Successful Culture of Pelagia noctiluca (Cnidaria: Scyphozoa) Over Time: A Continuous Supply of the Holoplanktonic Jellyfish for Research and Industrial Applications

Ballesteros, Ainara; Páez, Diego Gachet; Santín, Andreu; García, Alba; Martín, Yeray; Alonso, Ester; Jourdan, Eric; Gili, Josep-Marı́a

doi:10.3389/fmars.2022.911383

Cited by 4 publications

(15 citation statements)

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“…The rearing of P. noctiluca is a challenge for the scientific and aquarist community (Ramondenc et al, 2019;Ballesteros et al, 2022). Lilley et al (2014a) proposed a system composed of 5 to 15 L receptacles with motorized PVC paddles rotating to keep animals in suspension with recurrent water changes (Ramondenc et al, 2019, Figure 1A).…”

Section: Discussionmentioning

confidence: 99%

“…In addition, for the first time to our knowledge, P. noctiluca to be safely maintained during their early life stages in a flow-through system (Table 2). The design of the screen mesh (Figures 1B, D), has allowed fertilized eggs metamorphose into ephyrae in the aquarium directly (Figure 4) without staff having to move the transparent ephyrae between receptacles as in Purcell et al (2013), Lilley et al (2014a), Ramondenc et al (2019); Ballesteros et al (2021) and Ballesteros et al (2022). In disagreement with Purcell et al (2013) and Duarte et al (2021), we do not recommend the ephyrae grow-out of P. noctiluca in a flow-through system using conventional kreisels or rectangular tanks due to their risk of being retained on the mesh screen.…”

Section: Discussionmentioning

confidence: 99%

“…nauplii and Brachiounus spp. (rotifers) are frequently used for husbandry (Raskoff et al, 2003;Purcell et al, 2013;Crow et al, 2013;Duarte et al, 2021) but some researchers have highlighted the importance of prey size for proper rearing, particularly during the polyp and early planktonic life cycle stages (Widmer et al, 2005;Purcell et al, 2013;Miranda et al, 2016;Ballesteros et al, 2022). In our system, the interchangeable mesh screen (Figures 1B, D, 2D) allows adaptation of the size of the mesh to the size of the prey in the aquarium.…”

Section: Discussionmentioning

confidence: 99%

“…In our system, the interchangeable mesh screen (Figures 1B, D, 2D) allows adaptation of the size of the mesh to the size of the prey in the aquarium. For example, if the prey offered is Brachionus plicatilis (≈ 100 -200 µm)an ideal size range for capture and ingestion by polyps (Raskoff et al, 2003) and ephyrae such as Phyllorhiza punctata (Miranda et al, 2016) and P. noctiluca (Ballesteros et al, 2022) a mesh screen of 350 µm can be selected (Tables 1, 2). When Artemia sp.…”

Section: Discussionmentioning

confidence: 99%

“…With the aim of reducing the time required for maintenance routines, and exploring new technologies to scale jellyfish cultures and biomass production, we present a versatile modified kreisel aquarium that allows safe cultivation early jellyfish life stages in both flow-through and closed systems. Our prototype aquarium is an important contribution to jellyfish husbandry techniques, especially for P. noctiluca, a species whose culture represents a challenge for the scientific and aquarist community due to the lack of polyp stage in its life cycle (Ramondenc et al, 2019;Ballesteros et al, 2022). Additionally, due to its versatility and accessories, this system can be used for polyps, strobilae, eggs, planulae and grow-out ephyrae and metaephyrae tanks.…”

Section: Problem Descriptionmentioning

confidence: 99%

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Versatile aquarium for jellyfish: A rearing system for the biomass production of early life stages in flow-through or closed systems

et al. 2022

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Interest in the rearing of jellyfish has grown exponentially over recent years due to their indisputable potential in a wide variety of uses and research. Here, we describe the design and operation of an effective modified kreisel aquarium that allows to grow of the early planktonic life stages of jellyfish in both flow-through or closed systems. Thanks to its versatile and innovative approach, the aquarium operates for species with a metagenetic life cycle, and allows the metamorphosis of ephyrae from fertilized eggs for species with a holoplanktonic life cycle, such as Pelagia noctiluca. In addition, its configuration allows the mesh screen to be changed in situ, adjusting the size of the mesh according to the growth of the jellyfish and the size of the prey offered. An accessory, named the polyp plate, suspends the polyps in a downward or sideways position, facilitating prey capture, strobilae formation and release of ephyrae. The improvements of this modified kreisel reduce the time-involvement for staff in maintenance routines, and it is an important contribution to jellyfish husbandry techniques and biomass production. These improvements especially target to the culture of the blooming and stinging P. noctiluca, which has been noted to present a host of challenges to the scientific and aquarist communities.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Problem Descriptionmentioning

