Dynamics of the milk microbial community during subacute ruminal acidosis with or without intramammary lipopolysaccharide challenge in dairy cows - Animal Microbiome Animal Microbiome - Lipopolysaccharides (LPS) from pathogenic Gram-negative bacteria play a key role in the pathophysiology of mastitis. Subacute ruminal acidosis (SARA) induces rumen dysbiosis,...

In #AnimalMicrobiome

🔍Investigating the effects of a high-grain diet & intramammary LPS challenge on the milk microbiome of dairy cows

🚨High-grain feeding reduced microbial abundance over 30 days

👉 doi.org/qtt7 #OpenAccess

In #AnimalMicrobiome

🔍Investigating supplementation fucosidase in pig feed as a tool to reduce enteric methane production & improve growth performance in pigs

🚨In-feed fucosidase may lead to lower methane emission at later pig production stages

👉 doi.org/qwcs #OpenAccess

In #AnimalMicrobiome

🔍Investigating how the leptin receptor gene affects gut microbiota composition & nutrient utilization in pigs🐷

🚨Underscoring the importance of feed intake as a microbiota-altering factor

👉 doi.org/qvdc #OpenAccess

In #AnimalMicrobiome

🔍Investigating the effects of a high-grain diet and intramammary LPS challenge on the milk microbiome or dairy cows🐄

🚨A roughage-rich diet promoted higher microbial abundance, whereas high-grain feeding reduced abundance

👉 doi.org/qtt7 #OpenAccess

In #AnimalMicrobiome

🚨Lawsonia intracellularis infection induces changes in microbial community function and composition associated with reduced pig growth and feed efficiency

Read more👉 doi.org/qszr #OpenAccess #Microbes

In #AnimalMicrobiome

🔍Exploring the use of rumen-protected L-arginine (RP-Arg) in pregnant sheep under pastoral conditions

🚨RP-Arg elevates colostrum IGF-1 and lactoferrin levels, enriches ileal Bacteroidota & Prevotella, & supports early growth

👉 doi.org/qr6n #OpenAccess

In #AnimalMicrobiome

🔍Investigating how Lactobacillus fermentum supplementation modulates jejunal microbiota, metabolome & gut morphology in yaks under high-energy feeding

🦠L. fermentum improved growth performance & helped mitigate metabolic risks

👉 doi.org/qrbv #OpenAccess #Microbiota #Yaks

In #AnimalMicrobiome

🦠Exploring how night and day cycles shape interactions between marine sponges and their microbiomes

🔍Identifying lineage-specific diel patterns in cyanobacterial and alphaproteobacterial symbionts

Read more👉 doi.org/qqkp #OpenAccess

In #AnimalMicrobiome

🔍Exploring the protective role of crocodile gut microbiome media on kidney health in a hindlimb unloaded mouse model

🚨Demonstrating potential therapeutic benefits in mitigating renal injury induced by simulated microgravity

➡️ doi.org/qpcr #OpenAccess

In #AnimalMicrobiome

🔍Exploring the role of toll-like receptor 2 (TLR2) in regulating the microbiome

🚨TLR2 shapes gut microbial diversity, composition, and metabolic potential

➡️ doi.org/qn2s #OpenAccess

In #AnimalMicrobiome

🔍Decoding the dynamics of calves’ respiratory & gut microbiota: exploring stability, resistance & individual patterns

🚨The first month of life is a critical window for interventions targeting the fecal microbiota

Read more ➡️ doi.org/qm7t #OpenAccess

In #AnimalMicrobiome

🔍Exploring the effects of naturalistic housing conditions on amphibian growth & microbiome in captivity

🦠Demonstrating that feces may be useful as a biomarker to understand & monitor gut/host health

👉 doi.org/qk8z

In #AnimalMicrobiome

🔍Investigating the blood microbiome of clinically healthy wild buffaloes in Kenya

🦠Buffaloes harbour diverse bacteria in their blood, including some potential pathogens

👉 doi.org/g9bv29 #OpenAccess

In #AnimalMicrobiome

🔍Exploring the relationship between the gut bacteriome & reproductive performance in beef cattle🐄

