PHENOLOGICAL, PLANT ARCHITECTURE, AND GRAIN YIELD TRAITS ON COMMON BEAN LINES SELECTION

RIBEIRO, NERINÉIA DALFOLLO; SANTOS, GUILHERME GODOY DOS; MAZIERO, SANDRA MARIA; STECKLING, SKARLET DE MARCO

doi:10.1590/1983-21252018v31n314rc

ABSTRACT

The development of common bean cultivars with early cycle, upright plant architecture, and high grain yield represents marketing advantages to bean farmers. This study aimed to evaluate whether common bean inbred lines differ for phenological, plant architecture, and grain yield traits; analyze the correlations between these traits; and select early and upright common bean lines with high grain yield. To this end, 14 common bean inbred lines were evaluated in two growing seasons in Santa Maria - RS, Brazil. Common bean inbred lines showed significant differences for all traits, except for insertion of the first pod and length of the fourth and fifth internodes. The four superior common bean lines selected by the multiplicative index were CNFP 10794, CNFC 10762, DF 06-09, and BRS Valente. CNFP 10794 presents earliness (flowering and cycle), upright plant architecture (lower values of general adaptation score, lodging, and stay-green phenotype) and high grain yield (higher values of number of pods per plant, number of grains per plant, mass of 100 grains, and grain yield). Mass of 100 grains showed a positive correlation with grain yield (r= 0.68). The indirect selection using mass of 100 grains is of intermediate efficiency to increase grain yield in common bean. CNFP 10794 presents earliness, upright plant architecture, and high grain yield and will be selected for the breeding program.

Keywords:
Phaseolus vulgaris L.; Combined selection; Indirect selection; Pearson’s correlation.

RESUMO

O desenvolvimento de cultivares de feijão de ciclo precoce, de arquitetura ereta e de alta produtividade de grãos representa vantagens mercadológicas para os produtores. Os objetivos deste trabalho foram avaliar se as linhagens de feijão diferem quanto aos caracteres fenológicos, da arquitetura de planta e da produção, estudar as correlações entre esses caracteres e selecionar linhagens precoces, de arquitetura ereta e com alta produtividade de grãos. Para tanto, 14 linhagens de feijão foram avaliadas em duas épocas de cultivo em Santa Maria - RS, Brasil. Diferenças significativas entre as linhagens de feijão foram observadas para todos os caracteres avaliados, exceto para a altura de inserção da primeira vagem, o comprimento do quarto e do quinto entrenó. As quatro melhores linhagens selecionadas pelo índice multiplicativo foram CNFP 10794, CNFC 10762, DF 06-09 e BRS Valente. A linhagem CNFP 10794 apresenta precocidade (floração e ciclo), arquitetura de planta ereta (menores escores de nota geral de adaptação, acamamento e fenótipo stay green) e alta produtividade de grãos (maiores valores de número de vagens por planta, número de grãos por planta, massa de 100 grãos e produtividade de grãos). A massa de 100 grãos apresentou correlação positiva com a produtividade de grãos (r= 0,68). A seleção indireta pela maior massa de 100 grãos é de moderada eficiência para aumentar a produtividade de grãos em feijão. A linhagem CNFP 10794 apresenta precocidade, arquitetura de planta ereta e maior produtividade de grãos e será selecionada pelo programa de melhoramento.

Palavras-chave:
Phaseolus vulgaris L.; Seleção combinada; Seleção indireta; Correlação de Pearson.

INTRODUCTION

Common bean (Phaseolus vulgaris L.) is the primary source of protein in human diets in several East African and Latin American countries, accounting for 65% of total protein intake and 32% of energy provision (BROUGHTON et al., 2003BROUGHTON, W. et al. Beans (Phaseolus spp.): model food legumes. Plant Soil, Dordrecht, v. 252, n. 1, p. 55-128, 2003.; BLAIR et al., 2010BLAIR, M. W. et al. Genetic diversity, inter-gene pool introgression and nutritional quality of common beans (Phaseolus vulgaris L.) from Central Africa. Theoretical and Applied Genetics, New York, v. 121, n. 2, p. 237-248, 2010.). In this scenario, increasing grain yield of common bean cultivars is crucial to ensure greater availability of this food and incorporate higher nutritional value to diets predominantly based on vegetable protein.

In Brazil, common bean breeding programs have obtained annual genetic gains from 0.72% to 1.10% for grain yield (RIBEIRO et al., 2008RIBEIRO, N. D. et al. Genetic progress in traits of yield, phenology and morphology of common bean. Crop Breeding and Applied Biotechnology, Viçosa, v. 8, n. 3, p. 232-238, 2008.; FARIA et al., 2013FARIA, L. C. et al. Genetic progress during 22 years of improvement of carioca-type common bean in Brazil. Field Crops Research, Amsterdam, v. 142, n. 1, p. 68-74, 2013.; FARIA et al., 2014FARIA, L. C. et al. Genetic progress during 22 years of black bean improvement. Euphytica, Wageningen, v. 199, n. 1, p. 261-272, 2014. ). The increase in grain yield of common bean is coupled with changes in phenological, plant architecture, and grain yield traits. New common bean cultivars present earliness for flowering and cycle (RIBEIRO et al., 2008RIBEIRO, N. D. et al. Genetic progress in traits of yield, phenology and morphology of common bean. Crop Breeding and Applied Biotechnology, Viçosa, v. 8, n. 3, p. 232-238, 2008.), are more lodging-resistant, have an upright plant architecture (FARIA et al., 2013FARIA, L. C. et al. Genetic progress during 22 years of improvement of carioca-type common bean in Brazil. Field Crops Research, Amsterdam, v. 142, n. 1, p. 68-74, 2013.; FARIA et al., 2014FARIA, L. C. et al. Genetic progress during 22 years of black bean improvement. Euphytica, Wageningen, v. 199, n. 1, p. 261-272, 2014. ), and show higher mass of 100 grains (RIBEIRO et al., 2008RIBEIRO, N. D. et al. Genetic progress in traits of yield, phenology and morphology of common bean. Crop Breeding and Applied Biotechnology, Viçosa, v. 8, n. 3, p. 232-238, 2008.; FARIA et al., 2014FARIA, L. C. et al. Genetic progress during 22 years of black bean improvement. Euphytica, Wageningen, v. 199, n. 1, p. 261-272, 2014. ).

The use of early common bean cultivars is important for a better planning of sowing and harvest times, besides facilitating crop rotations and management practices of the area (BURATTO et al., 2007BURATTO, J. S. et al. Adaptabilidade e estabilidade produtiva em genótipos precoces de feijão no Estado do Paraná. Semina: Ciências Agrárias , Londrina, v. 28, n. 3, p. 373-380, 2007.). Earliness in common bean has been characterized by early flowering and early cycle (COIMBRA et al., 2006COIMBRA, J. L. et al. Análise de causa e efeito sobre os componentes do rendimento em genótipos de feijão. Magistra, Cruz das Almas, v. 18, n. 2, p. 102-109, 2006.; RIBEIRO et al., 2008RIBEIRO, N. D. et al. Genetic progress in traits of yield, phenology and morphology of common bean. Crop Breeding and Applied Biotechnology, Viçosa, v. 8, n. 3, p. 232-238, 2008.; PÉREZ-VEGA et al., 2010PÉREZ-VEGA, E. et al. Mapping of QTLs for morpho-agronomic and seed quality traits in a RIL population of common bean (Phaseolus vulgaris L.). Theoretical and Applied Genetics , New York, v. 120, n. 7, p. 1367-1380, 2010.; MOURA et al., 2013MOURA, M. M. et al. Potencial de caracteres na avaliação da arquitetura de plantas de feijão. Pesquisa Agropecuária Brasileira , Brasília, v. 48, n. 4, p. 417-425, 2013. ). Conversely, plant architecture in this species has been assessed by means of several traits, such as stay-green phenotype (AGUIAR; RAMALHO; MARQUES JÚNIOR, 2000AGUIAR, A. M.; RAMALHO, M. A. P.; MARQUES JÚNIOR, O. G. Controle genético do “stay-green” no feijoeiro (Phaseolus vulgaris L.). Revista Ceres, Viçosa, v. 47, n. 270, p. 155-167, 2000.; CARMO et al., 2007CARMO, S. L. M. et al. Avaliação do 'stay green' em famílias segregantes de feijão (Phaseolus vulgaris L.). Ciência e Agrotecnologia, Lavras, v. 31, n. 4, p. 953-957, 2007. ); general adaptation score (RIBEIRO et al., 2010RIBEIRO, N. D. et al . Critério de seleção indireta para a produtividade de grãos em feijão. Ciência Rural , Santa Maria, v. 40, n. 4, p. 986-989, 2010.); plant height (MOURA et al., 2013MOURA, M. M. et al. Potencial de caracteres na avaliação da arquitetura de plantas de feijão. Pesquisa Agropecuária Brasileira , Brasília, v. 48, n. 4, p. 417-425, 2013. ; SILVA et al., 2013SILVA, V. M. P. et al. Genetic potential of common bean parents for plant architecture improvement. Scientia Agricola, Piracicaba, v. 70, n. 3, p. 167-175, 2013. ); insertion of the first pod (COELHO et al., 2007COELHO, C. M. M. et al. Diversidade genética em acessos de feijão (Phaseolus vulgaris L.). Ciência Rural , Santa Maria, v. 37, n. 5, p. 1241-1247, 2007. ; MOURA et al., 2013MOURA, M. M. et al. Potencial de caracteres na avaliação da arquitetura de plantas de feijão. Pesquisa Agropecuária Brasileira , Brasília, v. 48, n. 4, p. 417-425, 2013. ; SILVA et al., 2013SILVA, V. M. P. et al. Genetic potential of common bean parents for plant architecture improvement. Scientia Agricola, Piracicaba, v. 70, n. 3, p. 167-175, 2013. ); and branch thickness, insertion angle of branches, number of branches, number of internodes, internodes distance, and architecture score (MOURA et al. 2013MOURA, M. M. et al. Potencial de caracteres na avaliação da arquitetura de plantas de feijão. Pesquisa Agropecuária Brasileira , Brasília, v. 48, n. 4, p. 417-425, 2013. ). The evaluation of most of these traits is time-consuming, and the determination of some of them is not accurate, especially those that use score scales.

