Exploring strategies for nanoflagellates living in a wet desert

Boenigk, Jens; Pfandl, Karin; Hansen, Per Juel

doi:10.3354/ame044071

Cited by 28 publications

(38 citation statements)

References 42 publications

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“…Compared to cell sizes estimated for lake bacteria (summarized by Jugnia et al 1998) this average cell volume is in most cases lower than the minimum values of other lakes. With this size, the bacterioplankton made up solely ultramicrobacteria defi ned with a volume of < 0.05 µm 3 (Boenigk et al 2006) and < 0.1 µm 3 (Schut et al 1997, Hahn et al 2003, respectively. Here a frequency of bacterial cell volumes of < 0.05 µm 3 cell -1 = 77 % and < 0.1 µm 3 cell -1 = 96 %, respectively was estimated.…”

Section: Discussionmentioning

confidence: 99%

Ecomicrobiology and microbial assimilative capacity of the oligotrophic Andean Lake Laja, Chile

Karrasch

Woelfl

Urrutia³

et al. 2011

Rev. chil. hist. nat.

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A strong socio-economic development pressure in South Chile will more and more cause an impact to the present lakes and rivers. Nevertheless, our knowledge concerning the ecological structure and the microbial self-purifi cation capabilities of these lacustrine water bodies is scant but essential for a future sustainable development of land and water use. We studied Lake Laja, a lake already heavily impacted by water diversions for hydropower generation and irrigation. Typical for the Andean region Lake Laja is an oligotrophic water body, limited by nitrogen nutrients. Only very low chlorophyll a and particulate organic carbon (POC) concentrations and a small abundance and biomass of bacteria (mainly ultramicrobacteria) and heterotrophic fl agellates were encountered. Weak trophic interrelations were derived from a high bacteria-to-heterotrophic fl agellate ratio. For the ten investigated extracellular enzymes (alkaline phosphatase, leucine-, arginine-, glycine-and tyrosine-aminopeptidase, α-, β-D-glucosidase, α-, β-D-galactosidase, N-acetyl-β-D-glucosaminidase), with the exception of α-D-glucosidase, a broad range of organic matter degradation activities was proven. Probably, due to the N-limitation, organic nitrogen hydrolysing extracellular enzymes reached activities on average of 45 % compared to other studies in oligotrophic waters. The possible effect of N-limitation on extracellular enzyme activities was more pronounced by cell specifi c extracellular enzymatic activity rates, which exceeded those of other oligotrophic water bodies on average by factor 2. The overall activities of all microbial extracellular enzymes studied proved to be dominated by the dissolved free external enzymes (up to 98 %) over the ectoenzymes which are associated with particulate organic matter (bacterial cell walls, particles, and aggregates). It is concluded that future socio-economic changes, dealing with watershed human intervention (accelerating inorganic and organic loads) as well as global change (temperature and precipitation changes) could lead to signifi cant changes in the ecology of Lake Laja.Key words: bacterioplankton, extracellular enzymes, heterotrophic fl agellates, N-limitation, phytoplankton. RESUMENLa gran presión generada por el desarrollo socioeconómico del sur de Chile, está causando cada vez más un mayor impacto en los lagos y ríos allí presentes. Sin embargo, el conocimiento de la estructura ecológica y la capacidad microbiana de autodepuración de los cuerpos de agua lacustres es escasa, pero esencial para un futuro uso sostenible de los recursos agua y suelo. Se estudió el lago Laja, por ser un cuerpo de agua muy afectado por la extracción de agua para la generación de energía hidroeléctrica y el riego. Como es característico de la región andina, el lago Laja es oligotrófi co limitado por nutrientes nitrogenados. Se encontraron bajas concentraciones de clorofi la a y carbono orgánico particulado (POC), así como bajas abundancias y biomasa de bacterias (principalmente ultramicrobacteria) y de fl a...

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Section: Discussionmentioning

confidence: 99%

Ecomicrobiology and microbial assimilative capacity of the oligotrophic Andean Lake Laja, Chile

Karrasch

Woelfl

Urrutia³

et al. 2011

Rev. chil. hist. nat.

