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994 results on '"Gelatinous zooplankton"'

102. Siphonophores

Author

Rodríguez-Sáenz, Karina, Gasca, Rebeca, Dumont, H. J., editor, Wehrtmann, Ingo S., editor, and Cortés, Jorge, editor

Published
2009
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104. Bycatch data from ichthyoplankton surveys reveal long-term trends in gelatinous zooplankton in the Norwegian and Barents Seas

Author

Natalia A. Yaragina, Leif Chr. Stige, and Øystein Langangen

Subjects
Gelatinous zooplankton, Ecology, biology, Norwegian, Aquatic Science, Ichthyoplankton, Oceanography, biology.organism_classification, language.human_language, Term (time), Fishery, Bycatch, Geography, language, Ecology, Evolution, Behavior and Systematics
Abstract

Gelatinous zooplankton play important roles as consumers in marine food webs, but the spatial and temporal dynamics of them are difficult to quantify because their fragility makes accurate sampling by traditional gears challenging. As a result, accurately quantified long-term data series targeting this group are scarce. To shed light on the dynamics of three groups of gelatinous zooplankton (medusae, ctenophores, and chaetognaths), we present and analyse time-series on frequency of occurrence and a relative index of abundance for each group recorded as bycatch in ichthyoplankton surveys. The time-series represent two areas (southwestern Barents Sea and northeastern Norwegian Sea), two seasons (spring and summer), and a 35-years period (1959–1993). Results suggest that occurrences of medusae and ctenophores increased from spring to summer in ocean shelf areas, whereas chaetognaths were ubiquitous in both seasons with highest abundance in oceanic areas. Spring occurrences correlated positively with summer occurrences for medusae and chaetognaths but not ctenophores, implying longest prediction horizon for the two first groups. The occurrence of medusae, but not ctenophores and chaetognaths, was consistently higher in warm than cold years. These results suggest that the occurrence and potentially the role of medusae in this arcto-boreal environment is most profound in warm periods.

Published
2021
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105. Pelagic tunicates (Appendicularia and Thaliacea) of Sri Lanka: two first records with an annotated checklist

Author

Karunarathne, Krishan D. and Croos, M.D.S.T. De

Subjects
Thaliacea, Gelatinous zooplankton, Liliales, Liliopsida, Pyrosomatida, Zingiberales, Zoology, Biology, Thalia, Liliaceae, Holoplankton, Animalia, Animals, Urochordata, Plantae, Chordata, Ecology, Evolution, Behavior and Systematics, Taxonomy, Sri Lanka, Ascidiacea, Appendicularia, Oikopleuridae, Salpida, Doliolidae, Pelagic zone, Biodiversity, Pyrosomatidae, Salpidae, biology.organism_classification, Tracheophyta, Marantaceae, Oikopleura, Copelata, Doliolida, Animal Science and Zoology, Literature survey
Abstract

In broadening the understanding of the diversity, distribution and seasonality of gelatinous zooplankton of Sri Lanka, a survey (‘Waya-jel-Survey’) was carried out in coastal waters of the country from 2016 to 2020, and the collected specimens of pelagic tunicates were taxonomically identified. Further, a comprehensive literature survey was conducted and the previous records on the occurrences of pelagic tunicates within the exclusive economic zone of Sri Lanka were cross-checked and listed in developing the first-ever annotated checklist. Among the samples collected in this study, Pyrostremma spinosum and Thalia sibogae were reported for the first time from Sri Lankan waters while two more thaliaceans, i.e., Doliolum denticulatum and Pegea confoederata, and six appendicularians, i.e., Fritillaria borealis sargassi, F. formica digitata, Oikopleura cophocerca, O. fusiformis, O. longicauda, and O. rufescens were re-recorded. In total, forty species (including two subspecies) in 19 genera, belonging to five families from four orders of the classes Appendicularia (n = 17 species) and Thaliacea (n = 23 species) were reported to be inhabited in Sri Lankan waters. Most of the records were from the Laccadive Sea region while the majority of the species have been reported during the northwest monsoon (December to February) period.

Published
2021
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106. Summer phenology of the sub-surface gelatinous zooplankton assemblage in two North-Western Icelandic fjords

Author

Guðjón Már Sigurðsson, Florian Lüskow, Jörundur Svavarsson, and Astthor Gislason

Subjects
geography, Gelatinous zooplankton, geography.geographical_feature_category, Effects of global warming on oceans, Species diversity, Pelagic zone, Fjord, Biology, Plankton, biology.organism_classification, Oceanography, Abundance (ecology), Species richness, General Agricultural and Biological Sciences
Abstract

The Arctic Ocean (including sub-Arctic margins) is one of the fastest changing ecosystems affected by climate change. However, much remains unknown about its ecosystematic functioning, trophic interactions, and species diversity. Plankton communities have been studied to some extent, but gelatinous zooplankton (GZ; cnidarians, ctenophores, pelagic tunicates), a group that may be favoured by ocean warming, were widely neglected and only recently gained more attention. Plankton assemblages and dynamics around Iceland are well studied, while limited baseline information on GZ ecology are regionally available. In the present study, we aim to describe the seasonal changes in GZ assemblages in two North-western fjords that are representative of other fjords in Iceland. Near-surface horizontal net tows were performed regularly between April and September 2008 at five stations. In total, > 12,000 specimens of 14 species (ten hydromedusae, two scyphomedusae, one ctenophore) were collected, with peak abundances of 1937 ind. 1000 m−3 by Clytia sp. in June. The majority (10 species) of GZ was characterised by a meroplanktonic life cycle. The total abundance of GZ increased from April to June (like the species richness), while scyphomedusae and ctenophore abundances decreased towards September. The hydromedusa abundance remained high until September. While evenness and diversity indices were high in April and May, they decreased in June and remained at a lower level thereafter. Non-metric multidimensional scaling revealed that month, but not sampling station, had a significant effect on the assemblage composition, and temperature was found to have a marginally significant effect on structuring the GZ assemblage.

Published
2021
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107. Spatial and temporal variability in tropical off-reef zooplankton across broad spatial and temporal scales.

Author

Gahan, James, Bellwood, David R., Nankervis, Leo, and Tebbett, Sterling B.

Subjects
*ZOOPLANKTON, *MARINE zooplankton, *REEFS, *CORAL reefs & islands, *CORALS, *SPATIAL variation, *COPEPODA
Abstract

Productivity of oligotrophic coral reefs is largely dependent on the constant influx of zooplankton. However, our understanding of how zooplankton communities in tropical reef-associated regions vary over large spatial and temporal scales is limited. Using the Australian continuous plankton recorder dataset, we explored if, and to what extent, the off-reef zooplankton community along the Queensland shelf (including most of the Great Barrier Reef lagoon) varied with latitude, month, and diel time. The zooplankton community was consistently dominated by copepods (∼60%) which, with appendicularians, chaetognaths, non-copepod crustaceans, and thaliaceans, comprised ∼98% of the zooplankton. However, the abundance of these taxonomic groups did not vary predictably across latitude, month, or diel time, with these gradients only explaining 5% of community variation. At the scales sampled herein the composition of zooplankton was highly predictable in terms of broad taxonomic groups but variation in the relative abundance of these groups was not predictable. • Off-reef zooplankton were examined across broad spatial and temporal gradients. • Zooplankton communities were typified by five key taxonomic groups. • Copepods consistently comprised >50% of the zooplankton community, on average. • Large scale spatial and temporal variation in zooplankton abundances was limited. [ABSTRACT FROM AUTHOR]

Published
2023
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109. Consequences of Stinging Plankton Blooms on Finfish Mariculture in the Mediterranean Sea

Author

Mar Bosch-Belmar, Giacomo Milisenda, Albert Girons, Valentina Taurisano, Stefano Accoroni, Cecilia Totti, Stefano Piraino, and Verónica Fuentes

Subjects
gelatinous zooplankton, marine aquaculture, European sea bass, gill disorders, southwestern Mediterranean, Science, General. Including nature conservation, geographical distribution, QH1-199.5
Abstract

