Bogeberg
Molly
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Molly
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DatasetJeDI: Jellyfish Database Initiative(Biological and Chemical Oceanography Data Management Office (BCO-DMO). Contact: bco-dmo-data@whoi.edu, 2015-03-09) Condon, Robert H. ; Lucas, Cathy H. ; Duarte, Carlos M. ; Pitt, Kylie A. ; Haddock, Steven H. D. ; Madin, Laurence P. ; Brodeur, Richard D. ; Sutherland, Kelly R. ; Mianzan, Hermes W. ; Purcell, Jennifer E. ; Decker, Mary Beth ; Uye, Shin-Ichi ; Malej, Alenka ; Bogeberg, Molly ; Everett, John T. ; Gibbons, Mark ; Gonzalez, H. ; Hay, S. ; Hensche, N. ; Hobson, R. J. ; Kingsford, Michael J. ; Kremer, P. ; Lehtiniemi, Maiju ; Ohman, Mark ; Rissik, D. ; Sheard, K. ; Suthers, Iain ; Coleman, N. ; Costello, John H. ; Gershwin, L. A. ; Graham, William M. ; Robinson, Kelly L. ; Richardson, T. M. ; Giesecke, R. ; Gorsky, Gabriel ; Greve, Wulf ; Halsband-Lenk, C. ; Hays, Graeme ; Hobson, V. ; Klein, David ; Lebrato, Mario ; Loveridge, Jan ; Martens, P. ; Milos, C. ; Perry, G. ; Stemmann, Lars ; Sullivan, Barbara ; Walker, T. ; Schildhauer, Mark ; Regetz, J.The Jellyfish Database Initiative (JeDI) is a scientifically-coordinated global database dedicated to gelatinous zooplankton (members of the Cnidaria, Ctenophora and Thaliacea) and associated environmental data. The database holds 476,000 quantitative, categorical, presence-absence and presence only records of gelatinous zooplankton spanning the past four centuries (1790-2011) assembled from a variety of published and unpublished sources. Gelatinous zooplankton data are reported to species level, where identified, but taxonomic information on phylum, family and order are reported for all records. Other auxiliary metadata, such as physical, environmental and biometric information relating to the gelatinous zooplankton metadata, are included with each respective entry. JeDI has been developed and designed as an open access research tool for the scientific community to quantitatively define the global baseline of gelatinous zooplankton populations and to describe long-term and large-scale trends in gelatinous zooplankton populations and blooms. It has also been constructed as a future repository of datasets, thus allowing retrospective analyses of the baseline and trends in global gelatinous zooplankton populations to be conducted in the future.
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ArticleLinking human well-being and jellyfish : ecosystem services, impacts, and societal responses(Ecological Society of America, 2014-11) Graham, William M. ; Gelcich, Stefan ; Robinson, Kelly L. ; Duarte, Carlos M. ; Brotz, Lucas ; Purcell, Jennifer E. ; Madin, Laurence P. ; Mianzan, Hermes ; Sutherland, Kelly R. ; Uye, Shin-Ichi ; Pitt, Kylie A. ; Lucas, Cathy H. ; Bogeberg, Molly ; Brodeur, Richard D. ; Condon, Robert H.Jellyfish are usually perceived as harmful to humans and are seen as “pests”. This negative perception has hindered knowledge regarding their value in terms of ecosystem services. As humans increasingly modify and interact with coastal ecosystems, it is important to evaluate the benefits and costs of jellyfish, given that jellyfish bloom size, frequency, duration, and extent are apparently increasing in some regions of the world. Here we explore those benefits and costs as categorized by regulating, supporting, cultural, and provisioning ecosystem services. A geographical perspective of human vulnerability to jellyfish over four categories of human well-being (health care, food, energy, and freshwater production) is also discussed in the context of thresholds and trade-offs to enable social adaptation. Whereas beneficial services provided by jellyfish likely scale linearly with biomass (perhaps peaking at a saturation point), non-linear thresholds exist for negative impacts to ecosystem services. We suggest that costly adaptive strategies will outpace the beneficial services if jellyfish populations continue to increase in the future.