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“…Growth rates for strain JBM10 were taken from Boenigk et al (2006). These growth rates were obtained in a similar way as for the flagellate strain JBC07.…”

Section: Methodsmentioning

confidence: 99%

“…Clearance rates in the presence of a constant (A) suspended particle load of 10 mg l -1 and (B) suspended particle abundance of 1.49 × 10 7 particles ml -1 . Horizontal straight line represents the clearance rate of the control treatment without particles, and the dotted lines the respective standard deviation ilar to those of the flagellate strain JBM10 (Boenigk et al 2006). However, in the second set of experiments, i.e.…”

Section: Growth Kinetic Parameters Are Correlated To Suspended Sedimementioning

confidence: 99%

“…The discrepancy between these studies again highlights the importance of natural food concentrations and food particle size for estimating the effect of abiotic parameters on the growth of Spumella-like flagellates (cf. Boenigk et al 2006).…”

Section: Growth Kinetic Parameters Are Correlated To Suspended Sedimementioning

confidence: 99%

“…3). Growth rates of the flagellate strain JBM10 growing on the bacteria CB5 and MWHMoNR1 are provided in Boenigk et al (2006).…”

Section: Growth In the Absence Of Suspended Sedimentsmentioning

confidence: 99%

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Stuck in the mud: suspended sediments as a key issue for survival of chrysomonad flagellates

Pfandl¹,

Boenigk²

2006

Aquat. Microb. Ecol.

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The effect of suspended fine sediments on chrysomonad flagellates was investigated for 'Spumella-like' flagellates in laboratory studies and exemplarily for a flagellate community (with a focus on chrysomonads) originating from the oligomesotrophic Lake Mondsee, Austria, using different clay minerals and silicate beads. In the community experiment, the abundances of Spumella-like flagellates decreased significantly after introduction of suspended clays, but on the community level suspended clays did not negatively affect flagellate abundance. In order to understand this taxonspecific response, the influence of different clay characteristics, specifically of particle concentration and size, was investigated for Spumella-like flagellates in laboratory studies. We used ultramicrobacteria, i.e. typical bacterioplankton of Lake Mondsee, as food. For comparison we also investigated growth rates of the Spumella-like flagellates feeding on the large bacterium Listonella pelagia. These experiments confirmed that at bacterial abundances realized in oligotrophic and mesotrophic lakes, the flagellates are severely food limited. The presence of suspended sediments generally decreased the growth at any food concentration tested. This decrease was reflected in shifts of the growth kinetic parameters, i.e. in a positive correlation between the half-saturation constant and the threshold food concentration and a negative correlation between the maximal growth rate and the suspended sediment concentration. The clearance rates strongly decreased when small and large particles were present, but were only slightly affected for intermediate-sized particles. We assume that small particles in the size range of ingestible bacteria interfere with the feeding process and cause lower clearance rates, while intermediate-sized particles may serve as substrate for the attachment of flagellates and to subsequently optimize their clearance rates.

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Protistan Grazing on Marine Bacterioplankton

Jürgens

Massana

2008

Microbial Ecology of the Oceans

137

105

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Exploring strategies for nanoflagellates living in a wet desert

Cited by 28 publications

References 42 publications

Ecomicrobiology and microbial assimilative capacity of the oligotrophic Andean Lake Laja, Chile

Ecomicrobiology and microbial assimilative capacity of the oligotrophic Andean Lake Laja, Chile

Stuck in the mud: suspended sediments as a key issue for survival of chrysomonad flagellates

Protistan Grazing on Marine Bacterioplankton

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Exploring strategies for nanoflagellates living in a wet desert

Cited by 28 publications

References 42 publications

Ecomicrobiology and microbial assimilative capacity of the oligotrophic Andean Lake Laja, Chile

Ecomicrobiology and microbial assimilative capacity of the oligotrophic Andean Lake Laja, Chile

Stuck in the mud: suspended sediments as a key issue for survival of chrysomonad flagellates

Protistan Grazing on Marine Bacterioplankton

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Exploring strategies for nanoflagellates living in a wet desert