Shalom from Israel and a Happy world microbiome day!

Yes, it is a true day! celebrating the huge diversity of microbes around us, above us, below us and inside us. Check the day’s official website for more information, and take the weekend to appreciate this amazing field and your own personal contribution to advancing our knowledge about microbial communities on our planet.

Personally, I did my undergrad in Ecology and Evolution, confidence that I’ll my scientific career will focus on plant ecology and distribution, or at least large animals. Microbiology classes and introduction labs bored me, and I did my best to avoid this topic. But all of a sudden, during my Master’s degree (where I worked on a pathogenicity mechanism of postharvest disease-causing bacteria), I fell in love with microbiology in general, and specific bacterial communities. The huge untapped diversity, the unbelievable functions and the amazing interactions needed to maintain a functional community of these invisible inhabitants just fascinated me. Today, as a Ph.D. student exploring secondary metabolites gene clusters in soil and root microbiome, I’m a super-fan of the bacterial world.

How did you end up being microbiome suckers? Feel free to share your stories here as a comment, on MD FB page, or directly on tweeter.

Today’s digest include several microbimoe papers of animal midels (including ‘dirty mice’), diseased tomatoes taxonomical and functional microbiome profile, AND- a sweet reminder of the pre-COVID-19 world, with an analysis of the dust microbiome of a plane (remember this vehicle?).

Human and Animal Models microbiome

**Microbial transmission in animal social networks and the social microbiome, Amar Sarkar , Nat. Eco. Evo.

Does entry to center-based childcare affect gut microbial colonization in young infants?, Gerben D. A. Hermes, Scientific Reports

Serum metabolites reflecting gut microbiome
alpha diversity predict type 2 diabetes, Cristina Menni, Gut microbes

**New Insights into the Immune System Using Dirty Mice, Sara E. Hamilton, J. Immunology.

Optimization of cerebrospinal fluid microbial metagenomic sequencing diagnostics,Josefin Olausson , bioRxiv

Sleep fragmentation increases blood pressure and is associated with alterations in the gut microbiome and fecal metabolome in rats, Katherine.Maki, Phys. Geno.

Animal microbiome

Environment Shapes the Microbiome of the Blue Orchard Bee, Osmia lignaria, Hamutahl Cohen, Microbial Ecology

The gut mycobiome of healthy mice is shaped by the environment and shapes metabolic outcomes in response to diet, Tahliyah S. Mims, bioRxiv

Microbial communities network analysis of anaerobic reactors fed with bovine and swine slurry, Eliane Cristina Gruszka Vendruscolo, Sci. Tot. Env.

Metagenomic analysis reveals significant differences in microbiome and metabolic profiles in the rumen of sheep fed low N diet with increased urea supplementation, Zhipeng Li, FEMS Micro. Eco.

Soil and Plant microbiome

Changes in Bacterial and Fungal Microbiomes Associated with Tomatoes of Healthy and Infected by Fusarium oxysporum f. sp. lycopersici, Xin Zhou, Microbial Ecology

Insights into drylands biocrust microbiome: geography, soil depth, and crust type affect biocrust microbial communities and networks in Mojave Desert, USA, Nuttapon Pombubpa, FEMS Micro. Eco.

Exploring the Lignin Catabolism Potential of Soil-Derived Lignocellulolytic Microbial Consortia by a Gene-Centric Metagenomic Approach, Laura Díaz-García, Microbial Ecology

Shotgun Metagenomics Of Dust Microbiome From Flight Deck And Cabin In Civil Aviation Aircraft, Yu Sun, Indoor Air

Bioinformatics

MicroNiche: an R package for assessing microbial niche breadth and overlap from amplicon sequencing data, D.R. Finn , FEMS Micro. Eco.