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BioTIME: A database of biodiversity time series for the Anthropocene

Dornelas, Maria ; Antão, Laura H. ; Moyes, Faye ; [et al.]

Wiley ; 2018

In: Global Ecology and Biogeography Vol. 27, No. 7 ( 2018-07), p. 760-786

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In: Global Ecology and Biogeography, Wiley, Vol. 27, No. 7 ( 2018-07), p. 760-786

Abstract: The BioTIME database contains raw data on species identities and abundances in ecological assemblages through time. These data enable users to calculate temporal trends in biodiversity within and amongst assemblages using a broad range of metrics. BioTIME is being developed as a community‐led open‐source database of biodiversity time series. Our goal is to accelerate and facilitate quantitative analysis of temporal patterns of biodiversity in the Anthropocene. Main types of variables included The database contains 8,777,413 species abundance records, from assemblages consistently sampled for a minimum of 2 years, which need not necessarily be consecutive. In addition, the database contains metadata relating to sampling methodology and contextual information about each record. Spatial location and grain BioTIME is a global database of 547,161 unique sampling locations spanning the marine, freshwater and terrestrial realms. Grain size varies across datasets from 0.0000000158 km 2 (158 cm 2 ) to 100 km 2 (1,000,000,000,000 cm 2 ). Time period and grain BioTIME records span from 1874 to 2016. The minimal temporal grain across all datasets in BioTIME is a year. Major taxa and level of measurement BioTIME includes data from 44,440 species across the plant and animal kingdoms, ranging from plants, plankton and terrestrial invertebrates to small and large vertebrates. Software format .csv and .SQL.

Type of Medium: Online Resource

ISSN: 1466-822X , 1466-8238

URL: Issue

URL: Article

DOI: 10.1111/geb.2018.27.issue-7

DOI: 10.1111/geb.12729

Language: English

Publisher: Wiley

Publication Date: 2018

detail.hit.zdb_id: 1479787-2

detail.hit.zdb_id: 2021283-5

SSG: 12

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Essential ocean variables for global sustained observations of biodiversity and ecosystem changes

Miloslavich, Patricia ; Bax, Nicholas J. ; Simmons, Samantha E. ; [et al.]

Wiley ; 2018

In: Global Change Biology Vol. 24, No. 6 ( 2018-06), p. 2416-2433

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In: Global Change Biology, Wiley, Vol. 24, No. 6 ( 2018-06), p. 2416-2433

Abstract: Sustained observations of marine biodiversity and ecosystems focused on specific conservation and management problems are needed around the world to effectively mitigate or manage changes resulting from anthropogenic pressures. These observations, while complex and expensive, are required by the international scientific, governance and policy communities to provide baselines against which the effects of human pressures and climate change may be measured and reported, and resources allocated to implement solutions. To identify biological and ecological essential ocean variables ( EOV s) for implementation within a global ocean observing system that is relevant for science, informs society, and technologically feasible, we used a driver‐pressure‐state‐impact‐response ( DPSIR ) model. We (1) examined relevant international agreements to identify societal drivers and pressures on marine resources and ecosystems, (2) evaluated the temporal and spatial scales of variables measured by 100+ observing programs, and (3) analysed the impact and scalability of these variables and how they contribute to address societal and scientific issues. EOV s were related to the status of ecosystem components (phytoplankton and zooplankton biomass and diversity, and abundance and distribution of fish, marine turtles, birds and mammals), and to the extent and health of ecosystems (cover and composition of hard coral, seagrass, mangrove and macroalgal canopy). Benthic invertebrate abundance and distribution and microbe diversity and biomass were identified as emerging EOV s to be developed based on emerging requirements and new technologies. The temporal scale at which any shifts in biological systems will be detected will vary across the EOV s, the properties being monitored and the length of the existing time‐series. Global implementation to deliver useful products will require collaboration of the scientific and policy sectors and a significant commitment to improve human and infrastructure capacity across the globe, including the development of new, more automated observing technologies, and encouraging the application of international standards and best practices.

Type of Medium: Online Resource

ISSN: 1354-1013 , 1365-2486

URL: Issue

URL: Article

DOI: 10.1111/gcb.2018.24.issue-6

DOI: 10.1111/gcb.14108

Language: English

Publisher: Wiley

Publication Date: 2018

detail.hit.zdb_id: 2020313-5

SSG: 12

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