Abstract
Sugarcane production can be affected by extreme environmental conditions, such as drought stress. This study focused on establishing a screening method to evaluate and select drought tolerant germplasm of Saccharum species. A new drought screening methodology is presented in this paper. A randomized block design experiment was conducted under greenhouse conditions with 2 months old seedlings of five genotypes of Saccharum spontaneum (IRAN 28, JW43, TUS12-72, TUS12-23, X08-0299) and one genotype of a commercial cultivar (Saccharum spp. CP72-1210), under well-irrigated and water stress conditions. Three treatments were established with irrigation intervals at 3, 6, and 9 days, with four replicates per each genotype in each treatment. Evapotranspiration, stomatal conductance, total biomass, leaf death rate, rate of new tillers and shoot growth were evaluated during the experiment. JW43 and CP72-1210 presented the highest values of stomatal conductance with non-significant differences. Accumulated water used by all the genotypes was significantly different among the three treatments. Also, significant differences were found in the total dry biomass among all the treatments. Results showed that TUS12-23 genotype can be classified as very tolerant to drought stress and JW43 is the less tolerant, whereas the other genotypes could be susceptible and may survive under mild drought conditions. Results also indicated that the methodology used, and the parameters measured are effective in identifying sugarcane germplasm with extreme reaction to drought stress. Key words: Drought stress, Saccharum species, biomass, stomatal conductance, agronomic parameters.
Highlights
Sugarcane (Saccharum species) is a crop of economic importance worldwide for producing sugar and considered as an essential renewable source of biofuel (Prabu et al, 2011)
This study focused on establishing a screening method to evaluate and select drought tolerant germplasm of Saccharum species
JW43 presented the highest evapotranspiration rate under well-watered conditions, whereas no significant differences were found under drought conditions
Summary
Sugarcane (Saccharum species) is a crop of economic importance worldwide for producing sugar and considered as an essential renewable source of biofuel (Prabu et al, 2011). Interspecific hybrids between Saccharum spontaneum and Saccharum officinarum (Saccharum spp.) This specie can be adapted to different environmental conditions; drought stress can limit the amount of sugarcane establishment and growth in many world regions because sugarcane requires substantial amounts of water during early stages (Wiedenfeld, 2008). The limitation of drought stress on sugarcane productivity has been the subject of several studies (Inman-Bamber and Smith, 2005; Smit and Singels, 2006; Silva et al, 2008; Singels et al, 2010). One alternative to mitigate water deficit in sugarcane is irrigation (Inman-Bamber, 2004); water is limited in some regions, and equipment costs make this strategy expensive (Silva et al, 2007). Studies aimed at selecting drought-tolerant cultivars are a viable alternative to increase productivity and a necessity for the future (Prabu et al, 2011)
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