Grain yield traits (number of pods per plant, number of grains per plant, number of grains per pod, mass of 100 grains, and grain yield) have been widely investigated by common bean breeding programs. Studies have revealed an increase in grain yield by increasing some traits, such as number of pods per plant (COIMBRA et al., 2006COIMBRA, J. L. et al. Análise de causa e efeito sobre os componentes do rendimento em genótipos de feijão. Magistra, Cruz das Almas, v. 18, n. 2, p. 102-109, 2006.; BARILI et al., 2011BARILI, L. D. et al. Correlação fenotípica entre componentes do rendimento de grãos de feijão comum (Phaseolus vulgaris L.). Semina: Ciências Agrárias, Londrina, v. 32, n. 4, p. 263-274, 2011.; CABRAL et al., 2011CABRAL, P. D. S. et al. A. Análise de trilha do rendimento de grãos de feijoeiro (Phaseolus vulgaris L.) e seus componentes. Revista Ciência Agronômica, Fortaleza, v. 42, n. 1, p. 132-138, 2011.; RIBEIRO; DOMINGUES; ZEMOLIN, 2014RIBEIRO, N. D.; DOMINGUES, L. S.; ZEMOLIN, A. E. M. Avaliação dos componentes da produtividade de grãos em feijão de grãos especiais. Científica, Jaboticabal, v. 42, n. 2, p. 178-186, 2014.); number of grains per pod (MOURA et al., 2013MOURA, M. M. et al. Potencial de caracteres na avaliação da arquitetura de plantas de feijão. Pesquisa Agropecuária Brasileira , Brasília, v. 48, n. 4, p. 417-425, 2013. ; RIBEIRO; DOMINGUES; ZEMOLIN, 2014RIBEIRO, N. D.; DOMINGUES, L. S.; ZEMOLIN, A. E. M. Avaliação dos componentes da produtividade de grãos em feijão de grãos especiais. Científica, Jaboticabal, v. 42, n. 2, p. 178-186, 2014.); and mass of 100 grains (COELHO et al., 2007COELHO, C. M. M. et al. Diversidade genética em acessos de feijão (Phaseolus vulgaris L.). Ciência Rural , Santa Maria, v. 37, n. 5, p. 1241-1247, 2007. ; BARILI et al., 2011BARILI, L. D. et al. Correlação fenotípica entre componentes do rendimento de grãos de feijão comum (Phaseolus vulgaris L.). Semina: Ciências Agrárias, Londrina, v. 32, n. 4, p. 263-274, 2011.).

The development of common bean cultivars with higher grain yield is still one of the major goals of current breeding programs. If added with early cycle and upright plant architecture, these cultivars will represent marketing advantages to common bean farmers. Thus, investigating the correlation between these traits is paramount. No studies have addressed the correlation involving a great number of traits that confer earliness, upright plant architecture, and high grain yield in common bean lines. Moura et al. (2013MOURA, M. M. et al. Potencial de caracteres na avaliação da arquitetura de plantas de feijão. Pesquisa Agropecuária Brasileira , Brasília, v. 48, n. 4, p. 417-425, 2013. ) performed an in-depth study in this regard; however, they used a limited number of score scales to characterize the plant architecture and phenological data to determine earliness. Thus, this study aimed to evaluate whether common bean lines differ for the phenological, plant architecture, and grain yield traits; analyze the correlations between these traits; and select early and upright common bean lines with high grain yield.

MATERIAL AND METHODS

The experiments were conducted in the experimental area of the Bean Breeding Program of the Federal University of Santa Maria (latitude 29°42’S, longitude 53°49’W, and 95 m above sea level), located in the municipality of Santa Maria, state of Rio Grande do Sul (RS), Brazil. Seeds were sown on November 7, 2012 (rainy season) and February 28, 2013 (dry season), which correspond to the traditional bean growing seasons in the state of RS. The main differences between sowing dates were related to the average minimum and maximum temperatures, to the rainfall distribution, and to the relative humidity (Table 1).

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Table 1
Meteorological data collected in the 8th Meteorology District, in Santa Maria Meteorological Station, belonging to the Federal University of Santa Maria Federal (29^o42’S lat, 53^o49’W long, 95 m asl), in the state of Rio Grande do Sul, Brazil.

The experiment consisted of a randomized blocks design with three replications. Treatments consisted of 14 common bean lines, of which ten were inbred lines from different breeders, namely: CNFC 10762, CNFP 10794, LP 09-192, LP 09-40, DF 06-09, DF 06-17, GEN C4-7-8-1-2, GEN C4-7-7-2-2, CHC 98-42, and CHP 01-238; and four were control cultivars (BRS Valente, Guapo Brilhante, Pérola, and Carioca). The common bean inbred lines and cultivars evaluated in this study represent the most consumed types of beans in Brazil, the black and Carioca beans (beige seed coat with brown streaks), belonging to the Middle American gene pool. These beans were developed by different breeders and indicate the technological advances of common bean breeding programs in southern Brazil. The experimental plot consisted of four 4 m rows, spaced at 0.5 m. The two central rows of each plot were harvested, totaling a useful area of 4 m².

The soil is classified as typical alitic Argisol, Hapludalf, and was conventionally prepared. Fertilizers were applied based on the soil chemical analysis, as follows: 195 kg ha^-1 of the 5-20-20 formulation at furrow sowing, and 20 kg ha^-1 of urea at the first trifoliate leaf growth stage (V₃). Cultural practices followed the technical guidelines for common bean culture in southern Brazil (CTSBF, 2012COMISSÃO TÉCNICA SUL BRASILEIRA DE FEIJÃO - CTSBF. Informações técnicas para o cultivo de feijão na Região Sul brasileira 2012. 2. ed. Florianópolis, SC: EPAGRI, 2012. 157 p.). Disease control was not performed.

The following phenological traits were evaluated: flowering, considering the number of days from seedling emergence (V₁) to the first flower opening (R₆); reproductive period, considering the number of days from pre-flowering (R₅) to maturity (R₉); and cycle, considering the number of days from seedling emergence (V₁) to maturity (R₉). These traits were determined in the plot useful area, using the scale developed by Fernández, Gepts and Lopez (1986FERNÁNDEZ, F.; GEPTS, P.; LOPEZ, M. Etapas de desarrollo della planta de frijol común (Phaseolus vulgaris L.). Cali: CIAT , 1986. 34 p.).

