Browsing by Author "Gachon, Claire M.M."
Now showing 1 - 2 of 2
Results Per Page
Sort Options
- A community perspective on the concept of marine holobionts: current status, challenges, and future directionsPublication . Dittami, Simon M.; Arboleda, Enrique; Auguet, Jean-Christophe; Bigalke, Arite; Briand, Enora; Cárdenas, Paco; Cardini, Ulisse; Decelle, Johan; Engelen, AH; Eveillard, Damien; Gachon, Claire M.M.; Griffiths, Sarah M.; Harder, Tilmann; Kayal, Ehsan; Kazamia, Elena; Lallier, François H.; Medina, Mónica; Marzinelli, Ezequiel M.; Morganti, Teresa Maria; Núñez Pons, Laura; Prado, Soizic; Pintado, José; Saha, Mahasweta; Selosse, Marc-André; Skillings, Derek; Stock, Willem; Sunagawa, Shinichi; Toulza, Eve; Vorobev, Alexey; Leblanc, Catherine; Not, FabriceHost-microbe interactions play crucial roles in marine ecosystems. However, we still have very little understanding of the mechanisms that govern these relationships, the evolutionary processes that shape them, and their ecological consequences. The holobiont concept is a renewed paradigm in biology that can help to describe and understand these complex systems. It posits that a host and its associated microbiota with which it interacts, form a holobiont, and have to be studied together as a coherent biological and functional unit to understand its biology, ecology, and evolution. Here we discuss critical concepts and opportunities in marine holobiont research and identify key challenges in the field. We highlight the potential economic, sociological, and environmental impacts of the holobiont concept in marine biological, evolutionary, and environmental sciences. Given the connectivity and the unexplored biodiversity specific to marine ecosystems, a deeper understanding of such complex systems requires further technological and conceptual advances, e.g., the development of controlled experimental model systems for holobionts from all major lineages and the modeling of (info)chemical-mediated interactions between organisms. Here we propose that one significant challenge is to bridge cross-disciplinary research on tractable model systems in order to address key ecological and evolutionary questions. This first step is crucial to decipher the main drivers of the dynamics and evolution of holobionts and to account for the holobiont concept in applied areas, such as the conservation, management, and exploitation of marine ecosystems and resources, where practical solutions to predict and mitigate the impact of human activities are more important than ever.
- The microbiome of the habitat‐forming brown alga Fucus vesiculosus (Phaeophyceae) has similar cross‐Atlantic structure that reflects past and present drivers 1Publication . Capistrant‐Fossa, Kyle A.; Morrison, Hilary G.; Engelen, Aschwin; Quigley, Charlotte T.C.; Morozov, Aleksey; Serrao, Ester; Brodie, Juliet; Gachon, Claire M.M.; Badis, Yacine; Johnson, Ladd E.; Hoarau, Galice; Abreu, Maria Helena; Tester, Patricia A.; Stearns, Leigh A.; Brawley, Susan H.Latitudinal diversity gradients have provided many insights into species differentiation and community processes. In the well-studied intertidal zone, however, little is known about latitudinal diversity in microbiomes associated with habitat-forming hosts. We investigated microbiomes of Fucus vesiculosus because of deep understanding of this model system and its latitudinally large, cross-Atlantic range. Given multiple effects of photoperiod, we predicted that cross-Atlantic microbiomes of the Fucus microbiome would be similar at similar latitudes and correlate with environmental factors. We found that community structure and individual amplicon sequencing variants (ASVs) showed distinctive latitudinal distributions, but alpha diversity did not. Latitudinal differentiation was mostly driven by ASVs that were more abundant in cold temperate to subarctic (e.g., Granulosicoccus_t3260, Burkholderia/Caballeronia/Paraburkholderia_t8371) or warm temperate (Pleurocapsa_t10392) latitudes. Their latitudinal distributions correlated with different humidity, tidal heights, and air/sea temperatures, but rarely with irradiance or photoperiod. Many ASVs in potentially symbiotic genera displayed novel phylogenetic biodiversity with differential distributions among tissues and regions, including closely related ASVs with differing north-south distributions that correlated with Fucus phylogeography. An apparent southern range contraction of F. vesiculosus in the NW Atlantic on the North Carolina coast mimics that recently observed in the NE Atlantic. We suggest cross-Atlantic microbial structure of F. vesiculosus is related to a combination of past (glacial-cycle) and contemporary environmental drivers.