WP = Work package
T = Task
D = Deliverable
WP1 - General SIGMEA coordination
WP2 - Gene flow and ecological field studies
T2.1 - Central information system: collation, processing, checking, auditing
T2.2 - Field/feral/volunteer/wild relative demography
-
D2.2.1 - Identification of demographic study areas
-
D2.2.2 - Compilation and comparison of existing data from identified areas
-
D2.2.3 - Harmonisation with new measurements
T2.3 - Gene flow – understanding the process (vectors), size, orientation, distance
-
D2.3.1 - Identification of geneflow studies for detailed scrutiny
-
D2.3.2 - Clean, verified datasets from all existing geneflow studies
-
D2.3.3 - Report on geneflow detection methodologies
-
D2.3.4 - Plans of new experiments on geneflow
-
D2.3.5 - Addition of new data and analysis of this complete geneflow dataset
T2.4 - Post-hybridisation organism dynamics and genome dynamics
-
D2.4.1- Clean and verified datasets of existing “feral” persistence studies “Volunteers – oilseed rape, beet and maize”
-
D2.4.2 - Clean and verified datasets of introgression among “ferals” and wild relatives “Wild relatives – oilseed rape, beet, maize, wheat and rice”
-
D2.4.3 - Comparison and standardisation of methodologies
-
D2.4.4 - Application of harmonised methodologies in new field studies
-
D2.4.5 - State of the art summary of introgression and population genetics
T2.5 - Impact of transgene introgression on plant community composition
-
D2.5.1 - Definition of population/community parameters and appropriate studies
-
D2.5.2 - Introgression model from HT OSR to Brassica rapa
-
D2.5.3 - Conclusion on likely impacts of GM cropping on within-and-between-species diversity
T2.6 - Summary of the impact of GM cultivation on wider ecology and farming practice
WP3 - Landscape modelling of European agro-ecosystems
T3.1 - Data collection
- D3.1 - GIS datasets for representative European Agricultural systems
T3.2 - Identification of the main crops rotation
- D3.2 - Identification and description of crop temporal rotations
T3.3 - Measure of actual spatial patterns
T3.4 - Modelling and programming landscape generator
- D3.5 - The generic landscape generator
WP4 - Landscape modelling of gene flow and the fate of transgenes
T4.1 - Design of the overall structure of the generic platform
- D4.1 - Specifications for gene flow modelling
T4.2 - Improvement of the gene flow algorithm
- D4.2 - Algorithm for gene flow modelling
T4.3 - Development of the generic modelling platform
- D4.3.2 - Final Software prototype for gene flow modelling
T4.4 - Validation of crop gene flow model
- D4.4 - Dissemination of validation results (restricted access)
T4.5 - Integration of ecological impact models
- D4.5 - Software modules (restricted access)
T4.6 - Validation of the generic modelling platform
- D4.6 - Dissemination of validation results (restricted access)
T4.7 - Up-scaling gene flow and eco-logical models to larger datasets
- D4.7 - Specifications for up-scaling model
WP5 - Socio-economics dimension of the GM crops adoption and their co-existence withother crop systems
T5.1 - Analysis of factors affecting the adoption of GM crops by the European farmers
- D5.1 - Identification of factors affecting the GM crops adoption by the European farmer
T5.2 - Calculation of co-existence measures costs
- D5.2 - Costs of measures to ensure segregation, for each crop and for a range of farming systems
T5.3 - Impact of monitoring activities, potential cost for liability cases and/or potential insurance costs
- D5.3 - Economic implications of adventitious admixtures in different systems
T5.4 - Farm level impacts and expected adoption rates of GM crops
- D5.4 - Modelling socioeconomic impacts of the GM adoption
T5.5 - Assessment of expected market prices and traded quantities of GM products
- D5.5 - Quantitative assessment of expected market prices and traded quantities of GM versus conventional crops
WP6 - Social, legal and liability issues related to GMOs in agriculture
T6.1 - Overview on legal regimes related to liability of GMOs in the EU and the members states
- D6.1 - Overview on legal regimes related to liability of GMOs in the EU
T6.2 - Analysis of the practical handling of these regimes
- D6.2 - Report on the practical handlings of legal regimes related to liability of GMOs in the EU
T6.3 - Interest of insurance and re-insurance companies, costs and practice of insuring GMO related events
- D6.3 - Report on potential interest of insurance companies
T6.4 - Analysis of border related liability issues with GMOs
- D6.4 - Report on liability issues in case of gene flow across borders
T6.5 - Case studies on liability and potential damage related to contamination with genetically modified material
- D6.5 - Case studies on liability and potential damage related to contamination
T6.6 - Suggestions on a regulatory regime on liability related to GMOs in EU
- D6.6 - Proposal for a liability regime within EU
T6.7 - Stakeholder workshop on liability issues
-
D6.7.1 - Workshop on liability issues
-
D6.7.2 - Preliminary workshop report
-
D6.7.3 - Final workshop report
WP7 - Elaboration of scenarios for introduction of GM crops
T7.1 - Classification and modelling of actors' practices
- D7.1 - Typologies and models of practices and spatial organisation of actors within each type of landscape
T7.2 - Identification of critical points for GM dissemination within each landscape
- D7.2 - Identification of critical points from validated results
T7.3 - Management of critical points – feasibility
- D7.3- Independent management measures
T7.4 - Eaboration of scenarios for the management of co-existence
- D7.4.1 - Final report on coherent scenarios for the management of co-existence
T7.5 - Elaboration of “rescue” scenarios
- D7.5.2 - Final report on coherent “rescue” scenarios
WP8 - Monitoring of environmental effects of GM crops
T8.1 - Analysis, identification and priorisation of monitoring-relevant cause and effect chains
- D8.1 - Hypothesis based approach of monitoring strategies
T8.2 - Compilation and comparison of European monitoring approaches and implementation issues
- D8.2 - Intermediate report on European Monitoring approaches and implementation issues
T8.3 - Identification of indicators and development of case specific sampling protocols
- D8.3 - Biological indicators and sampling protocols for monitoring schemes
T8.4 - Investigating the conditions and proposing a concept for a long term monitoring strategy on an Euopean level
T8.5 - Organisation of a conference summarising monitoring issues in the context of consequences derived from landscape analysis and sampling schemes
T8.6 - Training of scientists fromEU-states and Associated Countries onhypotheses guided monitoring approaches and their implementation
WP9 - Detection of GMO adventitious presence
T9.1 - On-site methods for GMO detection, identification and qualification
-
D9.1.1 - Novel detection method for GM maize
-
D9.1.2 - Novel detection method for GM sugar-beet
-
D9.1.3 - Novel detection method for GM oilseed rape
T9.2 - Sampling schemes and approaches for monitoring and testing purposes
-
D9.2.1 - Publicly available database on valid methods, containing data on the methods validated for the purpose of on-site monitoring of GMOs
-
D9.2.2 - Sampling schemes and instructions for the monitoring of GM contamination of the project crops in the farm
WP10 - Decision-support system and integration of SIGMEA results in an operational toolbox for stakeholders and policy-makers
T10.1 - Design of an integrated rule-based model
T10.2 - Setting up an integrating practical toolbox