In recent years, caged finfish mariculture across European seas suffered production losses by severe fish mortality, following episodic outbreaks of invertebrate cnidarian stingers. Due to their stinging cells and injectable venoms, medusozoan jellyfish, or drifting propagules of polyp colonies at high density may impair caged fish health through toxic effects on vulnerable tissues of gills and skin, and related secondary bacterial infections. Gill disorders in European sea bass (Dicentrarchus labrax) fish farms along the Spanish Mediterranean coast are commonly reported, but regular monitoring of the frequency of cnidarian outbreaks and their potential impacts on caged fish is still poorly enforced. In this study, two sea bass mariculture farms in Southern Spain (Málaga; Almería) were monitored biweekly for zooplankton, phytoplankton and fish gills condition, over 13 or 30 months for the Málaga and Almería facilities, respectively, within the period 2012–2014. Significant, direct correlations were found among low water temperature, recorded fish mortalities, and high abundances of planktonic cnidarians, particularly of the hydrozoan siphonophores Muggiaea atlantica and M. kochii, and the larval stage of Ectopleura larynx, a common member of cage biofouling communities. A significant relationship between cnidarian densities and the quantitative scoring of gill pathology was also observed. In addition, high densities of long-bristled planktonic diatoms (Chaetoceros spp.) coincided with a major fish mortality event (April 2012, Almería farm). Standardised monitoring of plankton dynamics and composition may help in promoting response capacities of Mediterranean mariculture managers to fish health challenges (such as stinging plankton blooms) by (a) improving diagnostic tools and preventative countermeasures and (b) supporting the development of science-based spatial planning and sustainable growth of coastal mariculture.

Published
2017
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110. Using DNA Metabarcoding to Characterize the Prey Spectrum of Two Co-Occurring Themisto Amphipods in the Rapidly Changing Atlantic-Arctic Gateway Fram Strait

Author

Annkathrin Dischereit, Owen S. Wangensteen, Kim Præbel, Holger Auel, and Charlotte Havermans

Subjects
Genetics, diet analyses, Hyperiidae, Themisto libellula, Themisto abyssorum, Arctic Ocean, atlantification, cytochrome c oxidase subunit I, DNA metabarcoding, gelatinous zooplankton, Genetics (clinical)
Abstract

The two congeneric hyperiids Themisto libellula and T. abyssorum provide an important trophic link between lower and higher trophic levels in the rapidly changing Arctic marine ecosystem. These amphipods are characterized by distinct hydrographic affinities and are hence anticipated to be impacted differently by environmental changes, with major consequences for the Arctic food web. In this study, we applied DNA metabarcoding to the stomach contents of these Themisto species, to comprehensively reveal their prey spectra at an unprecedented-high-taxonomic-resolution and assess the regional variation in their diet across the Fram Strait. Both species feed on a wide variety of prey but their diet strongly differed in the investigated summer season, showing overlap for only a few prey taxa, such as calanoid copepods. The spatially structured prey field of T. libellula clearly differentiated it from T. abyssorum, of which the diet was mainly dominated by chaetognaths. Our approach also allowed the detection of previously overlooked prey in the diet of T. libellula, such as fish species and gelatinous zooplankton. We discuss the reasons for the differences in prey spectra and which consequences these may have in the light of ongoing environmental changes.

Published
2022

111. The role of oceanographic conditions and colony size in shaping the spatial structure of Pyrosoma atlanticum in the NW Mediterranean Sea

Author

Marina Pastor-Prieto, Ana SabatÉs, Vanesa Raya, Antonio Canepa, TomÁs I Parraguez, Josep-Maria Gili, Ministerio de Economía y Competitividad (España), Ministerio de Educación, Cultura y Deporte (España), and Agencia Estatal de Investigación (España)

Subjects
Diel vertical migration, Ecology, Mesoscale distribution, Ontogenetic stage, Shelf-slopefront, Gelatinous zooplankton, Aquatic Science, Ecology, Evolution, Behavior and Systematics
Abstract

16 pages, 9 figures, 3 tables, supplementary data https://doi.org/10.1093/plankt/fbac056, This study investigates the role of winter oceanographic conditions on the horizontal and vertical spatial structure of Pyrosoma atlanticum at different ontogenetic stages. Data were obtained on two oceanographic cruises (February 2017 and 2018) in the NW Mediterranean. Small colonies were exceptionally abundant in 2017, linked to an earlier development of spring conditions and the subsequent seasonal phytoplankton bloom. The mesoscale distribution of P. atlanticum differed depending on the colony size. Large colonies (≥7 mm) were found on the slope all along the density front, whereas small (, WINFISH project (CTM2015-68543-R) of the Spanish Ministry of Economy and Competitiveness and by a predoctoral fellowship from the Spanish Ministry of Education, Culture and Sport (FPU16/06794 to M.P.-P.). [...] This work acknowledges the “Severo Ochoa Centre of Excellence” accreditation (CEX2019-000928-S)

Published
2022

112. Species Composition and Distribution of Jellyfish in a Seasonally Hypoxic Estuary, Hood Canal, Washington

Author

BethElLee Herrmann and Julie E. Keister

Subjects
puget sound, dissolved oxygen, gelatinous zooplankton, community structure, species diversity, food webs, Biology (General), QH301-705.5
Abstract

Seasonal hypoxia (≤2 mg dissolved oxygen L−1) can have detrimental effects on marine food webs. Recent studies indicate that some jellyfish can tolerate low oxygen and may have a competitive advantage over other zooplankton and fishes in those environments. We assessed community structure and distributions of cnidarian and ctenophore jellyfish in seasonally hypoxic Hood Canal, WA, USA, at four stations that differed in oxygen conditions. Jellyfish were collected in June through October 2012 and 2013 using full-water-column and discrete-depth net tows, concurrent with CTD casts to measure dissolved oxygen (DO). Overall, southern, more hypoxic, regions of Hood Canal had higher abundances and higher diversity than the northern regions, particularly during the warmer and more hypoxic year of 2013. Of fifteen species identified, the most abundant—the siphonophore Muggiaea atlantica and hydrozoan Aglantha digitale—reached peak densities > 1800 Ind m−3 and 38 Ind m−3, respectively. M. atlantica were much more abundant at the hypoxic stations, whereas A. digitale were also common in the north. Vertical distributions explored during hypoxia showed that jellyfish were mostly in the upper 10 m regardless of the oxycline depth. Moderate hypoxia seemed to have no detrimental effect on jellyfish in Hood Canal, and may have resulted in high population densities, which could influence essential fisheries and trophic energy flow.

Published
2020
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113. Zooplankton Community Response to Seasonal Hypoxia: A Test of Three Hypotheses

Author

Julie E. Keister, Amanda K. Winans, and BethElLee Herrmann

Subjects
puget sound, hood canal, oxygen, copepods, gelatinous zooplankton, community structure, cyclopoids, calanoids, diversity, Biology (General), QH301-705.5
Abstract

Several hypotheses of how zooplankton communities respond to coastal hypoxia have been put forward in the literature over the past few decades. We explored three of those that are focused on how zooplankton composition or biomass is affected by seasonal hypoxia using data collected over two summers in Hood Canal, a seasonally-hypoxic sub-basin of Puget Sound, Washington. We conducted hydrographic profiles and zooplankton net tows at four stations, from a region in the south that annually experiences moderate hypoxia to a region in the north where oxygen remains above hypoxic levels. The specific hypotheses tested were that low oxygen leads to: (1) increased dominance of gelatinous relative to crustacean zooplankton, (2) increased dominance of cyclopoid copepods relative to calanoid copepods, and (3) overall decreased zooplankton abundance and biomass at hypoxic sites compared to where oxygen levels are high. Additionally, we examined whether the temporal stability of community structure was decreased by hypoxia. We found evidence of a shift toward more gelatinous zooplankton and lower total zooplankton abundance and biomass at hypoxic sites, but no clear increase in the dominance of cyclopoid relative to calanoid copepods. We also found the lowest variance in community structure at the most hypoxic site, in contrast to our prediction. Hypoxia can fundamentally alter marine ecosystems, but the impacts differ among systems.

Published
2020
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114. Fewer Copepods, Fewer Anchovies, and More Jellyfish: How Does Hypoxia Impact the Chesapeake Bay Zooplankton Community?

