Science thrives when women stand together!
MOVIE proudly celebrates the International Day of Women and Girls in Science #IDWGS with this inspiring group of female scientists driven by curiosity, strong voices and an amazing spirit of teamwork.
#womeninSTEM
Hydrostatic pressure induces strong leakage of dissolved organic matter from “marine snow” particles | Science Advances www.science.org/doi/10.1126/...
⚒️ Article: Suspended prokaryotic dark carbon fixation substantially fuels carbon inputs below the sunlit northeastern Atlantic Ocean, while particle-attached communities make an overlooked contribution to carbon demand
www.nature.com/articles/s41...
Very happy that our paper was published in Limnology & Oceanography #ASLO_LO
Huge shoutout to my co-authors🫰
& big thanks to reviewers and editors!
May the year keep up this energy 🙌
@microbialoceanv.bsky.social @aslo.org @davehambright.bsky.social
aslopubs.onlinelibrary.wiley.com/doi/10.1002/...
Troubleshooting common errors in assemblies of long-read metagenomes - @merenbey.bsky.social @banfieldlab.bsky.social go.nature.com/44P7nSm
Microbial rhythms – a new target to promote health?
"In the end, I have come to realize that being authentic at work is not a weakness, but rather a strength." #ScienceWorkingLife https://scim.ag/49B7hRv
Wrapping up an inspiring week at #SAME18 in Barcelona.
The MOVIE group was proud to contribute with talks and posters, sharing ideas, connecting with colleagues and learning from so many brilliant presentations.
Grateful to @same18-bcn.bsky.social for the engaging discussions and vibrant atmosphere!
Group pic SAME18!
Franck Lejzerowicz gave an enlightening talk on “Foraminifera-Microbiome co-occurrence predictions using multi-omics link ecosystem function to diversity in deep-sea mining areas”.
#SAME18 @same18-bcn.bsky.social
The biological carbon pump mediates the export of particulate organic carbon from the euphotic zone to the deep ocean, where it provides the base of the food web. Although deep-sea microbial metaboli...
Long-read sequence assemblies from metagenomes contain frequent errors.
go.nature.com
Daily dynamics in the composition and function of the human gut microbiota have been recognized since 2014, yet the molecular mechanisms underlying these rhythms and their impact on human health remain unclear. Disrupted microbial oscillations are increasingly linked to metabolic diseases such as obesity and type 2 diabetes, and to inflammatory conditions in the gut and beyond. We propose advancing from observational studies to experimentally targeting microbial rhythms and clocks to uncover causal relationships. In vivo and in vitro models offer opportunities to uncover how signaling cues and dietary patterns influence microbial oscillations and, in turn, host metabolic and immune functions. Manipulating microbial rhythmicity independent of host physiology represents a new frontier for microbiota-based strategies to promote health and prevent diseases.
