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Sucrose Accumulation Maturity Curves for CP 80-1743

Hardev S. Sandhu, Maninder P. Singh, Robert A. Gilbert, James M. Shine, Jr., and Ronald W. Rice

Introduction

Sugarcane (a complex hybrid of Saccharum spp.) is harvested during a five-month period (October to March) in south Florida. "Early maturing" cultivars milled in October or November may not have reached their peak sucrose content, but may have higher sugar per ton (SPT, lb of sucrose per ton of sugarcane biomass) than other cultivars at the onset of milling operations (Miller and James 1977). Under current industry milling capacities, harvesting the 382,000 acres of Florida sugarcane takes roughly five to six months depending upon weather conditions. Unavoidably, sugarcane plants harvested during the early harvest period have not yet achieved maximum sugar content. Consequently, the sugar content for any given cultivar will change over the course of the harvest season, which can impact the profitability of the harvest. Maturity curves of SPT vs. time have been developed for sugarcane cultivars in South Africa (Bond 1982), Louisiana (Legendre and Fanguy 1975; Legendre 1985; Richard et al. 1981) and Mauritius (Mamet and Galwey 1999). Although it is known that sucrose accumulation rates vary between varieties, maturity curves for recently released "CP" sugarcane cultivars (those developed at the USDA-ARS Sugarcane Field Station in Canal Point, Florida) have not been reported since 1977 (Rice 1974; Miller and James 1977). CP cultivars occupy greater than 80 percent of Florida sugarcane acreage (VanWeelden et al. 2017), and are also economically important (Tew 2003) in many countries including Argentina (25% of total acreage), Belize (16%), El Salvador (50%), Guatemala (65%), Honduras (47%), Mexico (15%), Morocco (54%), Nicaragua (75%), Senegal (9%), and Venezuela (9%). Since most sugarcane growers in Florida plant a diverse selection of cultivars, these maturity curves are needed as tools to help growers make informed choices regarding harvest scheduling decisions.

This publication presents the sucrose accumulation maturity curves for different crop ages (plant cane, first ratoon, and second ratoon) of CP 80-1743. CP 80-1743 harvest samples were collected at two-week intervals at five locations over four harvest seasons in the Everglades Agricultural Area. Biomass and sugar yields were determined on all samples in order to generate SPT trends over time. A full comparison of CP 80-1743 SPT trends with 12 other CP cultivars may be found in EDIS publication SC069, Maturity Curves and Harvest Schedule Recommendations for CP Sugarcane Varieties (https://edis.ifas.ufl.edu/sc069).

Cultivar Description

CP 80-1743 is grown on 1.3% of the EAA sugarcane acreage (VanWeelden et al. 2020). The acreage under CP 80-1743 cultivar is declined rapidly in last 7–8 years due to its high–orange rust susceptibility, but it is still among the principal sugarcane cultivars in Florida.

Maturity Curves

Figure 1 presents the sugar per ton (SPT, lb sugar/ton sugarcane biomass) for CP 80-1743 from mid-October to mid-March. Separate curves are presented for plant cane, first ratoon, second ratoon, and the entire data set.

Research has shown that older ratoon crops generally have higher SPT values but lower tonnage (Glaz et al. 1989; MacColl 1976). Thus, growers should generally expect the SPT of their sugarcane crop to increase with crop age (see Figure 1). The mean SPT of CP 80-1743 averaged 258 lb/ton in plant cane and first ratoon, increasing to 270 lb/ton in second ratoon. The overall mean across crop ages ranked fifth out of 13 CP cultivars.

Figure 1. Sucrose accumulation maturity curves for CP 80-1743.
Figure 1.  Sucrose accumulation maturity curves for CP 80-1743.

