Feeding of a Freshwater Flagellate, <i>Bodo saltans</i>, on Diverse Bacteria<sup>1</sup>

Mitchell, Gary C.; Baker, J. H.; Sleigh, M. A.

doi:10.1111/j.1550-7408.1988.tb04327.x

Cited by 66 publications

(63 citation statements)

References 14 publications

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“…Chemosensory behavior has been shown to exist among some flagellates exposed to gradients of dissolved compounds or bacterial numbers (e.g. Sibbald et al 1987, Bennett et al 1988, Mitchell et al 1988. However, it is not certain whether these chemosensory behaviors are significant to grazing in the natural environment because they depend on the magnitude and persistence of gradients and this is not well known.…”

Section: Resultsmentioning

confidence: 99%

Prey-size dependency of grazing by free-living marine flagellates

Monger¹,

Landry²

1991

Mar. Ecol. Prog. Ser.

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Currently, there are 3 distinct and conflicting predictions of the dependency on prey size of the clearance rates [(volume cleared of prey) flag.-' time-') of flagellates that feed by the mechanism of direct-interception. Clearance rates for this group of organisms have been predicted to b e proportional roughly to either the first, second or third powers of prey radius indicating either weakly, moderately or strongly size-selective grazing behaviors, respectively. These predicted relationships were tested experimentally for cultured and natural flagellate populations fed mixtures of large and small fluorescently labelled prey (either heat-killed bacteria or latex microspheres). Evidence from 7 experiments indicated that flagellate feeding is only weakly size-selective; that is, clearance rate varies, roughly, in direct proportion to prey radius. These results provide preliminary support of a prey capture model that is based entirely on the interaction of hydrodynamic forces and surface forces arising between freeLiving marine flagellates and picoplankton-size prey. The extent to which small size provides a refuge from grazing mortality among the picoplankton, and the potential for a significant population of dormant bacteria, is probably less than previously believed; consequently the role of the most minute bacteria in pelagic food webs may requlre reexamination.

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Section: Resultsmentioning

confidence: 99%

Prey-size dependency of grazing by free-living marine flagellates

Monger¹,

Landry²

1991

Mar. Ecol. Prog. Ser.

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“…Bacteria attached to the detritus are not accessible by filter-feeding (Fenchel 1986b) and are targets for the remaining 2 groups. The third type of flagellate includes the raptorial feeders (or 'nibblers') which consume individual bacteria associated with the accessible surfaces of detritus (Fenchel 1982, 1986a, Caron 1987, Mitchell et al 1988, Patterson et al 1989. So far there have been no descriptions of flagellates specifically adapted to the fourth way -feeding on bacteria within the detritus.…”

Section: Discussionmentioning

confidence: 99%

Massisteria marina Larsen &amp;amp;amp;amp;amp;amp;amp;amp; Patterson 1990, a widespread and abundant bacterivorous protist associated with marine detritus

Patterson¹,

Fenchel²

1990

Mar. Ecol. Prog. Ser.

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An account is given of Massisteria marina Larsen & Patterson 1990, a small phagotrophic protist associated with sediment particles and with suspended detrital material in littoral and oceanic marine waters. It has been found at sites around the world. The organism has an irregular star-shaped body from which radiate thin pseudopodia with extrusomes. There are 2 inactive flagella. The organism is normally sedentary but, under adverse conditions, the arms are resorbed, the flagella become active, and the organism becomes a motile non-feeding flagellate. The ecological niche occupied by this organism and its phylogenetic affinities are discussed.

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“…Cultivationdependent approaches may be hampered by different factors. Some protozoa do not survive the technical procedures associated with dilution techniques (Ekelund and Patterson, 1997), and some appear to be unable to grow on the bacterial food source offered in the microtiter plates (Severtsova, 1928;Mitchell et al, 1988;Boenigk and Arndt, 2002), or need an agar substrate for optimal growth. In addition, the condition of an homogeneous mixing of the soil suspension is hardly met (Berthold and Palzenberger, 1995).…”

Section: The Experimental Approachmentioning

confidence: 99%

Molecular comparison of cultivable protozoa from a pristine and a polycyclic aromatic hydrocarbon polluted site

Lara

Berney

Ekelund

et al. 2007

Soil Biology and Biochemistry

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We compared the abundance and diversity of cultivable protozoa (flagellates and amoebae) in a polycyclic aromatic hydrocarbon (PAH) polluted soil and an unpolluted control, by isolating and cultivating clonal strains. The number of cultivable protozoa was higher in the polluted soil; however, the polluted soil displayed an impoverished community, dominated by certain taxa, such as Acanthamoeba sp. We isolated a total of 31 protozoan strains to characterize them morphologically and by 18S rRNA gene sequence analysis. This approach, i.e. combining morphological and molecular information had the advantage of providing quantitative data, information on morphology but also an accurate positioning of the isolates in 18S rRNA trees.

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Feeding of a Freshwater Flagellate, Bodo saltans, on Diverse Bacteria¹

Cited by 66 publications

References 14 publications

Prey-size dependency of grazing by free-living marine flagellates

Prey-size dependency of grazing by free-living marine flagellates

Massisteria marina Larsen &amp;amp;amp;amp;amp;amp;amp;amp; Patterson 1990, a widespread and abundant bacterivorous protist associated with marine detritus

Molecular comparison of cultivable protozoa from a pristine and a polycyclic aromatic hydrocarbon polluted site

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Feeding of a Freshwater Flagellate, Bodo saltans, on Diverse Bacteria1

Cited by 66 publications

References 14 publications

Prey-size dependency of grazing by free-living marine flagellates

Prey-size dependency of grazing by free-living marine flagellates

Massisteria marina Larsen &amp;amp;amp;amp;amp;amp;amp;amp;amp; Patterson 1990, a widespread and abundant bacterivorous protist associated with marine detritus

Molecular comparison of cultivable protozoa from a pristine and a polycyclic aromatic hydrocarbon polluted site

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Resources

About

Feeding of a Freshwater Flagellate, Bodo saltans, on Diverse Bacteria¹

Massisteria marina Larsen &amp;amp;amp;amp;amp;amp;amp; Patterson 1990, a widespread and abundant bacterivorous protist associated with marine detritus