🚨Artificial insemination numbers can be inferred from fecal bacterial patterns nearly six months in advance

Read more 👉 doi.org/phj7

In #AnimalMicrobiome

🚨Presenting the EGG database: a novel dataset of 2,362 equine fecal microbiomes from veterinary teaching hospitals across 3 countries

🦠A valuable resource to study to equine microbiome & its role in equine health

Read more 👉 doi.org/qh8s #OpenAccess

In #AnimalMicrobiome

🚨Exploring the impact of early-life rearing conditions on the porcine gut microbiota & immune system

🦠Observing a potential shift towards inflammation & altered haematology associated with the microbiota

Read more👉 doi.org/qh8q #OpenAccess

In #AnimalMicrobiome

Gut dysbiosis after successive administration of florfenicol-medicated feed alters intestinal inflammatory response and growth patterns in healthy Atlantic salmon (Salmo salar)🦠

Read more👉 doi.org/qf64

#OpenAccess #Microbiome #AtlanticSalmon #GrowthPatterns

In #AnimalMicrobiome

Probiotic effect of B. subtilis PS-216 in broiler chickens: modulation of weight, feed conversion, short chain fatty acids, microbiota and meat quality🐔

Read more 👉 doi.org/qfj6

#OpenAccess #Microbiome #Microbiota #Probiotics

In #AnimalMicrobiome

Microbiota-gut-brain axis in avian parenting: gut microbiome associates with nest-construction behavior and neural gene expression in a songbird🦠

Read more👉 doi.org/qd8p

In #AnimalMicrobiome

🔍Examining the impact of the mosquito background & associated diversity of bacterial #microbiota within distinct hosts

🦟Highlighting that interactions between #mosquito, virus, & microbiota are variable & context dependent

Read more👉 doi.org/qcpg #OpenAccess

In #AnimalMicrobiome

🔍A longitudinal cohort study exploring the gut #microbiota of #LabradorRetriever puppies

🚨Identifying associations with demographic, environmental & health-related factors

Read more➡️ doi.org/qbdm #OpenAccess

In #AnimalMicrobiome

🔍Exploring how seasonality, diet & phyllosphere-associated microorganisms affect red panda #gutmicrobiota

🚨Bamboo's crude protein & phosphorus content are pivotal in shaping the #phyllosphere & gut microbial communities

👉 doi.org/p863 #OpenAcess

In #AnimalMicrobiome

🚨Developing a new in vitro model of the healthy adult pig colon integrating both luminal & mucosal microenvironments

🦠Enabling early testing of innovative feed strategies to understand their effects on gut microbiota

Read more👉 doi.org/p8nd #OpenAccess

In #AnimalMicrobiome

🔍Exploring unintended consequences of antibiotic use in beekeeping🐝

🚨Larval OTC exposure delays drone development, reduces survival & results in detectable residues in the gut & reproductive tissues of newly emerged adults

Read more👉 doi.org/p75f

In #AnimalMicrobiome

🔍Investigating the metabolic interplay between Endozoicomonas and coral hosts🪸

🚨Highlighting possible roles in nutrient cycling, reproductive health, and stress resilience

Read more👉 doi.org/p7c3

In #AnimalMicrobiome

🔍A randomized controlled dietary feeding trial assessing the effect of high levels of dietary zinc on the microbiomes of a gestating sow & her neonatal piglets

📢Sows had significantly higher alpha diversity at farrowing

👉http://doi.org/pvb4

Social, environmental, and developmental factors affect the microbiota of barn owls (Tyto alba) in a cross-fostering experiment - Animal Microbiome Background Species host diverse microbial communities that can impact their digestion and health, which has led to much interest in understanding the factors that influence their microbiota. We studie...

🦉 New study alert! Our cross-fostering experiment reveals how social & environmental factors shape barn owl nestling microbiota. Nestlings adapt to new environments in just 3 weeks!

📖 Read the full study: animalmicrobiome.biomedcentral.com/articles/10....

Out now in #AnimalMicrobiome