Author

Wencheng L. Slater, James J. Pierson, Mary Beth Decker, Edward D. Houde, Carlos Lozano, and James Seuberling

Subjects
oxygen deficiency, planktivorous fish, gelatinous zooplankton, crustacean zooplankton, estuary, water quality, ecosystem, Biology (General), QH301-705.5
Abstract

To understand dissolved oxygen deficiency in Chesapeake Bay and its direct impact on zooplankton and planktivorous fish communities, six research cruises were conducted at two sites in the Chesapeake Bay from spring to autumn in 2010 and 2011. Temperature, salinity, and dissolved oxygen were measured from hourly conductivity, temperature, and depth (CTD) casts, and crustacean zooplankton, planktivorous fish and gelatinous zooplankton were collected with nets and trawls. CTD data were grouped into three temperature groups and two dissolved oxygen-level subgroups using principal component analysis (PCA). Species concentrations and copepod nonpredatory mortalities were compared between oxygenated conditions within each temperature group. Under hypoxic conditions, there usually were significantly fewer copepods Acartia tonsa and bay anchovies Anchoa mitchilli, but more bay nettles Chyrsaora chesapeakei and lobate ctenophores Mnemiopsis leidyi. Neutral red staining of copepod samples confirmed that copepod nonpredatory mortalities were higher under hypoxic conditions than under normoxia, indicating that the sudden decline in copepod concentration in summer was directly associated with hypoxia. Because comparisons were made within each temperature group, the effects of temperature were isolated, and hypoxia was clearly shown to have contributed to copepod decreases, planktivorous fish decreases, and gelatinous zooplankton increases. This research quantified the direct effects of hypoxia and explained the interactions between seasonality and hypoxia on the zooplankton population.

Published
2020
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115. Horizontal and vertical distributions of siphonophores in relation to oceanographic conditions in Chilean Patagonian fjords

Author

Sergio Palma, María Cristina Retamal, Nelson Silva, and Claudio Silva

Subjects
siphonophores, gelatinous zooplankton, horizontal distribution, vertical distribution, chilean patagonian fjords, Aquaculture. Fisheries. Angling, SH1-691
Abstract

Siphonophores collected in Chilean Patagonian fjords, between the Gulf of Penas and the Trinidad Channel in 2008 were analysed. A total of 12 species were recorded, of which Muggiaea bargmannae, Lensia subtilis, Praya dubia and Sphaeronectes fragilis were identified for the first time in this sector of the Patagonian fjords. M. bargmannae represents a new record for the southeastern Pacific. The most abundant species were Muggiaea atlantica (78.6%), Lensia conoidea (8.7%) and Dimophyes arctica (8.5%). M. atlantica, the dominant species, showed high densities in both oceanic and interior waters. L. conoidea and D. arctica, on the other hand, were principally collected in interior waters. M. atlantica was collected in less saline (< 30), more oxygenated (6-7 mL L–1) shallow strata (0-50 m), while L. conoidea and D. arctica were collected below 50 m depth in more saline (30-33) and less oxygenated (4-6 mL L–1) waters. The eudoxids of these species followed the same horizontal and vertical distribution patterns as their polygastric stages. These results confirm the success of M. atlantica in the colonization of all the southern fjords and document an increase with respect to the results obtained for the same geographical area in the spring of 1996. They also allowed us to infer that salinity and dissolved oxygen vertical gradients play an important role in determining the depth distribution patterns of these species.

Published
2014
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116. Caspian Sea: Environmental controls and trophic webs interactions

Author

Mohammadali Afraei Bandpei, Ali Mokarami Rostami, Aboulghasem Roohi, Mehdi Naderi Jolodar, and Ahmet E. Kideys

Subjects
education.field_of_study, Biomass (ecology), Gelatinous zooplankton, biology, Ecology, Mnemiopsis, Population, Biota, biology.organism_classification, Zooplankton, Abundance (ecology), Environmental science, education, Trophic level
Abstract

Gelatinous zooplankton (GZ) populations are sensitive to climate change such as environmental perturbations, and spatial changes in their abundance and biomass may be associated with degraded environmental and biota conditions. Big data time series of GZ abundances and biomass were used to analyze the annual population dynamics of gelatinous zooplankton as well as mesozooplankton in the southern Caspian Sea, Iran from 1996, 2001-2006, 2008-2013 to 2018-2019. The ctenophore, Mnemiopsis leidyi population control by environmental factors was primarily a result of decreasing the concentration of zooplankton resulted to lower reproduction as well as temperature which was highest in August-September and lowest in winter time. On the other hand, the maximum catch of Kilka on the whole coast of Iran was equivalent to 95,000 tons in the year of 1996, and after that it was severely reduced to 15,000 tons in the year 2003 and afterward. Key words: Gelatinous zooplankton, abundance and biomass, temperature, Caspian Sea.

Published
2021
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119. Hyperiid amphipods as indicators of climate change in the California Current

Author

Lavaniegos, BE, Schram, FR1, von Vaupel Klein, JC, Lavaniegos, BE, OHMAN, Mark D, Lavaniegos, BE, Schram, FR1, von Vaupel Klein, JC, Lavaniegos, BE, and OHMAN, Mark D

Abstract

We investigated long-term changes in the abundance and species composition of hyperiid amphipods in the Southern California Bight and nearby waters from twelve springime CalCOFI cruises spanning the period 1951-1997. Sixty-two hyperiid species were detected in the study region. We found dimunition in species diversity and in total hyperiid abundance during the studied period. Despite high interannual variability, there was higher species richness, evenness of species numbers, and abundances of hyperiids in an earlier time period (1951 to 1972) and generally lower species richness, evenness, and abundances in a more recent time period (1979 to 1997). Variations in abundance of total hyperiids were significantly correlated with variations in abundance of presumed gelatinous zooplankton hosts, especially salps, physonect siphonophores, and pyrosomes. Species-specific correlations showed significant associations between ten species of hyperiids and different species of salps, siphonphores, and medusae. Some amphipods were correlated with more than one host. Hyperiid amphipod assemblages appear to be sensitive to large-scale climate changes in the NE Pacific, through either direct responses or indirectly through their association as parasitoids on gelatinous hosts.

Published
2022

120. Gelatinous macrozooplankton diversity and distribution dataset for the North Sea and Skagerrak/Kattegat during January-February 2021

Author

Køhler, Louise G., Huwer, Bastian, Pujolar, José Martín, Werner, Malin, Wikström, Karolina, Wernbo, Anders, Ovegård, Maria, Jaspers, Cornelia, Køhler, Louise G., Huwer, Bastian, Pujolar, José Martín, Werner, Malin, Wikström, Karolina, Wernbo, Anders, Ovegård, Maria, and Jaspers, Cornelia

Abstract

This data article includes a qualitative and quantitative description of the gelatinous macrozooplankton community of the North Sea during January-February 2021. Sampling was conducted during the 1st quarter International Bottom Trawl Survey (IBTS) on board the Danish R/V DANA (DTU Aqua Denmark) and the Swedish R/V Svea (SLU Sweden), as part of the ichthyoplankton investigation during night-time. A total of 147 stations were investigated in the western, central and eastern North Sea as well as the Skagerrak and Kattegat. Sampling was conducted with a 13 m long Midwater Ring Net (MIK net, Ø 2 m, mesh size 1.6 mm, cod end with smaller mesh size of 500 µm), equipped with a flow meter. The MIK net was deployed in double oblique hauls from the surface to c. 5 m above the sea floor [1,2]. Samples were visually analysed unpreserved on a light table and/or with a stereomicroscope or magnifying lamp within 2 hours after catch. A total of 13,510 individuals were counted/sized. Twelve gelatinous macrozooplankton species or genera were encountered, namely the hydrozoan Aequorea vitrina, Aglantha digitale, Clytia spp., Leuckartiara octona, Tima bairdii, Muggiaea atlantica; the scyphozoans Cyanea capillata and Cyanea lamarckii and the ctenophores Beroe spp., Bolinopsis infundibulum, Mnemiopsis leidyi, Pleurobrachia pileus. Abundance data are presented on a volume specific (m−3) and area specific (m−2) basis. Size data have been used to estimate wet weights based on published length-weight regressions (see Table 1). For the groups i) hydrozoan jellyfish, ii) scyphozoan jellyfish, iii) ctenophores, as well as iv) grouped gelatinous macrozooplankton, spatial weight specific distribution patterns are presented. This unpublished dataset contributes baseline information about the gelatinous macrozooplankton diversity and its specific distribution patterns in the extended North Sea area during winter (January-February) 2021. These data can be an important contribut

