| Rhodothermus| Rhodothermus Alfredsson et al. 1995
Environmental significance: Rhodothermus species are primarily found in natural hot springs, volcanic areas, and other high-temperature environments. They play important roles in biogeochemical cycling and organic matter degradation in these ecosystems. While their ecological functions are well studied, their direct impact on human health is less understood.
Biotechnological applications: Some Rhodothermus species produce thermostable enzymes, such as amylases, cellulases, and xylanases, that are of interest for industrial applications. These enzymes have potential uses in various biotechnological processes, including biofuel production, food processing, and bioremediation. While the biotechnological applications of Rhodothermus enzymes are promising, their direct relevance to human health is limited.
Potential probiotic properties: While not extensively studied for their probiotic potential, some thermophilic bacteria, including members of the genus Rhodothermus, may have probiotic properties when consumed in appropriate forms and quantities. Probiotics are beneficial microorganisms that, when ingested, confer health benefits to the host, such as improving gut health, modulating immune responses, and preventing gastrointestinal infections. However, further research is needed to evaluate the safety and efficacy of Rhodothermus species as probiotics.
Pathogenicity: There is no evidence to suggest that Rhodothermus species are pathogenic to humans. These bacteria are not commonly associated with human infections, and their natural habitats are typically far removed from human populations. However, as with any microorganism, precautions should be taken when handling Rhodothermus species, particularly in laboratory settings, to prevent accidental exposure and contamination.
A lot more information is available when you are logged in and raise the display level
Other Sources for more information:
Statistics | NCBI | Data Punk | End Products Produced |
Different labs use different software to read the sample. See this post for more details.
One lab may say you have none, another may say you have a lot! - This may be solely due to the software they are using to estimate.
We deem lab specific values using values from the KM method for each specific lab to be the most reliable.
Lab | Frequency | UD-Low | UD-High | KM Low | KM High | Lab Low | Lab High | Mean | Median | Standard Deviation | Box Plot Low | Box Plot High | KM Percentile Low | KM Percentile High |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Other Labs | 0.26 | 2 | 190 | 0 | 191 | 51.8 | 32 | 71 | 2 | 190 | 12.5 %ile | 75 %ile | ||
biomesight | 86.42 | 0 | 1030 | 40 | 2770 | 0 | 16823 | 2509.6 | 160 | 7302.7 | 0 | 2320 | 8 %ile | 91 %ile |
thorne | 86.21 | 2 | 30 | 0 | 24 | 10.4 | 8 | 6.7 | 4 | 18 | 0 %ile | 100 %ile | ||
thryve | 1.08 | 1 | 4300 | 0 | 2802 | 385.6 | 22 | 1233.1 | 1 | 4300 | 7.1 %ile | 85.7 %ile |
Source of Ranges | Low Boundary | High Boundary | Low Boundary %age | High Boundary %age |
---|---|---|---|---|
Thorne (20/80%ile) | 4.83 | 16.38 | 0.0005 | 0.0016 |
Lab | Frequency Seen | Average | Standard Deviation | Sample Count | Lab Samples |
---|---|---|---|---|---|
BiomeSight | 92.136 % | 0.254 % | 0.778 % | 2730.0 | 2963 |
bugspeak | 100 % | 0.005 % | % | 1.0 | 1 |
CerbaLab | 66.667 % | 0 % | 0 % | 2.0 | 3 |
custom | 1.639 % | 0.019 % | % | 1.0 | 61 |
es-xenogene | 3.448 % | 0.005 % | % | 1.0 | 29 |
Medivere | 14.286 % | 0.001 % | % | 1.0 | 7 |
Thorne | 59.615 % | 0.001 % | 0.001 % | 62.0 | 104 |
Thryve | 1.007 % | 0.065 % | 0.157 % | 14.0 | 1390 |
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