Aerobic anoxygenic phototroph (AAP) abundance and contribution to total bacterial abundance in some inland waters. Data are listed according to increasing abundance. Concentration of chlorophyll a (Chl a), total phosphorous (TP) and dissolved organic carbon (DOC) is also indicated where available; n.d., no data.
| Environment . | Sampling period . | AAP abundance(104 cells mL−1) . | AAP abundance contribution (%) . | Chl a (µg L−1) . | TP (µg L−1) . | DOC (mg L−1) . | References . |
|---|---|---|---|---|---|---|---|
| freshwater lakes from arctic to trophic regions of the world | summer | n.d. | 0.2–18 | n.d. | 0.05–75 | 1–66 | Ferrera et al. 2017 |
| freshwater lakes, Czech Republic | seasonal | n.d. | 1–21 | 3–110 | 4–183 | 1–13 | Mašín et al. 2008 |
| freshwater lakes, Canada | July, August | 3.5–13.5 | 1–4 | 1–11 | 3–16 | 3–14 | Garcia-Chaves et al. 2016 |
| freshwater lakes, Austria | June–October | 0.1–13 | 1–29 | 0.7–2 | 0.3–2 | 0.3–2 | Čuperová et al. 2013 |
| freshwater lakes, Québec | seasonal | 15–55 | 1–37 | 1–55 | up to 110 × 103 | 1–13 | Fauteux, Cottrell and Kirchman 2015 |
| peat-bog lakes, Poland | summer | 3–130 | 1–18 | 3–113 | n.d. | 3–103 | Lew, Lew and Koblížek 2016 |
| glacial lakes, Germany, Poland and Finland | May, June, July | 10–120 | 2–12 | 1–36 | 9–81 | n.d. | Mašín et al. 2012 |
| peat-bog lakes, Poland | seasonal | 10–200 | 3–19 | 5–60 | n.d. | n.d. | Lew, Koblížek and Lew 2015 |
| freshwater lakes, Czech Republic, Germany | summer | 10–270 | 9–28 | 0.2–48 | 9–60 | n.d. | Cepáková et al. 2016 |
| saline steppe lakes, Russia, Ukraine and central Asia | August, September | 7–1680 | 0.2–65 | 1–180 | n.d. | n.d. | Medová et al. 2011 |
| freshwater lakes, Hungary | summer | 2–3064 | 1–34 | 2–1220 | 20–18 × 103 | 8–988 | current study |
| Environment . | Sampling period . | AAP abundance(104 cells mL−1) . | AAP abundance contribution (%) . | Chl a (µg L−1) . | TP (µg L−1) . | DOC (mg L−1) . | References . |
|---|---|---|---|---|---|---|---|
| freshwater lakes from arctic to trophic regions of the world | summer | n.d. | 0.2–18 | n.d. | 0.05–75 | 1–66 | Ferrera et al. 2017 |
| freshwater lakes, Czech Republic | seasonal | n.d. | 1–21 | 3–110 | 4–183 | 1–13 | Mašín et al. 2008 |
| freshwater lakes, Canada | July, August | 3.5–13.5 | 1–4 | 1–11 | 3–16 | 3–14 | Garcia-Chaves et al. 2016 |
| freshwater lakes, Austria | June–October | 0.1–13 | 1–29 | 0.7–2 | 0.3–2 | 0.3–2 | Čuperová et al. 2013 |
| freshwater lakes, Québec | seasonal | 15–55 | 1–37 | 1–55 | up to 110 × 103 | 1–13 | Fauteux, Cottrell and Kirchman 2015 |
| peat-bog lakes, Poland | summer | 3–130 | 1–18 | 3–113 | n.d. | 3–103 | Lew, Lew and Koblížek 2016 |
| glacial lakes, Germany, Poland and Finland | May, June, July | 10–120 | 2–12 | 1–36 | 9–81 | n.d. | Mašín et al. 2012 |
| peat-bog lakes, Poland | seasonal | 10–200 | 3–19 | 5–60 | n.d. | n.d. | Lew, Koblížek and Lew 2015 |
| freshwater lakes, Czech Republic, Germany | summer | 10–270 | 9–28 | 0.2–48 | 9–60 | n.d. | Cepáková et al. 2016 |
| saline steppe lakes, Russia, Ukraine and central Asia | August, September | 7–1680 | 0.2–65 | 1–180 | n.d. | n.d. | Medová et al. 2011 |
| freshwater lakes, Hungary | summer | 2–3064 | 1–34 | 2–1220 | 20–18 × 103 | 8–988 | current study |
Aerobic anoxygenic phototroph (AAP) abundance and contribution to total bacterial abundance in some inland waters. Data are listed according to increasing abundance. Concentration of chlorophyll a (Chl a), total phosphorous (TP) and dissolved organic carbon (DOC) is also indicated where available; n.d., no data.
