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THE CROSS-POLLINATION STUDY BETWEEN GENETICALLY MODIFIED AND CONVENTIONAL CORN CROPS IN ROMANIA

Dorina, Bonea, Viorica, Urechean, Rodica, Soare, Elena, Bonciu

First published: 2014-06-20https://doi.org/10.5593/sgem2014/b61/s25.071View metrics

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Title
THE CROSS-POLLINATION STUDY BETWEEN GENETICALLY MODIFIED AND CONVENTIONAL CORN CROPS IN ROMANIA
Authors
Dorina, Bonea, Viorica, Urechean, Rodica, Soare, Elena, Bonciu
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 14th SGEM GeoConference on NANO, BIO AND GREEN TECHNOLOGIES FOR A SUSTAINABLE FUTURE
Publisher
Stef92 Technology
Year
2014
Pages
Not available yet
ISSN
1314-2704
ISBN
978-619-7105-20-9
Language
en
Publication type
Conference Paper
References30
  1. James C. Global Status of Commercialized Biotech/GM Crops: 2013. ISAAA Brief No. 46. ISAAA: Ithaca, NY, 2013;

  2. MADR. Suprafe țele cultivate în scop comercial cu porumb modificat genetic Mon 810, 2013. http://www.madr.ro/docs/agricultura/suprafete-porumb-modificat-genetic- MON_810-2013.pdf (accesed 10.04. 2014) 14th SGEM GeoConference on Nano, Bio and Green – Technologies for a Sustainable Future

  3. Regulation (EC) No 1829/2003 of the European Parliament and of the Council of 22 September 2003 on genetically modified food and feed (Text with EEA relevance), Official Journal of the European Union 268, pp. 1–23, 2003;

  4. Regulation (EC) No 1830/2003 of the European Parliament and of the Council of 22 September 2003 concerning the traceability and labelling of genetically modified organisms and the traceability of food and feed products produced from genetically modified organisms and amending Directive 2001/18/EC, Official Journal of the European Union 268, pp. 24– 28, 2003;

  5. Devos Y., Reheul D. & De Schrijver A. The co-existence between transgenic and nontransgenic maize in the European Union: a focus on pollen flow and crossfertilization. Environmental Biosafety Research, vol. 4, pp 71-87, 2005;

  6. Messean A., Sausse C., Gasquez J. & Darmency H., 2007. Occurrence of genetically modified oilseed rape seeds in the harvest of subsequent conventional oilseed rape over time. Eur. J. Agron.vol. 27, pp. 115–122, 2007;

  7. Kuo B.J., Nieh S.C., Shieh G.J. & Lin W.S..Simulating the gene flow of genetically modified maize in Taiwan, Agricultural Sciences, vol. 5, pp. 440-453, 2014;

  8. Messeguer J., Peñas G., Ballester J., Bas M., Serra J., Salvia J., Palaudelmàs M. & Melé E. Pollen mediated gene flow in maize in real situations of coexistence. Plant Biotechnology Journal vol. 4, pp. 633–645, 2006;

  9. Warwick S.I., Beckie H.J. & Hall L.M. Gene flow, invasiveness, and ecological impact of GM crops. Ann N Y Acad. Sci. 1168, pp. 72-99, 2009.

  10. Langhof M., Hommel B., Huesken A., Schiemann J., Wehling P., Wilhelm R. & Ruehl G. Coexistence in maize: do nonmaize buffer zones reduce gene flow between maize fields Crop Sci. Vol. 48, pp. 305-316, 2008;

  11. Devos Y., Demont M., Dillen K., Reheul D., Kaiser M. & Sanvido O. Coexistence of genetically modified (GM) and non-GM crops in the European Union. Agronomy for Sustainable Development, vol. 29, pp 11-30, 2009;

  12. Devos Y., Thas O., Cougnon M., De Clercq E.M., Cordemans K. & Reheul D. Feasibility of isolation perimeters for genetically modified maize. Agronomy for Sustainable Development, vol. 28, pp. 195– 206, 2008;

  13. Della Porta G., Ederle D., Bucchini L., Prandi M., Verderio A. & Pozzi C. Maize pollen mediated gene flow in the Po Valley (Italy): source-recipient distance and effect of flowering time. European Journal of Agronomy, 28, pp. 255-265, 2008;