Published
2022

121. The role of oceanographic conditions and colony size in shaping the spatial structure of Pyrosoma atlanticum in the NW Mediterranean Sea

Author

Ministerio de Economía y Competitividad (España), Ministerio de Educación, Cultura y Deporte (España), Agencia Estatal de Investigación (España), Pastor Prieto, Marina, Sabatés, Ana, Raya, Vanesa, Canepa, Antonio, Parraguez, Tomás I., Gili, Josep Maria, Ministerio de Economía y Competitividad (España), Ministerio de Educación, Cultura y Deporte (España), Agencia Estatal de Investigación (España), Pastor Prieto, Marina, Sabatés, Ana, Raya, Vanesa, Canepa, Antonio, Parraguez, Tomás I., and Gili, Josep Maria

Abstract

This study investigates the role of winter oceanographic conditions on the horizontal and vertical spatial structure of Pyrosoma atlanticum at different ontogenetic stages. Data were obtained on two oceanographic cruises (February 2017 and 2018) in the NW Mediterranean. Small colonies were exceptionally abundant in 2017, linked to an earlier development of spring conditions and the subsequent seasonal phytoplankton bloom. The mesoscale distribution of P. atlanticum differed depending on the colony size. Large colonies (≥7 mm) were found on the slope all along the density front, whereas small (<4 mm) and medium colonies (4–6.9 mm) extended their distribution over the shelf because of instabilities of the front, and were mostly absent in the cold, low-salinity coastal waters. The analysis of their vertical distribution showed that at night colonies of all sizes remained close to the surface, where chlorophyll-a levels were high, whereas during the day they migrated to deeper layers, reaching greater depths as the colony size increased. The migratory behaviour started when colonies were 4–6.9 mm long. The relative importance of the species in the downward carbon transport is discussed. Our results highlight the need to further study the ecology of this efficient filter feeder in the Mediterranean

Published
2022

122. Improved histological fixation of gelatinous marine invertebrates

Author

Dorothy G. Mitchell, Allison Edgar, and Mark Q. Martindale

Subjects
0301 basic medicine, Gelatinous zooplankton, Preservation of zooplankton, Late development, Mesoglea, Mnemiopsis leidyi, 03 medical and health sciences, 0302 clinical medicine, Ecology, Evolution, Behavior and Systematics, Fixation (histology), Laboratory methods, Ctenophore, biology, Methodology, Marine invertebrates, biology.organism_classification, Fixation, Immunohistochemistry, 030104 developmental biology, QL1-991, Animal Science and Zoology, Sample integrity, In situ hybridization, Zoology, 030217 neurology & neurosurgery, Biomedical engineering
Abstract

Background Gelatinous zooplankton can be difficult to preserve morphologically due to unique physical properties of their cellular and acellular components. The relatively large volume of mesoglea leads to distortion of the delicate morphology and poor sample integrity in specimens prepared with standard aldehyde or alcohol fixation techniques. Similar challenges have made it difficult to extend standard laboratory methods such as in situ hybridization to larger juvenile ctenophores, hampering studies of late development. Results We have found that a household water repellant glass treatment product commonly used in laboratories, Rain-X®, alone or in combination with standard aldehyde fixatives, greatly improves morphological preservation of such delicate samples. We present detailed methods for preservation of ctenophores of diverse sizes compatible with long-term storage or detection and localization of target molecules such as with immunohistochemistry and in situ hybridization and show that this fixation might be broadly useful for preservation of other delicate marine specimens. Conclusion This new method will enable superior preservation of morphology in gelatinous specimens for a variety of downstream goals. Extending this method may improve the morphological fidelity and durability of museum and laboratory specimens for other delicate sample types.

Published
2021

123. Relationship Between Zooplankton Community Characteristics and Environmental Conditions in the Surface Waters of the Western Pacific Ocean During the Winter of 2014

Author

Juan Du, Mingliang Zhu, Shujin Guo, Xiaoxia Sun, Junhua Liang, Ziyang Tian, and Shan Zheng

Subjects
Gelatinous zooplankton, Water mass, biology, Ocean Engineering, Pelagic zone, Oceanography, biology.organism_classification, Zooplankton, Chaetognatha, Environmental science, Euphausiacea, Hydrography, Trophic level
Abstract

Understanding the effects of environmental heterogeneity on zooplankton communities has been a hot topic for several decades. However, relatively little is known about the responses of zooplankton communities to environmental conditions at large scales from inshore waters to the open ocean. Here, we used the abundance, biovolume, taxa and size spectra of zooplankton collected from the surface waters of the western Pacific Ocean during the winter of 2014 to study the relationship between zooplankton community characteristics and environmental conditions using multiple linear regression (MLR) analysis and redundancy analysis (RDA). According to a hierarchical cluster analysis based on hydrographic conditions, the study area was classified into five water masses. Significant correlations were identified between the limited nutrients and the zooplankton abundance and biovolume from inshore waters to the open ocean. Non-metric multidimensional scaling (NMDS) revealed two distinct zooplankton assemblages. In the northern inshore, Copepoda and Euphausiacea were the dominant zooplankton taxa and in other water masses, Chaetognatha and gelatinous zooplankton were the dominant zooplankton taxa in addition to Copepoda. Our results suggested that, on a large scale from inshore waters to the open ocean in the western Pacific Ocean, the spatial distribution of zooplankton taxa was mainly influenced by environmental conditions, while in the inshore waters, it was due to the top-down effect of the dominant zooplankton taxa. Finally, the slope of the normalized biovolume size spectra (NBSS) was negatively correlated with chlorophyll-a (Chl-a) concentration and PO43−-P concentration in the inshore waters, which indicated that the higher the trophic level the dominant zooplankton taxa were, the steeper the NBSS slope was.

Published
2021
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125. Siphonophores in fjords and channels in southern Patagonia: biodiversity, spatial distribution and environmental association.

Author

Palma, Sergio, Retamal, María Cristina, Silva, Nelson, and Canepa, Antonio

Abstract

This study characterizes the abundance and spatial distribution of siphonophores between the Trinidad Channel (50°06′S) and the Strait of Magellan (52°45′S) in southern Chile, during October–November 2009. Ten species were identified, of which Agalma elegans, Rosacea plicata and Sphaeronectes fragilis are new records for this region. Dominant species showed similar dominance values e.g. Lensia conoidea (26.3%), Dimophyes arctica (24.6%), Lensia meteori (22.2%) and Muggiaea atlantica (20.7%). Eudoxids of L. conoidea and D. arctica represented 97.3% of all eudoxids collected and they were mainly collected in estuarine waters. The highest densities were found in estuarine waters (high vertical stratification and low temperature, salinity and dissolved oxygen values). On the other hand, the lowest densities were found in coastal areas influenced by permanent influx of Sub-Antarctic waters from the Pacific (greater instability and vertical mixing, higher temperatures, salinity and dissolved oxygen values). Temperature and dissolved oxygen were the most important environmental variables. In general, all the dominant species showed a positive association with temperature and a negative association with dissolved oxygen (with the exception of L. meteori). The vertical distribution showed that M. atlantica was mainly distributed in the first 50 m, in association with estuarine waters, while L. conoidea, L. meteori and D. arctica were mainly found in the deeper layer (50–200 m) and in association with modified Sub-Antarctic waters. The comparison of the results obtained in the springs of 1996 and 2009 showed a significant increase in abundance. [ABSTRACT FROM PUBLISHER]

Published
2018
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126. No more reason for ignoring gelatinous zooplankton in ecosystem assessment and marine management: Concrete cost-effective methodology during routine fishery trawl surveys.

Author

Aubert, A., Antajan, E., Lynam, C., Pitois, S., Pliru, A., Vaz, S., and Thibault, D.

