Abstract:

The objective of this work was to estimate the effects of genotype x environment interaction and the genetic potential of flood-irrigated rice cultivars, released between 1972 and 2017, for the state of Rio Grande do Sul, Brazil. The experiments were carried out in the field, in all agroclimatic regions of flood-irrigated rice crop in the state, between the 2005/2006 and 2015/2016 crop years, totaling 60 environments (trials), with 1,961 experimental units. Twenty-five cultivars of irrigated rice were evaluated for the traits grain yield, plant height, days to flowering, and whole grain quality after milling. The values of adaptability and stability were estimated with the aid of mixed models. The rice cultivars BRS Pampa, BRS Pampeira, and BRSCIRAD 302 showed simultaneously high-genotypic grain yield, adaptability, stability, good agronomic traits, and good whole-grain yield after milling. 'BRSCIRAD 302' and 'BRS Pampa' show high-yield stability and can be recommended for all rice cultivation regions of Rio Grande do Sul. 'BRS Pampeira' is responsive to environmental improvements and is indicated for high-technology conditions.

Index terms:
Oryza sativa; genotype x environment interaction; mixed models; plant breeding; zoning of cultivars

Resumo:

O objetivo deste trabalho foi estimar os efeitos da interação genótipo x ambiente e o potencial genotípico de cultivares de arroz irrigado por inundação, lançadas entre 1972 e 2017, para o Rio Grande do Sul. Os experimentos foram realizados em campo, em todas as regiões agroclimáticas de cultivo de arroz irrigado por inundação do estado, entre os anos agrícolas de 2005/2006 e 2015/2016, no total de 60 ambientes, com 1.961 unidades experimentais. Vinte e cinco cultivares de arroz irrigado foram avaliadas quanto aos caracteres produtividade de grãos, altura de plantas, dias para o florescimento e qualidade de grãos inteiros após o beneficiamento. Os valores de adaptabilidade e estabilidade foram estimados por meio de modelos mistos. As cultivares de arroz BRS Pampa, BRS Pampeira e BRSCIRAD 302 apresentaram, simultaneamente, alta produtividade genotípica de grãos, adaptabilidade, estabilidade, bons atributos agronômicos e bom rendimento de grãos inteiros após o beneficiamento. 'BRSCIRAD 302' e 'BRS Pampa' apresentam alta estabilidade produtiva e podem ser recomendadas para cultivo em todas as regiões orizícolas do Rio Grande do Sul. 'BRS Pampeira' é responsiva às melhorias do ambiente e é indicada para condições de alta tecnologia.

Termos para indexação:
Oryza sativa; interação genótipo x ambiente; modelos mistos; melhoramento genético; zoneamento de cultivares

Introduction

Rice (Oryza sativa L.) is the dietary basis of half the world’s population (Hao & Lin, 2010HAO, W.; LIN, H.-X. Toward understanding genetic mechanisms of complex traits in rice. Journal of Genetics and Genomics, v.37, p.653-666, 2010. DOI: 10.1016/S1673-8527(09)60084-9.
https://doi.org/10.1016/S1673-8527(09)60... ). In Brazil, flood-irrigated rice has a high-economic and social importance, and it is mainly produced in lowland areas. Rice in these areas shows high yields; however, there is a range of other agroclimatic regions, as well as technology uses. This generates diverse phenotypic responses of the genotype in the different regions, due to genotype x environment (GxE) interactions, which particularly affect the quantitative traits.

In order to obtain more precise estimates of GxE effects, it is necessary to conduct experiments in as many numbers of sites and years as possible, to evaluate the magnitude of the interactions and their possible impact on the selection and recommendation of cultivars (Silva et al., 2013SILVA, G.A.P.; CHIORATO, A.F.; GONÇALVES, J.G.R.; PERINA, E.F.; CARBONELL, S.A.M. Análise da adaptabilidade e estabilidade de produção em ensaios regionais de feijoeiro para o Estado de São Paulo. Revista Ceres, v.60, p.59-65, 2013. DOI: 10.1590/S0034-737X2013000100009.
https://doi.org/10.1590/S0034-737X201300... ). Therefore, for the cultivar maximum yield performance, it is necessary to carry out comparative tests in different environments, to determine yield, adaptability, and stability to different agroclimatic conditions. The knowledge of these environmental requirements and peculiarities of the main available cultivars allows of the selection of the most appropriate genotypes to each crop and growing condition. Thus, for cultivar recommendation, it is essential to determine the adaptability (broad or specific) and stability in each production region.

