Lukas Kleppin scite author profile

Background: In Germany, apart from the Amflora potato licensed for cultivation since March 2010, Bt-maize MON810 is the only genetically modified organisms (GMO) licensed for commercial cultivation (about 3,000 ha in 2008). Concerns have been raised about potential adverse environmental impacts of the GMO and about potential implications on the coexistence between conventional and genetically modified production. These issues should be considered on a regional base. The objective of this article is to describe how GMO monitoring that is required after risk assessment and GMO release can be complemented by a Web-based geoinformation system (WebGIS). Secondly, it is also described how WebGIS techniques might support coexistence issues with regard to Bt-maize cultivation and conservation areas. Accordingly, on the one hand, the WebGIS should enable access to relevant geodata describing the receiving environment, including information on cultivation patterns and conservation areas containing protected species and habitats. On the other hand, metadata on already established environmental monitoring networks should be provided as well as measurement data of the intended GMO monitoring. Based on this information and based on the functionality provided by the WebGIS, the application helps in detecting possible environmental GMO impacts and in avoiding or identifying coexistence problems. Results: The WebGIS applies Web mapping techniques to generate maps via internet requests and offers additional functionality for analysis, processing and publication of selected geodata. It is based on open source software solely. The developments rely on a combination of the University of Minnesota (UMN) MapServer with the Apache HTTP server, the open source database management systems MySQL and PostgreSQL and the graphical user interface provided by Mapbender. Important information on the number and the location of Btmaize fields were derived from the GMO location register of BVL. The "WebGIS GMO Monitoring" provides different tools allowing for the application of basic GIS techniques as, for instance, automatic or interactive zooming, distance measurements or querying attribute information from selected GIS layers. More sophisticated GIS tools were implemented additionally, e.g. a buffer function which enables generating buffers around selected geoobjects like Bt-maize fields. Finally, a function for intersection of different maps was developed. The WebGIS comprises information on the location of all Bt-maize fields in Germany according to the official GMO location register of the Federal Office of Consumer Protection and Food Safety between 2005 and 2008. It facilitates, amongst others, access to geodata of GMO fields and their surroundings and can relate them with additional environmental data on climate, soil, and agricultural patterns. Furthermore, spatial data on the location of florafauna-habitats and environmental monitoring sites in the federal state of Brandenburg were integrated. The WebGIS GMO monitoring was implemented ac...

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Entwicklung und Erprobung einer Metadaten-und WebGIS-Applikation für das Expositionsmonitoring mit Moosen in Deutschland. Ein Beitrag zum LTER-Netzwerk

Kleppin

Schröder

Pesch

et al. 2007

Environ Sci Eur

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Development, Implementation and Application of the WebGIS MossMet

Pesch

Schmidt

Schröder

et al. 2007

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Lukas Kleppin

CHAID Models on boundary conditions of metal accumulation in mosses collected in Germany in 1990, 1995 and 2000

Improving the design of environmental monitoring networks. Case study on the heavy metals in mosses survey in Germany

Cultivation of GMO in Germany: support of monitoring and coexistence issues by WebGIS technology

Entwicklung und Erprobung einer Metadaten-und WebGIS-Applikation für das Expositionsmonitoring mit Moosen in Deutschland. Ein Beitrag zum LTER-Netzwerk

Development, Implementation and Application of the WebGIS MossMet

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