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Grace Breeding Ltd., an AgClimateTech company, has revealed the results of its field trials conducted in Brazil, demonstrating the effectiveness of its NFT Bio-fertilizer in corn plants. These trials, conducted in collaboration with the University of Londrina, confirmed the preliminary results obtained in greenhouse studies earlier this year. The field trials showcased improved nitrogen and water efficiency, as well as increased carbon sequestration in corn plants treated with Grace Breeding’s NFT Bio-fertilizer. The sustainable agricultural solution offered by NFT aligns with environmental responsibility and aims to combat climate change by reducing nitrogen usage and carbon emissions.
The encouraging results from the Brazilian field trials hold significant implications for corn cultivation in the country, especially considering Brazil’s recent emergence as the leading corn exporter, surpassing the United States. The NFT Bio-fertilizer not only enables robust corn growth but also presents a sustainable alternative to synthetic fertilizers, which are harmful to the environment. The NFT technology’s potential to enhance photosynthesis and improve the soil biome by providing nutrients and carbon for beneficial microorganisms, such as nitrogen-fixing bacteria, further highlights its positive impact on agricultural sustainability.
With the successful product registration in Brazil, Grace Breeding plans to advance its NFT program and make the product available to farmers in Brazil by the end of the year. By reducing the reliance on synthetic fertilizers and curbing the detrimental effects of urea, the NFT technology offers a viable solution for Brazilian farmers, who have been recognized as the leading adopters of biofertilizers globally.
The complete results of the Brazilian field trials demonstrated increased production of photoassimilates, reduced water loss, and higher internal carbon accumulation in corn plants treated with NFT technology. Notably, even under reduced nitrogen doses (50% of the recommended amount), the physiological and nutritional parameters of the corn plants remained unchanged compared to those grown with the full recommended dose. Furthermore, the size, stem diameter, and number of leaves in the corn plants treated with NFT and lower nitrogen doses were not affected, emphasizing the technology’s efficiency in corn growth.
Professor Juliano Vilela de Resende, Ph.D., from the Agronomy Department at the Universidade Estadual de Londrina, commented on the trial results, stating that NFT enhances the photosynthetic apparatus of corn plants, leading to increased carbon sequestration without relying heavily on water. The technology also maintains constant chlorophyll levels regardless of the nitrogen dose applied, indicating its effectiveness in optimizing photosynthesis. Additionally, the NFT technology is believed to positively impact the soil biome, benefiting microorganisms like nitrogen-fixing bacteria.
The use of NFT not only offers agricultural benefits but also contributes to reducing carbon emissions, which is crucial for mitigating environmental damage. As the demand for more sustainable agribusiness technologies continues to grow, the efficiency of bio-fertilizers, especially nitrogenous ones, along with improved water usage and increased carbon mobilization, becomes a significant focus of researchers worldwide. Grace Breeding’s NFT stands at the forefront of these investigations, with advanced validation processes showcasing its efficiency in nitrogen usage, water management, and carbon mobilization in maize crops.
Grace Breeding’s collaboration with the University of Londrina plays a crucial role in advancing the research and development of NFT. The partnership aims to improve nutrient absorption from the soil, increase carbon sequestration, and enhance the efficiency of nitrogenous feeding. By reducing the dependence on synthetic fertilizers, farmers can promote sustainable practices while maintaining crop health.
Grace Breeding’s NFT is a sustainable agricultural solution that works in combination with a natural, non-pathogenic bacteria to enable crops to naturally fix nitrogen, reducing the need for chemical fertilizers. By significantly reducing CO2 emissions and minimizing environmental impact on soil and groundwater, the NFT technology offers a more environmentally friendly alternative to synthetic nitrogen use. The global market for chemical nitrogen fertilizers reached a value of over $163.2 billion in 2021, highlighting the demand for sustainable alternatives in the industry.
Grace Breeding’s NFT can be applied to various field crops such as corn, wheat, soy, and rice, and requires less frequent application compared to traditional methods. While conventional fertilization typically requires three to four applications during the season, NFT only needs to be applied once during sowing. This reduction in fertilizer application frequency contributes to the overall sustainability and cost-effectiveness of the technology.
Grace Breeding is dedicated to developing environmentally sustainable products that provide efficient and natural solutions for farmers and distributors. With research and development centers worldwide, the company focuses on disrupting crop agriculture by offering innovative solutions for bio-fertilization and climate stress relief. By reducing the environmental damage caused by synthetic fertilizers, Grace Breeding aims to foster a more sustainable and resilient agricultural industry.
In a world where agricultural sustainability is of utmost importance, Grace Breeding’s NFT technology represents a significant step forward. With the successful field trials in Brazil confirming its efficiency in corn plants, the company is poised to make a positive impact on the agricultural sector while contributing to global efforts to combat climate change.