GxE can be studied by measures of adaptability and stability, which allows of a simple interpretation of a large dataset. In the context of mixed models, the harmonic mean of the relative performance of genetic values (MHPRVG) (Resende, 2007RESENDE, M.D.V. Matemática e estatística na análise de experimentos e no melhoramento genético. Colombo: Embrapa Florestas, 2007. 561p.) has been shown to be one of the efficient alternatives for the simultaneous evaluation of genotypes for yield, adaptability, and stability, mainly when unbalanced data are produced (Balestre et al., 2010BALESTRE, M.; SANTOS, V.B. dos; SOARES, A.A.; REIS, M.S. Stability and adaptability of upland rice genotypes. Crop Breeding and Applied Biotechnology, v.10, p.357-363, 2010. DOI: 10.1590/S1984-70332010000400011.
https://doi.org/10.1590/S1984-7033201000... ; Borges et al., 2010BORGES, V.; SOARES, A.A.; REIS, M.S.; RESENDE, M.D.V.; CORNÉLIO, V.M.O.; LEITE, N.A.; VIEIRA, A.R. Desempenho genotípico de linhagens de arroz de terras altas utilizando metodologia de modelos mistos. Bragantia, v.69, p.833-841, 2010. DOI: 10.1590/S0006-87052010000400008.
https://doi.org/10.1590/S0006-8705201000... ). This mixed model approach has been used efficiently in the analyses of numerous crops, such as sugarcane (Bastos et al., 2007BASTOS, I.T.; BARBOSA, M.H.P.; RESENDE, M.D.V. de; PETERNELLI, L.A.; SILVEIRA, L.C.I. da; DONDA, L.R.; FORTUNATO, A.A.; COSTA, P.M. de A.; FIGUEIREDO, I.C.R. de. Avaliação da interação genótipo x ambiente em cana-de-açúcar via modelos mistos. Pesquisa Agropecuária Tropical, v. 37, p.195-203, 2007.), carrot (Silva et al., 2011SILVA, G.O. da; CARVALHO, A.D.F. de; VIEIRA, J.V.; BENIN, G. Verificação da adaptabilidade e estabilidade de populações de cenoura pelos métodos AMMI, GGE biplot e REML/BLUP. Bragantia, v.70, p.494-501, 2011. DOI: 10.1590/S0006-87052011005000003.
https://doi.org/10.1590/S0006-8705201100... ), common beans (Torres et al., 2015TORRES, F.E.; TEODORO, P.E.; SAGRILO, E.; CECCON, G.; CORREA, A.M. Interação genótipo x ambiente em genótipos de feijão-caupi semiprostrado via modelos mistos. Bragantia, v.74, p.255-260, 2015. DOI: 10.1590/1678-4499.0099.
https://doi.org/10.1590/1678-4499.0099... ), corn (Mendes et al., 2012MENDES, F.F.; GUIMARÃES, L.J.M.; SOUZA, J.C.; GUIMARÃES, P.E.O.; PACHECO, C.A.P.; MACHADO, J.R. de A.; MEIRELLES, W.F.; SILVA, A.R. da; PARENTONI, S.N. Adaptability and stability of maize varieties using mixed model methodology. Crop Breeding and Applied Biotechnology, v.12, p.111-117, 2012. DOI: 10.1590/S1984-70332012000200003.
https://doi.org/10.1590/S1984-7033201200... ; Faria et al., 2017FARIA, S.V.; LUZ, L.S.; RODRIGUES, M.C.; CARNEIRO, J.E. de S.; CARNEIRO, P.C.S.; DELIMA, R.O. Adaptability and stability in commercial maize hybrids in the southeast of the State of Minas Gerais, Brazil. Revista Ciência Agronômica, v.48, p.347-357, 2017. DOI: 10.5935/1806-6690.20170040.
https://doi.org/10.5935/1806-6690.201700... ), and rice (Colombari Filho et al., 2013COLOMBARI FILHO, J.M.; RESENDE, M.D.V. de; MORAIS, O.P. de; CASTRO, A.P. de; GUIMARÃES, É.P.; PEREIRA, J.A.; UTUMI, M.M.; BRESEGHELLO, F. Upland rice breeding in Brazil: a simultaneous genotypic evaluation of stability, adaptability and grain yield. Euphytica, v.192, p.117-129, 2013. DOI: 10.1007/s10681-013-0922-2.
https://doi.org/10.1007/s10681-013-0922-... ).