Grower recommendations are based on the entire data set across all crop ages. Early-season predicted SPT for CP 80-1743 at the onset of harvest on Oct. 14 was 219 lb/ton (ranked second out of 13 cultivars), and maximum predicted SPT was 274 lb/ton on Jan. 26 (ranked ninth out of 13 cultivars). In comparison to other CP cultivars, CP 80-1743 matures quickly and is also prone to deterioration following freeze events. This cultivar is also susceptible to leaf scald which becomes more severe later in the harvest season. For all these reasons, CP 80-1743 should be harvested during the first 50 days of the harvest season (see https://edis.ifas.ufl.edu/sc069).

References

Bond, R. S. 1982. "Maturity differences between varieties in the selection programme." Proc. Ann. Cong. S. African Sugar Technol. Assoc. 56: 136–139.

Gilbert, R. A., J. M. Shine, Jr., J. D. Miller and R. W. Rice. 2004. Sucrose Accumulation and Harvest Schedule Recommendations for CP Sugarcane Varieties. Gainesville: University of Florida Institute of Food and Agricultural Sciences. https://edis.ifas.ufl.edu/sc069

Glaz, B., M. F. Ulloa and R. Parrado. 1989. "Cultivation, cultivar and crop age effects on sugarcane." Agron. J. 81: 163–167.

Legendre, B. L. 1985. "Changes in juice quality of nine commercial sugarcane varieties grown in Louisiana." J. Am. Soc. Sugarcane Technol. 4: 54–57.

Legendre, B. L., and H. Fanguy. 1975. "Relative maturity of six commercial sugarcane varieties grown in Louisiana during 1973." Sugar Bull. 53 (2): 6–8.

MacColl, D. 1976. "Growth and sugar accumulation of sugarcane: II. Percentage of sugar in relation to pattern of growth." Expl. Agric. 12: 369–377.

Mamet, L. D., and N.W. Galwey. 1999. "A relationship between stalk elongation and earliness of ripening in sugarcane." Expl. Agric. 35: 283–291.

Miller, J. D., and N. I. James. 1977. "Maturity of six sugarcane varieties in Florida." Proc. Am. Soc. Sugar Cane Tech. 7: 107–111.

Richard, C. A., F. A. Martin, and G. M. Dill. 1981. "Maturity patterns of several Louisiana sugarcane varieties." J. Am. Soc. Sugarcane Technol. 8: 62–65.

Rice, E. 1974. "Maturity studies of sugarcane varieties in Florida." Proc. Am. Soc. Sugarcane Technol. 4: 33–35.

Tew, T. L. 2003. "World sugarcane variety census—year 2000." Sugar Cane International March/April 2003: 12–18.

VanWeelden, M., S. Swanson, W. Davidson, M. Baltazar, and R. Rice. 2020. "Sugarcane variety census-Florida 2019." Sugar J. 83: 8–20.

Publication #SS-AGR-216

Release Date:September 3, 2021

Related Experts

Singh, Maninder P.

University of Florida

Sandhu, Hardev S

Specialist/SSA/RSA

University of Florida

Gilbert, Robert A

Specialist/SSA/RSA

University of Florida

Rice, Ronald W.

County agent

University of Florida

Related Units

Fact Sheet

About this Publication

This document is SS-AGR-216, one of a series of the Agronomy Department, UF/IFAS Extension. Original publication date April 2004. Revised January 2018 and July 2021. Visit the EDIS website at https://edis.ifas.ufl.edu for the currently supported version of this publication. This publication is also a part of the Florida Sugarcane Handbook, an electronic publication of the Agronomy Department.

About the Authors

Hardev S. Sandhu, associate professor, Agronomy Department, UF/IFAS Everglades Research and Education Center; Maninder P. Singh, former assistant scientist, Agronomy Department, UF/IFAS EREC; Robert A. Gilbert, Dean of research, UF/IFAS; James M. Shine, Jr., Sugar Cane Grower's Cooperative of Florida; and Ronald W. Rice, Extension Director, UF/IFAS Extension Palm Beach County; UF/IFAS Extension, Gainesville, FL 32611.

Contacts

  • Hardev Sandhu