Abstract
There is now evidence that aerobic anoxygenic phototrophic (AAP) bacteria are widespread across aquatic systems, yet the factors that determine their abundance and activity are still not well understood, particularly in freshwaters. Here we describe the patterns in AAP abundance, cell size and pigment content across wide environmental gradients in 43 temperate and boreal lakes of Québec. AAP bacterial abundance varied from 1.51 to 5.49 x 105 cells mL-1, representing <1 to 37% of total bacterial abundance. AAP bacteria were present year-round, including the ice-cover period, but their abundance relative to total bacterial abundance was significantly lower in winter than in summer (2.6% and 7.7%, respectively). AAP bacterial cells were on average two-fold larger than the average bacterial cell size, thus AAP cells made a greater relative contribution to biomass than to abundance. Bacteriochlorophyll a (BChla) concentration varied widely across lakes, and was not related to AAP bacterial abundance, suggesting a large intrinsic variability in the cellular pigment content. Absolute and relative AAP bacterial abundance increased with dissolved organic carbon (DOC), whereas cell-specific BChla content was negatively related to chlorophyll a (Chla). As a result, both the contribution of AAP bacteria to total prokaryotic abundance, and the cell-specific BChla pigment content were positively correlated with the DOC:Chla ratio, both peaking in highly colored, low-chlorophyll lakes. Our results suggest that photoheterotrophy might represent a significant ecological advantage in highly colored, low-chlorophyll lakes, where DOC pool is chemically and structurally more complex.
Highlights
Aerobic anoxygenic phototrophic bacteria are members of Proteobacteria that synthesize bacteriochlorophyll a (BChla), which is incorporated into a functional photosynthetic system and allows them to carry out anoxygenic photosynthesis only under aerobic conditions
We can safely assume that the microscopic enumeration of bacteria and the extracted BChla originate from aerobic anoxygenic phototrophic (AAP) bacteria
We found that the relative contribution of AAP bacteria to total prokaryotic abundance ranged from less than 1% to 37%, which is well within the range previously reported for lakes [15,16,18,21]
Summary
Aerobic anoxygenic phototrophic bacteria are members of Proteobacteria that synthesize bacteriochlorophyll a (BChla), which is incorporated into a functional photosynthetic system and allows them to carry out anoxygenic photosynthesis only under aerobic conditions. The contribution of AAP bacteria to total bacterial abundance has been shown to be in the range of 1 to 11% in marine systems [9,12,20] and to vary considerably more, between 1 to 30%, across freshwater ecosystems [15,22] Factors such as association to particles [14], temperature [13,18,22], light availability [12,18,23], phosphorous [16], chlorophyll a (Chla) [20,21] and dissolved organic carbon (DOC) [15,18] have been identified as the environmental drivers that best explain this variation, but the role of these drivers is still not well understood. AAP bacteria are likely reacting to several superimposed gradients, and are probably regulated by multiple factors, the question regarding the environmental conditions that explain AAP abundance and performance remains to be solved
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