Plant architecture traits (general adaptation score, lodging, stay-green phenotype, insertion of the first pod, insertion of the last pod, plant height, number of branches, number of internodes in the main branch, length of the first internode, length of the second internode, length of the third internode, length of the fourth internode, and length of the fifth internode) were determined at the R₉ stage. The following traits were determined using a score scale: (1) general adaptation score, where score 1 was assigned to upright plants, with greater number of pods per plant and no disease symptoms in the pod; and score 9 was assigned to prostrate plants, with long internodes, fewer pods per plant, highly severe disease symptoms in the pods (RIBEIRO et al., 2010RIBEIRO, N. D. et al . Critério de seleção indireta para a produtividade de grãos em feijão. Ciência Rural , Santa Maria, v. 40, n. 4, p. 986-989, 2010.); (2) lodging, where score 1 was assigned to upright plants, and score 9 was assigned to prostrated plants, touching the ground (CIAT, 1987CENTER INTERNACIONAL CENTER FOR TROPICAL AGRICULTURE - CIAT. Standard system for the evaluation of bean germplasm. Cali: CIAT, 1987. 54 p.); and (3) stay-green phenotype, where score 1 referred to plants with more than 80% of green branch with fully dry, mature pods, and score 5 referred to plants with up to 20% of green branch, i.e., without the stay-green phenotype (AGUIAR; RAMALHO; MARQUES JÚNIOR, 2000AGUIAR, A. M.; RAMALHO, M. A. P.; MARQUES JÚNIOR, O. G. Controle genético do “stay-green” no feijoeiro (Phaseolus vulgaris L.). Revista Ceres, Viçosa, v. 47, n. 270, p. 155-167, 2000.).

Afterward, ten plants were randomly collected at the R₉ stage in the useful area to determine the insertion of the first pod, insertion of the last pod, plant height, number of branches, number of internodes in the main branch, and lengths of the first, second, third, fourth, and fifth internodes in the main branch, from the cotyledonal node. The length of the first internode corresponded to the distance from the cotyledonal node to the first internode; the length of the second internode indicated the distance from the cotyledonal node to the second internode; and so on, until the fifth internode.

Grain yield traits (number of pods per plant, number of grains per plant, number of grains per pod, and mass of 100 grains) were evaluated at the R₉ stage, using ten plants randomly collected in the useful area. Grain yield was calculated by the weight of the product obtained in all the experimental unit per hectare, at 13% of average humidity.

The data were subjected to individual and joint analysis of variance, based on a randomized blocks design. The F-test (p-value< 0.05) was used to test the hypotheses of the main effects (inbred line and growing season) and the effect of inbred line x growing season interaction (L x S). Effects of inbred line (L) and growing season (S) were considered as fixed, and the others (block and L x S interaction) were considered as random. The homogeneity of residual variances was determined by the Hartley’s F max test (CRUZ; REGAZZI, 1997CRUZ, C. D.; REGAZZI, A. J. Modelos biométricos aplicados ao melhoramento genético. 2. ed. Viçosa, MG: Universidade Federal de Viçosa - UFV, 1997. 390 p.). The Scott-Knott’s test (p-value= 0.05) was used to compare the means of common bean inbred lines.

Pearson’s correlation coefficients were estimated by using the phenotypic correlation matrix. The coefficients’ significance was determined by the Student’s t-test (p-value< 0.05). The multiplicative index (SUBANDI; COMPTON; EMPIG, 1973SUBANDI, W.; COMPTON, A.; EMPIG, L. T. Comparison of the efficiencies of selection indices for three traits in two variety crosses of corn. Crop Science, Madison, v. 13, n. 2, p. 184-186, 1973.) was used to obtain estimates of genetic gain in selection. The four superior lines were selected based on the methodology described by Maziero, Ribeiro and Storck (2015MAZIERO, S. M.; RIBEIRO, N. D.; STORCK, L. Simultaneous selection in beans for architecture, grain yield and minerals concentration. Euphytica , Wageningen, v. 205, n. 2, p. 369-380, 2015. ). Statistical analyses were performed using the Genes software (CRUZ, 2013CRUZ, C. D. Genes - a software package for analysis in experimental statistics and quantitative genetics. Acta Scientiarum Agronomy, Maringá, v. 35, n. 3, p. 271-276, 2013.).

RESULTS AND DISCUSSION

The variance of experimental error was homogeneous for both growing seasons (p-value> 0.05), which enabled the joint analysis of variance for all traits. A significant inbred line x growing season interaction (p-value< 0.05) was observed in the joint analysis of variance for all traits evaluated, except for general adaptation score, insertion of the first pod, insertion of the last pod, plant height, number of internodes in the main branch, and length of the second, third, fourth, and fifth internodes. A significant cultivar x environment interaction has been described for number of pods per plant, number of grains per plant, number of grains per pod, mass of 100 grains, grain yield (RIBEIRO; DOMINGUES; ZEMOLIN, 2014RIBEIRO, N. D.; DOMINGUES, L. S.; ZEMOLIN, A. E. M. Avaliação dos componentes da produtividade de grãos em feijão de grãos especiais. Científica, Jaboticabal, v. 42, n. 2, p. 178-186, 2014.), flowering (MOURA et al., 2013MOURA, M. M. et al. Potencial de caracteres na avaliação da arquitetura de plantas de feijão. Pesquisa Agropecuária Brasileira , Brasília, v. 48, n. 4, p. 417-425, 2013. ), and cycle (RIBEIRO et al., 2014) in experiments evaluating the performance of common bean cultivars. For these traits, the performance of common bean lines varied in function of the growing environment. In the present study, the dissimilarity in the performance of common bean lines can be explained by the different minimum and maximum air temperature, rainfall distribution, and air relative humidity recorded in each growing season (Table 1).

The values of the coefficient of variation ranged from 4.00 (cycle) to 22.83% (insertion of the first pod) (Table 2), which is similar result to that obtained for morphological and grain yield traits in common bean cultivars experiments (CARMO et al., 2007CARMO, S. L. M. et al. Avaliação do 'stay green' em famílias segregantes de feijão (Phaseolus vulgaris L.). Ciência e Agrotecnologia, Lavras, v. 31, n. 4, p. 953-957, 2007. ; MOURA et al., 2013MOURA, M. M. et al. Potencial de caracteres na avaliação da arquitetura de plantas de feijão. Pesquisa Agropecuária Brasileira , Brasília, v. 48, n. 4, p. 417-425, 2013. ; RIBEIRO; DOMINGUES; ZEMOLIN, 2014RIBEIRO, N. D.; DOMINGUES, L. S.; ZEMOLIN, A. E. M. Avaliação dos componentes da produtividade de grãos em feijão de grãos especiais. Científica, Jaboticabal, v. 42, n. 2, p. 178-186, 2014.). Such wide variation classifies these coefficients into low and intermediate, based on the classification of Oliveira et al. (2009OLIVEIRA, R. L. et al. Precisão experimental em ensaios com a cultura do feijão. Ciência e Agrotecnologia , Lavras, v. 33, n. 1, p. 113-119, 2009.) for common bean experiments, conferring intermediate to high experimental precision to phenological, plant architecture, and grain yield traits assessed in the present study.

The common bean inbred lines varied regarding the phenological traits assessed in the different growing seasons. However, the inbred lines CHP 01-238, CNFP 10794, and DF 06-17 had early flowering in both growing seasons, which is not significantly different from cultivar Guapo Brilhante (Table 2). Some inbred lines presented longer reproductive period in the dry season, as also observed for Pérola cultivar, such as DF 09-40, CHC 98-42, CNFC 10762, GEN C4-7-7-2-2, GEN C4-7-8-1-2, LP 09-192, and CNFP 10794. The Scott-Knott’s test did not enable the stratification among inbred lines regarding the reproductive period in the rainy season. Conversely, the cycle ranged from 78.20 (CNFP 10794, rainy season) to 117.33 days (GEN C4-7-8-1-2, dry season), characterizing all the inbred lines evaluated in this study as of intermediate cycle, according to Zimmermann and Teixeira (1996ZIMMERMANN, M. J. O.; TEIXEIRA, M. G. Origem e evolução. In: ARAÚJO, R. S. et al. (Eds.). Cultura do feijoeiro comum no Brasil. Piracicaba: Potafós, 1996, v. 1. cap. 2, p. 57-70.). The environment affects the beginning and duration of the phenological stages in common bean lines, and the common bean lines showed a wide variation regarding flowering, reproductive period, and cycle (ZILIO et al., 2013ZILIO, M. et al. Cycle, canopy architecture and yield of common bean genotypes (Phaseolus vulgaris) in Santa Catarina State. Acta Scientiarum Agronomy , Maringá, v. 35, n. 1, p. 21-30, 2013.; RIBEIRO et al., 2014RIBEIRO, N. D. et al . Desempenho agronômico e qualidade de cozimento de linhagens de feijão do grupo especiais. Ciência Agronômica, Fortaleza, v. 45, n. 1, p. 92-100, 2014.). For this reason, the characterization of these phenological stages and the identification of common bean lines with early or intermediate cycle are imperative, regardless of the growing environment.

