Morphology of the nematocysts of the medusae of two scyphozoans, <i>Catostylus mosaicus</i> and <i>Phyllorhiza punctata</i> (Rhizostomeae): implications for capture of prey

Peach, Meredith B.; Pitt, Kylie A.

doi:10.1111/j.1744-7410.2005.00012.x

Cited by 45 publications

(52 citation statements)

References 25 publications

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“…2) and nomenclatural classifications, had the most similar velocities and lengths and, therefore, are most likely to function similarly. The lack of correspondence between a nematocyst's nomenclatural classification and its function suggests that caution is appropriate when using medusan nematocyst assemblages as indicators of prey selection and trophic role (Purcell and Mills, 1988;Carrette et al, 2002;Peach and Pitt, 2005). Further, the lack of correspondence between capsule size, discharge velocity and kinetic energy may confound the use of nematocyst sizes to infer prey size (Purcell, 1984;Carrette et al, 2002).…”

Section: Discussionmentioning

confidence: 99%

“…Previous studies using scanning electron micrographs of preserved samples of nematocysts on captured prey have repeatedly found euryteles and O-isorhizas of scyphomedusa to penetrate both hard and soft bodied prey for the full length of their tubule (Heeger and Möller, 1987;Heeger et al, 1992;Östman and Hydman, 1997;Peach and Pitt, 2005). In contrast, a-isorhizas are less effective penetrants (Heeger and Möller, 1987;Peach and Pitt, 2005) and have been found to only partially penetrate their prey, leaving the rest of their tubule to stick to the surface of the prey (Heeger and Möller, 1987). This observation is consistent with their lower discharge velocities and kinetic energies.…”

Section: Discussionmentioning

confidence: 99%

“…The majority of described nematocyst types are assumed to be penetrants because the tip of their tubules are open and are inferred to be capable of delivering the toxins characterizing cnidarian stings. Beyond this, most of our current knowledge on prey capture by nematocysts is based upon studies which either relate the nematocyst assemblage found on a medusan species to its diet (Purcell and Mills, 1988;Carrette et al, 2002;Peach and Pitt, 2005), or studies using microscopy to examine preserved samples of nematocysts and their captured prey (Purcell, 1984;Heeger and Möller, 1987;Heeger et al, 1992;Östman and Hydman, 1997;Peach and Pitt, 2005). Due to the inherent difficulty in observing the fastest cellular process identified, few studies have directly observed and described the discharge properties of different types of nematocysts (Holstein and Tardent, 1984;Nuchter et al, 2006).…”

Section: Introductionmentioning

confidence: 99%

“…Therefore, we do not know whether the tubules of similar types of nematocysts discharge similarly or whether their discharge properties are related to the nematocyst categories identified by taxonomists. Since tubules are the part of nematocysts typically observed clinging to prey (Purcell, 1984;Heeger and Möller, 1987;Heeger et al, 1992;Östman and Hydman, 1997;Peach and Pitt, 2005), their properties likely determine how nematocysts capture prey, and hence, their functions.…”

Section: Introductionmentioning

confidence: 99%

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Functional characteristics of nematocysts found on the scyphomedusa Cyanea capillata