Subjects
ZOOPLANKTON, FISHERY management, ECOSYSTEM services, COST effectiveness, MARINE fishes
Abstract

Gelatinous zooplankton, including cnidarians, ctenophores, and tunicates (appendicularians, pyrosomes, salps and doliolids), are often overlooked by scientific studies, ecosystem assessments and at a management level. Despite the important economic consequences that they can have on human activities and on the marine food-web, arguments often related to the costs of monitoring or their coordination, or simply negligence, have resulted in the absence of relevant monitoring programs. A cost-effective protocol has been applied on trawling from existing fishery surveys conducted by national laboratories in England and France. The testing phase has successfully demonstrated the adequacy of such a tool to sample macro- and mega-zooplankton gelatinous organisms in a cost-effective way. This success has led to the acceptance of this protocol into the French implementation of the EU's Marine Strategy Framework Directive (MSFD). Here, a protocol which can be applied to any trawl-based fishery survey and in any new large-scale monitoring program is provided. As an ecosystem approach to marine management is currently adopted, exemplified by the MSFD in Europe, gelatinous zooplankton should be monitored correctly to prevent a knowledge gap and bias to ecosystem assessments in future. [ABSTRACT FROM AUTHOR]

Published
2018
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127. Influence of top-down control in the plankton food web on vertical carbon flux: A case study in the Chesapeake Bay.

Author

Stone, Joshua P. and Steinberg, Deborah K.

Subjects
*ZOOPLANKTON, *FOOD chains, *FLUX (Energy), *ANIMAL communities
Abstract

Carnivorous gelatinous zooplankton dominate the zooplankton community in Chesapeake Bay during summer months, exerting considerable top-down control on the planktonic food web. To examine the cascading effects of gelatinous zooplankton blooms on the plankton food web and particulate organic carbon (POC) flux, multiple 2-day mesocosm experiments were conducted in the York River tributary of Chesapeake Bay in July–August 2015. Mesocosms contained a natural assemblage of phytoplankton, microzooplankton, and copepods, and each treatment received additions of the ctenophore ( Mnemiopsis leidyi ), the scyphozoan medusae ( Chrysaora chesapeakei ), or both gelatinous zooplankton. There was no significant difference between treatments in total POC or PON flux. However, presence of M. leidyi reduced the abundance of copepods, in turn significantly decreasing copepod fecal pellet carbon flux compared to treatments without M. leidyi by 50% (from 36 to 18 μg C d − 1 m − 3 , or 6% to 3% of total POC flux). Total POC export fluxes were small in all treatments (< 1%) compared to previously measured sedimentation rates in the Chesapeake Bay. Top-down changes in copepod fecal pellet carbon flux are equivalent to a modest portion (~ 10%) of previously calculated C. chesapeakei carcass flux. Future experiments and models of zooplankton contributions to vertical carbon flux should include top-down processes and cascading effects. [ABSTRACT FROM AUTHOR]

Published
2018
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128. Abundance and patchiness of Chrysaora quinquecirrha medusae from a high-frequency time series in the Choptank River, Chesapeake Bay, USA.

Author

Tay, Jacqueline and Hood, Raleigh

Subjects
*JELLYFISHES, *SEA nettle, *POISSON distribution
Abstract

Despite strong control over marine plankton dynamics and negative impacts on human activities, jellyfish are not well quantified due primarily to sampling difficulties with nets. Therefore, some of the longest records of jellyfish are visual shore-based surveys. As surface counting is inexpensive and simple, it is of interest to determine what can be learned from such records as well as the usefulness of the method. We analyzed a 4-year high-frequency time series of Chrysaora quinquecirrha medusa counts collected using three sampling methods in the Choptank River, Chesapeake Bay. Medusa abundance was modeled by change points and was highly correlated between the sampling methods. The remaining signal was random, and indices of aggregation [fit to the Poisson distribution, Taylor's Power Law (TPL), and Morisita's Index] indicated that medusae were aggregated. TPL suggested that patches grew in the number of individuals as abundance increased. Additionally, a simple conceptualization of where the time series sampled in space revealed that the upper bound of patch size was on the order of kilometers. Our results enhance the knowledge of local C. quinquecirrha abundance and patchiness, alluding to processes that generate these patterns. This study also provides direction for improving population monitoring from visual shore-based surveys. [ABSTRACT FROM AUTHOR]

Published
2017
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129. Pelagic deep-sea fauna observed on video transects in the southern Norwegian Sea

Author

Philipp Neitzel, Henk-Jan T. Hoving, Aino Hosia, and Uwe Piatkowski

Subjects
0106 biological sciences, Gelatinous zooplankton, 010504 meteorology & atmospheric sciences, biology, Mesopelagic zone, 010604 marine biology & hydrobiology, Fauna, Pelagic zone, biology.organism_classification, 01 natural sciences, Deep sea, Oceanography, 13. Climate action, Abundance (ecology), 14. Life underwater, General Agricultural and Biological Sciences, Transect, Diel vertical migration, 0105 earth and related environmental sciences
Abstract

Observations of the diversity, distribution and abundance of pelagic fauna are absent for many ocean regions in the Atlantic, but baseline data are required to detect changes in communities as a result of climate change. Gelatinous fauna are increasingly recognized as vital players in oceanic food webs, but sampling these delicate organisms in nets is challenging. Underwater (in situ) observations have provided unprecedented insights into mesopelagic communities in particular for abundance and distribution of gelatinous fauna. In September 2018, we performed horizontal video transects (50–1200 m) using the pelagic in situ observation system during a research cruise in the southern Norwegian Sea. Annotation of the video recordings resulted in 12 abundant and 7 rare taxa. Chaetognaths, the trachymedusa Aglantha digitale and appendicularians were the three most abundant taxa. The high numbers of fishes and crustaceans in the upper 100 m was likely the result of vertical migration. Gelatinous zooplankton included ctenophores (lobate ctenophores, Beroe spp., Euplokamis sp., and an undescribed cydippid) as well as calycophoran and physonect siphonophores. We discuss the distributions of these fauna, some of which represent the first record for the Norwegian Sea.

Published
2021
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131. Demersal fish predators of gelatinous zooplankton in the Northeast Pacific Ocean

Author

John C. Buchanan, Richard D. Brodeur, Richard E. Hibpshman, Douglas L. Draper, Troy W. Buckley, and Geoffrey M. Lang

Subjects
0106 biological sciences, Jellyfish, Gelatinous zooplankton, Ecology, biology, 010604 marine biology & hydrobiology, Nekton, Aquatic Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Pacific ocean, Predation, Fishery, Demersal fish, biology.animal, Ecology, Evolution, Behavior and Systematics
Abstract

Historically, gelatinous zooplankton have been considered important consumers or predators in marine food webs, but more recently they have also been recognized as important prey for many marine species. Here, we summarized data obtained from >100 Northeast Pacific fish predators based on extensive gut content analysis (~450000 stomachs examined) from broad-scale demersal trawl surveys ranging from the Bering Sea to Southern California. In the Bering Sea, we identified 27 predators on jellyfish and 23 on urochordates. In the Aleutian Islands, 14 and 18 predators were identified, respectively, and for the Gulf of Alaska, a total of 23 and 32 such predators were documented. Off the West Coast of the contiguous USA, we identified 16 coelenterate predators and 7 urochordate predators. Many of these predators were not previously known to prey on gelatinous zooplankton. Dominant consumers of coelenterates include prowfish, rockfishes, walleye pollock, sablefish, and grenadiers, and primary consumers of urochordates included rockfishes, Atka mackerel, and sablefish. Pronounced seasonal and interannual variability in gelatinous taxa occurrence was observed in several dominant fish predators. The occurrence of jellyfish prey was generally much higher in diets of fishes examined fresh at sea when compared with diets of the same species examined in the laboratory following preservation. Differences in occurrence were less pronounced with the more durable urochordate prey. We suggest that many existing estimates of predation on easily dissolved gelatinous prey may underestimate the true predation rate and the importance of these organisms in marine food webs.

Published
2021
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132. Bioluminescence

Author

Widder, E. A., Archer, S. N., editor, Djamgoz, M. B. A., editor, Loew, E. R., editor, Partridge, J. C., editor, and Vallerga, S., editor

Published
1999
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133. Description of Brooksia lacromae sp. nov. (Tunicata, Thaliacea) from the Adriatic Sea

Author

Rade GARIĆ and Mirna BATISTIĆ

Subjects
Brooksia lacromae sp. nov., new species, climate changes, gelatinous zooplankton, Fritillaria helenae, Zoology, QL1-991, Botany, QK1-989
Abstract

Brooksia lacromae sp. nov. is described from zooplankton material collected at a marine monitoring station in the South Adriatic in the autumn of 2014. The description of both solitary and aggregate forms is given along with 18S rRNA and mitochondrial cox1 sequence data that provides strong evidence that both forms belong to the same species. The described species is morphologically markedly different from B. rostrata (Traustedt, 1893) and B. berneri van Soest, 1975, previously the only two species in the genus Brooksia. Genetic analysis based on 18S rRNA gene confirmed distinctness of B. lacromae sp. nov. from B. rostrata (1.5% uncorrected pairwise distance). The appendicularian Fritillaria helenae Bückmann, 1924, so far known from the Atlantic only, was found in the same samples as B. lacromae sp. nov. Co-occurrence of B. lacromae sp. nov. with an Atlantic appendicularian suggests an Atlantic or Western Mediterranean origin for this new taxon.

