Navarro Elisabeth, Santinelli C., Brogi S. R., Durrieu G., Radakovitch O., Garnier C., Misson B. (2023). Prokaryotic responses to estuarine coalescence contribute to planktonic community assembly in a Mediterranean nutrient-rich estuary. Journal of Marine Science and Engineering, 11 (5), p. 933 [19 p.].
Titre du document
Prokaryotic responses to estuarine coalescence contribute to planktonic community assembly in a Mediterranean nutrient-rich estuary
Navarro Elisabeth, Santinelli C., Brogi S. R., Durrieu G., Radakovitch O., Garnier C., Misson B.
Source
Journal of Marine Science and Engineering, 2023,
11 (5), p. 933 [19 p.]
In the marine coastal environment, freshwater and seawater coalescing communities are facing a complex set of abiotic and biotic cross-influences. This study aimed at evaluating the respective influences of blending and prokaryotic dynamics on community structure. For that, the surface salinity gradient of a nutrient-rich estuary (Arno River, Mediterranean Sea, Italy) was sampled at regular salinity intervals. When considering the whole length of the estuary and community-scale beta diversity metrics, a relatively smooth transition from freshwater to the sea was observed. Abiotic variability associated with salinity was the predominant constraint on the community structure, and the distribution of most taxa reflected their blending. However, while most of the dissolved substances enriched in freshwater experienced progressive dilution with seawater, heterotrophic prokaryotes demonstrated an important growth at intermediate salinity, interpreted as a heterotrophic assimilation of freshwater inputs by a few opportunistic marine taxa. The distribution of a number of taxa was significantly affected by variations in heterotrophic prokaryotes abundance, suggesting a putative influence of competitive interactions at intermediate salinities. A succession of different bacterial winners was observed from upstream to downstream, as well as losers represented by freshwater copiotrophs accompanied by some marine oligotrophs. Hence, coalescence drove a localized but major functional response of heterotrophic bacteria at intermediate salinity, hidden behind a majority of passively mixed bacterial taxa. This work paves the way for a stronger consideration of the trophic requirements of bacterial taxa to better understand community assembly in estuaries.
