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FishBase is a global species database of fish species (specifically finfish).Froese R and Pauly D (eds) (2000) (''FishBase 2000: concepts, design and data sources'' ) ICLARM, Philippines. It is the largest and most extensively accessed online database on adult finfish on the web.(Marine Fellow: Rainer Froese ) ''Pew Environment Group''. Over time it has "evolved into a dynamic and versatile ecological tool" that is widely cited in scholarly publications.Stergiou KI and Tsikliras AC (2006) (Scientific impact of FishBase: A citation analysis ) In: Palomares MLD, Stergiou KI and Pauly D (eds.), ''Fishes in Databases and Ecosystems''. ''UBC Fisheries Centre'', Research reports 14(4): 2–6.(References Citing FishBase ) FishBase. Last modified 5 July 2010. Retrieved 20 July 2011.FishBase provides comprehensive species data, including information on taxonomy, geographical distribution, biometrics and morphology, behaviour and habitats, ecology and population dynamics as well as reproductive, metabolic and genetic data. There is access to tools such as trophic pyramids, identification keys, biogeographical modelling and fishery statistics and there are direct species level links to information in other databases such as LarvalBase, GenBank, the IUCN Red List and the (Catalog of Fishes ).Gert B and Snoeks J (2004) ("FishBase: encyclopaedia and research tool" ) Page 48, VLIZ Special Publication 17, Brugge, Belgium., FishBase included descriptions of 32,900 species and subspecies, 304,500 common names in almost 300 languages, 55,300 pictures, and references to 51,600 works in the scientific literature. The site has about 800,000 unique visitors per month.According to the (FishBase ) web page, accessed 12 April 2015==History==The origins of FishBase go back to the 1970s, when the fisheries scientist Daniel Pauly found himself struggling to test a hypothesis on how the growing ability of fish was affected by the size of their gills.Bakun A (2011) ("The oxygen constraint" ) Pages 11–23. In: Villy Christensen and Jay Maclean (Eds.) ''Ecosystem Approaches to Fisheries: A Global Perspective'', Cambridge University Press. ISBN 978-0-521-13022-6. Hypotheses, such as this one, could be tested only if large amounts of empirical data were available.Palomares MLD and Bailly N (2011) ("Organizing and disseminating marine biodiversity information: the Fishbase and SeaLifeBase story" ) Pages 24–46. In: Villy Christensen and Jay Maclean (Eds.) ''Ecosystem Approaches to Fisheries: A Global Perspective'', Cambridge University Press. ISBN 978-0-521-13022-6. At the time, fisheries management used analytical models which required estimates for fish growth and mortality.Monro JL (2011) ("Assessment of exploited stock of tropical fishes: an overview" ) Pages 171–188. In: Villy Christensen and Jay Maclean (Eds.) ''Ecosystem Approaches to Fisheries: A Global Perspective'', Cambridge University Press. ISBN 978-0-521-13022-6. It can be difficult for fishery scientists and managers to get the information they need on the species that concern them, because the relevant facts can be scattered across and buried in numerous journal articles, reports, newsletters and other sources. It can be particularly difficult for people in developing countries who need such information. Pauly believed that the only practical way fisheries managers could access the volume of data they needed was to assemble and consolidate all the data available in the published literature into some central and easily accessed repository.(LarvalBase: A Global Information System on Fish Larvae ) ''American Fisheries Society'', Early Life History Section Newsletter, May 2002, 23(2): 7–9. Such a database would be particularly useful if the data has also been standardised and validated. This would mean that when scientists or managers need to test a new hypothesis, the available data will already be there in a validated and accessible form, and there will be no need to create a new dataset and then have to validate it.Froese R (2011) ("The science in FishBase" ) Pages 47–54. In: Villy Christensen and Jay Maclean (Eds.) ''Ecosystem Approaches to Fisheries: A Global Perspective'', Cambridge University Press. ISBN 978-0-521-13022-6.Pauly recruited Rainer Froese, and the beginnings of a software database along these lines was encoded in 1988. This database, initially confined to tropical fish, became the prototype for FishBase. FishBase was subsequently extended to cover all finfish, and