Brachiaria genotypes adapted to poorly drained soils
Executive Summary
In Tropical America there are vast areas of poorly drained soils that are very important for the production of meat and milk. The Brachiarias occupy about 50% of the floodable areas in tropical pastures in Brazil; 60% of those areas in Bolivia, Peru and Ecuador; and significant proportions of those areas in other countries of the region. The most used cultivars have been B. decumbens cv. Basilisk, B. brizantha cv. Marandú and B. humidicola cv. Tully. The Marandú is the most used in the region, but it is susceptible to poor drainage, presenting symptoms of wilting and death. Tully is widely used in these regions for its high tolerance to poor drainage. However, it has low nutritional quality, limiting animal performance.
Breeding of the Brachiaria genus at CIAT has focused on the development of hybrids of the B. decumbens, B. brizantha and B. ruziziensis complex and recently on hybrids of B. humdicola. They want to combine characteristics such as resistance to spittlebug and Rhizoctonia solani, with adaptation to abiotic factors (acid soils, drought), high nutritional quality, yield and seed quality. The objective of the project was to develop and evaluate accessions of B. humidicola and Brachiaria hybrids (B. decumbens x B. brizantha x B. ruziziensis) with greater tolerance to waterlogged soils and with good agronomic performance through the identification of tolerance mechanisms and areas suitable for use.
The strategy included: 1. Carry out a spatial analysis to quantify livestock areas in Tropical America with poorly drained soils; 2. Apply a method of selecting Brachiaria genotypes adapted to poorly drained soils; 3. Select Brachiaria hybrids and B. humidicola accessions adapted to poorly drained soils; and 4. Evaluate the selected genotypes with producers.
The technological solution
The project, through a spatial analysis using the databases of GBIF (Global Biodiversity Information Facility) and Genesys (Portal of global information on genetic resources –ex situ-), produced maps to estimate the flood areas in the tropical zone of America Latin America and the Caribbean and with the use of global climate models, estimated the future expansion of flood areas in the different countries of the region due to climate change, and thus estimated the areas of potential use of Brachiarias for livestock, in areas not appropriate for cropping.
Five Brachiarias genotypes were also identified that combined desirable adaptation characteristics to floodable soils with nutritional attributes for livestock feeding and the anatomical and morphological mechanisms that make them more tolerant to poorly drained soils.
Results
Trough spatial analysis it was estimated that there are more than 300 million hectares in Latin America that have floods for more than 7 days. It was also estimated that the Brachiarias could be planted in approximately 6,500,000 km2.
Adaptation to flooded soils in Brachiaria spp. (> 7 days) is achieved more by morphological and anatomical changes of the root, such as the formation of new roots with aerenchyma, than by changes in the enzymatic activities of the root.
A method has been adapted to evaluate and visualize the growth and oxidative power of roots under flood conditions, which suggests that the Brachiaria genotypes best adapted to flooded soils produce deeper roots and not more surface roots.
The accessions of B. humidicola showed better adaptation to flooded soils than the hybrids of the B. brizantha x B. ruziziensis x B. decumbens complex.
Five Brachiaria genotypes (3 accessions and 2 hybrids) were identified as tolerant forage options for waterlogged soils in Latin America.
Two professional practices, a master's thesis, a doctoral thesis, and a visit by Nicaraguan technicians to CIAT were carried out.
The results were presented at international conferences (seven oral presentations and eight posters). Also, seven publications were prepared and an international award was obtained.
Beneficiaries
The direct beneficiaries are the researchers and technicians from Colombia, Nicaragua and Panama who participated in project activities. Also, the hundreds of researchers and technicians who have accessed the results and knowledge generated in the project through publications and presentations made at national and international conferences.
Indirect and potential beneficiaries would be the thousands of livestock producers who have flooded soils in their farms and who could use the accessions and hybrids of Brachiarias tested in the project.
Sustainable Development Goals
Participating Organizations
Executor
- International Center for Tropical Agriculture (CIAT) - Colombia
Co-executor
- Corporación Colombiana de Investigación Agropecuaria (CORPOICA) - Colombia
- Instituto Nicaragüense de Tecnología Agropecuaria (INTA) - Nicaragua
- Instituto de Innovación Agropecuaria de Panamá (IDIAP) - Panamá