Location: Sugarcane Production Research
Project Number: 6030-21000-005-00-D
Project Type: Appropriated
Start Date: Jul 23, 2013
End Date: Jul 22, 2018
1. Produce high quality seed from designed crosses of improved sugarcane germplasm, and from these seeds, select and release higher yielding sugarcane cultivars with better tolerance and resistance to major biotic and abiotic stresses adapted to Florida conditions. 2. Enhance sugarcane crossing and selection by using molecular methods and markers, devising selection methodologies that accelerate gains from sugarcane breeding, identifying new sources of resistance to biotic and abiotic stresses that can be used as parental clones in sugarcane crossing programs, and characterizing sugarcane and related germplasm for compatibility in crossing. 2.A. Develop methodologies to screen young plants of sugarcane and its relatives for tolerance to short- and moderate-duration flooding. 2.B. Compare and determine methodologies that improve selection efficiency and maximize genetic gains in the Canal Point sugarcane breeding program. 2.C. Develop canopy spectral reflectance algorithms for rapid prediction of sugarcane stalk sucrose content and yield potential to improve early stage genotype selection. 3. Increase yields by improving the tolerance of sugarcane to biotic and abiotic stresses prevalent on the sand and muck soils of Florida through molecular methods and markers and new knowledge of the impact of physiological, morphological, and agronomic traits on these stresses. 3.A. Identify genotypic variation in growth, physiological, and yield traits on sand soils and relationships between these traits. 3.B. Assess the genetics of freeze tolerance in sugarcane and develop stress indices for its field tolerance screening. 3.C. Determine the main and interactive effects on growth and yields of flood duration and drainage depth on recently planted or recently ratooned sugarcane.
The primary goal of this project is to improve profits of Florida sugarcane growers by developing more productive and profitable cultivars with improved resistance and tolerance to biotic and abiotic stresses. Most research in genetics, agronomy, and crop physiology focuses on improving the breeding and selection of cultivars to yield more on muck and sand soils and have tolerance or durable resistance to diseases and abiotic stresses. This process will be enhanced through improved knowledge of classic and molecular genetics, identification of important traits for selection, and selection methodologies. A portion of the research aims to improve yields through modified agronomic practices. This section focuses on the research objectives of Glaz, Edmé, and Zhao. We will present each of the two new SYs with their broad research topics when they arrive and expect them to choose specific projects and develop approaches for those projects. The Molecular Biologist will focus substantially on disease resistance through approaches using molecular genetics. The Research Geneticist will focus generally on improving the breeding and selection process. Specific efforts may focus on our new sand program, and this may include the pursuit of links between traditional efforts to breed for increased sucrose yields and newer programs that use sugarcane and related species for cellulosic ethanol and enhanced evaluations of the genotypes that will be brought in by ongoing research from the Miami World Collection. The Molecular Biologist and Research Geneticist are expected to interact with each other, and with colleagues at Canal Point, the University of Florida in Gainesville and its Everglades Research and Education Center in Belle Glade, and with other public and private industry scientists in Florida and Louisiana, and other areas.