was launched on the Web in August 1996. It is now the largest and most accessed online database for fish in the world. In 1995 the first CD-ROM was released as "FishBase 100". Subsequent CDs have been released annually. The software runs on Microsoft Access which operates only on Microsoft Windows.FishBase covers adult finfish, but does not detail the early and juvenile stages of fish. In 1999 a complimentary database, called LarvalBase, went online under the supervision of Bernd Ueberschär. It covers ichthyoplankton and the juvenile stage of fishes, with detailed data on fish eggs and larvae, fish identification, as well as data relevant to the rearing of young fish in aquaculture. Given FishBase's success, there was a demand for a database covering forms of aquatic life other than finfish. This resulted, in 2006, in the birth of SeaLifeBase. The long-term goal of SeaLifeBase is to develop an information system modelled on FishBase, but including all forms of aquatic life, both marine and freshwater, apart from the finfish which FishBase specialises in. Altogether, there are about 300,000 known species in this category.(SeaLifeBase – home page ) Accessed 21 July 2011.
FishBase is a global species database of fish species (specifically finfish).〔Froese R and Pauly D (eds) (2000) (''FishBase 2000: concepts, design and data sources'' ) ICLARM, Philippines.〕 It is the largest and most extensively accessed online database on adult finfish on the web.〔(Marine Fellow: Rainer Froese ) ''Pew Environment Group''.〕 Over time it has "evolved into a dynamic and versatile ecological tool" that is widely cited in scholarly publications.〔Stergiou KI and Tsikliras AC (2006) (Scientific impact of FishBase: A citation analysis ) In: Palomares MLD, Stergiou KI and Pauly D (eds.), ''Fishes in Databases and Ecosystems''. ''UBC Fisheries Centre'', Research reports 14(4): 2–6.〕〔(References Citing FishBase ) FishBase. Last modified 5 July 2010. Retrieved 20 July 2011.〕 FishBase provides comprehensive species data, including information on taxonomy, geographical distribution, biometrics and morphology, behaviour and habitats, ecology and population dynamics as well as reproductive, metabolic and genetic data. There is access to tools such as trophic pyramids, identification keys, biogeographical modelling and fishery statistics and there are direct species level links to information in other databases such as LarvalBase, GenBank, the IUCN Red List and the (Catalog of Fishes ).〔Gert B and Snoeks J (2004) ("FishBase: encyclopaedia and research tool" ) Page 48, VLIZ Special Publication 17, Brugge, Belgium.〕 , FishBase included descriptions of 32,900 species and subspecies, 304,500 common names in almost 300 languages, 55,300 pictures, and references to 51,600 works in the scientific literature. The site has about 800,000 unique visitors per month.〔According to the (FishBase ) web page, accessed 12 April 2015〕 ==History== The origins of FishBase go back to the 1970s, when the fisheries scientist Daniel Pauly found himself struggling to test a hypothesis on how the growing ability of fish was affected by the size of their gills.〔Bakun A (2011) ("The oxygen constraint" ) Pages 11–23. In: Villy Christensen and Jay Maclean (Eds.) ''Ecosystem Approaches to Fisheries: A Global Perspective'', Cambridge University Press. ISBN 978-0-521-13022-6.〕 Hypotheses, such as this one, could be tested only if large amounts of empirical data were available.〔Palomares MLD and Bailly N (2011) ("Organizing and disseminating marine biodiversity information: the Fishbase and SeaLifeBase story" ) Pages 24–46. In: Villy Christensen and Jay Maclean (Eds.) ''Ecosystem Approaches to Fisheries: A Global Perspective'', Cambridge University Press. ISBN 978-0-521-13022-6.〕 At the time, fisheries management used analytical models which required estimates for fish growth and mortality.〔Monro JL (2011) ("Assessment of exploited stock of tropical fishes: an overview" ) Pages 171–188. In: Villy Christensen and Jay Maclean (Eds.) ''Ecosystem Approaches to Fisheries: A Global Perspective'', Cambridge University Press. ISBN 978-0-521-13022-6.〕 It can be difficult for fishery scientists and managers to get the information they need on the species that concern them, because the relevant facts can be scattered across and buried in numerous journal articles, reports, newsletters and other sources. It can be particularly difficult for people in developing countries who need such information. Pauly believed that the only practical way fisheries managers could access the volume of data they needed was to assemble and consolidate all the data available in the published literature into some central and easily accessed repository.