Colin

Costello

2007

Journal of Experimental Marine Biology and Ecology

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Although prey capture by cnidarians is mediated through nematocysts, their influence on prey selection by cnidarians remains poorly documented. The difficulty in visualizing nematocyst-prey interactions remains the chief obstacle to understanding how the wide variety of nematocyst types influences the mechanics of prey capture. One solution to this limitation has been to assign functional roles to nematocysts based on morphological characters of discharged cnidae. Here we report results of an alternative approach based upon dynamic traits of nematocyst discharge. We examined tubule lengths, tubule discharge velocities and net-togross displacement ratios of tubules of discharging nematocysts possessed by the cosmopolitan scyphomedusa, Cyanea capillata. This nematocyst assemblage consisted of euryteles, birhopaloids and three different isorhizas -a-isorhizas, A-isorhizas and Oisorhizas. Dynamic traits varied little within each nematocyst type but there were significant differences between the different types. Most importantly, dynamic traits varied significantly within a broad category of nematocyst -the isorhizas -indicating that conventional classification schemes that infer function based on broad nematocyst categories may not appropriately describe the functional roles of these nematocysts. The dynamic properties of discharging nematocysts were consistent with physical results described in studies using scanning electron microscopy images of nematocyst-prey interactions. These data suggest that nematocysts vary significantly in their roles during predation, but that inferences relating prey selection with broad nematocyst categories merit careful examination.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Functional characteristics of nematocysts found on the scyphomedusa Cyanea capillata

Colin

Costello

2007

Journal of Experimental Marine Biology and Ecology

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“…Jellyfish had a considerable impact on the mesozooplankton community, with concentrations of all of the most abundant taxa decreasing in mesocosms exposed to jellyfish. Catostylus mosaicus captures a range of mesozooplankton, but most notably copepods, mollusc veligers and polychaetes (Browne & Kingsford 2005, Peach & Pitt 2005, and most of these groups decreased substantially in treatments containing jellyfish. Jellyfish also caused changes in the assemblages of microzooplankton during both the May and September experiments.…”

Section: Discussionmentioning

confidence: 99%

Jellyfish modify the response of planktonic assemblages to nutrient pulses

Pitt¹,

Kingsford²,

Rissik³

et al. 2007

Mar. Ecol. Prog. Ser.

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The short-term effects of pulses of nutrients and jellyfish Catostylus mosaicus on planktonic assemblages were investigated in field-based experiments using 3 m 3 mesocosms. Experiments ran for 5 d and were repeated in autumn and spring at Lake Illawarra, a coastal lagoon in New South Wales, Australia. Experiments consisted of 2 orthogonal treatments, addition/non-addition of nutrients and presence/absence of jellyfish, and were designed to determine how bottom-up (i.e. addition of nutrients) and top-down (i.e. predation by jellyfish) processes influence planktonic assemblages, both independently and in combination. During both experiments, nutrients stimulated primary production and caused changes in phytoplankton assemblages. Nutrients also stimulated production of large tintinnids, suggesting that bottom-up processes may influence 2 trophic levels. Mesozooplankton were consistently depleted in mesocosms containing jellyfish. Jellyfish also caused changes in microzooplankton assemblages, indicating that top-down processes also cascade to at least 2 trophic levels. In mesocosms to which both nutrients and jellyfish were added during spring, concentrations of the red-tide forming, heterotrophic dinoflagellate Noctiluca scintillans were 20 times greater than in mesocosms to which nutrients were added alone. We hypothesize that addition of nutrients stimulated production of centric diatoms, the main prey of N. scintillans, but that a bloom of N. scintillans only formed when jellyfish were also present because jellyfish grazed on populations of herbivorous mesozooplankton (particularly the calanoid copepod Gladioferens), which generally out-competed N. scintillans for diatom prey. These data provide the first empirical evidence linking jellyfish to the formation of red tides.

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Influence of jellyfish blooms on carbon, nitrogen and phosphorus cycling and plankton production

Pitt¹,

Welsh²,

Condon³

2008

Jellyfish Blooms: Causes, Consequences, and Recent Advances

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Morphology of the nematocysts of the medusae of two scyphozoans, Catostylus mosaicus and Phyllorhiza punctata (Rhizostomeae): implications for capture of prey

Cited by 45 publications

References 25 publications

Functional characteristics of nematocysts found on the scyphomedusa Cyanea capillata

Functional characteristics of nematocysts found on the scyphomedusa Cyanea capillata

Jellyfish modify the response of planktonic assemblages to nutrient pulses

Influence of jellyfish blooms on carbon, nitrogen and phosphorus cycling and plankton production

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