Feeding selection of heterotrophic marine nanoflagellates based on the surface hydrophobicity of their picoplankton prey

Monger, Bruce C.; Landry, Michael R.; Brown, Susan L.

doi:10.4319/lo.1999.44.8.1917

Cited by 110 publications

(101 citation statements)

References 59 publications

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“…Although it can be argued that more mortality rate estimates for Synechococcus in Fig. 6B lie above the 1 : 1 comparison line than below, few exceed the approximately 40-50% higher values that would be predicted from rate proportionality to cell radius or r 0.8 (Monger and Landry 1991). The general similarity between contemporaneous rate estimates for these two prey organisms could be indicative of cell properties that affect their relative vulnerabilities to predation independent of size.…”

Section: Discussionmentioning

confidence: 85%

“…As major consumers of the ultraphytoplankton, nano-sized heterotrophic protists link the grazing mortalities of the component groups. Theory suggests, for example, that relative grazing vulnerabilities should be defined by a fixed size relationship roughly proportional to cell radius (Monger andLandry 1990, 1991), which provides another advantage to small size. Perturbation experiments, such as open-ocean iron fertilization (Landry et al 2000), have shown, for example, that grazers can respond quickly to control or suppress ultraphytoplankton populations, even as other size classes, and phytoplankton biomass as a whole, are strongly increasing.…”

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confidence: 99%

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Close coupling between phytoplankton growth and microzooplankton grazing in the western South China Sea

Chen

Liu

Landry

et al. 2009

Limnology & Oceanography

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We conducted 28 dilution experiments during August-September 2007 to investigate the coupling of growth and microzooplankton grazing rates among ultraphytoplankton populations and the phytoplankton community and their responses to habitat variability (open-ocean oligotrophy, eddy-induced upwelling, and the Mekong River plume) in the western South China Sea. At the community level, standing stocks, growth, and grazing rates were strongly and positively correlated, and were related to the higher abundance of larger phytoplankton cells (diatoms) at stations with elevated chlorophyll concentration. Phytoplankton growth rates were highest (.2 d 21 ) within an eastward offshore jet at 13uN and at a station influenced by the river plume. Among ultraphytoplankton populations, Prochlorococcus dominated the more oceanic and oligotrophic stations characterized by generally lower biomass and phytoplankton community growth, whereas Synechococcus became more important in mesotrophic areas (eddies, offshore jet, and river plume). The shift to Synechococcus dominance reflected, in part, its higher growth rates (0.87 6 0.45 d 21 ) compared to Prochlorococcus (0.65 6 0.29 d 21 ) or picophytoeukaryotes (0.54 6 0.50 d 21 ). However, close coupling of microbial mortality rates via common predators is seen to play a major role in driving the dominance transition as a replacement of Prochlorococcus, rather than an overprinting of its steady-state standing stock.

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Section: Discussionmentioning

confidence: 85%

mentioning

confidence: 99%

Close coupling between phytoplankton growth and microzooplankton grazing in the western South China Sea

Chen

Liu

Landry

et al. 2009

Limnology & Oceanography

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“…11d). This feature has been observed in other subtropical gyre systems (Claustre and Marty, 1995;Monger et al, 1999), but the reasons for its existence are still unclear. Claustre and Marty (1995) suggest that this deep nanoflagellate population can develop close to the nutricline, which is the case here.…”

Section: A Deep Nanoflagellate Populationmentioning

confidence: 96%

Spatial variability of phytoplankton pigment distributions in the Subtropical South Pacific Ocean: comparison between in situ and predicted data