〔〔(LarvalBase: A Global Information System on Fish Larvae ) ''American Fisheries Society'', Early Life History Section Newsletter, May 2002, 23(2): 7–9.〕 Such a database would be particularly useful if the data has also been standardised and validated.〔 This would mean that when scientists or managers need to test a new hypothesis, the available data will already be there in a validated and accessible form, and there will be no need to create a new dataset and then have to validate it.〔Froese R (2011) ("The science in FishBase" ) Pages 47–54. In: Villy Christensen and Jay Maclean (Eds.) ''Ecosystem Approaches to Fisheries: A Global Perspective'', Cambridge University Press. ISBN 978-0-521-13022-6.〕 Pauly recruited Rainer Froese, and the beginnings of a software database along these lines was encoded in 1988. This database, initially confined to tropical fish, became the prototype for FishBase. FishBase was subsequently extended to cover all finfish, and was launched on the Web in August 1996. It is now the largest and most accessed online database for fish in the world.〔 In 1995 the first CD-ROM was released as "FishBase 100". Subsequent CDs have been released annually. The software runs on Microsoft Access which operates only on Microsoft Windows. FishBase covers adult finfish, but does not detail the early and juvenile stages of fish. In 1999 a complimentary database, called LarvalBase, went online under the supervision of Bernd Ueberschär. It covers ichthyoplankton and the juvenile stage of fishes, with detailed data on fish eggs and larvae, fish identification, as well as data relevant to the rearing of young fish in aquaculture. Given FishBase's success, there was a demand for a database covering forms of aquatic life other than finfish. This resulted, in 2006, in the birth of SeaLifeBase.〔 The long-term goal of SeaLifeBase is to develop an information system modelled on FishBase, but including all forms of aquatic life, both marine and freshwater, apart from the finfish which FishBase specialises in. Altogether, there are about 300,000 known species in this category.〔(SeaLifeBase – home page ) Accessed 21 July 2011.〕
抄文引用元・出典: フリー百科事典『 14(4): 2–6.(References Citing FishBase ) FishBase. Last modified 5 July 2010. Retrieved 20 July 2011.FishBase provides comprehensive species data, including information on taxonomy, geographical distribution, biometrics and morphology, behaviour and habitats, ecology and population dynamics as well as reproductive, metabolic and genetic data. There is access to tools such as trophic pyramids, identification keys, biogeographical modelling and fishery statistics and there are direct species level links to information in other databases such as LarvalBase, GenBank, the IUCN Red List and the (Catalog of Fishes ).Gert B and Snoeks J (2004) ("FishBase: encyclopaedia and research tool" ) Page 48, VLIZ Special Publication 17, Brugge, Belgium., FishBase included descriptions of 32,900 species and subspecies, 304,500 common names in almost 300 languages, 55,300 pictures, and references to 51,600 works in the scientific literature. The site has about 800,000 unique visitors per month.According to the (FishBase ) web page, accessed 12 April 2015==History==The origins of FishBase go back to the 1970s, when the fisheries scientist Daniel Pauly found himself struggling to test a hypothesis on how the growing ability of fish was affected by the size of their gills.Bakun A (2011) ("The oxygen constraint" ) Pages 11–23. In: Villy Christensen and Jay Maclean (Eds.) ''Ecosystem Approaches to Fisheries: A Global Perspective'', Cambridge University Press. ISBN 978-0-521-13022-6. Hypotheses, such as this one, could be tested only if large amounts of empirical data were available.Palomares MLD and Bailly N (2011) ("Organizing and disseminating marine biodiversity information: the Fishbase and SeaLifeBase story" ) Pages 24–46. In: Villy Christensen and Jay Maclean (Eds.) ''Ecosystem Approaches to Fisheries: A Global Perspective'', Cambridge University Press. ISBN 978-0-521-13022-6. At the time, fisheries management used analytical models which required estimates for fish growth and mortality.Monro JL (2011) ("Assessment of exploited stock of tropical fishes: an overview" ) Pages 171–188. In: Villy Christensen and Jay Maclean (Eds.) ''Ecosystem