Abstract

BRS 369RF and BRS 370RF were developed by the EMBRAPA as a part of efforts to create high-yielding germplasm with combinations of transgenic traits. BRS 369RF and BRS 370RF are midseason cultivars and have yield stability, adaptation to the central Brazilian savanna, good fiber quality and tolerance to glyphosate herbicide.

Key words:
Gossypium hirsutum; glyphosate tolerance; second crop season; linter yield

INTRODUCTION

Upland cotton (Gossypium hirsutum L. r latifolium Hutch) is an economically important species for fiber and seed production in Brazilian savanna. Recent efforts have been made in order to develop crop cultivars, especially to this environment (Morello et al. 2010Morello CL, Suassuna ND, Farias FJC, Lamas FM, Pedrosa MB, Ribeiro JL, Godinho VPC and Freire EC (2010) BRS 293: A midseason high-yielding upland cotton cultivar for Brazilian savanna. Crop Breeding and Applied Biotechnology10: 180-182., Amabile et al. 2013Amabile RF, Capettini F and Faleiro FG (2013) BRS Savanna: new six-rowed malting barley cultivar for irrigated crops in the Brazilian savana. Crop Breeding and Applied Biotechnology 13: 147-150.). In the last years, with the development of early maturing soybean cultivars, it became possible to grow cotton just after soybean harvest in the same crop season. In addition, sometimes producers sow cotton at row spacing of 0.45 m. For this growing system to be successful, it is necessary availability of compact genotypes, acceptance of weed and pest management technologies, including transgenics, stripper harvesting machines, and widespread application of growth regulators (Venugopalan et al. 2013Venugopalan MV, Kranthi KR, Blaise D, Lakde S and Sankaranarayana K (2013) High density planting system in cotton-The Brazil Experience and Indian Initiatives. Cotton Research Journal 5: 172-185.). The development of early maturing, compact and herbicide tolerant genotypes suitable to a short growing season became an aim for Brazilian cotton breeders.

The cotton breeding program of the Brazilian Agricultural Research Corporation (Embrapa) in Goiás State has run in partnership with private financial support from FIALGO (Fundo de Incentivo à Cultura do Algodão) and technical support from Goiás Foundation. In recent years, efforts have been made to develop cotton varieties with high yield and better fiber characteristics (Morello et al. 2010Morello CL, Suassuna ND, Farias FJC, Lamas FM, Pedrosa MB, Ribeiro JL, Godinho VPC and Freire EC (2010) BRS 293: A midseason high-yielding upland cotton cultivar for Brazilian savanna. Crop Breeding and Applied Biotechnology10: 180-182., Morello et al. 2012aMorello CL, Pedrosa MB, Suassuna ND, Lamas FM, Chitarra LG, Silva JL, Andrade FP, Barroso PAV, Ribeiro JL, Godinho VPC and Lanza MA (2012a) BRS 336: a high-quality fiber upland cotton cultivar for Brazilian savanna and semi-arid conditions. Crop Breeding and Applied Biotechnology12: 92-95., Morello et al. 2012bMorello CL, Pedrosa MB, Suassuna ND, Chitarra LG, Lamas FM, Silva JL, Andrade FP, Barroso PAV, Ribeiro JL, Godinho VPC and Lanza MA (2012b) BRS 335: A midseason high-yielding upland cotton cultivar for Northeast Brazilian savanna. Crop Breeding and Applied Biotechnology12: 224-226.). BRS 369RF and BRS 370RF were developed by Embrapa and partners in 2014 as part of an ongoing effort to create new cotton lines and cultivars with improved yield potential, transgenic traits and which are appropriate to be grown as a second crop in central Brazilian savanna.

GENETIC ORIGIN AND DEVELOPMENT

Biotechnological tools have been applied in cultivar development, which can add to these cultivars specific characteristics that would be difficult to obtain using conventional breeding (Parentoni et al. 2013Parentoni SN, Miranda RA and Garcia JC (2013) Implications on the introduction of transgenics in Brazilian maize breeding programs. Crop Breeding and Applied Biotechnology13: 9-22.). Transgenic tolerance to herbicide glyphosate was introduced into cotton plants and transgenic cultivars have been commercially released since 1997 in USA. This herbicide inhibits the enzyme 5-enolpyruvylshikimate-3-phosphate synthase (EPSP synthase) in the shikimate acid pathway of plants. As consequence, the synthesis of the aromatic amino acids phenylalanine, tyrosine, and tryptophan is inhibited, causing plant death (Pline et al. 2003Pline WA, Edmisten KL, Wilcut JW, Wells R and Thomas J (2003) Glyphosate induced reductions in pollen viability and seed set in glyphosate-resistant cotton and attempted remediation by gibberellic acid (GA3). Weed Science 51: 19-27.). The transgenic cotton event, MON 88913, was generated by an Agrobacterium-mediated transformation of cotton cells, commercially known as Roundup Ready Flex(r) (RF).