Currently, the development of new high-yielding cultivars for different growing conditions (intrinsic conditions of planting, management, and climate) is one of the great challenges of breeders to attend the development requirements of technologies compatible with flood-irrigated rice. In this way, the plant breeding programs has developed numerous cultivars to meet the demand of various segments of cereal production chains. However, there is a lack of scientific information regarding the response of these flood-irrigated rice cultivars released in Rio Grande do Sul and their interactions with the growing environments.

The objective of this work was to estimate the effects of GxE and the genetic potential of flood-irrigated rice cultivars released between 1972 and 2017 for the state of Rio Grande do Sul, Brazil.

Materials and Methods

The experiment was carried out in all agroclimatic regions of flood-irrigated rice cultivation in the state of Rio Grande do Sul, which are: Fronteira Oeste, Campanha, Depressão Central, Planície Costeira Interna e Planície Costeira Externa, and Zona Sul. Twenty-five flood-irrigated rice cultivars released by the Embrapa breeding program for Southern Brazil, from 1972 to 2017, were used (Table 1). These cultivars were released over 46 years to meet the needs of the main production chain and their genetic constitutions that define the morphological traits, and purposes of use have changed over time.

The evaluations were evaluated in 60 environments, covering 1,961 experimental units. The number of sites in each of the 11 years of trial ranges from two to seven, depending on the availability of annual partnerships with companies and rural producers.

The experiment was carried out in randomized complete block design, with four replicates, for which the plots were composed of nine 5 m rows, spaced at 0.20 m between lines. The useful plot area was composed by the central 4 m lines of the seven internal ones, in order to exclude any incident effect on the border. Sowing was performed in conventional system, with one mechanical sowing of plots. The cultivation followed technical recommendations for flood-irrigated rice crop in Southern Brazil. The permanent flood irrigation system was used until the final maturation stage of the genotypes.

The following agronomic traits were evaluated: grain yield (kg ha^-1) adjusted to 13% humidity; plant height (cm) in the maturation stage, by measuring the length of the main tiller from the soil surface to the tip of panicles; number of days to flowering, measured by the number of days from emergence up to 50% of the panicles exposed; and the percentage of whole grains after milling, obtained by peeling and polishing of grains in a mini test device.

At first, the trials were grouped, considering each environment composed by a site in a given cultivation year. Not all the cultivars were evaluated in all the sites and cultivation years, since new cultivars were released over the evaluation period. Thus, the estimates of variance components were obtained by the residual maximum likelihood (REML) method, and the prediction of genetic values of each individual was performed with the best unbiased linear prediction procedure (Blup). The predicted values of the random effects (EBlup), associated to each of the genotypes, included a share allocated to the estimation of constant μp means (common average of cultivars without random genotypic deviations), and another share referring to the particular genotypic effects of each genotype.