Approaches to Fisheries: A Global Perspective'', Cambridge University Press. ISBN 978-0-521-13022-6. It can be difficult for fishery scientists and managers to get the information they need on the species that concern them, because the relevant facts can be scattered across and buried in numerous journal articles, reports, newsletters and other sources. It can be particularly difficult for people in developing countries who need such information. Pauly believed that the only practical way fisheries managers could access the volume of data they needed was to assemble and consolidate all the data available in the published literature into some central and easily accessed repository.(LarvalBase: A Global Information System on Fish Larvae ) ''American Fisheries Society'', Early Life History Section Newsletter, May 2002, 23(2): 7–9. Such a database would be particularly useful if the data has also been standardised and validated. This would mean that when scientists or managers need to test a new hypothesis, the available data will already be there in a validated and accessible form, and there will be no need to create a new dataset and then have to validate it.Froese R (2011) ("The science in FishBase" ) Pages 47–54. In: Villy Christensen and Jay Maclean (Eds.) ''Ecosystem Approaches to Fisheries: A Global Perspective'', Cambridge University Press. ISBN 978-0-521-13022-6.Pauly recruited Rainer Froese, and the beginnings of a software database along these lines was encoded in 1988. This database, initially confined to tropical fish, became the prototype for FishBase. FishBase was subsequently extended to cover all finfish, and was launched on the Web in August 1996. It is now the largest and most accessed online database for fish in the world. In 1995 the first CD-ROM was released as "FishBase 100". Subsequent CDs have been released annually. The software runs on Microsoft Access which operates only on Microsoft Windows.FishBase covers adult finfish, but does not detail the early and juvenile stages of fish. In 1999 a complimentary database, called LarvalBase, went online under the supervision of Bernd Ueberschär. It covers ichthyoplankton and the juvenile stage of fishes, with detailed data on fish eggs and larvae, fish identification, as well as data relevant to the rearing of young fish in aquaculture. Given FishBase's success, there was a demand for a database covering forms of aquatic life other than finfish. This resulted, in 2006, in the birth of SeaLifeBase. The long-term goal of SeaLifeBase is to develop an information system modelled on FishBase, but including all forms of aquatic life, both marine and freshwater, apart from the finfish which FishBase specialises in. Altogether, there are about 300,000 known species in this category.(SeaLifeBase – home page ) Accessed 21 July 2011.">ウィキペディア(Wikipedia)』 ■14(4): 2–6.(References Citing FishBase ) FishBase. Last modified 5 July 2010. Retrieved 20 July 2011.FishBase provides comprehensive species data, including information on taxonomy, geographical distribution, biometrics and morphology, behaviour and habitats, ecology and population dynamics as well as reproductive, metabolic and genetic data. There is access to tools such as trophic pyramids, identification keys, biogeographical modelling and fishery statistics and there are direct species level links to information in other databases such as LarvalBase, GenBank, the IUCN Red List and the (Catalog of Fishes ).Gert B and Snoeks J (2004) ("FishBase: encyclopaedia and research tool" ) Page 48, VLIZ Special Publication 17, Brugge, Belgium., FishBase included descriptions of 32,900 species and subspecies, 304,500 common names in almost 300 languages, 55,300 pictures, and references to 51,600 works in the scientific literature. The site has about 800,000 unique visitors per month.According to the (FishBase ) web page, accessed 12 April 2015==History==The origins of FishBase go back to the 1970s, when the fisheries scientist Daniel Pauly found himself struggling to test a hypothesis on how the growing ability of fish was affected by the size of their gills.Bakun A (2011) ("The oxygen constraint" ) Pages 11–23. In: Villy Christensen and Jay Maclean (Eds.) ''Ecosystem Approaches to Fisheries: A Global Perspective'', Cambridge University Press. ISBN 978-0-521-13022-6. Hypotheses, such as this one, could be tested only if large amounts of empirical data were available.Palomares MLD and Bailly N (2011) ("Organizing and disseminating marine biodiversity