Cultivars BRS 369RF and BRS 370RF were derived from an initial backcross breeding program to incorporate the event MON 88913 using the cultivar BRS 293 as recurrent parent, followed by the pedigree selection method. BRS 293 (Stoneville 132 x Delta Opal) has good fiber quality, high fiber yield and adaptation to central Brazilian savanna (Morello et al. 2010Morello CL, Suassuna ND, Farias FJC, Lamas FM, Pedrosa MB, Ribeiro JL, Godinho VPC and Freire EC (2010) BRS 293: A midseason high-yielding upland cotton cultivar for Brazilian savanna. Crop Breeding and Applied Biotechnology10: 180-182.). The donor, Sure Grow 125RF {[(DP 50 x DES 119) x DES 119] x DES 119} (Bowman et al. 2006Bowman DT, Gutierrez OA, Percy RG, Calhoun DS and May OL (2006) Pedigrees of upland and pima cotton cultivars released between 1970 and 2005. Mississippi Agricultural & Forestry Experiment Station, Starkville, 58p. (Bulletin 1155).) is a high-yielding cotton cultivar; however, it does not have good fiber quality nor is susceptible to blue disease, caused by Cotton Leafroll Dwarf Virus.

BRS 369RF and BRS 370RF were originated from a biparental cross follow by two backcrosses involving cotton cultivars BRS 293 and Sure Grow 125R {[(BRS 293 x Sure Grow 125R) x BRS 293] x BRS 293}, carried out in 2007 and 2008. From BC₃F₂ generation, only the plants which were homozygous for the Roundup Ready Flex(r) gene were advanced to progeny rows.

A total of 50 progeny rows (BC₃F_2:3) were grown in 2009/2010 season. They were selected based on yield potential, fiber properties, disease resistance (bacterial blight and blue disease), earliness and overall plant conformation (compactness). Two lines (CNPA GO 2009 293-1 RF and CNPA GO 2009 293-15 RF) equivalent in all measurable characteristics were bulked together to produce the variety BRS 369RF. Similarly, three lines (CNPA GO 2009 293-4 RF, CNPA GO 2009 293-28 RF and CNPA GO 2009 293-33 RF) were bulked together to produce the variety BRS 370RF. During the subsequent season, the obtained seeds were grown and again screened for the Roundup Ready Flex(r) gene. BRS 369RF and BRS 370RF were treated subsequently as pure lines, evaluated in four sites in the 2010/2011 season. Afterwards, eleven trials were evaluated across the states of Bahia, Goiás, Mato Grosso do Sul, and Mato Grosso, in the 2011/2012 season.

TRAITS PERFORMANCE

BRS 369RF and BRS 370RF are of midseason maturity, and are picker-type upland cotton with growth habits similar to those of BRS 293, when grown in Santa Helena de Goiás, GO (lat 17º 48' S, long 50º 35' W, alt 562m asl). Plants have trichome on leaves and on the main stem. BRS 369RF and BRS 370RF have normal-shaped leaves and bracts (7 to 12 lobes), and are glanded and nectaried. First reproductive branch is generally inserted on the fifth node, and branches have oblique angle insertion. Flowers from plants of both cultivars have cream-colored petals, anthers, and pollen. Full-size green bolls are longer than their width and are broader in the middle. Bolls have five locules; however, four locules may occasionally occur. Open bolls resist shattering, but are not storm proof, and thus are suitable for picker harvesting. Produced lint and fuzz are white in color.

Plants are of medium size, reaching 110 to 120 cm, when 35 to 50 g of the active ingredient of growth regulator (mepiquat chloride and chlormequat chloride) are applied. At an altitude of 562 meters, first flower appear at about 53 (BRS 369RF) or 55 (BRS 370RF) days after emergence (DAE), and the first boll opens at about 110 to 120 DAE. In these environmental conditions, and using harvest-aid chemicals, BRS 369RF total harvest was carried out at 165 DAE, and BRS 370RF, at 175 DAE.