Published
2016
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135. Zooplankton abundance during summer in the Bay of La Paz (southwestern Gulf of California, Mexico)

Author

María Adela Monreal-Gómez, David Alberto Salas de León, Erik Coria-Monter, and Elizabeth Durán-Campos

Subjects
0106 biological sciences, Gelatinous zooplankton, copepods, 010504 meteorology & atmospheric sciences, Bay of La Paz, Aquatic Science, Oceanography, 01 natural sciences, Zooplankton, Gulf of California, Phytoplankton, distribution, zooplankton community, Relative species abundance, 0105 earth and related environmental sciences, Trophic level, biology, 010604 marine biology & hydrobiology, fungi, temperature, biology.organism_classification, Productivity (ecology), Environmental science, Hydrography, Bay
Abstract

Marine zooplankton play key roles in the transfer of energy to higher trophic levels and the removal of CO2 from the atmosphere through the sedimentation of inorganic and organic carbon compounds included in their fecal pellets. Therefore, differences in the zooplankton groups driven by climate variations could influence the biogeochemical cycles at large oceanic scales. As a contribution to this topic, we analyzed the zooplankton groups in the Bay of La Paz, Gulf of California, Mexico, a highly dynamic basin characterized by its high biological productivity. We used information gathered during multidisciplinary research cruises in the summers of 2008 and 2009. The results showed differences in the hydrographic parameters between both summers, with a higher temperature recorded in 2009. The zooplankton groups showed that the calanoid copepods were the most abundant; however, there were important differences in the relative abundance of the rest of the analyzed groups as an effect of the temperature distribution along the study area, which was confirmed by multivariate statistical methods. These temperature changes were associated with increased gelatinous zooplankton (Cnidaria, Chaetognatha, Appendicularia, and Ctenophora) in 2009 in a region where the temperature was higher, possibly as a result of changes in food (phytoplankton) availability.

Published
2020
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136. Seasonal variability of the fatty acid composition in Aurelia aurita (Cnidaria: Scyphozoa)

Author

Xupeng Chi, Vanessa Stenvers, and Jamileh Javidpour

Subjects
0106 biological sciences, Cnidaria, Jellyfish, Gelatinous zooplankton, Population, Zoology, Aquatic Science, 01 natural sciences, 03 medical and health sciences, Food chain, biology.animal, 14. Life underwater, Gelativore, education, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, 0303 health sciences, education.field_of_study, Ecology, biology, Baltic sea, 010604 marine biology & hydrobiology, Scyphozoa, biology.organism_classification, Fatty acid, Food web, Aurelia aurita
Abstract

Jellyfish population play an important role in aquatic food chains, and many animals predate on this ‘mostly water containing’ organisms. However, what gelativores predators could gain from their prey is still poorly understood. This study provides insight into the nutritional value of the moon jelly (Aurelia aurita) by means of its fatty acid (FA) composition, while investigating seasonal variability and differences between its free-swimming life stages. A biweekly sampling was carried out in a temperate coastal ecosystem, the Kiel Fjord, Germany and during two consecutive years. FA profile of A. aurita showed significant seasonal variability, while mature medusae (due to reproductive tissues) possessed highest FA content. In addition, moon jelly contained several essential FAs (i.e. arachidonic acid, 20:4ω6; eicosapentaenoic acid, 20:5ω3; docosahexaenoic acid, 22:6ω3), which likely support predator’s vital physiological functions. Even though total FA contents proved to be low (7 × 10−3–34 × 10−3% per g dry weight), evidence supporting A. aurita’s capability to meet the dietary requirements of predators such as fish and crustaceans is provided. Finally, implications for gelativore and future food web configurations are discussed, while proposing that jellyfish are likely to be, and become, more than an opportunistic prey to many organisms.

Published
2020
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137. Marine gelatinous zooplankton of the Egyptian waters: a review

Author

Fedekar F. Madkour, Samya H. Mohammad, and Walaa Safwat Zaghloul

Subjects
Fisheries science, Gelatinous zooplankton, Jellyfish, biology, business.industry, fungi, Fishing, 030208 emergency & critical care medicine, Pelagic zone, Plankton, biology.organism_classification, Food web, Fishery, 03 medical and health sciences, 0302 clinical medicine, 030202 anesthesiology, biology.animal, Medicine, Marine ecosystem, business
Abstract

Gelatinous plankton is formed by representatives of cnidarians (true jellyfish), ctenophores (comb jellies) and tunicates (salps). Gelatinous groups are a conspicuous, but relatively little studied component of marine ecosystems; in recent years its importance in pelagic food webs has gained increased awareness. They are essential components of the marine food web, relaying primary production from microbial algae to fish and seabirds. Gelatinous zooplankton may cause substantial mortality of fish eggs and larvae. This may play an important role in decreasing fishing stock of commercial fisheries, and they are an important variable in fisheries science and that it cannot be overlooked. The objective of this paper is to review a current knowledge on gelatinous zooplankton in the Egyptian waters of Mediterranean and Red Seas.

Published
2020
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138. Ink Release and Swimming Behavior in the Oceanic Ctenophore Eurhamphaea vexilligera

Author

Brad J. Gemmell, Kelly R. Sutherland, J. H. Costello, Sean P. Colin, and James P. Townsend

Subjects
Gulf Stream, Gelatinous zooplankton, Oceanography, biology, Biological dispersal, Underwater, General Agricultural and Biological Sciences, biology.organism_classification
Abstract

Of the more than 150 ctenophore species, the oceanic ctenophore Eurhamphaea vexilligera is notable for its bright orange-yellow ink, secreted from numerous small vesicles that line its substomodeal comb rows. To date, in situ observations by scuba divers have proved the most fruitful method of observing these animals' natural behavior. We present the results of one such contemporary scuba-based observation of E. vexilligera, conducted in the Gulf Stream waters off the coast of Florida, using high-resolution photography and video. Utilizing underwater camera systems purpose built for filming gelatinous zooplankton, we observed E. vexilligera ink release and swimming behavior in situ. From these data, we describe the timeline and mechanics of E. vexilligera ink release in detail, as well as the animal's different swimming behaviors and resulting ink dispersal patterns. We also describe a rolling swimming behavior, accompanied and possibly facilitated by a characteristic change in overall body shape. These observations provide further insight into the behavioral ecology of this distinctive ctenophore and may serve as the foundation for future kinematic studies.

Published
2020
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139. The Large Jellyfish Rhizostoma luteum as Sustainable a Resource for Antioxidant Properties, Nutraceutical Value and Biomedical Applications

Author

Laura Prieto, Angélica Enrique-Navarro, Rosalinda Li Volsi, and María J. Ortega

Subjects
cnidarians, gelatinous zooplankton, bioprospecting, novel foods, Biology (General), QH301-705.5
Abstract

Jellyfish is a compartment in the marine food web that often achieves high increases of biomass and that it is starting to be explored for several human potential uses. In this paper, a recently rediscovered large jellyfish, Rhizostoma luteum, is studied for the first time to describe its organic compounds for the isolation and production of bioactive compounds in several fields of food, cosmetics, or biomedical industries. The biogeochemical composition (Carbon, Nitrogen and Sulfur content), protein and phenols content, together with their antioxidant activity, and the analysis of lipid content (identifying each of the fatty acids presented) was analyzed. The results presented here suggested this jellyfish has the highest antioxidant activity ever measured in a jellyfish, but also with high content in polyunsaturated fatty acids (PUFAs), including the essential fatty acid linoleic. The large natural biomass of Rhizostoma luteum in nature, the wide geographical spread, the fact that already its life cycle has been completed in captivity, establishes a promising positive association of this giant jellyfish species and the isolation of bioactive compounds for future use in marine biotechnology.