The general adaptation score and lodging scores were high for most of the inbred lines (Table 2), which indicates predominance of semi-upright and prostrate plants (RIBEIRO et al., 2010RIBEIRO, N. D. et al . Critério de seleção indireta para a produtividade de grãos em feijão. Ciência Rural , Santa Maria, v. 40, n. 4, p. 986-989, 2010.) and a higher rate of fallen plants or of plants touching the ground (CIAT, 1987CENTER INTERNACIONAL CENTER FOR TROPICAL AGRICULTURE - CIAT. Standard system for the evaluation of bean germplasm. Cali: CIAT, 1987. 54 p.). An explanation of this fact is that the heavy rainfalls recorded in both growing seasons (Table 1) might have contributed to the higher lodging rate of bean plants. In the rainy season, four lines (DF 06-09, CHP 01-238, LP 09-192, and CNFP 10794) presented a lodging score lower than those of the control cultivars. However, the lower lodging scores of these lines have not been confirmed in the dry season. This fact is justified for the lodging scores vary according to the genotype and growing environment, as stated by Mendes, Ramalho and Abreu (2009MENDES, F. F.; RAMALHO, M. A. P.; ABREU, A. F. B. Índice de seleção para escolha de populações segregantes de feijoeiro-comum. Pesquisa Agropecuária Brasileira, Brasília, v. 44, n. 10, p. 1312-1318, 2009.).

The Scott-Knott’s test applied to the stay-green phenotype formed two groups of genotypes in the dry season (Table 2): Group 1 was formed by genotypes LP 09-192, CNFP 10794, DF 06-17, BRS Valente, and Guapo Brilhante; and Group 2 was composed of the other genotypes. No inbred line was assigned with score 1 (plants with more than 80% of green branch and fully mature, dry pods) (AGUIAR; RAMALHO; MARQUES JÚNIOR, 2000AGUIAR, A. M.; RAMALHO, M. A. P.; MARQUES JÚNIOR, O. G. Controle genético do “stay-green” no feijoeiro (Phaseolus vulgaris L.). Revista Ceres, Viçosa, v. 47, n. 270, p. 155-167, 2000.). The identification of common bean lines with stay-green phenotype, i.e., with late branch senescence is essential, as it characterizes upright plants (CARMO et al., 2007CARMO, S. L. M. et al. Avaliação do 'stay green' em famílias segregantes de feijão (Phaseolus vulgaris L.). Ciência e Agrotecnologia, Lavras, v. 31, n. 4, p. 953-957, 2007. ). Similar to the lodging score, the stay-green low score for a given inbred line was not the same in both growing seasons due to the differences in weather conditions (Table 1), which is in agreement with the findings of Carmo et al. (2007CARMO, S. L. M. et al. Avaliação do 'stay green' em famílias segregantes de feijão (Phaseolus vulgaris L.). Ciência e Agrotecnologia, Lavras, v. 31, n. 4, p. 953-957, 2007. ).

The inbred lines DF 06-09, CHP 01-238, CNFC 10762, and DF 06-17 showed lower values for insertion of the last pod and plant height, not significantly differing from cultivars BRS Valente and Guapo Brilhante, in both growing seasons (Table 2). Common bean plants with a lower insertion of the last pod and plant height are usually more resistant to lodging and, for this reason, have been selected for the breeding programs. The estimated genetic gain for the insertion of the last pod was of -1.1% per year in the state of Rio Grande do Sul from 1998 to 2005 (RIBEIRO et al., 2008RIBEIRO, N. D. et al. Genetic progress in traits of yield, phenology and morphology of common bean. Crop Breeding and Applied Biotechnology, Viçosa, v. 8, n. 3, p. 232-238, 2008.). This result represents the efforts of the common bean breeding programs in developing plants with a lower insertion of the last pod, i.e., more upright plants. Common bean cultivars with upright plant architecture help reduce harvest losses and increase the grain technological quality (MENDES; RAMALHO; ABREU, 2009MENDES, F. F.; RAMALHO, M. A. P.; ABREU, A. F. B. Índice de seleção para escolha de populações segregantes de feijoeiro-comum. Pesquisa Agropecuária Brasileira, Brasília, v. 44, n. 10, p. 1312-1318, 2009.). Therefore, upright plant architecture allows the cultivation of common bean in larger areas and maximizes the yield per hectare.

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Table 2
Means* of the following traits: flowering (FLO), reproductive period (RP), cycle, general adaptation score (GAS), lodging (LDG), stay-green phenotype (SG), insertion of the first pod (IFP), insertion of the last pod (ILP); plant height (PH), number of branches (NB), number of internodes in the main branch (NIMB), lengths of the first (1IL), second (2IL), third (3IL), fourth (4IL) and fifth (5IL) internodes, number of pods per plant (NPP), number of grains per plant (NG), number of grains per pod (NGP), mass of 100 grains (M100G), and grain yield (YLD) of common bean lines assessed in the 2012 rainy season (RS) and 2013 dry season (DS).

Number of branches varied from 5.90 (DF 06-17, rainy season) to 12.40 (CNFP 10794, dry season) (Table 2). These values were higher than the mean of 4.4 branches per plant reported in previous common bean lines experiments (COELHO et al., 2007COELHO, C. M. M. et al. Diversidade genética em acessos de feijão (Phaseolus vulgaris L.). Ciência Rural , Santa Maria, v. 37, n. 5, p. 1241-1247, 2007. ; MOURA et al., 2013MOURA, M. M. et al. Potencial de caracteres na avaliação da arquitetura de plantas de feijão. Pesquisa Agropecuária Brasileira , Brasília, v. 48, n. 4, p. 417-425, 2013. ). Inbred lines and cultivars presented no significant differences for number of internodes in the main branch, except for DF 06-17, which had the lowest value for this trait (8.03). Common bean lines presented significant differences for the length of the first, second, and third internodes. The inbred lines LP 09-40, GEN C4-7-7-2-2, and GEN C4-7-8-1-2 had the lowest length of the first, second, and third internodes. These same inbred lines also presented the greatest number of internodes in the main branch. According to Moura et al. (2013MOURA, M. M. et al. Potencial de caracteres na avaliação da arquitetura de plantas de feijão. Pesquisa Agropecuária Brasileira , Brasília, v. 48, n. 4, p. 417-425, 2013. ), greater number of internodes in the main branch and shorter internodes characterize upright plant architecture.

CNFP 10794 stood out from the other inbred lines for its greater number of pods per plant, mass of 100 grains, and grain yield, in both growing seasons, and for its greater number of grains per plant in the rainy season (Table 2). Ribeiro et al. (2008RIBEIRO, N. D. et al. Genetic progress in traits of yield, phenology and morphology of common bean. Crop Breeding and Applied Biotechnology, Viçosa, v. 8, n. 3, p. 232-238, 2008.) estimated genetic gains in common beans in the state of Rio Grande do Sul and reported values of low magnitude for number of pods per plant, number of grains per plant, and mass of 100 grains, indicating that the changes performed on other phenological or morphological traits contributed more to the increased grain yield in common bean.

Number of grains per pod ranged from 2.39 (DF 06-09, rainy season) to 5.72 (Carioca, dry season) (Table 2), considered as low for Phaseolus vulgaris, which typically presents four to ten grains per pod (ZIMMERMANN; TEIXEIRA, 1996ZIMMERMANN, M. J. O.; TEIXEIRA, M. G. Origem e evolução. In: ARAÚJO, R. S. et al. (Eds.). Cultura do feijoeiro comum no Brasil. Piracicaba: Potafós, 1996, v. 1. cap. 2, p. 57-70.). The high average air temperature and heavy rainfall (Table 1), registered especially at flowering and pods filling stages, might have contributed to the lower fixation of flowers and pods, which would explain the low mean number of grains per pod reported in this study (3.91).