BRS 369RF and BRS 370RF have moderate resistance levels to the main diseases that occur in Brazil: they are moderately resistant to bacterial blight [caused by Xanthomonas axonopodis pv. malvacearum], to cotton blue disease [caused by Cotton leafroll dwarf virus- CLRDV]; they are moderately susceptible to false mildew [caused by Ramularia areola], ramulosis [caused by Colletotrichum gossypii var. cephalosporioides] and to Fusarium oxysporum f. sp. vasinfectum - Meloidogyne incognita complex. Incidence of plants with cotton blue disease symptoms was recorded in two independent assays with no control of virus vector (Aphis gossypii). Severity of bacterial blight and false mildew were determined based on foliar lesion area grade scale varying from 1 (no symptoms) to 5 (highly susceptible) in two field assays with no fungicide application. Resistance to cotton ramulosis was assessed in two assays artificially inoculated with Colletotrichum gossypii var. cephalosporioides, using the methods proposed by Oliveira et al. (2010Oliveira MAC, Duarte JB, Morello CL, Suassuna ND and Oliveira AB (2010) Inheritance of resistance to Colletotrichum gossypii var. cephalosporioides in cotton. Crop Breeding and Applied Biotechnology10: 65-73.). Root-knot nematode galling index was measured using the methods described by Zhang et al. (2006Zhang J, Waddell C, Sengupta-gopalan C, Potenza C and Cantrell RG (2006) Relationships between root-knot nematode resistance and plant growth in Upland cotton: Galling index as a criterion. Crop Science 46: 1581-1586.). Fusarium index was assessed as described by Machado et al. (2009Machado LP, Michereff SJ, Falleiro BAS, Oliveira MG, Coutinho WM, Morello CL and Suassuna ND (2009) Um método simples e rápido de seleção para resistência à murcha-de-fusário em genótipos de algodoeiro. Tropical Plant Pathology 34: 051-055). For nematode galling index and Fusarium index, cotton cultivar IAC 25 was used as a resistant or partial resistant control, respectively.

Averaged across the 15 field performance trials of cultivation value and use (VCU) in central and northeastern Brazil in 2010/2011 and 2011/2012, BRS 369RF and BRS 370RF presented 8.6 and 10.7% more lint yield than BRS 293, respectively. The lint percentage was slightly higher in BRS 293; however, raw cotton yield in BRS 369RF and BRS 370RF was higher than control, reflecting in higher fiber yield (Tables 1 and 2). Taking into account only the trials sown in January, BRS 369RF and BRS 370RF produced 18.9 and 16.4% more raw cotton than the control, respectively. High Volume Instrument (HVI) measurements reveal desirable physical attributes of a medium fiber length for both new cultivars: micronaire reading ranged from 4.1 to 4.9 (BRS 369RF) and from 4.2 to 4.6 (BRS 370RF); fiber length (UHML) from 29.5 to 31.4 mm (BRS 369RF), and from 27.8 to 31.3 mm (BRS 370RF); relative strength, from 28.1 to 30.8 gf.tex^-1 (BRS 369RF), and from 27.9 to 30.4 gf.tex^-1 (BRS 370RF); reflectance, from 71.0 to 80.4% (BRS 369RF), and from 69.0 to 79.7% (BRS 370RF); yellowness (+b), from 7.1 to 8.4 (BRS 369RF), and from 7.3 to 9.0 (BRS 370RF); short fiber index, from 5.0 to 7.9 (BRS 369RF), and from 5.4 to 9.0 (BRS 370RF) (Table 3).

SEED MAINTENANCE AND DISTRIBUTION

BRS 369 RF and BRS 370RF are catalogued in the Ministry of Agriculture, Livestock and Food Supply under the numbers 30481 and 30480, respectively. Basic seeds are produced by Embrapa Products and Markets (Embrapa SPM). Goiás Foundation, working in partnership with Embrapa, is responsible for the certified seed.

ACKNOWLEDGEMENTS

Research leading to the development of BRS 369RF and BRS 370RF was supported in part by grants from "Fundo Embrapa-Monsanto", and in part by FIALGO.

REFERENCES

Publication Dates

History