Published
2018
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141. Description of Aurelia pseudosolida sp. nov. (Scyphozoa, Ulmaridae) from the Adriatic Sea

Author

Rade Garić and Mirna Batistić

Subjects
Adriatic Sea, Water supply for domestic and industrial purposes, Geography, Planning and Development, Hydraulic engineering, Aquatic Science, Biochemistry, Mnemiopsis leidy, Aurelia pseudosolida, Aurelia solida, integrative taxonomy, gelatinous zooplankton, zooplankton bloom, TC1-978, TD201-500, Water Science and Technology
Abstract

Until 2021, the genus Aurelia contained eleven described species (WoRMS, 2020), with many genetic species still awaiting a formal description. In 2021, ten new species of Aurelia were described almost solely from genetic data in a novel attempt to use genetic characters as diagnostic characters for species descriptions, leaving seven genetic species still undescribed. Here we present the description of a new Aurelia species from the Adriatic Sea using an integrative taxonomy approach, i.e., employing molecular as well as morphological characteristics in order to describe this new Aurelia species. The species is described based on a single medusa sampled from the town of Rovinj (Croatia), North Adriatic, amidst combined blooms of the ctenophore Mnemiopsis leidy and cnidarian Aurelia solida in the summer of 2020. Based on genetic data, the newly described Aurelia pseudosolida sp. nov. has never been sequenced in any of the previous investigations of the molecular diversity of Aurelia. This is the second species belonging to Discomedusae described from the North Adriatic in little more than half a decade, which could be yet another indication of the susceptibility of the North Adriatic to proliferation of non-indigenous gelatinous species, especially if we take into account historical as well as recent blooms of suspected non-indigenous gelatinous species such as Muggiaea atlantica, Aurelia solida, Mawia benovici and Mnemiopsis leidy.

Published
2022
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142. Impacts of jellyfish: gelatinous problems or opportunities?

Author

Morandini, André Carrara

Subjects
Plâncton gelatinoso, Gelatinous zooplankton, Climate change, Mudanças climáticas, Medusa, General Medicine, CNIDARIA
Abstract

Some points related to the impacts (either negative or positive) caused by jellyfish (scyphomedusae) are briefly presented. Although medusae cause several negative impacts, they also have a positive side. It is argued that jellyfish blooms are becoming more frequent in areas where anthropogenic impacts are higher. Human perceptions of jellyfish need more study to better understand the role of these animals in the environment. Only then we will be able to decide if they are “good” or “bad”. Neste ensaio são apresentados brevemente os impactos (positivos ou negativos) causados por águas-vivas (cifomedusas). Embora as medusas causem diversos impactos negativos, elas também possuem um lado positivo. Argumenta-se que as explosões populacionais de águas-vivas (em inglês blooms) estão se tornando cada vez mais frequentes em áreas onde os impactos antropogênicos são maiores. A percepção humana sobre as medusas ainda precisa de mais estudos para se entender melhor o papel desses animais no ambiente. Apenas após isso é que poderemos decidir se elas são boas ou ruins.

Published
2022

143. Impact of the winter convective event on gelatinous zooplankton in the open southern Adriatic

Author

Mirna Batistić, Rade Garić, and Marijana Hure

Subjects
deep convection, gelatinous zooplankton, Adriatic Sea
Abstract

The southern Adriatic is the deepest part of the Adriatic Sea (1242 m) and one of three sites of open-sea deep convection in the Mediterranean. By analyzing zooplankton samples taken in the open southern Adriatic in winter and spring/summer 2021 we investigated effect of winter vertical mixing on distribution of gelatinous zooplankton. During the convection time in winter, gelatinous zooplankton abundance was low and unusual vertical distribution for some species was occurred. In the spring-summer time an increase in gelatinous zooplankton abundance in upper and deeper layer was registered. This is probably related to the early spring phytoplankton bloom enhanced by nutrient input into euphotic zone due to winter mixing phase. As a consequence of this event, there is also availability of more food for deep-sea gelatinous organisms.

Published
2022

144. Spatio-temporal variation in zooplankton community composition in the southern Salish Sea: Changes during the 2015–2016 Pacific marine heatwave.

Author

Winans, Amanda K., Herrmann, BethElLee, and Keister, Julie E.

Subjects
*MARINE heatwaves, *SPATIO-temporal variation, *ZOOPLANKTON, *WATER temperature, *FOOD chains, *MARINE biodiversity
Abstract

• Puget Sound zooplankton biomass increased during the marine heatwave of 2015–2016. • The Salish Sea shows regional variation in zooplankton community composition. • Salish Sea zooplankton structure driven by different mechanisms than on outer coast. We examined zooplankton collected across a latitudinal gradient in the southern Salish Sea for changes during the 2015–2016 Pacific marine heatwave (MHW). Zooplankton were collected biweekly in vertical net tows from three regions of Puget Sound and one in northern Washington waters near the Strait of Juan de Fuca, from 2014 to 2020. Water temperatures were cooler in the north and warmer in the south, with anomalously high temperatures occurring in 2015–2016 in all regions. Chlorophyll biomass showed no consistent relationship with temperature. All regions had anomalously high zooplankton biomass in 2015, which continued in the three Puget Sound regions through 2017, with the two central stations showing the most dramatic increases. Several large crustacean species and molluscs showed positive biomass anomalies during the MHW. Euphausiid furcilia showed differential response by species. Puget Sound resident copepod species showed primarily positive anomalies, while some boreal and subarctic copepod species were anomalously low during this period. Gelatinous zooplankton had somewhat higher biomass through the first few years of the study, but patterns showed no clear relationship with the MHW. Differing zooplankton patterns compared to those observed in the California Current, as well as prolonged effects on zooplankton biomass in Puget Sound, suggest that local forcing played a dominant role, likely differing from the mechanisms affecting zooplankton in the California Current. Primary postulated factors include increased growth and metabolism due to higher temperatures, nutrient-driven increases in primary production, and changes in species composition advected from the ocean. Further research is needed to determine the ramifications of the changes and how they may affect the food web in the future. [ABSTRACT FROM AUTHOR]

Published
2023
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145. Jellyfish biodiversity and abundance patterns in northern Patagonia (Valdés Biosphere Reserve, UNESCO 2014).

Author

Nocera, A.C., Dutto, M.S., D'Agostino, V.C., Schloss, I.R., and Gonçalves, R.J.

Subjects
*BIOSPHERE reserves, *JELLYFISHES, *HYDROGRAPHY, *WORLD Heritage Sites, *SPRING, *COMMUNITIES
Abstract

Understanding how key components of plankton food webs, such as jellyfish communities, are structured by local hydrography has important management implications for fisheries and higher trophic predators within the ecosystem. Here, we report for the first time on the jellyfish abundance, richness, and diversity distribution across the Nuevo Gulf (42° 42′S, 64° 30′W), a World Heritage Site in Argentine Patagonia and part of the Valdés Biosphere Reserve, during spring (2019 and 2020) and summer (2020 and 2021) at two depths. We found that the most abundant species was the hydromedusae Eucheilota ventricularis , followed by other Leptothecata species, representing more than 50% of the total community's abundance. Abundance and diversity were significantly higher in spring than in summer, with seasonality playing a crucial role in modulating the jellyfish community dynamics and also being related to environmental variables and other mesozooplankton groups. Variability in the abundances across the Gulf and between depths was significantly and positively associated with chlorophyll a and ammonium, but negatively correlated with temperature, agreeing with previous results for the region. Jellyfish were more abundant near the mouth of the Gulf and during spring, possibly due to the connection and exchange of colder and nutrient-enriched water masses with those coming from the continental shelf. Significant correlations were found between jellyfish species and other mesozooplankton groups in spring. Our results highlight the importance of intensifying sampling in the vertical and horizontal dimensions along an annual cycle to begin to elucidate and increase the current scarce knowledge about the jellyfish's distribution and abundance patterns in northern Patagonian gulfs. • Jellyfish abundance and diversity from Nuevo Gulf (Argentina) obtained for the first time. • Abundance was higher during spring, associated to chlorophyll a and ammonium, but negatively related to temperature. • Seasonality is an important factor in modulating the jellyfish community dynamic. [ABSTRACT FROM AUTHOR]

Published
2023
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146. Jellyfish fisheries in the Americas: origin, state of the art, and perspectives on new fishing grounds.