The following inbred lines had the best grain yield in the 2012 rainy season: LP 09-40, DF 06-09, CHC 98-42, LP 09-192, CNFC 10794, and DF 06-17, not significantly differing from cultivars Guapo Brilhante and Pérola (Table 2). In the 2013 dry season, the inbred lines LP 09-40, CNFC 10762, and CNFC 10794 had higher grain yield than all the other lines and cultivars. In this study, the grain yield values obtained for the common bean inbred lines were similar to those previously described by Ribeiro, Domingues and Zemolin (2014RIBEIRO, N. D. et al . Desempenho agronômico e qualidade de cozimento de linhagens de feijão do grupo especiais. Ciência Agronômica, Fortaleza, v. 45, n. 1, p. 92-100, 2014.) in common bean cultivars competition experiments carried out under similar weather conditions. However, common bean lines evaluated in different regions of Brazil have presented higher grain yields (ZILIO et al., 2011ZILIO, M. et al. Contribuição dos componentes de rendimento na produtividade de genótipos crioulos de feijão (Phaseolus vulgaris L.). Revista Ciência Agronômica , Fortaleza, v. 42, n. 2, p. 429-438, 2011. ; FARIA et al., 2013FARIA, L. C. et al. Genetic progress during 22 years of improvement of carioca-type common bean in Brazil. Field Crops Research, Amsterdam, v. 142, n. 1, p. 68-74, 2013.; MINGOTTE et al., 2013MINGOTTE, F. L. C. et al. Desempenho produtivo e qualidade pós-colheita de genótipos de feijão do grupo comercial carioca cultivados na época de inverno-primavera. Bioscience Journal, Uberlândia, v. 29, n. 5, p. 1101-1110, 2013.; FARIA et al., 2014FARIA, L. C. et al. Genetic progress during 22 years of black bean improvement. Euphytica, Wageningen, v. 199, n. 1, p. 261-272, 2014. ). This can be justified by the difference in the average minimum and maximum temperatures, rainfall distribution, relative humidity, biotic factors, soil chemical and physical composition, and management practices used in the experiments.

Grain yield in common bean varies according to the genotype (G), environment (E), and G x E interaction (ZILIO et al., 2011ZILIO, M. et al. Contribuição dos componentes de rendimento na produtividade de genótipos crioulos de feijão (Phaseolus vulgaris L.). Revista Ciência Agronômica , Fortaleza, v. 42, n. 2, p. 429-438, 2011. ; FARIA et al., 2013FARIA, L. C. et al. Genetic progress during 22 years of improvement of carioca-type common bean in Brazil. Field Crops Research, Amsterdam, v. 142, n. 1, p. 68-74, 2013.; FARIA et al., 2014FARIA, L. C. et al. Genetic progress during 22 years of black bean improvement. Euphytica, Wageningen, v. 199, n. 1, p. 261-272, 2014. ; RIBEIRO; DOMINGUES; ZEMOLIN, 2014RIBEIRO, N. D.; DOMINGUES, L. S.; ZEMOLIN, A. E. M. Avaliação dos componentes da produtividade de grãos em feijão de grãos especiais. Científica, Jaboticabal, v. 42, n. 2, p. 178-186, 2014.). This study identified two lines (LP 09-40 and CNFP 10794) with high grain yield in both growing seasons. The line CNFP 10794 also stood out for its early flowering, longer reproductive period, and high values of other grain yield traits (number of pods per plant, number of grains per plant, number of grains per pod, and mass of 100 grains). For these reasons, it will be selected for the breeding program.

Positive and high magnitude correlation estimates were obtained between flowering and cycle (r= 0.70) and between reproductive period and cycle (r= 0.90) (Table 3), indicating that the beginning and duration of the phenological stages in common bean plants were highly correlated, as previously observed by Cabral et al. (2011CABRAL, P. D. S. et al. A. Análise de trilha do rendimento de grãos de feijoeiro (Phaseolus vulgaris L.) e seus componentes. Revista Ciência Agronômica, Fortaleza, v. 42, n. 1, p. 132-138, 2011.) and Pérez-Vega et al. (2010PÉREZ-VEGA, E. et al. Mapping of QTLs for morpho-agronomic and seed quality traits in a RIL population of common bean (Phaseolus vulgaris L.). Theoretical and Applied Genetics , New York, v. 120, n. 7, p. 1367-1380, 2010.). Plant height was highly correlated to reproductive period (r= 0.72) and insertion of the last pod (r= 0.78). In this case, the longer the duration of the reproductive period and/or the higher the insertion of the last pod, the higher were the common bean plants. Nonetheless, negative correlation was observed between reproductive period and lengths of the first internode (r= -0.72), second internode (r= -0.60), and third internode (r= -0.58). Thus, common bean plants with longer reproductive period showed higher value for plant height, but lower values for lengths of the first, second, and third internodes, i.e., these plants present prostate plant architecture.

Mass of 100 grains showed a positive and intermediate correlation with grain yield (r= 0.68) (Table 3), differing from other findings in common bean cultivar experiments, where such association was of low magnitude (COIMBRA et al., 2006COIMBRA, J. L. et al. Análise de causa e efeito sobre os componentes do rendimento em genótipos de feijão. Magistra, Cruz das Almas, v. 18, n. 2, p. 102-109, 2006.; BARILI et al., 2011BARILI, L. D. et al. Correlação fenotípica entre componentes do rendimento de grãos de feijão comum (Phaseolus vulgaris L.). Semina: Ciências Agrárias, Londrina, v. 32, n. 4, p. 263-274, 2011.; CABRAL et al., 2011CABRAL, P. D. S. et al. A. Análise de trilha do rendimento de grãos de feijoeiro (Phaseolus vulgaris L.) e seus componentes. Revista Ciência Agronômica, Fortaleza, v. 42, n. 1, p. 132-138, 2011.; RIBEIRO; DOMINGUES; ZEMOLIN, 2014RIBEIRO, N. D.; DOMINGUES, L. S.; ZEMOLIN, A. E. M. Avaliação dos componentes da produtividade de grãos em feijão de grãos especiais. Científica, Jaboticabal, v. 42, n. 2, p. 178-186, 2014.). Common bean cultivars with mass of 100 grains ranging from 25 to 30 g have a better acceptance by consumers, who associate larger grain with better cooking yields (CARBONELL et al., 2010CARBONELL, S. A. M. et al. Tamanho de grão comercial em cultivares de feijoeiro. Ciência Rural, Santa Maria, v. 40, n. 10, p. 2067-2073, 2010. ). Therefore, indirect selection by the highest mass of 100 grains is a promising strategy to obtain common bean cultivars with high grain yield and more preferable grains size.

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Table 3
Pearson’s correlation coefficients between the following traits: flowering (FLO), reproductive period (RP), cycle, general adaptation score (GAS), lodging (LDG), stay-green phenotype (SG), insertion of the first pod (IFP), insertion of the last pod (ILP), and plant height (PH), number of branches (NB), number of internodes in the main branch (NIMB), lengths of the first (1IL), second (2IL), third (3IL), fourth (4IL), and fifth (5IL) internodes, number of pods per plant (NPP), number of grains per plant (NG), number of grains per pod (NGP), mass of 100 grains (M100G), and grain yield (YLD) of common bean lines assessed in the 2012 rainy season and 2013 dry season.

A significant correlation was not observed between the other phenological, plant architecture, and grain yield traits (Table 3). This result can be explained by the fact that the selection of traits that confer upright plant architecture has not always been associated with high grain yield, as reported by Carmo et al. (2007CARMO, S. L. M. et al. Avaliação do 'stay green' em famílias segregantes de feijão (Phaseolus vulgaris L.). Ciência e Agrotecnologia, Lavras, v. 31, n. 4, p. 953-957, 2007. ), Cabral et al. (2011CABRAL, P. D. S. et al. A. Análise de trilha do rendimento de grãos de feijoeiro (Phaseolus vulgaris L.) e seus componentes. Revista Ciência Agronômica, Fortaleza, v. 42, n. 1, p. 132-138, 2011.), Moura et al. (2013MOURA, M. M. et al. Potencial de caracteres na avaliação da arquitetura de plantas de feijão. Pesquisa Agropecuária Brasileira , Brasília, v. 48, n. 4, p. 417-425, 2013. ) and Silva et al. (2013SILVA, V. M. P. et al. Genetic potential of common bean parents for plant architecture improvement. Scientia Agricola, Piracicaba, v. 70, n. 3, p. 167-175, 2013. ). However, an upright plant architecture facilitates management practices and harvest in low- and high-technology cultivation, usually resulting in better seeds quality. Thus, this trait should be assessed for the breeding program.