2008

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Abstract. In the frame of the BIOSOPE cruise in 2004, the spatial distribution and structure of phytoplankton pigments was investigated along a transect crossing the ultraoligotrophic South Pacific Subtropical Gyre (SPSG) between the Marquesas Archipelago (141 • W-8 • S) and the Chilean upwelling (73 • W-34 • S). A High Performance Liquid Chromatography (HPLC) method was improved in order to be able to accurately quantify pigments over such a large range of trophic levels, and especially from strongly oligotrophic conditions. Seven diagnostic pigments were associated to three phytoplankton size classes (pico-, nano and microphytoplankton). The total chlorophyll-a concentrations [TChla] in surface waters were the lowest measured in the centre of the gyre, reaching 0.017 mg m −3 . Pigment concentrations at the Deep Chlorophyll Maximum (DCM) were generally 10 fold the surface values. Results were compared to predictions from a global parameterisation based on remotely sensed surface [TChla]. The agreement between the in situ and predicted data for such contrasting phytoplankton assemblages was generally good: throughout the oligotrophic gyre system, picophytoplankton (prochlorophytes and cyanophytes) and nanophytoplankton were the dominant classes. Relative bacteriochlorophyll-a concentrations varied around 2%. The transition zone between the Marquesas and the SPSG was also well predicted by the model. However, some regional characteristics have been observed where measured and modelled data differ. Amongst these features is the extreme depth of the DCM (180 m) towards the centre of the gyre, the presence of a deep nanoflagellate population beneath the DCM or the presence of a prochlorophyte-enriched Correspondence to: J. Ras (josephine.ras@obs-vlfr.fr) population in the formation area of the high salinity South Pacific Tropical Water. A coastal site sampled in the eutrophic upwelling zone, characterised by recently upwelled water, was significantly and unusually enriched in picoeucaryotes, in contrast with an offshore upwelling site where a more typical senescent diatom population prevailed.

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“…These changes are caused by selective grazing of protists on specific bacteria, which consequently has an impact on the whole bacterial community (BC). Several characteristics of the bacterial cell, such as motility, cell surface properties, size, and activity state (growth or division), can be criteria for a protistan predator to prefer or avoid it as food [17,32,41]. Until now, most studies in this field focused on the size selective feeding of ciliates and flagellates and its various effects on bacteria.…”

Section: Introductionmentioning

confidence: 99%

Size Selective Feeding in Cyclidium glaucoma (Ciliophora, Scuticociliatida) and Its Effects on Bacterial Community Structure: A Study from a Continuous Cultivation System

et al. 2001

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A B S T R A C TThree aspects of size selective feeding by the scuticociliate Cyclidium glaucoma were studied in continuous cultivation systems. Firstly, grazing-induced changes in abundance, biomass, and size structure of a bacterial community were investigated. Secondly, we studied possible grazingprotection mechanisms of bacteria as a response to permanent presence of the predator. And finally, we were looking for potential feedback mechanisms within this predator-prey relationship, i.e., how the ciliate population reacted to a changed, more grazing-protected bacterial community. The first stage of the cultivation system consisted of the alga Cryptomonas sp. and the accompanying mixed bacterial community. These organisms were transferred to two second stage vessels, a control stage without ciliates and a second one inoculated with C. glaucoma. After the first week, the abundance of bacteria in the latter decreased by 60% and remained stable until the end of the experiment (65 d), whereas bacterial biomass was less affected (393 µg C L −1 during days 0-7, 281 µg C L −1 afterwards). The mean bacterial cell volume doubled from 0.089 µm 3 to 0.167 µm 3 , which was mainly due to increasing cell widths. During the whole investigation period formation of colonies or filaments was not observed, but we found a clear feedback of ciliates on bacterial size. An increase in bacterial cell volume was always followed by a decline of the predator population, resulting in a yet undescribed type of microbial predator-prey relation. Literature and our own data on the optimal food size range grazed by C. glaucoma showed that bacterial cell width rather than length was responsible for that observed phenomenon. Finally, we suggest that uptake rates of spherical latex beads give only limited information on truly ingestible prey volumes and that prey geometry should be considered in future studies on size selective feeding of protists.

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Feeding selection of heterotrophic marine nanoflagellates based on the surface hydrophobicity of their picoplankton prey

Cited by 110 publications

References 59 publications

Close coupling between phytoplankton growth and microzooplankton grazing in the western South China Sea

Close coupling between phytoplankton growth and microzooplankton grazing in the western South China Sea

Spatial variability of phytoplankton pigment distributions in the Subtropical South Pacific Ocean: comparison between in situ and predicted data

Size Selective Feeding in Cyclidium glaucoma (Ciliophora, Scuticociliatida) and Its Effects on Bacterial Community Structure: A Study from a Continuous Cultivation System

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