Estimating the impact of fungal parasites on phytoplankton populations

Bruning, Kees; Lingeman, Robert; Ringelberg, J.

doi:10.4319/lo.1992.37.2.0252

Cited by 61 publications

(47 citation statements)

References 7 publications

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“…Evidence is increasing that most of the common and bloom-forming diatoms in the North Sea are prey to these small predators. Thus, the nanoflagellates play an important but often underestimated role in the control of phytoplankton populations (Sommer 1994) as do fungal infections (Bruning et al 1992). …”

Section: Discussionmentioning

confidence: 99%

Food uptake and fine structure of Cryothecomonas longipes sp. nov., a marine nanoflagellate incertae sedis feeding phagotrophically on large diatoms

Schnepf

Kühn²

2000

Helgoland Marine Research

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Cryothecomonas longipes Schnepf and Kühn sp. nov. is a colourless biflagellate organism, 9-14 µm long and 7-9 µm wide when not filled with food vacuoles. It was detected in the North Sea, feeding with pseudopodia on diatoms. It penetrates the host shell, while the main body of the flagellate remains outside the frustule. Cells are covered with a multilayered theca. The pseudopodium protrudes through a preformed slit in the theca. Each flagellum also emerges through a pit in which the theca forms a funnel of complex structure that girdles each flagellum. The anterior flagellum is 9-15 µm long and oriented forward; the ventral flagellum, posteriorly directed, is 20-24 µm long and bears fine hairs. The flagellar roots consist of microtubules that emerge at satellites around the basal bodies and run along the flagellar pits. In addition, the ventral flagellum is accompanied by a band of six microtubules. It is proximally attached to a small fibrillar band, which interconnects the basal bodies. Cryothecomonas longipes has two or three types of extrusomes which pierce the theca when discharged. Their mode of discharge is discussed. Microbody-like vesicles containing small tubules are closely associated with older digestion vacuoles. Cryothecomonas longipes is compared with other species of the genus and a diagnosis is given.

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Section: Discussionmentioning

confidence: 99%

Food uptake and fine structure of Cryothecomonas longipes sp. nov., a marine nanoflagellate incertae sedis feeding phagotrophically on large diatoms

Schnepf

Kühn²

2000

Helgoland Marine Research

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“…Lytic viruses are now thought to play a major role in the mortality of marine bacteria and phytoplankton, with the potential of causing population level changes in host organisms on time scales of hours to days (Bratbak et al 1993, Nagasaki et al 1994, Suttle 1994, Suttle & Chan 1995. Similarly, fungal parasites of freshwater diatoms and dinoflagellates have been implicated in mass mortalities of host organisms, suppression or retardation of phytoplankton blooms, and selective effects on species composition leading to successional changes in plankton comnlunities (Canter & Lund 1948, Reynolds 1973, Youngman et al 1976, Van Donk & Ringelbei-g 1983, Sommer et al 1984, Heaney et al 1988, Kudoh & Takahashi 1990, Bruning et al 1992. Fewer studies have considered protozoan parasites of planktonic organisms, but at least 1 group of protists, the parasitic dinoflagellates, appears sufficiently common and widespread to be of ecological significance (Drebes 1984, Cachon & Cachon 1987.…”

Section: Introductionmentioning

confidence: 99%

Parasitism of photosynthetic dinoflagellates in a shallow subestuary of Chesapeake Bay, USA

Dw¹,

Ej²,

Cl³

et al. 1996

Aquat. Microb. Ecol.

175

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ABSTRACT-Rhode Rlver (USA) populatlons of the red-tlde d~noflagellates Gyrnnodinium sanguineum Hlrasaka, 1922, Cyi-odinium uncatenum Hulburt, 1957, and Scnppsiella trochoidea (Steln) Loeblich 111, 1976, were commonly infected by thelr parasltlc relative Amoebophrya cei-atil Cachon, 1964, d u n n g the summer of 1992. Mean ~nfection levels were relatively low, wlth data for vertically Integrated samples averaging 1.0, 1.9, and 6 5 % for G. sangujneum, G. uncatenum, and S , trocho~dea, respectively However, epldemlc outbreaks of A. ceratii (20 to 8 0 % hosts parasitized) occurred in G. uncatenum a n d S. trochoidea on several occasions, wlth peak levels of parasitism associated wlth decreases ~n host abundance. Estimates for paraslte Induced mortality indlcate that A, ceratil 1s capable of removlng a significant fraction of dinoflagellate blomass, with epldemics In the upper estuary cropplng u p to 5 4 % of the dominant bloom-forming species, G uncatenum, dally. However, epldemics were usually geographically restncted and of short duration, with dally losses for the 3 host species d u e to parasitism averaging 1 to 3 % over the summer. Thus, A ceratli appears capable of exerting a controlling Influence on bloonl-form~ng dinoflagellates of the Rhode River only when conditions a r e suitable for production of epidemlc infections. Interestingly, epidemics falled to occur in multlple d~noflagellate taxa sunultaneously, even when alternate host specles were present at hlgh densities. This observation, along with laboratory experiments demonstrating that parasites Isolated from G sanguineum wcre unable to infect G. uncatenum, S. trocholdea, and Ceratium furca, suggests that the dinoflagellate taxon A cerati] may represent a cluster of relatively host-speclfic specles.

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“…Resale or republication not permitted without written consent of the publisher mura et al 1995, Kamiyama 1997, Jeong et al 1999a,b, Matsuyama et al 1999, and eukaryotic parasites including fungi and certain flagellates (Taylor 1968, Bruning et al 1992, Coats 1999, Norén et al 1999, ErardLe Denn et al 2000 all have the potential to exert controlling influences on HAB species.…”

Section: Abstract: Parasitism · Photosynthesis · Light Absorption · mentioning

confidence: 99%

Effects of two strains of the parasitic dinoflagellate Amoebophrya on growth, photosynthesis, light absorption, and quantum yield of bloom-forming dinoflagellates

Park¹,

Cooney²,

Yih³

et al. 2002

Mar. Ecol. Prog. Ser.

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Estimating the impact of fungal parasites on phytoplankton populations

Cited by 61 publications

References 7 publications

Food uptake and fine structure of Cryothecomonas longipes sp. nov., a marine nanoflagellate incertae sedis feeding phagotrophically on large diatoms

Food uptake and fine structure of Cryothecomonas longipes sp. nov., a marine nanoflagellate incertae sedis feeding phagotrophically on large diatoms

Parasitism of photosynthetic dinoflagellates in a shallow subestuary of Chesapeake Bay, USA

Effects of two strains of the parasitic dinoflagellate Amoebophrya on growth, photosynthesis, light absorption, and quantum yield of bloom-forming dinoflagellates

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