The predicted gain with selection was 24.97%, based on the multiplicative index (Table 4). According to Maziero, Ribeiro and Storck (2015MAZIERO, S. M.; RIBEIRO, N. D.; STORCK, L. Simultaneous selection in beans for architecture, grain yield and minerals concentration. Euphytica , Wageningen, v. 205, n. 2, p. 369-380, 2015. ), the multiplicative index is the best strategy for simultaneous selection to identify common bean lines of upright architecture, high grain yield, and nutritional quality.

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Table 4
Mean of the original population (Xo), mean of selected lines (Xs), heritability (h²), genetic gain (GG), and percentage of genetic gain (GG%) with simultaneous selection by the multiplicative index for the four superior lines assessed in the 2012 rainy season and 2013 dry season.

In the present study, the four superior lines assessed in the 2012 rainy season and 2013 dry season were: CNFP 10794, CNFC 10762, DF 06-09, and BRS Valente (Table 4). CNFP 10794 presents earliness (lower number of days to flowering and shorter cycle), upright plant architecture (lower values of general adaptation score, lodging, and stay-green phenotype), and high grain yield (higher values of number of pods per plant, number of grains per plant, mass of 100 grains, and grain yield). For these reasons, CNFP 10794 will be selected for the breeding program.

CONCLUSIONS

Common bean lines differ for flowering, reproductive period, cycle, general adaptation score, lodging, stay-green phenotype, insertion of the last pod, plant height, number of branches, number of internodes in the main branch, lengths of the first, second, and third internodes, number of pods per plant, number of grains per plant, number of grains per pod, mass of 100 grains, and grain yield.

The indirect selection for mass of 100 grains is of intermediate efficiency to increase grain yield in common bean.

CNFP 10794 is the superior common bean line selected by the multiplicative index; this line presents earliness, upright plant architecture, and high grain yield. For these reasons, it will be selected for the breeding program.

ACKNOWLEDGEMENTS

We thank the Coordination for the Improvement of Higher Education Personnel (CAPES) and the National Council of Technological and Scientific Development (CNPq) for the grants awarded.

REFERENCES

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BLAIR, M. W. et al. Genetic diversity, inter-gene pool introgression and nutritional quality of common beans (Phaseolus vulgaris L.) from Central Africa. Theoretical and Applied Genetics, New York, v. 121, n. 2, p. 237-248, 2010.
BROUGHTON, W. et al. Beans (Phaseolus spp.): model food legumes. Plant Soil, Dordrecht, v. 252, n. 1, p. 55-128, 2003.
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1
Paper extracted from the master dissertation of the second author.

Publication Dates

Publication in this collection
Jul-Sep 2018

History

Received
30 Nov 2016
Accepted
13 Oct 2017

This is an open-access article distributed under the terms of the Creative Commons Attribution License

[1] AGUIAR, A. M.; RAMALHO, M. A. P.; MARQUES JÚNIOR, O. G. Controle genético do “stay-green” no feijoeiro (Phaseolus vulgaris L.). Revista Ceres, Viçosa, v. 47, n. 270, p. 155-167, 2000.

[2] BARILI, L. D. et al. Correlação fenotípica entre componentes do rendimento de grãos de feijão comum (Phaseolus vulgaris L.). Semina: Ciências Agrárias, Londrina, v. 32, n. 4, p. 263-274, 2011.

[3] BLAIR, M. W. et al. Genetic diversity, inter-gene pool introgression and nutritional quality of common beans (Phaseolus vulgaris L.) from Central Africa. Theoretical and Applied Genetics, New York, v. 121, n. 2, p. 237-248, 2010.

[4] BROUGHTON, W. et al. Beans (Phaseolus spp.): model food legumes. Plant Soil, Dordrecht, v. 252, n. 1, p. 55-128, 2003.

[5] BURATTO, J. S. et al. Adaptabilidade e estabilidade produtiva em genótipos precoces de feijão no Estado do Paraná. Semina: Ciências Agrárias , Londrina, v. 28, n. 3, p. 373-380, 2007.

[6] CABRAL, P. D. S. et al. A. Análise de trilha do rendimento de grãos de feijoeiro (Phaseolus vulgaris L.) e seus componentes. Revista Ciência Agronômica, Fortaleza, v. 42, n. 1, p. 132-138, 2011.

[7] CARBONELL, S. A. M. et al. Tamanho de grão comercial em cultivares de feijoeiro. Ciência Rural, Santa Maria, v. 40, n. 10, p. 2067-2073, 2010.

[8] CARMO, S. L. M. et al. Avaliação do 'stay green' em famílias segregantes de feijão (Phaseolus vulgaris L.). Ciência e Agrotecnologia, Lavras, v. 31, n. 4, p. 953-957, 2007.

[9] CENTER INTERNACIONAL CENTER FOR TROPICAL AGRICULTURE - CIAT. Standard system for the evaluation of bean germplasm. Cali: CIAT, 1987. 54 p.

[10] COELHO, C. M. M. et al. Diversidade genética em acessos de feijão (Phaseolus vulgaris L.). Ciência Rural , Santa Maria, v. 37, n. 5, p. 1241-1247, 2007.

[11] COIMBRA, J. L. et al. Análise de causa e efeito sobre os componentes do rendimento em genótipos de feijão. Magistra, Cruz das Almas, v. 18, n. 2, p. 102-109, 2006.

[12] COMISSÃO TÉCNICA SUL BRASILEIRA DE FEIJÃO - CTSBF. Informações técnicas para o cultivo de feijão na Região Sul brasileira 2012. 2. ed. Florianópolis, SC: EPAGRI, 2012. 157 p.

[13] CRUZ, C. D. Genes - a software package for analysis in experimental statistics and quantitative genetics. Acta Scientiarum Agronomy, Maringá, v. 35, n. 3, p. 271-276, 2013.

[14] CRUZ, C. D.; REGAZZI, A. J. Modelos biométricos aplicados ao melhoramento genético. 2. ed. Viçosa, MG: Universidade Federal de Viçosa - UFV, 1997. 390 p.

[15] FARIA, L. C. et al. Genetic progress during 22 years of improvement of carioca-type common bean in Brazil. Field Crops Research, Amsterdam, v. 142, n. 1, p. 68-74, 2013.

[16] FARIA, L. C. et al. Genetic progress during 22 years of black bean improvement. Euphytica, Wageningen, v. 199, n. 1, p. 261-272, 2014.

[17] FERNÁNDEZ, F.; GEPTS, P.; LOPEZ, M. Etapas de desarrollo della planta de frijol común (Phaseolus vulgaris L.). Cali: CIAT , 1986. 34 p.

[18] MAZIERO, S. M.; RIBEIRO, N. D.; STORCK, L. Simultaneous selection in beans for architecture, grain yield and minerals concentration. Euphytica , Wageningen, v. 205, n. 2, p. 369-380, 2015.

[19] MENDES, F. F.; RAMALHO, M. A. P.; ABREU, A. F. B. Índice de seleção para escolha de populações segregantes de feijoeiro-comum. Pesquisa Agropecuária Brasileira, Brasília, v. 44, n. 10, p. 1312-1318, 2009.

[20] MINGOTTE, F. L. C. et al. Desempenho produtivo e qualidade pós-colheita de genótipos de feijão do grupo comercial carioca cultivados na época de inverno-primavera. Bioscience Journal, Uberlândia, v. 29, n. 5, p. 1101-1110, 2013.

[21] MOURA, M. M. et al. Potencial de caracteres na avaliação da arquitetura de plantas de feijão. Pesquisa Agropecuária Brasileira , Brasília, v. 48, n. 4, p. 417-425, 2013.

[22] OLIVEIRA, R. L. et al. Precisão experimental em ensaios com a cultura do feijão. Ciência e Agrotecnologia , Lavras, v. 33, n. 1, p. 113-119, 2009.

[23] PÉREZ-VEGA, E. et al. Mapping of QTLs for morpho-agronomic and seed quality traits in a RIL population of common bean (Phaseolus vulgaris L.). Theoretical and Applied Genetics , New York, v. 120, n. 7, p. 1367-1380, 2010.

[24] RIBEIRO, N. D.; DOMINGUES, L. S.; ZEMOLIN, A. E. M. Avaliação dos componentes da produtividade de grãos em feijão de grãos especiais. Científica, Jaboticabal, v. 42, n. 2, p. 178-186, 2014.