information: the Fishbase and SeaLifeBase story" ) Pages 24–46. In: Villy Christensen and Jay Maclean (Eds.) ''Ecosystem Approaches to Fisheries: A Global Perspective'', Cambridge University Press. ISBN 978-0-521-13022-6. At the time, fisheries management used analytical models which required estimates for fish growth and mortality.Monro JL (2011) ("Assessment of exploited stock of tropical fishes: an overview" ) Pages 171–188. In: Villy Christensen and Jay Maclean (Eds.) ''Ecosystem Approaches to Fisheries: A Global Perspective'', Cambridge University Press. ISBN 978-0-521-13022-6. It can be difficult for fishery scientists and managers to get the information they need on the species that concern them, because the relevant facts can be scattered across and buried in numerous journal articles, reports, newsletters and other sources. It can be particularly difficult for people in developing countries who need such information. Pauly believed that the only practical way fisheries managers could access the volume of data they needed was to assemble and consolidate all the data available in the published literature into some central and easily accessed repository.(LarvalBase: A Global Information System on Fish Larvae ) ''American Fisheries Society'', Early Life History Section Newsletter, May 2002, 23(2): 7–9. Such a database would be particularly useful if the data has also been standardised and validated. This would mean that when scientists or managers need to test a new hypothesis, the available data will already be there in a validated and accessible form, and there will be no need to create a new dataset and then have to validate it.Froese R (2011) ("The science in FishBase" ) Pages 47–54. In: Villy Christensen and Jay Maclean (Eds.) ''Ecosystem Approaches to Fisheries: A Global Perspective'', Cambridge University Press. ISBN 978-0-521-13022-6.Pauly recruited Rainer Froese, and the beginnings of a software database along these lines was encoded in 1988. This database, initially confined to tropical fish, became the prototype for FishBase. FishBase was subsequently extended to cover all finfish, and was launched on the Web in August 1996. It is now the largest and most accessed online database for fish in the world. In 1995 the first CD-ROM was released as "FishBase 100". Subsequent CDs have been released annually. The software runs on Microsoft Access which operates only on Microsoft Windows.FishBase covers adult finfish, but does not detail the early and juvenile stages of fish. In 1999 a complimentary database, called LarvalBase, went online under the supervision of Bernd Ueberschär. It covers ichthyoplankton and the juvenile stage of fishes, with detailed data on fish eggs and larvae, fish identification, as well as data relevant to the rearing of young fish in aquaculture. Given FishBase's success, there was a demand for a database covering forms of aquatic life other than finfish. This resulted, in 2006, in the birth of SeaLifeBase. The long-term goal of SeaLifeBase is to develop an information system modelled on FishBase, but including all forms of aquatic life, both marine and freshwater, apart from the finfish which FishBase specialises in. Altogether, there are about 300,000 known species in this category.(SeaLifeBase – home page ) Accessed 21 July 2011.">ウィキペディアで「FishBase is a global species database of fish species (specifically finfish).Froese R and Pauly D (eds) (2000) (''FishBase 2000: concepts, design and data sources'' ) ICLARM, Philippines. It is the largest and most extensively accessed online database on adult finfish on the web.(Marine Fellow: Rainer Froese ) ''Pew Environment Group''. Over time it has "evolved into a dynamic and versatile ecological tool" that is widely cited in scholarly publications.Stergiou KI and Tsikliras AC (2006) (Scientific impact of FishBase: A citation analysis ) In: Palomares MLD, Stergiou KI and Pauly D (eds.), ''Fishes in Databases and Ecosystems''. ''UBC Fisheries Centre'', Research reports 14(4): 2–6.