The analyses were performed with the statistical software Selegen-REML/Blup (Resende, 2016RESENDE, M.D.V. de. Software Selegen-REML/BLUP: a useful tool for plant breeding. Crop Breeding and Applied Biotechnology, v.16, p.330-339, 2016. DOI: 10.1590/1984- 70332016v16n4a49.
https://doi.org/10.1590/1984- 70332016v1... ), by which the variance components were obtained according to the linear mixed model

in which: y_ijkn is the observed value of the i^th genotype, in the j^th block, in the k^th environment, in the n^th harvest season; μ is the effect of the general mean; g_i is the random effect of genotype i; b_j(kn) is the fixed effect of block j, inside site k, and year n; l_k is the random effect of site k; a_n is the random effect of year n; gl_ik is the random effect of the genotype x site interaction; ga_in is the random effect of the genotype x year interaction; la_kn is the random effect of the site x cultivation year interaction; gla_ikn is the random effect of the genotype x site x year interaction; and ε_ijkn is the error or experimental residue.

The statistical matrix used to estimate the harmonic mean of the relative performance of genetic values (MHPRVG) was obtained from the model $y=Xr+Zg+Wi+\epsilon ,$ in which: y is the data vector; r is the block effect vector, considered as fixed, added to the general average; g is the genotypic effect vector, considered as random; i is the GxE (random) interaction effect vector; ε is the error or residue (random) vector; and X, Z, and W represent the incident matrices for these effects.

The harmonic mean of genetic values (MHVG_i) and the relative performance of the predicted genotypic values (PRVG) was obtained, respectively, by

and the model which was considered simultaneously for yield, adaptability, and stability, obtained by harmonic mean of the relative performance of the genetic values (MHPRVG), was calculated by

in which, n is the number of environments where the genotype i was evaluated; Vg_ij is the genotypic value of the genotype i in the environment j, expressed as the proportion of the average of this environment; and μ_j is the general mean of each environment j (Resende, 2016RESENDE, M.D.V. de. Software Selegen-REML/BLUP: a useful tool for plant breeding. Crop Breeding and Applied Biotechnology, v.16, p.330-339, 2016. DOI: 10.1590/1984- 70332016v16n4a49.
https://doi.org/10.1590/1984- 70332016v1... ).

Results and Discussion

Grain yield, number of days to flowering, and plant height showed a large share of the total phenotypic variation (ˆσ²_f) of genetic origin (ˆσ²_g), which can be evidenced by the high estimated values of total genotypic effect and heritability (ĥ²_g), even though these are considered traits of quantitative genetic inheritance (Table 2).

However, for the trait percentage of whole grains after milling, there was a high contribution of the GxE complex interaction (low-genotypic correlation between genotype x year x site) and low heritability. Grain quality traits are highly affected by the environment in the irrigated rice cropping (Cameron et al., 2008CAMERON, D.K.; WANG, Y.J.; MOLDENHAUER, K.A. Comparison of physical and chemical properties of medium-grain rice cultivars grown in California and Arkansas. Journal of Food Science, v.73, p. c. 72-78, 2008. DOI: 10.1111/j.1750-3841.2007.00631.x.
https://doi.org/10.1111/j.1750-3841.2007... ; Hakata et al., 2012HAKATA, M.; KURODA, M.; MIYASHITA, T.; YAMAGUCHI, T.; KOJIMA, M.; SAKAKIBARA, H.; MITSUI T.; YAMAKAWA, H. Suppression of α-amylase genes improves quality of rice grain ripened under high temperature. Plant Biotechnology Journal, v.10, p.1110-1117, 2012. DOI: 10.1111/j.1467-7652.2012.00741.x.
https://doi.org/10.1111/j.1467-7652.2012... ; Lyman et al., 2013LYMAN, N.B.; JAGADISH, K.S.V.; NALLEY, L.L.; DIXON, B.L.; SIEBENMORGEN, T. Neglecting rice milling yield and quality underestimates economic losses from high-temperature stress. PLoS ONE, v.8, e72157, 2013. DOI: 10.1371/journal.pone.0072157.
https://doi.org/10.1371/journal.pone.007... ; Li et al., 2014LI, Y.; FAN, C.; XING, Y.; YUN, P.; LUO, L.; YAN, B.; PENG, B.; XIE, W.; WANG, G.; LI, X.; XIAO, J.; XU, C.; HE, Y. Chalk5 encodes a vacuolar H+-translocating pyrophosphatase influencing grain chalkiness in rice. Nature Genetics, v.46, p.398-404, 2014. DOI: 10.1038/ng.2923.
https://doi.org/10.1038/ng.2923... ; Xu et al., 2015XU, Q.; CHEN, W.; XU, Z. Relationship between grain yield and quality in rice germplasms grown across different growing areas. Breeding Science, v.65, p.226-232, 2015. DOI: 10.1270/jsbbs.65.226.
https://doi.org/10.1270/jsbbs.65.226... ).

