beta diversity – mycolab.ai

Maternal Euglena gracilis supplementation alters sow and piglet gut microbiota, reduces diarrhea incidence, and enhances piglet growth

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This study examined how feeding sows a supplement called Euglena gracilis (an algae-derived prebiotic) affected the gut bacteria of both the sows and their piglets. Piglets born to supplemented sows weighed more at weaning and had fewer cases of diarrhea during the nursing period. The supplement changed the types of bacteria in both the sows’ and piglets’ guts in beneficial ways, promoting healthier and more stable gut communities that supported better growth and digestive health.

Modulation of gut microbiome in response to the combination of Escherichia coli Nissle 1917 and sugars: a pilot study using host-free system reflecting impact on interpersonal microbiome

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This study examined how a beneficial bacteria called Escherichia coli Nissle 1917 combined with different types of sugar affects gut bacteria. Researchers found that the effectiveness of these treatments depends heavily on each person’s unique starting microbiota composition, which is shaped by their diet, lifestyle, and health status. The results show that one-size-fits-all probiotic treatments don’t work equally for everyone, and doctors should personalize treatments based on an individual’s existing gut bacteria profile.

Bioremediation Potential of Rhodococcus qingshengii PM1 in Sodium Selenite-Contaminated Soil and Its Impact on Microbial Community Assembly

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This study investigated how a bacterium called Rhodococcus qingshengii PM1 can help clean up soil contaminated with selenium, a toxic element that accumulates in food chains. Using advanced genetic sequencing, researchers found that this bacterium can break down toxic selenite compounds by 63-71% within three weeks, which is much faster than natural processes. Adding the bacteria to contaminated soil also helped restore the diversity and health of the natural soil microbial communities, making it a promising tool for environmental cleanup efforts.

The Soil Bacterial Community Structure in a Lactarius hatsudake Tanaka Plantation during Harvest

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Researchers studied the soil bacteria in Lactarius hatsudake mushroom plantations to understand which bacteria help these valuable mushrooms grow. They found that mushroom-producing areas had different and less diverse bacterial communities compared to control areas, with specific bacteria like Burkholderia species being particularly abundant. These beneficial bacteria appear to create a stable environment that supports mushroom development, which could help improve mushroom farming practices in the future.

Effect of fiber-modified kombucha tea on gut microbiota in healthy population: A randomized controlled trial (RCT)

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Researchers studied a kombucha tea drink enriched with fiber from chicory root in healthy adults over six weeks. The study found that people who consumed the fiber-enriched kombucha had lower triglyceride levels (blood fats) and beneficial changes in their gut bacteria, particularly an increase in Bifidobacterium, a bacteria known to support digestive health. These results suggest that this type of kombucha could be beneficial for metabolic and gut health, though more research is needed to confirm these benefits.

Metagenomic Analysis: Alterations of Soil Microbial Community and Function due to the Disturbance of Collecting Cordyceps sinensis

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This research examines how harvesting Cordyceps sinensis (a valuable medicinal fungus) affects the soil’s microscopic organisms on the Tibetan Plateau. While collection doesn’t reduce the total number of microbes, it significantly changes which types live in the soil and how they function. The study found that collection alters important soil processes related to carbon, nitrogen, and phosphorus cycling, suggesting that harvesting practices need to balance economic benefits with environmental health.

Effects of Monascus pilosus SWM 008-Fermented Red Mold Rice and Its Functional Components on Gut Microbiota and Metabolic Health in Rats

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Researchers studied whether fermented red mold rice could improve gut health in rats by examining changes in beneficial bacteria. The study found that red mold rice and its active compounds increased helpful bacteria like Akkermansia mucinophila without causing any harmful effects. These beneficial bacteria may support better digestion, metabolism, and overall health, suggesting fermented red mold rice could be useful as a functional food for maintaining a healthy gut.

Nutraceutical supplement slim reshaped colon histomorphology and reduces Mucispirillum schaedleri in obese mice

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Researchers tested a supplement called Slim containing natural compounds like berberine, coenzyme Q10, and beet pulp on obese mice. After 4 weeks, the supplement improved cholesterol and triglyceride levels, increased beneficial gut bacteria, and strengthened the intestinal barrier. The results suggest this combination of natural ingredients works together synergistically to improve gut health and metabolic function in obesity.

Effect of Cordyceps militaris Residue and Lactiplantibacillus plantarum on Fermentation Quality and Bacterial Community of Alfalfa Silage

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This research shows that waste leftover from growing medicinal mushrooms (Cordyceps militaris) can be effectively reused as an additive to improve the quality of stored animal feed (alfalfa silage). When the mushroom residue was added, it boosted beneficial bacteria that produce lactic acid, which preserved the feed better and reduced ammonia content. This finding offers an environmentally friendly way to reduce waste while simultaneously improving livestock feed quality.

The Hidden Microbial World in the Gut of the Terrestrial Snail Cornu aspersum maxima and the Unexpected Negative Effects of Synbiotics

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This study tested whether adding beneficial bacteria (probiotics) and dietary fibers (prebiotics) to snail farm feed could improve snail health and growth. While individual probiotic and prebiotic treatments helped reduce harmful bacteria in snails’ digestive systems, combining them together as a synbiotic surprisingly caused extremely high death rates in the snails. The results show that more research is needed before combining these supplements in snail farming.

Research Keyword: beta diversity