Tables |
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| Table 1. |
Global Area of Biotech Crops, the First 20 Years, 1996 to 2015 |
| Table 2. |
Global Area of Biotech Crops, 2014 and 2015: Industrial and Developing Countries (Million Hectares) |
| Table 3. |
Global Area of Biotech Crops in 2014 and 2015: by Country (Million Hectares) |
| Table 4. |
Biotech Crop Hectarage in Brazil, by Crop, 2015 |
| Table 5. |
Adoption of Biotech Crops by State in Brazil, 2015 |
| Table 6. |
Biotech Soybean Adoption by State in Brazil, 2015 |
| Table 7. |
Biotech Maize Adoption by State in Brazil, Summer + Winter Seasons, 2015 |
| Table 8. |
Biotech Maize Adoption by State in Brazil, Summer Season, 2015 |
| Table 9. |
Biotech Maize Adoption by State in Brazil, Winter Season, 2015 |
| Table 10. |
Biotech Cotton Adoption by State in Brazil, 20105 |
| Table 11. |
Commercial Biotech Event Approvals for Planting, Food and Feed in Argentina, 1996 to 2015 |
| Table 12. |
Economic Benefits of Biotech Crops (Million US$) and Percentage Distribution |
| Table 13. |
Distribution of Bt Brinjal Hybrids and Open Pollinated Varieties in Selected Institutions |
| Table 14. |
Direct and Spill-over Benefits of HT Canola (Ca$M) |
| Table 15. |
Canola’s Total Economic Impact on Wages and Jobs, 2004/05 to 2011/12 |
| Table 16. |
Comparisons Between Performance of Bt Poplar Clones and non-Bt Clones in China in the Period 2001 to 2011 |
| Table 17. |
Commercial Approvals for Planting in Paraguay, 2004 to 2015 |
| Table 18. |
Adoption of Bt Cotton in Pakistan, 2010 to 2015 |
| Table 19. |
Biotech Maize Events Granted Contained Field Trials in 2015 |
| Table 20. |
List of Crops and Varieties for Farmers in South Africa |
| Table 21. |
Partial Budget for Production of RR®soybean and its Conventional Equivalent in Bolivia |
| Table 22. |
Approval of Biotech Maize Events in the Philippines, 2002 to 2015 |
| Table 23. |
Hectares of Canola, Conventional and RR® Biotech Planted in Australia, by State, 2014 and 2015 |
| Table 24. |
Adoption of Bt Cotton in Myanmar, 2006 to 2015 |
| Table 25. |
Legislative System to Regulate & Promote Agriculture Inputs by the MOAI in Myanmar, 2015 |
| Table 26. |
Adoption of Biotech Cotton in Mexico, 2014 and 2015 |
| Table 27. |
Total Imports of GM Crops by Mexico (Thousand Metric Tons), 2011 to 2015 |
| Table 28. |
Hectares of Major Biotech Seed Crops Grown for Export in Chile, 2002/03 to 2015/16 |
| Table 29. |
Major Regions Planting Bt Maize in Portugal, 2015 |
| Table 30. |
Bt Eggplant Hectarage and Number of Farmers in 2014 and 2015 |
| Table 31. |
Five Bt Brinjal Varieties for Possible Commercialization in 2016 |
| Table 32. |
Adoption of Bt Brinjal in Bangladesh, 2014 and 2015 |
| Table 33. |
Status of Field Trials of GM Crops in Bangladesh, 2015 |
| Table 34. |
Yield of Bt and Non-Bt Brinjal Varieties in Five Regions in Bangladesh in 2014-2015 Planting Seasons |
| Table 35. |
Hectares of Bt Maize Planted in EU Countries in 2006 to 2015 |
| Table 36. |
Import of GMOs by the EU |
| Table 37. |
Imports of Maize Grain into Cuba, 2006-2009 |
| Table 38. |
Global Area of Biotech Crops, 2014 and 2015: by Crop (Million Hectares) |
| Table 39. |
Global Area of Biotech Crops, 2014 and 2015: by Trait (Million Hectares) |
| Table 40. |
Biotech Crop Area as Percent of Global Area of Principal Crops, 2015 (Million Hectares) |
| Table 41. |
The Global Value of the Biotech Crop Market, 1996 to 2015 |
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Figures |
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| Figure 1. |
Commodity Prices of Biotech Crops, Soybean, Rapeseed/Canola, Cotton and Maize from June 2008 to May 2015 |
| Figure 2. |
Global Area of Biotech Crops, 1996 to 2015 (Million Hectares) |
| Figure 3. |
Global Area of Biotech Crops, 1996 to 2015: Industrial and Developing Countries (Million Hectares) |
| Figure 4. |
Global Area (Million Hectares) of Biotech Crops, 1996 to 2015, by Country, and Mega-Countries, and for the Top Ten Countries |
| Figure 5. |
Adoption of Biotech Crops in Brazil, by Crop, 2003 to 2015 |
| Figure 6. |
Adoption of Biotech Cotton by Farmers in India and the USA, 1996 to 2015 |
| Figure 7. |
Adoption and Impact of Bt Cotton on the Cotton Production in India, 1995 to 2015 |
| Figure 8. |
Fourteen Years of Bt Cotton Adoption in India, 2002 to 2015 |
| Figure 9. |
Percentage of Conventional, Biotech and Mutation-based Herbicide Tolerant (HT) Canola Planted in Canada, 1995 to 2015 (Million Hectares) |
| Figure 10. |
Percentage Distribution of Different Types of Soy Planted in Bolivia, 1995-2013 |
| Figure 11. |
Increase in Hectarage of Biotech Maize in the Philippines and Proportion of Commercialized Traits, 2003-2015 |
| Figure 12. |
Production and Yield Increase of Maize (White and Yellow) in the Philippines, 2000 to 2015 |
| Figure 13. |
Supply, Demand and Yellow Maize Imports in the Philippines, 2000 to 2014. |
| Figure 14. |
Cultivated Area of Cotton in Australia as Affected by Rainfall Patterns |
| Figure 15. |
Three Zones of Burkina Faso’s Cotton-growing Basin |
| Figure 16. |
Bt Cotton Adoption Profile in Burkina Faso |
| Figure 17. |
Yield of Bt Cotton as Compared to Conventional Cotton |
| Figure 18. |
Farm Size: Yields by Planted Area |
| Figure 19. |
Cotton Production in Myanmar, 1994 to 2014 |
| Figure 20. |
Trends in Export of Key Agriculture Commodities in Myanmar, 2010 to 2015 (‘000 tons) |
| Figure 21. |
Bt Cotton Adoption Profile in Sudan, 2012 to 2015 |
| Figure 22. |
On-going Biotech/GM Crops Research Activities in Africa as of October 2015 |
| Figure 23. |
Global Area of Biotech Crops, 1996 to 2015: by Crop (Million Hectares) |
| Figure 24. |
Global Area of Biotech Crops, 1996 to 2015: by Trait (Million Hectares) |
| Figure 25. |
Global Adoption Rates (%) for Principal Biotech Crops, 2015 (Million Hectares) |