In the comparative trials of cultivars, in order to have a good experimental reliability, the genetic and statistical approaches should show the proportion between the genetic and residual variations associated to the studied trait; therefore, the selective accuracy is the most indicated parameter (Resende & Duarte, 2007RESENDE, M.D.V. de; DUARTE, J.B. Precisão e controle de qualidade em experimentos de avaliação de cultivares. Pesquisa Agropecuária Tropical, v.37, p.182-194, 2007.). Accuracies of 0.97, 0.98, 0.99, and 0.77 were observed for yield, cycle, height, and percentage of whole grains, respectively.

The high number of evaluated trials in different sites, during the 11 agricultural years, led to precise estimates of the genotypic value of the cultivars and of the GxE interaction effect. The presence of such interaction makes it difficult to recommend a single cultivar for all the producing environments; however, it allows of the recommendation of adapted cultivars to each environment. This accuracy can be verified by the estimates of the genetic and variance components (Table 2).

Based on the genotypic values and the measures of adaptability and stability obtained, the genetic potential for grain yield (G_i) of 'BRS Pampa' (9,837 kg ha^-1), 'BRSCIRAD 302' (9,247 kg ha^-1), 'BRS Pampeira' (9,216 kg ha^-1), and 'BRSCIRAD AH703 CL' (9,093 kg ha^-1) could be highlighted. These genotypes showed genetic potentials above 9,000 kg ha^-1 (Table 3), and it should be noted that the predicted genetic values were validated by high accuracy.

As to the genotypic stability (MHVG), 'BR/IRGA 412', 'BRS Pampa', and 'BRS Agrisul' showed a stable behavior in the studied environments. The higher stability under conditions of environmental variations was obtained by 'BRSCIRAD 302' (Table 3), that is a hybrid released in 2010. This high-yield stability was expected because hybrids are less affected by adverse cultivation conditions. This was reported for 140 hybrid cultivars subjected to three levels of nitrogen (0, 60, and 120 kg ha^-1), in which positive heterosis for grain yield was observed, irrespectively of the tested environment (Young & Virmani, 1990YOUNG, J.; VIRMANI, S.S. Heterosis in rice over environments. Euphytica, v.51, p.87-93, 1990. DOI: 10.1007/BF00022896.
https://doi.org/10.1007/BF00022896... ).

Regarding the genotypic adaptability (PRVG), the cultivars that showed the highest genetic potential for yield were also considered more adapted to the cultivated regions in Rio Grande do Sul (Table 3). 'BRS Pampa', 'BRS Pampeira', 'BRSCIRAD AH703 CL', and 'BRSCIRAD 302' were quite productive and responsive to the cultivated conditions in Rio Grande do Sul.

The MHPRVG method, which is obtained by penalizing the genotypic instability effect and capitalizing by the favorable response of the genotype to the environment, allowed to discriminate the flood-irrigated rice cultivars considering, simultaneously, yield, genotypic adaptability, and stability (Table 3). Therefore, the outperformers were again 'BRS Pampa', 'BRS Pampeira', 'BRSCIRAD AH703 CL' and 'BRSCIRAD 302' that showed their greater potential for cultivation in lowland regions under flood-irrigated system. The high-yield potential of 'BRS Pampeira' had already been reported by Magalhães Júnior et al. (2017a)MAGALHÃES JÚNIOR, A.M. de; MORAIS, O.P. de; FAGUNDES, P.R.R.; COLOMBARI FILHO, J.M.; FRANCO, D.F.; CORDEIRO, A.C.C.; PEREIRA, J.A.; RANGEL, P.H.N.; MOURA NETO, F.P.; STRECK, E.A.; AGUIAR, G.A.; FACCHINELLO, P.H.K. BRS Pampeira: new irrigated rice cultivar with high yield potential. Crop Breeding and Applied Biotechnology, v.17, p.78-83, 2017a. DOI: 10.1590/1984-70332017v17n1c13.
https://doi.org/10.1590/1984-70332017v17... .

