Predation by copepods upon natural populations of Phaeocystis pouchetii as a function of the physiological state of the prey

Estep, Kenneth W.; Nejstgaard, Jens C.; Skjoldal, Hein Rune; Rey, Francisco

doi:10.3354/meps067235

Cited by 117 publications

(61 citation statements)

References 27 publications

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“…This situation seems to be diVerent from the haemolytic glycolipids extracted from P. globosa isolated from ichthyotoxic blooms in Chinese coastal waters (He et al 1999), the glycolipids from the prymesiophyte Chrysochromulina polylepis (Yasumoto et al 1990), or the polyethers found for Prymnesium species , and references therein). Because of the low haemolytic activity of the cell extracts, it is doubtful if predators on P. pouchetii in the mesocosm would experience negative eVects after consumption of this prey, although healthy colonies are avoided by some copepods (Estep et al 1990). Organisms such as bacteria and phytoplankton that co-occur with Phaeocystis, however, may be inhibited by this lytic action.…”

Section: Discussionmentioning

confidence: 99%

“…Bacterial consumption rates of acrylate in Weld samples increased when the > 20 m fraction containing P. globosa colonies was removed (Noordkamp et al 2000). And then there is the so-called legend of Phaeocystis unpalatability (Huntley et al 1987) that says that healthy colonies are not consumed due to some sort of chemical deterrence (Estep et al 1990). The observed negative eVects of Phaeocystis presence on other organisms may be a key to its bloom forming capacity; chemical deterrence could be a way to reduce grazing (Nejstgaard et al, this issue) as well as inhibiting competitors (allelopathy), thereby increasing Wtness.…”

Section: Introductionmentioning

confidence: 99%

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Haemolytic activity of live Phaeocystis pouchetii during mesocosm blooms

et al. 2007

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Chemical defence is a potential mechanism contributing to the success of Phaeocystis species that repeatedly dominate the phytoplankton in coastal areas. Species within the genus Phaeocystis have long been suspected of imposing negative eVects on co-occurring organisms. Recently a number of toxins have been extracted and identiWed from Phaeocystis samples, but it is not clear if they do enhance the competitive advantage of Phaeocystis species.In the present study the cytotoxic impact of live Phaeocystis pouchetii to human blood cells in close proximity, regardless of the nature of the responsible mechanism, was quantiWed using a bioassay. Haemolytic activity was measured during blooms of P. pouchetii in mesocosms. These environments were chosen to mimic natural conditions including chemically mediated interactions that could trigger defensive and/or allelopathic responses of Phaeocystis.Haemolytic activity correlated with P. pouchetii numbers and was absent during the preceding diatom bloom. Samples containing live P. pouchetii cells showed the highest activity, while Wltered sea water and cell extracts were less haemolytic or without eVect. Dose-response curves were linear up to 70% lysis, and haemolysis in samples containing live P. pouchetii cells reached EC 50 values comparable to known toxic prymnesiophytes (1.9 * 10 7 cells l ¡1 ). Haemolytic activity was enhanced by increased temperature and light. The results indicate that unprotected and thus presumably vulnerable cells present in a P. pouchetii bloom may lyse within days.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Haemolytic activity of live Phaeocystis pouchetii during mesocosm blooms

et al. 2007

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“…the literature on the use of Phaeocystis as food for higher trophic levels is contradictory. Some studies indicate that Phaeocystis single ceils and colonies can serve as food for zooplankton; whereas other studies indicate Phaeocystis to be unmfitable fond ~Waisse ~t al.. 1994 and references cited therein), Its suitability as food for copepods can also be dependent on the physiological state of the algae (Estep et al, 1990).…”

Section: Introductionmentioning

confidence: 99%

Trophic interactions between zooplankton andPhaeocystis cf.globosa

Hansen

1995

Helgolander Meeresunters

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Mesozooplankton grazing on Phaeocystis cf. globosa was investigated by laboratory and field studies. Tests on 18 different species by means of laboratory incubation experiments, carried out at the Biologische Anstalt Helgotand, revealed that Phaeocystis was ingested by 5 meroplanktonic and 6 holoplanktonic species; filtering and ingestion rates of the latter were determined. Among copepods, the highest feeding rates were found for Calanus helgolandicus and Temora longicornis. ton grazing by the dominant copepod -femora longicorms to be negligible during the Phaeocysti, spring bloom. T longicornis gut fluorescence was inversely related to Phaeocystis dominance. Th~ hypothesis has been put forward that 7". 1ongicornis preferentially feeds on microzooplankton and b) this may enhance rather than depress Phaeocystis blooms. Results from laboratory incubatioc experiments, including three trophic levels -Phaeocystis cf globosa (algael. Strombidinopsis sp Iciliatel and Temora longicornis (copepod) -support this hypothesis.

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“…Several studies showed significant grazing of the copepod genus Calanus on Phaeocystis (Tande & BAmstedt 1987, Hansen et al 1990), whereas others reported low grazing pressure on Phaeocystis by Calanus and other copepod genera (Hansen & van Boekel 1991, Bautista et al 1992. Estep et al (1990) related grazing on Phaeocystis colonies by copepods to the physiological condition of the colonies. Grazing losses of Phaeocystis cells caused by microzooplankton can be substantial (Admiraal & Venekamp 1986, Weisse & Scheffel-Moser 1990.…”

Section: Introductionmentioning

confidence: 99%

Effects of grazing, sedimentation and phytoplankton cell lysis on the structure of a coastal pelagic food web

Brussaard¹,

Riegman²,

Noordeloos³

et al. 1995

Mar. Ecol. Prog. Ser.

211

146

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The influence of grazing, sedimentation and phytoplankton cell lysis on the dynamics of a coastal pelagic ecosystem in the Southern Bight of the North Sea was studied during spring/summer 1992. Diatoms in the > 8 pm size fraction dominated during early spring, due to size-differential control by microzooplankton. This diatom spring bloom became silicate depleted and declined by sedimentation. A Phaeocystis bloom developed in early summer. Phytoplankton cell lysis was the major loss factor for Phaeocystjs, accounting for 75% of the decline of the bloom. Bacterial production was positively correlated with phytoplankton cell lysis, and bacterial carbon demand could be supplied by cell lysis. This illustrates the importance of phytoplankton cell lysis in providing energy for the microbial loop. A new method (nicotine addit~on technique) was used to estimate mesozooplankton grazing on microzooplankton. h4esozooplankton appeared to prefer microzooplankton as a food source, though there occasionally was substantial grazing on phytoplankton. We conclude that grazing and sedimentation, as well as call lysis, are structuring mechanisms for algal bloom dynamics.

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Predation by copepods upon natural populations of Phaeocystis pouchetii as a function of the physiological state of the prey

Cited by 117 publications

References 27 publications

Haemolytic activity of live Phaeocystis pouchetii during mesocosm blooms

Haemolytic activity of live Phaeocystis pouchetii during mesocosm blooms

Trophic interactions between zooplankton andPhaeocystis cf.globosa

Effects of grazing, sedimentation and phytoplankton cell lysis on the structure of a coastal pelagic food web

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