  14. Melé E., Peńas G., Serra J., Salvia J., Ballester J., Bas M., Palaudelmŕs M. & Messeguer J. Quantification of pollen gene flow in large maize fields by using a kernel colour trait. In: 2nd International Conference on Coexistence Between GM and Non- GM Based Agricultural Supply Chains, Montpellier, pp. 289 –291, 2005;

  15. Popescu S., Leprince F., Ioja- Boldura O., Măruţescu A., Sabău I. & Badea E.M. Quantification of pollen mediated gene flow in maize. Romanian Biotechnological Letters, vol. 15/issue.3, pp. 5351-5360, 2010;

  16. James C. Global Status of Commercialized Biotech/GM Crops: 2013. ISAAA Brief No. 46. ISAAA: Ithaca, NY, 2013;

  17. MADR. Suprafe țele cultivate în scop comercial cu porumb modificat genetic Mon 810, 2013. http://www.madr.ro/docs/agricultura/suprafete-porumb-modificat-genetic- MON_810-2013.pdf (accesed 10.04. 2014) 14th SGEM GeoConference on Nano, Bio and Green – Technologies for a Sustainable Future

  18. Regulation (EC) No 1829/2003 of the European Parliament and of the Council of 22 September 2003 on genetically modified food and feed (Text with EEA relevance), Official Journal of the European Union 268, pp. 1–23, 2003;

  19. Regulation (EC) No 1830/2003 of the European Parliament and of the Council of 22 September 2003 concerning the traceability and labelling of genetically modified organisms and the traceability of food and feed products produced from genetically modified organisms and amending Directive 2001/18/EC, Official Journal of the European Union 268, pp. 24– 28, 2003;

  20. Devos Y., Reheul D. & De Schrijver A. The co-existence between transgenic and nontransgenic maize in the European Union: a focus on pollen flow and crossfertilization. Environmental Biosafety Research, vol. 4, pp 71-87, 2005;

  21. Messean A., Sausse C., Gasquez J. & Darmency H., 2007. Occurrence of genetically modified oilseed rape seeds in the harvest of subsequent conventional oilseed rape over time. Eur. J. Agron.vol. 27, pp. 115–122, 2007;

  22. Kuo B.J., Nieh S.C., Shieh G.J. & Lin W.S..Simulating the gene flow of genetically modified maize in Taiwan, Agricultural Sciences, vol. 5, pp. 440-453, 2014;

  23. Messeguer J., Peñas G., Ballester J., Bas M., Serra J., Salvia J., Palaudelmàs M. & Melé E. Pollen mediated gene flow in maize in real situations of coexistence. Plant Biotechnology Journal vol. 4, pp. 633–645, 2006;

  24. Warwick S.I., Beckie H.J. & Hall L.M. Gene flow, invasiveness, and ecological impact of GM crops. Ann N Y Acad. Sci. 1168, pp. 72-99, 2009.

  25. Langhof M., Hommel B., Huesken A., Schiemann J., Wehling P., Wilhelm R. & Ruehl G. Coexistence in maize: do nonmaize buffer zones reduce gene flow between maize fields Crop Sci. Vol. 48, pp. 305-316, 2008;

  26. Devos Y., Demont M., Dillen K., Reheul D., Kaiser M. & Sanvido O. Coexistence of genetically modified (GM) and non-GM crops in the European Union. Agronomy for Sustainable Development, vol. 29, pp 11-30, 2009;

  27. Devos Y., Thas O., Cougnon M., De Clercq E.M., Cordemans K. & Reheul D. Feasibility of isolation perimeters for genetically modified maize. Agronomy for Sustainable Development, vol. 28, pp. 195– 206, 2008;

  28. Della Porta G., Ederle D., Bucchini L., Prandi M., Verderio A. & Pozzi C. Maize pollen mediated gene flow in the Po Valley (Italy): source-recipient distance and effect of flowering time. European Journal of Agronomy, 28, pp. 255-265, 2008;

  29. Melé E., Peńas G., Serra J., Salvia J., Ballester J., Bas M., Palaudelmŕs M. & Messeguer J. Quantification of pollen gene flow in large maize fields by using a kernel colour trait. In: 2nd International Conference on Coexistence Between GM and Non- GM Based Agricultural Supply Chains, Montpellier, pp. 289 –291, 2005;

  30. Popescu S., Leprince F., Ioja- Boldura O., Măruţescu A., Sabău I. & Badea E.M. Quantification of pollen mediated gene flow in maize. Romanian Biotechnological Letters, vol. 15/issue.3, pp. 5351-5360, 2010;

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