The amplitude of fluctuation of genotypic responses, observed for each cultivar among environments, can be attributed to changes associated to cultivation years and sites within the year. The genetic parameters indicated three favorable and three unfavorable regions (Figure 1). The most favorable one was the Campanha region, with 10,389 kg ha^-1 average yield, and an environmental index of +2,344 kg ha^-1; and the least favorable was the Depressão Central region, with an average yield of 6,752 kg ha^-1, and an environmental index of -1,293 kg ha^-1. Slightly different responses were reported in experiments performed in the regions Depressão Central, Fronteira Oeste, Planície Costeira Externa and Interna, and Zona Sul, showing average yields of 7,938, 9,774, 8,501, 8,314, and 9,759 kg ha^-1, respectively (Rosa et al., 2015ROSA, H.T.; WALTER, L.C.; STRECK, N.A.; DE CARLI, C.; RIBAS, G.G.; MARCHESAN, E. Simulação do crescimento e produtividade de arroz no Rio Grande do Sul pelo modelo SimulArroz. Revista Brasileira de Engenharia Agrícola e Ambiental, v.19, p.1159-1165, 2015. DOI: 10.1590/1807-1929/agriambi.v19n12p1159-1165.
https://doi.org/10.1590/1807-1929/agriam... ). These contrasting results can be explained by the distinction in the group of evaluated cultivars in each study, which shows the importance of these GxE studies to define an agricultural zoning, with the purpose of recommending regionalized cultivars and selecting trial sites.

Figure 1.
Average yield, environmental index, and classification of irrigated rice (Oryza sativa) cultivars conducted in 11 harvest seasons, in the six rice regions of the state of Rio Grande do Sul, Brazil.

It is also important to verify the response as for the genotypic yield of cultivars in favorable and unfavorable environmental conditions (Table 4). In favorable environments, three highly responsive cultivars stood out, with yields higher than 10,000 kg ha^-1: 'BRS Pampa' (10,593 kg ha^-1), 'BRS Pampeira' (10,423 kg ha^-1), and 'BRS Pelota' (10,105 kg ha^-1). Besides these, several others showed satisfactory yield potentials under favorable cultivation conditions, with general genotypic means of 8,667 kg ha^-1. However, in cultivation environments considered unfavorable, the genotypic mean of the cultivars was much lower (7,298 kg ha^-1), and only 'BRS Pampa' displayed yield above 9,000 kg ha^-1. This small difference in genotypic yield (ΔĜ_i), when different cultivated conditions were compared, shows the excellent yield capacity associated to a good stability of this cultivar regarding grain yield, which makes 'BRS Pampa' indicated for cultivation in all rice regions of the state.

Genotypic estimates of favorable agronomic attributes for rice improvement are displayed (Table 5). Among the cultivars released after the end of the 1970s, only 'BR/IRGA 411' and 'BRS AG' were taller than 100 cm. It should be noted that 'BRS AG' was developed and released recently for ethanol production or animal feed (Magalhães Júnior et al., 2017bMAGALHÃES JÚNIOR, A.M.; FAGUNDES, P.R.R.; FRANCO, D.F.; MORAIS, O.P. de; SIQUEIRA, F.G.; STRECK, E.A.; AGUIAR, G.A.; FACCHINELLO, P.H.K. BRS AG: first cultivar of irrigated rice used for alcohol production or animal feed. Crop Breeding and Applied Biotechnology, v.17, p.72-77, 2017b. DOI: 10.1590/1984-70332017v17n1c12.
https://doi.org/10.1590/1984-70332017v17... ).