Author

Brotz, Lucas, Schiariti, Agustín, López-Martínez, Juana, Álvarez-Tello, Javier, Peggy Hsieh, Y.-H., Jones, Robert, Quiñones, Javier, Dong, Zhijun, Morandini, André, Preciado, Mercy, Laaz, Enrique, and Mianzan, Hermes

Subjects
*JELLYFISHES, *SCYPHOZOA, *FISH populations, *BIODIVERSITY
Abstract

Jellyfish (primarily scyphomedusae) fisheries have a long history in Asia, where jellyfish have been caught and processed as food for centuries. More recently, jellyfish fisheries have expanded to the Western Hemisphere, often driven by demand from Asian buyers and collapses of more traditional local fish stocks. Jellyfish fisheries have been attempted in numerous countries in North, Central, and South America, with varying degrees of success. Here, we chronicle the arrival of jellyfish fisheries in the Americas and summarize relevant information on jellyfish fishing, processing, and management. Processing technology for edible jellyfish has not advanced, and presents major concerns for environmental and human health. The development of alternative processing technologies would help to eliminate these concerns and may open up new opportunities for markets and species. We also examine the biodiversity of jellyfish species that are targeted for fisheries in the Americas. Establishment of new jellyfish fisheries appears possible, but requires a specific combination of factors including high abundances of particular species, processing knowledge dictated by the target market, and either inexpensive labor or industrialized processing facilities. More often than not, these factors are not altogether evaluated prior to attempting a new jellyfish fishery. As such, jellyfish fisheries are currently expanding much more rapidly than research on the subject, thereby putting ecosystems and stakeholders' livelihoods at risk. [ABSTRACT FROM AUTHOR]

Published
2017
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147. Herbivorous fishes Siganus rivulatus (Siganidae) and Zebrasoma desjardinii (Acanthuridae) feed on Ctenophora and Scyphozoa in the Red Sea.

Author

Bos, Arthur, Cruz-Rivera, Edwin, and Sanad, Ashraf

Abstract

Individuals of the rabbitfish Siganus rivulatus (Siganidae) and surgeonfish Zebrasoma desjardinii (Acanthuridae) were observed feeding on ctenophores and scyphozoans in the northern Red Sea during late spring and early summer seasons between 2010 and 2015. Siganus rivulatus and Z. desjardinii, considered nominally herbivorous, preyed on relatively large ctenophores until disintegration, and on the moon jellyfish Aurelia aurita (Scyphozoa) until they sank to the bottom. Siganus rivulatus was the most dominant predatory fish feeding on gelatinous zooplankton (37 % of attacks on ctenophores and 51 % of attacks on A. aurita). Furthermore, prey individuals were usually approached by two or more fish simultaneously. Eleven additional fish species fed on gelatinous zooplankton, with Chaetodon fasciatus (Chaetodontidae) accounting for 27 and 12 % of the attacks on ctenophores and A. aurita, respectively, and Z. desjardinii for 17 and 24 % of the attacks. Other fishes attacked gelatinous zooplankton in ≤6 % of the observations. This study constitutes the first record of S. rivulatus and Z. desjardinii preying on ctenophores and also confirms preliminary observations of S. rivulatus feeding on scyphozoans. Although herbivorous fishes may accidentally ingest small invertebrates while feeding on algae, the deliberate feeding on gelatinous zooplankton observed for S. rivulatus and Z. desjardinii suggests that their trophic role should be reevaluated. [ABSTRACT FROM AUTHOR]

Published
2017
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148. Jellyfish blooms perception in Mediterranean finfish aquaculture.

Author

Bosch-Belmar, Mar, Azzurro, Ernesto, Pulis, Kristian, Milisenda, Giacomo, Fuentes, Verónica, Kéfi-Daly Yahia, Ons, Micallef, Anton, Deidun, Alan, and Piraino, Stefano

Subjects
JELLYFISHES, INVERTEBRATE populations, AQUACULTURE, ANTHROPOGENIC effects on nature, FISH mortality
Abstract

In recent years, negative impacts of jellyfish blooms (JB) on marine human activities have been increasingly reported. Aquaculture has been affected by jellyfish outbreaks, mostly documented through repeated episodes of farmed salmon mortalities in Northern Europe; however, the valuation of JB consequences on the aquaculture sector still remains poorly quantified. This study aims to provide the first quantitative evaluation effects of JB on finfish aquaculture in the Mediterranean Sea and to investigate the general awareness of JB impacts among Mediterranean aquaculture professional workers. The aquaculture workers' perception about JB was assessed through a structured interview-based survey administered across 21 aquaculture facilities in central and western Mediterranean. The workers' awareness about JB impacts on aquaculture differed among countries. Italian and Spanish fish farmers were better informed about jellyfish proliferations and, together with Tunisian farmers, they all recognized the wide potential consequences of JB on sea bream and sea bass aquaculture. On the contrary, the majority of Maltese respondents considered JB as a non-significant threat to their activity, mostly based on off-shore tuna farming. This study for the first time shows that JB may negatively affect different Mediterranean aquaculture facilities from Tunisia (Sicily Channel) and Spain (Alboran Sea), by increasing farmed fish gill disorders and mortality, clogging net cages, or inflicting painful stings to field operators, with severe economic consequences. Available knowledge calls for the development of coordinated preventive plans, adaptation policies, and mitigation countermeasures across European countries in order to address the JB phenomenon and its impacts on coastal water activities. [ABSTRACT FROM AUTHOR]

Published
2017
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149. Occurrence of the siphonophore Muggiaea atlantica in Scottish coastal waters: source or sink?

Author

BLACKETT, MICHAEL, LUCAS, CATHY H., COOK, KATHERINE, and LICANDRO, PRISCILLA

Subjects
*SIPHONOPHORA (Cndaria), *JELLYFISHES, *BIOGEOGRAPHY, *ZOOPLANKTON, *PLANKTON blooms
Abstract

We applied the concept of source--sink dynamics to investigate a recent (1999-2013) increase in the occurrence of the siphonophore Muggiaea atlantica in Scottish coastal waters. Our aim was to determine whether this change represented the establishment of resident populations (i.e. "sources"), or transient populations reliant on immigration (i.e. "sinks"). First, we show that local production was not always sufficient to account for recruitment (a "source" prerequisite), suggesting reliance on immigration (a "sink" prerequisite). Using variation partitioning, we then discriminated between the exclusive effects of immigration [indexed by the European Slope Current (ESC)] and local production (indexed by local sea temperature and food availability). On the west coast (Loch Ewe), interannual variability in the species' abundance was determined by, in order of increasing importance: (i) suitable local environmental conditions (13%); (ii) the role of the ESC in modulating these conditions (20%); and (iii) immigration via the ESC (29%). These results provided a strong indication that Loch Ewe represents a sink habitat for M. atlantica. However, on the east coast (Stonehaven) our results were less conclusive, probably due to the less direct influence of the ESC. For both locations, we suggest that low winter temperatures prevented overwintering, necessitating annual re-colonization via immigration. [ABSTRACT FROM AUTHOR]

Published
2017
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150. Gelatinous zooplankton net-collected in the Gulf of Maine and adjacent submarine canyons: new species, new family (Jeanbouilloniidae), taxonomic remarks and some parasites

Author

Francesc Pagès, Per Flood, and Marsh Youngbluth

Subjects
gelatinous zooplankton, gulf of maine, new species, jeanbouillonia, lensia, gilia, bougainvillia, modeeria, dichotomia, dipleurosoma, Aquaculture. Fisheries. Angling, SH1-691
Abstract

A systematic account is provided of the siphonophores, medusae, ctenophores, molluscs and salps net-collected in basins of the Gulf of Maine and adjacent canyons during three cruises carried out in September 2002, 2003 and 2004. We describe the siphonophore Lensia quadriculata sp. nov. and the hydroidomedusae Jeanbouillonia maserati gen. nov. et sp. nov., the latter is the first member of the new family Jeanbouilloniidae. New observations are made about the morphology and/or systematics of the siphonophore Gilia reticulata and the hydroidomedusae Bougainvillia platygaster, Bougainvillia principis, Modeeria rotunda, Clytia hemisphaerica, Orchistoma collapsum and Dichotomia cannoides. Parasites associated with the ctenophores Pleurobrachia pileus (a cestode) and Beroe sp. (a hyperid amphipod) are reported.

Published
2006
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