#SETACMaastricht has come to an end, & what an inspiring meeting!
From engaging presentations and posters to insightful discussions, the past few days were full of new ideas & perspectives.
Already looking forward to #SETACLausanne
Thank you to @setac.bsky.social for such a well-organized event
I had the opportunity to present today my work at #SETACMaastricht
My research shows how herbicides can affect not only individual organisms but also microbial interactions, with implications for aquatic ecosystem functioning.
Thanks to the organisers and everyone who attended!
If you're around tomorrow at #SETACMaastricht and into cyanobacteria, chytrids, or transcriptomics… or you are just curious how these all connect, feel free to join. I'd love to discuss! ✨🧪
So excited to be presenting at @setac.bsky.social Europe 36th Annual Meeting!
I’ll talk about how metolachlor affects a cyanobacterium–chytrid system, & what this reveals about how environmental stressors reshape microbial interactions in aquatic ecosystems
Hope to see u there!
#SETACMaastricht
What a fantastic start to #SETACMaastricht! The opening reception, with the vibrant rhythms of the percussion group, set a great tone for the days ahead.
Looking forward to inspiring science, engaging discussions, and everything the conference has to offer over the coming days! ✨🧪🧫
Welcome to #SETACMaastricht! 🇳🇱 We’re excited to welcome you to the MECC for five days of science, collaboration and innovation in environmental science. Explore the online meeting platform to see what’s in store through 21 May: setac.confex.com/setac/europe...
🚨New preprint out ‼️
Wondering which tool to use for ARG annotation? … 👀
Well, our work shows how different tools lead to different biological conclusions with large disagreements between them!
Great collaboration with Juan Inda-Díaz and @bigdatabiology.bsky.social as part of SEARCHER
Details👇
🔬 How do we unlock the mysteries of the microbial universe? The Spring 2026 issue of Microcosm explores how curiosity-driven, fundamental research reveals the “why” and “how” of microbial life, enabling advances that address real-world challenges. Explore the issue!🔗 asm.org/Magazine/202...
Pfingsten und die Deadline rücken näher: Reicht noch bis 26. Mai Beiträge fürs Forum Wissenschaftskommunikation 2026 ein! Wir suchen Beiträge zum Schwerpunkt „Aufeinander zugehen: Gesellschaftlicher Zusammenhalt in Krisenzeiten“ und zu weiteren Themen der Wisskomm.
forum-wisskomm.de/call-for-pro...
Whole-genome sequencing and functional characterization of a heterocystous cyanobacterium promoting rice seed germination link.springer.com/article/10.1...
Erika Martínez
Erika Martínez
Erika Martínez
Erika Martínez
Erika Martínez
SETAC
Víctor Hugo Jarquín-Díaz
ASM
Cyanotrans
Wissenschaft im Dialog
So excited to be presenting at @setac.bsky.social Europe 36th Annual Meeting!
I’ll talk about how metolachlor affects a cyanobacterium–chytrid system, & what this reveals about how environmental stressors reshape microbial interactions in aquatic ecosystems
Hope to see u there!
#SETACMaastricht
Erika Martínez
Video
Cyanobacteria play a pivotal role in the sustainability of rice-based agroecosystems through biological nitrogen fixation and the synthesize of a variety of plant growth-promoting metabolites.In the p...
How well do ARG detection pipelines agree when applied to the same data? Spoiler: not very well.
In our new preprint, we ran 10 pipelines on 270M microbial unigenes from GMGCv1. The same data can support conflicting biological conclusions! 🧵
www.biorxiv.org/content/10.6...
Identifying antibiotic resistance genes (ARGs) from metagenomic data is critical for studying antimicrobial resistance across microbial communities and pathogens. However, there is no standardized methodology for ARG annotation. Here, we compare ten commonly used ARG detection pipelines by analysing over 270 million prokaryotic genes from the Global Microbial Gene Catalogue across 13 distinct habitats. We observed up to a 45-fold difference in the number of reported ARGs, with a mean Jaccard index of only 16% between pipelines. Pipeline selection profoundly impacted downstream biological interpretations, with drastic changes to estimates of ARG relative abundance and richness, to the characterization of pan- and core-resistomes, and to the class-level composition of the inferred resistome. ARG detection pipelines make different, defensible trade-offs, and no single approach should be treated as authoritative. Therefore, users should justify and communicate choices carefully, as our analyses show that, taken uncritically, the same data can support conflicting biological and ecological interpretations. ### Competing Interest Statement The authors have declared no competing interest. National Health and Medical Research Council of Australia (NHMRC), 2031902 Australian Research Council (ARC), FT230100724 International Development Research Centre (IDRC), 109304-001 Deutsche Forschungsgemeinschaft (DFG), FO1279/6-1 Bundesministerium für Bildung und Forschung (BMBF), F01KI1909A, 01KI2404B Swedish Research Council (VR), 2024-06123, 2019-00299, 2023-01721 Knut and Alice Wallenberg Foundation, KAW 2020.0239 Swedish Foundation for Strategic Research, FFL21-0174