[25] RIBEIRO, N. D. et al. Genetic progress in traits of yield, phenology and morphology of common bean. Crop Breeding and Applied Biotechnology, Viçosa, v. 8, n. 3, p. 232-238, 2008.

[26] RIBEIRO, N. D. et al . Critério de seleção indireta para a produtividade de grãos em feijão. Ciência Rural , Santa Maria, v. 40, n. 4, p. 986-989, 2010.

[27] RIBEIRO, N. D. et al . Desempenho agronômico e qualidade de cozimento de linhagens de feijão do grupo especiais. Ciência Agronômica, Fortaleza, v. 45, n. 1, p. 92-100, 2014.

[28] SILVA, V. M. P. et al. Genetic potential of common bean parents for plant architecture improvement. Scientia Agricola, Piracicaba, v. 70, n. 3, p. 167-175, 2013.

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[31] ZILIO, M. et al. Cycle, canopy architecture and yield of common bean genotypes (Phaseolus vulgaris) in Santa Catarina State. Acta Scientiarum Agronomy , Maringá, v. 35, n. 1, p. 21-30, 2013.

[32] ZIMMERMANN, M. J. O.; TEIXEIRA, M. G. Origem e evolução. In: ARAÚJO, R. S. et al. (Eds.). Cultura do feijoeiro comum no Brasil. Piracicaba: Potafós, 1996, v. 1. cap. 2, p. 57-70.

Variable	Rainy	season	2012		Dry	season	2013
	Nov	Dec	Jan	Feb	Mar	Apr	May	Jun
Minimum temperature (°C)	17.5	19.9	18.2	19.1	16.4	14.4	11.0	9.5
Maximum temperature (°C)	30.4	31.1	30.3	29.9	26.6	26.4	21.4	18.9
Rainfall (mm)	72.8	293.0	145.3	97.7	188.6	147.4	71.6	81.6
Relative humidity (%)	70.5	77.8	75.8	80.9	83.8	83.5	87.2	89.7

Line	FLO (days)				RP (days)				CYCLE (days)				GAS		LDG				SG
	RS		DS		RS		DS		RS		DS				RS		DS		RS		DS
BRS Valente	32.33	a	50.00	a	37.67	a	60.33	b	84.00	b	110.33	b	5.83	b	3.33	b	6.00	b	3.67	a	3.33	b
Carioca	33.00	a	47.00	b	36.33	a	60.00	b	79.80	b	107.00	b	7.83	a	8.00	a	8.67	a	4.67	a	4.00	a
CHC 98-42	33.33	a	45.00	c	37.00	a	65.33	a	84.40	b	110.33	b	7.00	a	6.33	a	6.67	b	4.00	a	4.00	a
CHP 01-238	31.00	b	42.33	c	36.67	a	59.33	b	81.20	b	101.67	c	6.50	b	2.33	c	8.00	a	3.67	a	4.33	a
CNFC 10762	34.33	a	48.67	a	37.00	a	65.67	a	82.33	b	114.33	a	7.67	a	4.33	b	8.00	a	4.00	a	4.33	a
CNFP 10794	29.67	b	43.33	c	38.33	a	67.00	a	78.20	b	110.33	b	6.67	b	1.67	c	7.67	a	4.33	a	3.67	b
DF 06-09	33.67	a	44.67	c	33.67	a	61.00	b	80.80	b	105.67	b	7.67	a	2.67	c	8.00	a	4.00	a	4.67	a
DF 06-17	31.00	b	42.00	c	36.33	a	51.00	c	80.80	b	93.00	d	6.33	b	6.33	a	8.33	a	4.33	a	3.33	b
GEN C4-7-7-2-2	33.67	a	45.67	b	39.67	a	70.00	a	91.40	a	115.67	a	6.17	b	5.67	a	8.33	a	2.33	a	4.67	a
GEN C4-7-8-1-2	35.00	a	46.67	b	40.33	a	70.67	a	90.40	a	117.33	a	8.00	a	7.00	a	8.33	a	5.00	a	4.00	a
Guapo Brilhante	28.67	b	42.67	c	36.67	a	58.33	b	80.00	b	101.00	c	6.33	b	6.33	a	6.67	b	3.33	a	3.67	b
Pérola	33.33	a	48.67	a	35.00	a	65.67	a	82.00	b	114.33	a	7.00	a	7.33	a	8.67	a	3.67	a	4.67	a
LP 09-40	33.00	a	42.00	c	38.33	a	66.00	a	85.60	b	108.00	b	6.00	b	7.33	a	7.33	b	4.00	a	4.67	a
LP 09-192	33.67	a	43.33	c	37.33	a	65.67	a	85.20	b	109.00	b	7.00	a	2.33	c	6.67	b	4.33	a	2.67	b
Mean	32.55		45.14		37.17		63.29		83.30		108.43		6.86		5.07		7.67		3.95		4.00
CV (%)	4.44				7.34				4.00				14.31		14.77				16.72
	IFP		ILP		PH		NB				NIMP		1IL (cm)				2IL(cm)		3IL (cm)		4IL (cm)
	(cm)		(cm)		(cm)		RS		DS				RS		DS
BRS Valente	21.77	ns	40.73	b	51.45	b	7.47	b	10.70	b	10.92	a	5.23	a	4.29	a	6.96	a	8.56	a	10.65	ns
Carioca	20.73		46.50	a	50.19	b	6.33	b	6.67	c	10.10	b	4.40	b	4.02	a	6.34	b	7.97	b	10.63
CHC 98-42	23.67		53.29	a	68.08	a	8.43	a	7.44	c	11.04	a	4.60	b	3.91	a	6.56	a	8.20	a	10.22
CHP 01-238	19.57		40.55	b	54.66	b	7.10	b	7.36	c	10.68	a	5.20	a	3.54	a	6.89	a	8.53	a	10.73
CNFC 10762	20.62		37.18	b	52.63	b	6.97	b	11.20	a	9.73	b	4.23	b	3.04	a	5.88	b	7.70	b	9.93
CNFP 10794	22.89		45.22	a	62.08	a	7.30	b	12.40	a	10.57	a	3.33	c	3.69	a	7.03	a	8.70	a	10.83
DF 06-09	20.41		36.22	b	48.78	b	7.87	a	9.53	b	11.78	a	4.87	a	4.13	a	6.19	b	7.64	b	9.53
DF 06-17	23.15		41.05	b	51.20	b	5.90	b	6.53	c	8.03	c	5.03	a	5.03	a	7.53	a	9.35	a	11.97
GEN C4-7-7-2-2	23.12		43.17	a	64.52	a	6.67	b	6.92	c	11.19	a	4.47	b	3.40	a	5.50	b	7.04	b	9.19
GEN C4-7-8-1-2	24.34		45.83	a	60.47	a	8.03	a	6.73	c	10.93	a	4.33	b	3.84	a	6.27	b	7.93	b	9.78
Guapo Brilhante	20.11		36.85	b	46.37	b	9.47	a	7.49	c	10.70	a	5.70	a	3.83	a	6.99	a	8.81	a	11.08
Pérola	22.70		46.58	a	61.52	a	6.77	b	8.05	c	9.79	b	5.33	a	4.23	a	7.20	a	8.81	a	11.19
LP 09-40	21.70		45.20	a	63.20	a	7.47	b	7.47	c	11.15	a	4.27	b	3.47	a	5.87	b	7.22	b	9.38
LP 09-192	24.71		45.46	a	57.81	a	6.10	b	7.34	c	10.78	a	3.40	c	4.23	a	6.70	a	8.51	a	10.58
Mean	22.11		43.13		56.64		7.28		8.27		10.53		4.60		3.90		6.57		8.21		10.41
CV (%)	22.83		17.86		18.35		11.59				8.44		14.44				12.22		11.94		14.57
	5IL(cm)		NPP				NG				NGP				M100G (g)				YLD (kg ha-1)
			RS		DS		RS		DS		RS		DS		RS		DS		RS		DS
BRS Valente	13.57	ns	8.67	c	16.77	a	28.03	c	93.50	a	3.25	c	5.57	a	16.83	b	11.50	c	1081.37	c	1278.62	d
Carioca	13.80		7.77	c	12.61	c	29.00	c	68.80	b	3.73	b	5.72	a	18.97	a	19.97	b	1042.41	c	1149.91	d
CHC 98-42	13.45		8.43	c	14.85	b	26.83	c	61.78	c	3.19	c	4.14	b	20.17	a	18.60	b	1501.13	a	1603.13	b
CHP 01-238	13.69		8.13	c	12.68	c	23.77	c	61.20	c	2.92	c	4.79	b	18.00	b	17.80	b	1085.37	c	1510.06	c
CNFC 10762	13.21		4.80	d	14.55	b	20.77	c	68.60	b	4.54	a	4.71	b	17.43	b	23.57	a	1348.14	b	1965.72	a
CNFP 10794	13.72		16.00	a	16.61	a	56.37	a	74.20	b	3.53	b	4.47	b	23.97	a	26.83	a	1677.41	a	1899.82	a
DF 06-09	12.05		7.93	c	12.74	c	19.13	c	55.92	c	2.39	c	4.38	b	16.57	b	24.33	a	1617.49	a	1545.46	c
DF 06-17	15.85		8.43	c	11.23	d	29.20	c	48.03	c	3.47	b	4.33	b	18.43	b	20.83	b	1510.74	a	1715.38	b
GEN C4-7-7-2-2	12.69		5.80	d	10.92	d	19.00	c	43.32	c	3.24	c	3.98	b	16.03	b	12.13	c	952.30	c	1488.59	c
GEN C4-7-8-1-2	12.31		11.73	b	9.85	d	31.40	c	50.32	c	2.71	c	5.07	a	21.97	a	21.60	b	1349.04	b	1619.06	b
Guapo Brilhante	13.81		13.43	b	11.13	d	39.40	b	52.12	c	2.91	c	4.70	b	15.87	b	15.47	c	1533.76	a	1279.43	d
Pérola	14.73		7.43	c	18.27	a	22.27	c	78.73	b	3.00	c	4.29	b	19.30	a	18.33	b	1551.41	a	1540.06	c
LP 09-40	12.40		9.80	c	13.67	c	29.50	c	58.20	c	3.03	c	4.27	b	19.73	a	19.43	b	1727.17	a	1786.63	a
LP 09-192	13.81		6.97	c	16.38	a	21.03	c	68.14	b	3.03	c	4.16	b	20.33	a	13.20	c	1543.26	a	1399.81	c
Mean	13.51		8.95		13.73		28.26		63.06		3.21		4.61		18.83		18.83		1394.36		1555.83
CV (%)	22.50		12.28				18.00				13.97				13.33				7.93

