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Jellyfish Blooms IV : Interactions with Humans and Fisheries. (2012)

Purcell, Jennifer.

Dordrecht :Springer Netherlands,

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Keywords: Aquatic biology. ; Electronic books.

Description / Table of Contents: The most extensive volume yet in the series, this book explores whether jellyfish blooms have increased globally, and what factors may have contributed to the abundance of jellyfish. Covers scyphozoans, hydrozoans, cubozoans, staurozoans and ctenophores.

Type of Medium: Online Resource

Pages: 1 online resource (289 pages)

Edition: 1st ed.

ISBN: 9789400753167

Series Statement: Developments in Hydrobiology Series ; v.220

URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=2096781

DDC: 593.5/3

Language: English

Note: Intro -- Contents -- Preface: Jellyfish blooms: interactions with humans and fisheries -- Increasing jellyfish populations: trends in Large Marine Ecosystems -- Transitions of Mnemiopsis leidyi (Ctenophora: Lobata) from a native to an exotic species: a review -- Foods of Velella velella (Cnidaria: Hydrozoa) in algal rafts and its distribution in Irish seas -- Do Staurozoa bloom? A review of stauromedusan population biology -- Comparative phylogeography of meroplanktonic species, Aurelia spp. and Rhizostoma pulmo (Cnidaria: Scyphozoa) in European Seas -- Associations of large jellyfish distributions with temperature and salinity in the Yellow Sea and East China Sea -- Limnocnida tanganyicae medusae (Cnidaria: Hydrozoa): a semiautonomous microcosm in the food web of Lake Tanganyika -- Large medusae in surface waters of the Northern California Current: variability in relation to environmental conditions -- Effects of climate warming on strobilation and ephyra production of North Sea scyphozoan jellyfish -- Ecological aspects of early life stages of Cotylorhiza tuberculata (Scyphozoa: Rhizostomae) affecting its pelagic population success -- The potential role of podocysts in perpetuation of the common jellyfish Aurelia aurita s.l. (Cnidaria: Scyphozoa) in anthropogenically perturbed coastal waters -- Temperature effects on asexual reproduction rates of scyphozoan species from the northwest Mediterranean Sea -- Predator-induced vertical behavior of a ctenophore -- Predation potential of the jellyfish Drymonema larsoni Bayha & -- Dawson (Scyphozoa: Drymonematidae) on the moon jellyfish Aurelia sp. in the northern Gulf of Mexico -- Nudibranch predation and dietary preference for the polyps of Aurelia labiata (Cnidaria: Scyphozoa). , Parasitism (Trematoda, Digenea) in medusae from the southwestern Atlantic Ocean: medusa hosts, parasite prevalences, and ecological implications -- Jelly-falls historic and recent observations: a review to drive future research directions -- Pulse perturbations from bacterial decomposition of Chrysaora quinquecirrha (Scyphozoa: Pelagiidae) -- Abundance patterns of cubozoans on and near the Great Barrier Reef -- Sources and movements of Chironex fleckeri medusae using statolith elemental chemistry -- Variation in soft tissue chemistry among scyphozoan and cubozoan jellyfishes from the Great Barrier Reef, Australia.

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Sinking of Gelatinous Zooplankton Biomass Increases Deep Carbon Transfer Efficiency Globally (2021)

Lebrato, Mario ; Pahlow, Markus ; Frost, Jessica R. ; [et al.]

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Publication Date: 2021-10-28

Description: Gelatinous zooplankton (Cnidaria, Ctenophora, and Urochordata, namely, Thaliacea) are ubiquitous members of plankton communities linking primary production to higher trophic levels and the deep ocean by serving as food and transferring “jelly-carbon” (jelly-C) upon bloom collapse. Global biomass within the upper 200 m reaches 0.038 Pg C, which, with a 2–12 months life span, serves as the lower limit for annual jelly-C production. Using over 90,000 data points from 1934 to 2011 from the Jellyfish Database Initiative as an indication of global biomass (JeDI: http://jedi.nceas.ucsb.edu, http://www.bco-dmo.org/dataset/526852), upper ocean jelly-C biomass and production estimates, organism vertical migration, jelly-C sinking rates, and water column temperature profiles from GLODAPv2, we quantitatively estimate jelly-C transfer efficiency based on Longhurst Provinces. From the upper 200 m production estimate of 0.038 Pg C year−1, 59–72% reaches 500 m, 46–54% reaches 1,000 m, 43–48% reaches 2,000 m, 32–40% reaches 3,000 m, and 25–33% reaches 4,500 m. This translates into ~0.03, 0.02, 0.01, and 0.01 Pg C year−1, transferred down to 500, 1,000, 2,000, and 4,500 m, respectively. Jelly-C fluxes and transfer efficiencies can occasionally exceed phytodetrital-based sediment trap estimates in localized open ocean and continental shelves areas under large gelatinous blooms or jelly-C mass deposition events, but this remains ephemeral and transient in nature. This transfer of fast and permanently exported carbon reaching the ocean interior via jelly-C constitutes an important component of the global biological soft-tissue pump, and should be addressed in ocean biogeochemical models, in particular, at the local and regional scale.