confidence: 99%

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Versatile aquarium for jellyfish: A rearing system for the biomass production of early life stages in flow-through or closed systems

et al. 2022

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A temperature‐controlled, circular maintenance system for studying growth and development of pelagic tunicates (salps)

Müller,

Wessels,

Driscoll

et al. 2024

Limnology & Ocean Methods

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Salps have attracted attention as zooplankton organisms that may be able to expand their habitat range and increase their ecological importance in the face of ongoing global warming. Due to their gelatinous nature, unique feeding strategy, and reproductive ecology such changes could have profound impacts on regional marine ecosystems. While their role in the regional carbon cycle is receiving attention, our knowledge of their physiology and life cycle is still limited. This knowledge gap is mainly due to their fragile gelatinous nature, which makes it difficult to capture and maintain intact specimen in the laboratory. We present here a modified kreisel tank system that has been tested onboard a research vessel with the Southern Ocean salp Salpa thompsoni and at a research station with Salpa fusiformis and Thalia democratica from the Mediterranean Sea. Successful maintenance over days to weeks allowed us to obtain relative growth and developmental rates comparable to in situ field samples of S. thompsoni and S. fusiformis, and provided insights into previously unknown features of their life cycle (e.g., testes development). Our results show that traditional methods of estimating growth, such as cohort analysis, may lead to a general overestimation of growth rates and neglect individual strategies (e.g., shrinkage), which can affect the results and conclusions drawn from population dynamic models. By providing a starting point for the successful maintenance of different species, comparable experiments on the physiology of salps is made possible. This will contribute to refining model parameters and improving the reliability of the predictions.

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The unpredictability of scyphozoan jellyfish blooms

Fernández-Alías,

Marcos,

Pérez-Ruzafa

2024

Front. Mar. Sci.

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The study of jellyfish blooms has gained attention in the recent decades because of the importance of forecasting and anticipating them and avoiding their interference with human activities. However, after thirty years of scientific effort (monitoring systems, empirical laboratory and field studies, modeling, etc.), the occurrence of blooms remains unpredictable, and their consequences unavoidable. Climate change, eutrophication, overfishing, coastal construction, and species translocation have been suggested as stressors that increase them, but robust evidence to support these claims is limited. The widespread belief that jellyfish blooms are “increasing in number” has been challenged in recent years. Among the gelatinous zooplankton, the bloom forming species are concentrated in the class Scyphozoa, and the number of species with at least one recorded bloom has increased during the last decade. The analyses of long-term time series show seasonality in the dynamic of each blooming jellyfish species population, but the blooms vary in intensity and there are years of an unexplained absence of jellyfish. In this review, we focus on the current state of knowledge, uncertainties and gaps in the critical points that can strongly influence the intensity of the bloom or even lead to the absence of the medusa population. These points include ephyrae, planulae and scyphistoma natural, predatory or fishing mortality, the molecular pathway of strobilation, benthic population dynamics, planula settlement and ephyra to medusa transition success. Some of these points account for certain empirical laboratory evidence under controlled conditions, and are difficult to be studied on the field, but the different sources of non-typically recorded variability need to be addressed to improve our understanding of jellyfish population dynamics.

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Successful Culture of Pelagia noctiluca (Cnidaria: Scyphozoa) Over Time: A Continuous Supply of the Holoplanktonic Jellyfish for Research and Industrial Applications

Cited by 4 publications

References 50 publications

Versatile aquarium for jellyfish: A rearing system for the biomass production of early life stages in flow-through or closed systems

Versatile aquarium for jellyfish: A rearing system for the biomass production of early life stages in flow-through or closed systems

A temperature‐controlled, circular maintenance system for studying growth and development of pelagic tunicates (salps)

The unpredictability of scyphozoan jellyfish blooms

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