"Conventional Sugarcane Breeding in South Africa: Progress and Future Prospects"
written by Marvellous Zhou,
published by American Journal of Plant Sciences, Vol.4 No.2, 2013
has been cited by the following article(s):
  • Google Scholar
  • CrossRef
[1] Energy Cane: A Sound Alternative of a Bioenergy Crop for Tropics and Subtropics
2019
[2] Assessing the likelihood of gene flow from sugarcane (Saccharum hybrids) to wild relatives in South Africa
Frontiers in Bioengineering and Biotechnology, 2018
[3] Predicting genotypic differences in irrigated sugarcane yield using the Canegro model and independent trait parameter estimates
European Journal of Agronomy, 2018
[4] Use of a Mutated Protoporphyrinogen Oxidase Gene as an Effective In Vitro Selectable Marker System that Also Conveys in planta Herbicide Resistance in …
Tropical Plant Biology, 2018
[5] Temperature and Relative Humidity Effects on Sugarcane Flowering Ability and Pollen Viability Under Natural and Seminatural Conditions
Sugar Tech, 2018
[6] Iodine, Silicon, and Vanadium Differentially Affect Growth, Flowering, and Quality Components of Stalks in Sugarcane Héctor Emmanuel Sentíes-Herrera, Libia
Sugar Tech, 2018
[7] Using logistic regression models to determine optimum combination of cane yield components among sugarcane breeding populations
2018
[8] Location and crop-year effects on sugarcane genotype performance for the coastal short cycle breeding programmes in South Africa
International Journal of Environmental & Analytical Chemistry, 2017
[9] Molecular insights into the origin of the brown rust resistance gene Bru1 among Saccharum species
Theoretical and Applied Genetics, 2017
[10] Iodine, Silicon, and Vanadium Differentially Affect Growth, Flowering, and Quality Components of Stalks in Sugarcane
Sugar Tech, 2017
[11] Trends in broad-sense heritability and predicted selection gains for the coastal short cycle breeding sugarcane programmes in South Africa
International Journal of Educational Sciences, 2017
[12] Free Fiber Level Drives Resilience and Hybrid Vigor in Energy Cane
Journal of Scientific Achievements, 2017
[13] ree Fiber Level Drives Resilience and Hybrid Vigor in Energy Cane
2017
[14] Sugarcane production under smallholder farming systems: Farmers preferred traits, constraints and genetic resources
Chemical Speciation and Bioavailability, 2016
[15] Cultivar genetic gains from 50 years of irrigated sugarcane breeding in South Africa
Clinical Gerontologist, 2016
[16] Minimum detectable differences for cane yield, sucrose content and sugar yield among the Midlands and Coastal Short Cycle sugarcane breeding programmes in South Africa
South African Journal of Plant and Soil, 2015
[17] Disease resistance in sugarcane–An overview
CEP, 2015
[18] Quantifying Sugarcane Cultivar Genetic Gains in the Midlands Region of South Africa
Agronomy Journal, 2015
[19] Bayesian statistical calibration of variety parameters in a sugarcane crop model
2015
[20] Minimum detectable differences for cane yield, sucrose content and sugar yield among the Midlands and Coastal Short Cycle sugarcane breeding programmes in …
2015
[21] Planting India in Africa
2014
[22] 蔗糖产业发展研究综述
现代农业科技, 2014
[23] Study of sugarcane regeneration through callus and somatic embryos introduction of saccharumofficinarum
2014
[24] Evaluating the Impact of Land Use/Land Cover Change on Soil Erosion Runoff Using SWAT Model at Tikur Wuha Watershed
Thesis, Addis Ababa University Institutional Repository, 2010