Keywords: 577.1 ; Jelly-C ; carbon ; gelatinous ; zooplankton ; modeling ; transfer efficiency

Language: English

Type: map

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CITATION GEO-LEO

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Vertical distribution, behavior, chemical composition and metabolism of Stauroteuthis syrtensis (Octopoda: Cirrata) in the northwest Atlantic (2009)

Jacoby, Charles A. ; Youngbluth, Marsh J. ; Frost, Jessica R. ; [et al.]

Inter Research

In: Aquatic Biology, 5 . pp. 13-22.

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Publication Date: 2021-08-10

Description: The cirrate octopod Stauroteuthis syrtensis is a mesopelagic species commonly collected in the North Atlantic. Individuals were observed at depths 〉600 m and typically within 100 m of the bottom in three ~900 m deep canyons indenting the southern edge of Georges Bank. When first sighted, most octopods were floating passively with their webbed arms gathered into a small ball. When disturbed, they expanded their webs to form a ‘balloon’ shape, swam slowly by sculling their fins, pulsed their webs like medusae and, in some cases, streamlined their arms and webs and moved away smoothly by rapidly sculling their fins. The bodies of 9 octopods comprised 92 to 95% water, with tissue containing 9 to 22% carbon (C) and 2 to 4% nitrogen (N). These values were similar to those reported for medusae and ctenophores. Oxygen (O2) consumption rates of 4.6 to 25.8 µmol O2 g–1 C h–1 were within ranges reported for medusae, ctenophores, and deep-water cephalopods. The stomachs of S. syrtensis, dissected immediately after capture, contained only the calanoid copepod Calanus finmarchicus. Calculations indicated that S. syrtensis need 1.3 to 30.1 ind. d–1 of C. finmarchicus to meet their measured metabolic demand. Excretion rates (0.3 to 12.4 µg NH4+ g–1 C h–1 and 0.06 to 4.83 µg PO43– g–1 C h–1) were at least an order of magnitude lower than rates reported for other octopods or gelatinous zooplankters. O:N ratios (11 to 366) suggested that S. syrtensis catabolized lipids, which may be supplied by C. finmarchicus. Vertical distribution, relatively torpid behavior and low metabolic rates characterized S. syrtensis as a benthopelagic and relatively passive predator on copepods.

Type: Article , PeerReviewed

Format: text

DOI: 10.3354/ab00117

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Sinking of Gelatinous Zooplankton Biomass Increases Deep Carbon Transfer Efficiency Globally (2019)

Lebrato, Mario ; Pahlow, Markus ; Frost, Jessica R. ; [et al.]

AGU (American Geophysical Union) | Wiley

In: Global Biogeochemical Cycles, 33 (12). pp. 1764-1783.

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Publication Date: 2022-01-31

Description: Gelatinous zooplankton (Cnidaria, Ctenophora, and Urochordata, namely, Thaliacea) are ubiquitous members of plankton communities linking primary production to higher trophic levels and the deep ocean by serving as food and transferring “jelly‐carbon” (jelly‐C) upon bloom collapse. Global biomass within the upper 200 m reaches 0.038 Pg C, which, with a 2–12 months life span, serves as the lower limit for annual jelly‐C production. Using over 90,000 data points from 1934 to 2011 from the Jellyfish Database Initiative as an indication of global biomass (JeDI: http://jedi.nceas.ucsb.edu, http://www.bco‐dmo.org/dataset/526852), upper ocean jelly‐C biomass and production estimates, organism vertical migration, jelly‐C sinking rates, and water column temperature profiles from GLODAPv2, we quantitatively estimate jelly‐C transfer efficiency based on Longhurst Provinces. From the upper 200 m production estimate of 0.038 Pg C year−1, 59–72% reaches 500 m, 46–54% reaches 1,000 m, 43–48% reaches 2,000 m, 32–40% reaches 3,000 m, and 25–33% reaches 4,500 m. This translates into ~0.03, 0.02, 0.01, and 0.01 Pg C year−1, transferred down to 500, 1,000, 2,000, and 4,500 m, respectively. Jelly‐C fluxes and transfer efficiencies can occasionally exceed phytodetrital‐based sediment trap estimates in localized open ocean and continental shelves areas under large gelatinous blooms or jelly‐C mass deposition events, but this remains ephemeral and transient in nature. This transfer of fast and permanently exported carbon reaching the ocean interior via jelly‐C constitutes an important component of the global biological soft‐tissue pump, and should be addressed in ocean biogeochemical models, in particular, at the local and regional scale.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

DOI: 10.1029/2019GB006265

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