A study by Celeres indicates that 82.7% of the area for soybeans, 64.9% of the area for corn and 39.7% of the area for cotton will be using GM seeds; the central-western region is now leading in the size of the area planted with GM soybeans.

The area in Brazil planted with transgenic seeds is now growing at a faster pace than the growth of the entire planted area for crops of soybeans, corn and cotton – the three crops with genetically modified varieties that have been approved, as indicated by the first review of the adoption of biotechnology in the 2011-2012 harvest, conducted by the consulting firm Celeres.

The area planted with transgenic soybeansfor thenext harvest will be 13.4% greater than it was in the 2010-2011 harvest, occupying 20.8 million hectares (82.7% of the total area projected). With the approval of a new event in 2010, there are now four technologies that have been released in Brazil, including herbicide tolerance (TH), insect resistance (RI) and combinations.

"This growth is the result of constant improvement of the biotechnological varieties, which are increasingly well adapted to the different productive regions of the country," observes Anderson Galvao, managing partner at Celeres and coordinator of the study. He emphasizes that for the first time in the history of Brazilian agriculture, with 8.8 million hectares, the central-western region– traditional producer of conventional soybeans – has exceeded the Southern regionin absolute terms for area allocated to transgenic soybeans.

GMcotton, for its part, which had three new events approved in the past year, will occupy 606 thousand hectares, equivalent to 39% of fields under cultivation (an increase of 62.7% over the previous cycle). Cottonseeds with RI, TH and combined technologies are currently available to growers. "The growth in the adoption of biotechnology for cotton crops shows that certain gaps that existed in the supply of technologies are beginning to be filled, supplying the real needs of cotton growers.  When the producer sees competitive advantages in the technology, he adopts it immediately," Galvao says.

In the case of corn, GM hybrids will be present in 9.1 million hectares, or 64.9% of the area under cultivation, including summer harvests (4.5 million hectares, or 54% of the area under cultivation) and winter harvests (4.6 million hectares, equivalent to 80.4% of the area under cultivation). Brazil now has 16 GM events approved (including RI, TH and combined technologies), five of them having been approved by the CTNBio in the last 12 months.

To Galvao, corn cultivation has been the most successful by far in adopting biotechnology in Brazil: in four years, it already occupies more than half of the land where corn is grown. He also notes that a substantial portion is planted with materials thought of as low-tech, especially in the northern and northeast regions. "Considering only the hectares planted with high-tech materials, transgenic hybrids account for more than 70% of the area planted," he underscores.

"This rapid pace in adopting biotechnology for the growing of corn is a reflection of the direct and indirect benefits that transgenic hybrids reap for growers, who can now compete as equals in the international market," he stresses. A second review of the adoption of biotechnology for this harvest is scheduled for December, after work on the summer harvest crop is finished.

The complete study is available here.