Seasonal depth-related gradients in virioplankton: standing stock and relationships with microbial communities in Lake Pavin (France)
Résumé
This study presents a depth-related survey of virioplankton abundance in Lake Pavin (Massif Central, France), in relation to the abundances of heterotrophic prokaryotes, picocyanobacteria (Pcy), autotrophic picoeukaryotes (Peu), and of autotrophic (ANF) and heterotrophic (HNF) nanoflagellates. The sampling strategy was designed to be representative of the physico-chemical gradients of the whole water column of the lake, and the seasonal variability as well. In mixolimnic surface waters, all communities were present and viral abundance peaked in summer and autumn. Viral abundance was significantly correlated (p < 0.001) with Pcy, Peu, and ANF, indicating that cyanophages and perhaps other phytoplankton viruses represent a significant pool of viral standing stocks in the mixolimnion of Lake Pavin. Microautotrophs were absent in the deep monimolimnic water masses, where viruses and heterotrophic prokaryotes exhibited highest seasonal abundances in summer and/or autumn and were significantly correlated (p < 0.001) to each other. This indicates that the anoxic monimolimnion of Lake Pavin is an exclusive habitat for viruses and heterotrophic prokaryotes. We conclude that in this habitat, host availability is prevalent over other factors (temperature, oxygen, nutrients, grazers) in favoring viral proliferation.
Mots clés
Aquatic environment
Plankton
Environmental factor
Europe
Bacteria
Virioplankton
Habitat
Deep water
Phytoplankton
Cyanophage
Surface water
Sampling design
Nanoplankton
Virus
Lacustrine environment
Freshwater environment
Autotrophy
Abundance
France
Lakes
Microbial community
Stock
Depth
Seasonal variation
Algae
Cyanobacteria