(References Citing FishBase ) FishBase. Last modified 5 July 2010. Retrieved 20 July 2011.FishBase provides comprehensive species data, including information on taxonomy, geographical distribution, biometrics and morphology, behaviour and habitats, ecology and population dynamics as well as reproductive, metabolic and genetic data. There is access to tools such as trophic pyramids, identification keys, biogeographical modelling and fishery statistics and there are direct species level links to information in other databases such as LarvalBase, GenBank, the IUCN Red List and the (Catalog of Fishes ).Gert B and Snoeks J (2004) ("FishBase: encyclopaedia and research tool" ) Page 48, VLIZ Special Publication 17, Brugge, Belgium., FishBase included descriptions of 32,900 species and subspecies, 304,500 common names in almost 300 languages, 55,300 pictures, and references to 51,600 works in the scientific literature. The site has about 800,000 unique visitors per month.According to the (FishBase ) web page, accessed 12 April 2015==History==The origins of FishBase go back to the 1970s, when the fisheries scientist Daniel Pauly found himself struggling to test a hypothesis on how the growing ability of fish was affected by the size of their gills.Bakun A (2011) ("The oxygen constraint" ) Pages 11–23. In: Villy Christensen and Jay Maclean (Eds.) ''Ecosystem Approaches to Fisheries: A Global Perspective'', Cambridge University Press. ISBN 978-0-521-13022-6. Hypotheses, such as this one, could be tested only if large amounts of empirical data were available.Palomares MLD and Bailly N (2011) ("Organizing and disseminating marine biodiversity information: the Fishbase and SeaLifeBase story" ) Pages 24–46. In: Villy Christensen and Jay Maclean (Eds.) ''Ecosystem Approaches to Fisheries: A Global Perspective'', Cambridge University Press. ISBN 978-0-521-13022-6. At the time, fisheries management used analytical models which required estimates for fish growth and mortality.Monro JL (2011) ("Assessment of exploited stock of tropical fishes: an overview" ) Pages 171–188. In: Villy Christensen and Jay Maclean (Eds.) ''Ecosystem Approaches to Fisheries: A Global Perspective'', Cambridge University Press. ISBN 978-0-521-13022-6. It can be difficult for fishery scientists and managers to get the information they need on the species that concern them, because the relevant facts can be scattered across and buried in numerous journal articles, reports, newsletters and other sources. It can be particularly difficult for people in developing countries who need such information. Pauly believed that the only practical way fisheries managers could access the volume of data they needed was to assemble and consolidate all the data available in the published literature into some central and easily accessed repository.(LarvalBase: A Global Information System on Fish Larvae ) ''American Fisheries Society'', Early Life History Section Newsletter, May 2002, 23(2): 7–9. Such a database would be particularly useful if the data has also been standardised and validated. This would mean that when scientists or managers need to test a new hypothesis, the available data will already be there in a validated and accessible form, and there will be no need to create a new dataset and then have to validate it.Froese R (2011) ("The science in FishBase" ) Pages 47–54. In: Villy Christensen and Jay Maclean (Eds.) ''Ecosystem Approaches to Fisheries: A Global Perspective'', Cambridge University Press. ISBN 978-0-521-13022-6.Pauly recruited Rainer Froese, and the beginnings of a software database along these lines was encoded in 1988. This database, initially confined to tropical fish, became the prototype for FishBase. FishBase was subsequently extended to cover all finfish, and was launched on the Web in August 1996. It is now the largest and most accessed online database for fish in the world. In 1995 the first CD-ROM was released as "FishBase 100". Subsequent CDs have been released annually. The software runs on Microsoft Access which operates only on Microsoft Windows.FishBase covers adult finfish, but does not detail the early and juvenile stages of fish. In 1999 a complimentary database, called LarvalBase, went online under the supervision of Bernd Ueberschär. It covers ichthyoplankton and the juvenile stage of fishes, with detailed data on fish eggs and larvae, fish identification, as well as data relevant to the rearing of young fish in aquaculture. Given FishBase's success, there was a demand for a database covering forms of aquatic life other than finfish. This resulted, in 2006, in the birth of SeaLifeBase. The long-term goal of SeaLifeBase is to develop an information system modelled on FishBase, but including all forms of aquatic life, both marine and freshwater, apart from the finfish which FishBase specialises in. Altogether, there are about 300,000 known species in this category.(SeaLifeBase – home page ) Accessed 21 July 2011.」の詳細全文を読む
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