| Environment . | Sampling period . | AAP abundance(104 cells mL−1) . | AAP abundance contribution (%) . | Chl a (µg L−1) . | TP (µg L−1) . | DOC (mg L−1) . | References . |
|---|---|---|---|---|---|---|---|
| freshwater lakes from arctic to trophic regions of the world | summer | n.d. | 0.2–18 | n.d. | 0.05–75 | 1–66 | Ferrera et al. 2017 |
| freshwater lakes, Czech Republic | seasonal | n.d. | 1–21 | 3–110 | 4–183 | 1–13 | Mašín et al. 2008 |
| freshwater lakes, Canada | July, August | 3.5–13.5 | 1–4 | 1–11 | 3–16 | 3–14 | Garcia-Chaves et al. 2016 |
| freshwater lakes, Austria | June–October | 0.1–13 | 1–29 | 0.7–2 | 0.3–2 | 0.3–2 | Čuperová et al. 2013 |
| freshwater lakes, Québec | seasonal | 15–55 | 1–37 | 1–55 | up to 110 × 103 | 1–13 | Fauteux, Cottrell and Kirchman 2015 |
| peat-bog lakes, Poland | summer | 3–130 | 1–18 | 3–113 | n.d. | 3–103 | Lew, Lew and Koblížek 2016 |
| glacial lakes, Germany, Poland and Finland | May, June, July | 10–120 | 2–12 | 1–36 | 9–81 | n.d. | Mašín et al. 2012 |
| peat-bog lakes, Poland | seasonal | 10–200 | 3–19 | 5–60 | n.d. | n.d. | Lew, Koblížek and Lew 2015 |
| freshwater lakes, Czech Republic, Germany | summer | 10–270 | 9–28 | 0.2–48 | 9–60 | n.d. | Cepáková et al. 2016 |
| saline steppe lakes, Russia, Ukraine and central Asia | August, September | 7–1680 | 0.2–65 | 1–180 | n.d. | n.d. | Medová et al. 2011 |
| freshwater lakes, Hungary | summer | 2–3064 | 1–34 | 2–1220 | 20–18 × 103 | 8–988 | current study |
| Environment . | Sampling period . | AAP abundance(104 cells mL−1) . | AAP abundance contribution (%) . | Chl a (µg L−1) . | TP (µg L−1) . | DOC (mg L−1) . | References . |
|---|---|---|---|---|---|---|---|
| freshwater lakes from arctic to trophic regions of the world | summer | n.d. | 0.2–18 | n.d. | 0.05–75 | 1–66 | Ferrera et al. 2017 |
| freshwater lakes, Czech Republic | seasonal | n.d. | 1–21 | 3–110 | 4–183 | 1–13 | Mašín et al. 2008 |
| freshwater lakes, Canada | July, August | 3.5–13.5 | 1–4 | 1–11 | 3–16 | 3–14 | Garcia-Chaves et al. 2016 |
| freshwater lakes, Austria | June–October | 0.1–13 | 1–29 | 0.7–2 | 0.3–2 | 0.3–2 | Čuperová et al. 2013 |
| freshwater lakes, Québec | seasonal | 15–55 | 1–37 | 1–55 | up to 110 × 103 | 1–13 | Fauteux, Cottrell and Kirchman 2015 |
| peat-bog lakes, Poland | summer | 3–130 | 1–18 | 3–113 | n.d. | 3–103 | Lew, Lew and Koblížek 2016 |
| glacial lakes, Germany, Poland and Finland | May, June, July | 10–120 | 2–12 | 1–36 | 9–81 | n.d. | Mašín et al. 2012 |
| peat-bog lakes, Poland | seasonal | 10–200 | 3–19 | 5–60 | n.d. | n.d. | Lew, Koblížek and Lew 2015 |
| freshwater lakes, Czech Republic, Germany | summer | 10–270 | 9–28 | 0.2–48 | 9–60 | n.d. | Cepáková et al. 2016 |
| saline steppe lakes, Russia, Ukraine and central Asia | August, September | 7–1680 | 0.2–65 | 1–180 | n.d. | n.d. | Medová et al. 2011 |
| freshwater lakes, Hungary | summer | 2–3064 | 1–34 | 2–1220 | 20–18 × 103 | 8–988 | current study |
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