individuals, but little geographic structure. Overall, ∼13.5% of the total variance in the composition of genera is due to differences among individuals, which is remarkably similar to the fraction of the total variance in neutral genetic markers that can be attributed to differences among human populations." "nvironmental variables revealed a significant association between the genetic distances among locations and the distance of each location from the equator. Further characterization of the enormous diversity revealed here in the human salivary microbiome will aid in elucidating the role it plays in human health and disease, and in the identification of potentially informative species for studies of human population history." Sixty new genera have been identified from the salivary glands. A total of 101 different genera were identified in the salivary glands. Out of these, 39 genera are not found in the oral microbiome. It is not known whether the resident species remain constant or change. Though the association between the salivary microbiome is similar to that of the oral microbiome, there also exists an association the salivary microbiome and the gut microbiome. Saliva sampling may be a non-invasive way to detect changes in the gut microbiome and changes in systemic disease. The association between the salivary microbiome those with Polycistic Ovarian Syndrome has been characterized: "saliva microbiome profiles correlate with those in the stool, despite the fact that the bacterial communities in the two locations differ greatly. Therefore, saliva may be a useful alternative to stool as an indicator of bacterial dysbiosis in systemic disease." The sugar concentration in salivary secretions can vary. Blood sugar levels are reflected in salivary gland secretions. High salivary glucose and those with low salivary glucose. Salivary gland secretions containing high levels of sugar change the oral microbiome and contributes to an environment that is conductive to the formation of dental caries and gingivitis.
Salivary glands
Organisms of the salivary microbiome reside in the three major salivary glands: parotid, submandibular, and sublingual. These glands secrete electrolytes, proteins, genetic material, polysaccharides, and other molecules. Most of these substances enter the salivary gland acinus and duct system from surrounding capillaries via the intervening tissue fluid, although some substances are produced within the glands themselves. The level of each salivary component varies considerably depending on the health status of the individual and the presence of pathogenic and commensal organisms.