	RP		CYCLE		GAS		LDG	SG		ILP	PH		NB		NIMP
FLO	0.39		0.70	^**	0.59	^*	0.22	0.23		0.15	0.13		0.05		0.11
RP			0.90	^**	-0.20		0.04	-0.24		0.42	0.72	^**	0.13		0.50
CYCLE					0.07		0.14	-0.14		0.35	0.61	^*	0.03		0.46
GAS							0.47	0.66	^*	-0.13	-0.26		-0.14		-0.27
LDG								0.54	^*	0.03	0.13		-0.55	^*	-0.35
SG										-0.10	-0.25		-0.12		-0.27
ILP											0.78	^**	-0.31		0.06
PH													-0.10		0.24
BN															0.33
	1IL		2IL		3IL		NPP	NG		NGP		M100G			YLD
FLO	-0.10		-0.39		-0.38		-0.26	0.01		0.35		-0.11			-0.27
RP	-0.72	^**	-0.60	^*	-0.58	^*	0.10	0.00		-0.11		0.13			0.11
CYCLE	-0.48		-0.63	^*	-0.62	^*	-0.13	-0.13		-0.06		-0.11			-0.10
GAS	0.18		-0.24		-0.19		-0.51	-0.33		0.27		0.03			-0.15
LDG	0.22		-0.17		-0.18		-0.38	-0.36		0.10		0.06			-0.09
SG	0.06		-0.22		-0.20		-0.30	-0.28		0.14		0.30			0.34
ILP	-0.23		0.01		-0.02		0.24	0.15		-0.11		0.20			0.04
PH	-0.46		-0.27		-0.31		0.18	-0.02		-0.38		0.19			0.30
BN	-0.23		0.02		0.01		0.59^*	0.60	^*	0.17		0.30			0.35
NIMP	-0.34		-0.53	^*	-0.59	^*	0.10	-0.04		-0.37		-0.16			-0.14
1IL			0.60	^*	0.55	^*	-0.12	-0.09		-0.12		-0.40			-0.30
2IL					0.98	^**	0.51	0.47		-0.01		0.08			0.07
3IL							0.45	0.44		0.06		0.07			0.06
NPP								0.86	^**	-0.03		0.40			0.39
NG										0.43		0.28			0.10
NGP												0.08			-0.33
M100G															0.68^**

Character*	Xo	Xs	h²	GG	GGS%		Selected	lines
						CNFP 10794	CNFC 10762	DF 06-09	BRS Valente
FLO	38.85	39.58	87.38	0.64	1.66	36.50	41.50	39.17	41.17
RP	50.23	50.08	77.70	-0.11	-0.22	52.67	51.33	47.33	49.00
CYCLE	95.86	95.75	88.90	-0.10	-0.10	94.27	98.33	93.23	97.17
GAS	6.86	6.96	68.42	0.07	1.01	5.83	8.00	7.67	6.33
LDG	6.37	5.21	91.42	-1.06	-16.66	4.67	6.17	5.33	4.67
SG	3.98	3.96	42.23	-0.01	-0.19	3.50	4.50	4.33	3.50
IPH	22.11	21.42	12.38	-0.08	-0.38	22.89	20.62	20.41	21.77
IPH	43.13	39.84	55.21	-1.82	-4.21	45.22	37.18	36.22	40.73
PH	56.64	53.74	60.39	-1.75	-3.10	62.08	52.63	48.78	51.45
NB	7.78	9.18	88.95	1.25	16.06	9.85	9.08	8.70	9.08
NIMP	10.53	10.75	83.99	0.19	1.77	10.57	9.73	11.78	10.92
1IL	4.25	4.10	71.71	-0.11	-2.53	3.51	3.64	4.50	4.76
2IL	6.56	6.52	68.22	-0.03	-0.51	7.03	5.88	6.19	6.96
3IL	8.21	8.15	63.15	-0.04	-0.47	8.70	7.70	7.64	8.56
4IL	10.41	10.23	36.92	-0.06	-0.61	10.83	9.93	9.53	10.65
5IL	13.50	13.13	13.75	-0.05	-0.38	13.72	13.21	12.05	13.57
NPP	11.34	12.26	91.15	0.83	7.36	16.30	9.67	10.34	12.72
NG	45.66	52.07	85.55	5.48	11.99	65.28	44.68	37.53	60.77
NGP	3.91	4.11	69.36	0.13	3.44	4.00	4.63	3.39	4.41
M100G	18.83	20.13	88.49	1.15	6.11	25.40	20.50	20.45	14.17
YLD	1475.10	1551.75	94.93	72.77	4.93	1788.61	1656.93	1581.47	1179.99
Gain				77.28	24.97

Brasil

Brasil

PHENOLOGICAL, PLANT ARCHITECTURE, AND GRAIN YIELD TRAITS ON COMMON BEAN LINES SELECTION¹ 1 Paper extracted from the master dissertation of the second author.

CARACTERES FENOLÓGICOS, DA ARQUITETURA DE PLANTA E DA PRODUTIVIDADE NA SELEÇÃO DE LINHAGENS DE FEIJÃO

ABSTRACT

RESUMO

INTRODUCTION

MATERIAL AND METHODS

RESULTS AND DISCUSSION

CONCLUSIONS

ACKNOWLEDGEMENTS

REFERENCES

Publication Dates

History

Brasil

Brasil

PHENOLOGICAL, PLANT ARCHITECTURE, AND GRAIN YIELD TRAITS ON COMMON BEAN LINES SELECTION1 1 Paper extracted from the master dissertation of the second author.

CARACTERES FENOLÓGICOS, DA ARQUITETURA DE PLANTA E DA PRODUTIVIDADE NA SELEÇÃO DE LINHAGENS DE FEIJÃO

ABSTRACT

RESUMO

INTRODUCTION

MATERIAL AND METHODS

RESULTS AND DISCUSSION

CONCLUSIONS

ACKNOWLEDGEMENTS

REFERENCES

Publication Dates

History

PHENOLOGICAL, PLANT ARCHITECTURE, AND GRAIN YIELD TRAITS ON COMMON BEAN LINES SELECTION¹ 1 Paper extracted from the master dissertation of the second author.