The discovery of the sd-1 gene, responsible for the semidwarf rice, allowed breeders to include this phenotype (associated with other agronomic traits of interest) into flood-irrigated rice cultivars leading to increased yield potential, especially 'BR/IRGA 409' and 'BR/IRGA 410' in Rio Grande do Sul (Streck et al., 2017STRECK, E.A.; AGUIAR, G.A.; MAGALHÃES JÚNIOR, A.M. de; FACCHINELLO, P.H.K.; OLIVEIRA, A.C. de. Variabilidade fenotípica de genótipos de arroz irrigado via análise multivariada. Revista Ciência Agronômica, v.48, p.101-109, 2017. DOI: 10.5935/1806-6690.20170011.
https://doi.org/10.5935/1806-6690.201700... ). In this context, it is verified that a large share of the cultivars released by the Embrapa breeding program, after the two mentioned ones, have aimed at lower-stature genotypes.

As for the trait days to flowering (DTF), most of the released cultivars were observed as displaying cycles ranging from early (between 80 and 90 DTF) to medium (between 91 and 100 DTF). However, 'BRS Ligeirinho' and 'BRS Atalanta' display super-early cycles (<80 DTF), which puts them as alternatives to specific cultivation conditions. At the other extreme, 'SCSBRS 113 - Tio Taka', obtained by recurrent selection (Rangel et al., 2007RANGEL, P.H.N.; BRONDANI, C.; MORAIS, O.P. de; SCHIOCCHET, M.A.; BORBA, T.C. de O.; RANGEL, P.N.; BRONDANI, R.P.V.; YOKOYAMA, S.; BACHA, R.E.; ISHY, T. Establishment of the irrigated rice cultivar SCSBRS Tio Taka by recurrent selection. Crop Breeding and Applied Biotechnology, v.7, p.103-110, 2007. DOI: 10.12702/1984-7033.v07n01a17.
https://doi.org/10.12702/1984-7033.v07n0... ), showed a very late cycle (>101 days to flowering) for the cultivation conditions of Rio Grande do Sul. This cultivar was developed and released specially for the State of Santa Catarina. The long cycle until flowering can explain the low-yield potential showed by this cultivar in the state of Rio Grande do Sul (Table 3). Rio Grande do Sul has a higher probability of low temperatures (Steinmetz et al., 2003STEINMETZ, S.; ASSIS, F.N. de; BURIOL, G.A.; ESTEFANEL, V.; AMARAL, A.G.; FERREIRA, J.S.A. Mapeamento das probabilidades de ocorrência de temperaturas mínimas do ar, durante o período reprodutivo do arroz irrigado, no Estado do Rio Grande do Sul. Revista Brasileira de Agrometeorologia, v.11, p.169-179, 2003.) and low luminosity (Klering et al., 2008KLERING, E.V.; FONTANA, D.C., BERLATO, M.A.; CARGNELUTTI FILHO, A. Modelagem agrometeorológica do rendimento de arroz irrigado no Rio Grande do Sul. Pesquisa Agropecuária Brasileira, v.43, p.549-558, 2008. DOI: 10.1590/S0100-204X2008000500001.
https://doi.org/10.1590/S0100-204X200800... ) at late February and early March.

Grain quality is also a widely considered parameter for the flood-irrigated rice improvement, as it determines the market value of the cereal. In this sense, the majority of the cultivars recently released by the breeding program have a high index of whole grains after milling, which is the main trait referring to rice industrial quality (Table 5). It should be noted that 'BRS Pampa', 'BRS Pampeira' and 'BRSCIRAD 302' which were outstanding for grain yield, also showed high-grain quality with, respectively, 62.19, 60.28 and 60.91% whole grains after milling.

Therefore, it can be considered that a wide range of flood-irrigated rice cultivars, developed by the Embrapa breeding program, shows good agronomic attributes for different cultivation conditions in the state of Rio Grande do Sul.

Conclusions

Acknowledgments

To Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) and to Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (Capes), for grants and fellowships; and to Embrapa Clima Temperado, for technical, scientific, and infrastructure support.

References

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