Abstract
Aerobic anoxygenic phototrophic bacteria (AAnPB) are widely distributed and regarded as key players driving the carbon cycle in surface water of global oceans, coastal and estuary areas and in other freshwater environments (e.g., ponds and lakes). However, the abundance and spatial distribution of AAnPB in rivers is much less well-known. Here we investigated the variation of the absolute cell abundances of the total bacteria, AAnPB and cyanobacteria, at four different sites in Tama River, Japan, and the spatial distribution (i.e., free-living or particle-attached existence form) of AAnPB at two out of the four sites using infra-red epifluorescence microscopy. Free-living cell abundances for the total bacteria, AAnPB and cyanobacteria were 1.6–3 × 105, 1.5–4.4 × 104 and <3.2 × 104 cells mL−1, respectively. The free-living AAnPB accounted for 6.1%–19.6% of the total bacterial abundance in the river. The peaks of the AAnPB and cyanobacteria abundances were found at the same site, suggesting that the AAnPB could potentially coexist with cyanobacteria. Meanwhile, the particle-attached AAnPB were observed at the two sites of the river, accounting for 52.2% of the total bacteria abundance in the particle. Our results showed the existence and aggregation form of AAnPB in the riverine environment.
Highlights
Aerobic anoxygenic phototrophic bacteria (AAnPB) have bacteriochlorophyll (BChl) a and utilize the phototrophy and heterotrophy for energy acquisition [1]
Based on the geochemical parameters of Tama River reported by the Bureau of Environment, Tokyo Metropolitan Governments, the total nitrogen concentration tended to increase and the dissolved oxygen (DO) and total phosphate concentration tended to decrease from upstream to downstream in May and June 2017 (Table 2)
Our results indicated the abundance and spatial distribution of AAnPB in Tama River, Japan
Summary
Aerobic anoxygenic phototrophic bacteria (AAnPB) have bacteriochlorophyll (BChl) a and utilize the phototrophy and heterotrophy for energy acquisition [1]. The AAnPB primarily utilize organic matter as a carbon source and can use light as an additional source of energy. This additional energy production using photosynthetic reaction is expected to lead their effective growth and survival in natural environments [2,3]. AAnPB have a wide distribution in the ocean [3,5,6]. The main controlling factor of the AAnPB abundance was reported to be the organic matter concentration [4]. The wide range of the concentration would affect the AAnPB abundance levels in the ocean. Some previous reports showed that AAnPB contributed profoundly to the carbon stock and cycle in the ocean [3,5,7]
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