Cite as:
Bendix, J.; Nieschulze, J. &amp; Michener, W.K. (2012): <b>Data platforms in integrative biodiversity research</b>. <i>Ecological Informatics</i> <b>11</b>, 1-4.

Resource Description

Title: Data platforms in integrative biodiversity research
FOR816dw ID: 68
Publication Date: 2012-09-01
License and Usage Rights: PAK 823-825 data user agreement. (
Resource Owner(s):
Individual: Jörg Bendix
Individual: Jens Nieschulze
Individual: William K. Michener
It is widely recognized that biodiversity and ecosystem services are globally threatened by environmental change and that the goal to halt the loss of species richness by 2010 has failed (Butchart et al., 2010). Despite the apparent interrelationships between biodiversity and abiotic (e.g. in case of climate change) and anthropogenic factors (e.g. in case of land use change), much remains to be understood about the causative mechanisms of biodiversity change and their interactions (Fischer et al., 2010 and Sala et al., 2000). This lack of understanding points to a clear need for more integrative biodiversity research that engages biologists and scientists from diverse disciplines, ranging from geosciences to socioeconomics. Such comprehensive research approaches are underpinned by the development of new monitoring systems of biodiversity and ecosystem services as indicated by the new international body IPBES (Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services; Marris, 2010).<br/> <br/> Knowledge of past biodiversity changes and accurate forecasts of future changes (c.f. La Sorte and Jetz, 2010; Pereira et al., 2010; Sala et al., 2000) depend upon diverse data and data types from innumerable sources over long time scales. Such data requirements are challenged by the scarcity of relevant biodiversity data from the last century due to the absence of comprehensive data stewardship practices and long-lived digital repositories, particularly for short-term research projects (see “fate of research data” in Easterbrook and Matthews, 1992; and “data entropy” in Michener et al., 1997). Although there is increasing awareness of the importance of data stewardship and preservation, the research community is now facing the challenge of exponentially growing data volumes in all disciplines that could contribute to more integrative biodiversity research (e.g. species data: Soberón and Peterson, 2009; genomic data: Kahn, 2011; climate data: Overpeck et al., 2011). Furthermore, globally available data are characterized by many problems including: incomplete taxonomic and spatial coverage, incompatibility among data sets, and inherent difficulties in integrating data across different scales (Pereira and Cooper, 2006).<br/> <br/> Most existing data repositories provide limited support for managing, integrating and visualizing relevant data (Guralnick et al., 2007 and Torres et al., 2006) and are not well positioned for dealing with upcoming biodiversity-related science challenges (Reichman et al., 2011). Some positive changes are underway. For instance, during the last decade of the preceding century, most data were managed by individuals in small, independent, institution-specific databases (Frawley et al., 1992). Increasingly, however, data are being deposited in community-based data repositories. As an example, the Directory of Open Access Repositories (OpenDOAR,, access: 5 Mar 2011) encompasses 1873 repositories, although just 2% are specifically focused on biodiversity and ecological data. To cope with the growing volume of taxonomic data, Bisby (2000) estimated a global demand for approximately 150 species databases, each covering 10,000 to 25,000 or more species.<br/> <br/> Arzberger et al. (2004) highlighted three actions that would lead to more open global data access. First, from the technical perspective, data and metadata standardization, data interoperability and user-friendly interfaces are priority needs. Second, sustainable technical, institutional and funding strategies are required. Third, technical and administrative solutions will largely be shaped through consideration of property rights and user behavior. These three principal challenges will be discussed in the current special issue by information technology experts from the biodiversity and environmental sciences. Some of the specific challenges addressed in this special issue are briefly introduced in the following sections.
| Biodiversity | Metadata | Multidisciplinary | Data | Ontology | Repository |
Literature type specific fields:
Journal: Ecological Informatics
Volume: 11
Page Range: 1-4
Metadata Provider:
Individual: Tiziana Li Koch
Online Distribution:
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