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Interação de genótipos com ambientes para qualidade de grãos carioca e caracteres agronômicos em feijoeiro-comum / Interaction genotype environment for carioca grain quality and agronomic traits in common bean genotypesSilva, Fernanda de Cássia 07 October 2015 (has links)
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Previous issue date: 2015-10-07 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / In the common bean crop, environmental influence and the differential behavior of
genotypes to environments they have been reported for various important traits, and
not restricted to grain yield. Initially, the producers crave for cultivars with high grain
yield, early, maturing, upright plant architecture that is conducive to direct
mechanized harvesting, commercial grain size and disease resistant. Unlike, the other
segments of the production chain crave for grains with other attributes. For industry
it is important that new cultivars present grains with high technology quality and
processing and for consumers higher nutritional, cuisine and functional quality. Thus,
these characteristics need to be combined to meeting the demands of the entire chain
and enable the adoption of a new cultivar. And for this, the factors that influence the
phenotypic expression of these traits require more studies. The objetive of this study
were i) to study the effect of the genotype x environment interaction (GxE) in the
grain yield associated with agronomic and grain quality traits and ii) identify carioca
common bean genotypes that have simultaneously high adaptability and stability for
these traits. Were conducted 79 trials Cultivation Value and Use (CVU) with carioca
common bean lines, distributed in Distrito Federal and States of Goiás, Distrito
Federal, Mato Grosso, Mato Grosso do Sul, Paraná, Santa Catarina, São Paulo,
Pernambuco, Bahia, Alagoas and Sergipe. These experiments were conducted in the
years 2011, 2012 and 2013, the sowing times of dry, winter and rainy. The
experimental design was a randomized block design with three replications and plots
of four lines, with 4 m row. The experiments consisted of 17 carioca common bean
genotypes: thirteen elite lines and four controls (BRS Estilo, Pérola, BRS Sublime e
CNFC 10762). The agronomic traits were evaluated: grain yield, plant architecture,
lodging and reaction to anthracnose, angular leaf spot, common bacterial blight and
wilt bacterial wilt, in addition to grain quality traits: visual aspect of grain, sieve in
yield, 100 100 weight, cooking time and crude protein concentration. Individual and
combined analyses of variance were realizedand analysis of adaptability and stability,
the Nunes graphical method, for all characters. The index posts sum was used for the
selection of genotypes favorable phenotypes for most traits, in addition to adaptability
and joint stability. High environmental influence and interaction GxE in phenotypic
expression for agronomic traits and traits related to grain quality was detected. It was
possible to select genotypes with superiority for each character set. The use of the
estimates of adaptability and stability combined with selection index was useful in
evaluating genotype performance against the environmental variations. The lines
CNFC 15033, CNFC 15070, CNFC 15025, CNFC 15049 and CNFC 15086 combined
phenotypic good sized, high adaptability and stability for most agronomic traits. The
genotypes who stand out for grain quality characters were CNFC 15097, CNFC 15038,
CNFC 15025, CNFC 15033 and BRS Estilo. From these results, CNFC 15025, CNFC
15033, CNFC 15097 and CNFC 15038 line highlighted by to associate traits of
agronomic interest the high quality of grain, as well as being stable and adapted to
different cropping regions. Thus, these breeding lines have potential to be indicated
as new cultivars and/or used as parents in breeding programs aimed at improving
these phenotypes. / Na cultura do feijoeiro-comum, a influência ambiental e o comportamento diferencial
dos genótipos aos ambientes têm sido relatados para vários caracteres de importância
e que não se restringem à produtividade de grãos. A princípio, os produtores almejam
cultivares com alta produtividade de grãos, precoces, arquitetura de planta ereta que
propicie a colheita mecanizada direta, grãos com padrão comercial, além de serem
resistentes às principais doenças. Diferentemente, os demais segmentos da cadeia
produtiva anseiam por grãos com outros atributos. Para a indústria é importante que
novas cultivares apresentem grãos com alta qualidade tecnológica e de
beneficiamento. Para os consumidores, maior qualidade nutricional, culinária e
funcional. Desse modo, essas características precisam ser combinadas para atender
demandas de toda a cadeia e viabilizar a adoção de uma nova cultivar. E, para isso,
os fatores que influenciam a manifestação fenotípica desses caracteres necessitam de
mais estudos. Os objetivos deste trabalho foram: i) estudar o efeito da interação de
genótipos com ambientes (GxA) para a produtividade de grãos associada aos
caracteres agronômicos e de qualidade de grãos e ii) identificar genótipos de feijoeirocomum
do grupo carioca que apresentem simultaneamente alta adaptabilidade e
estabilidade para esses caracteres. Foram realizados 79 ensaios de Valor de Cultivo e
Uso (VCU) com linhagens de feijoeiro-comum com grão carioca, distribuídos no
Distrito Federal e nos Estados de Goiás, Mato Grosso, Mato Grosso do Sul, Paraná,
Santa Catarina, São Paulo, Pernambuco, Bahia, Alagoas e Sergipe. Esses ensaios
foram conduzidos nos anos de 2011, 2012 e 2013, nas épocas de semeadura da seca,
inverno e águas. O delineamento experimental utilizado foi o de blocos ao acaso, com
três repetições e parcelas de quatro linhas com quatro metros de comprimento. Os
ensaios foram constituídos por 17 genótipos de feijoeiro-comum do tipo de grão
carioca: treze linhagens elite e quatro testemunhas (BRS Estilo, Pérola, BRS Sublime
e CNFC 10762). Foram avaliados os caracteres agronômicos: produtividade de grãos,
arquitetura de planta, tolerância ao acamamento e reação à antracnose, manchaangular,
crestamento bacteriano comum e murcha de curtobacterium, além dos
caracteres de qualidade de grãos: aspecto visual dos grãos, rendimento de peneira,
massa de 100 grãos, tempo de cocção e teor de proteína bruta. Realizaram-se as
análises de variância individual e conjunta e, posteriormente, as análises de
adaptabilidade e estabilidade, pelo método gráfico de Nunes, para todos os
caracteres. O índice de soma de postos foi utilizado para a seleção dos genótipos com
fenótipos favoráveis para os caracteres em conjunto, além da adaptabilidade e
estabilidade conjunta. Foi detectada grande influência ambiental e interação de GxA
na expressão fenotípica para os caracteres agronômicos e de qualidade dos grãos. Foi
possível selecionar genótipos com superioridade para cada conjunto de caracteres. O
emprego das estimativas de adaptabilidade e estabilidade aliada ao índice de seleção
foi útil na avaliação do comportamento dos genótipos frente às variações ambientais.
As linhagens CNFC 15033, CNFC 15070, CNFC 15025, CNFC 15049 e CNFC 15086
associaram boas médias fenotípicas, alta adaptabilidade e estabilidade para a maioria
dos caracteres agronômicos. Os genótipos que se destacaram para os caracteres de
qualidade de grãos foram CNFC 15097, CNFC 15038, CNFC 15025, CNFC 15033 e
BRS Estilo. Com base nesses resultados, as linhagens CNFC 15025, CNFC 15033,
CNFC 15097 e CNFC 15038 destacaram-se por associar características de interesse
agronômico à boa qualidade dos grãos, além de serem adaptadas e estáveis às
diferentes regiões de cultivo. Assim, essas linhagens elite tem potencial para serem
indicadas como novas cultivares e/ou utilizadas como genitores em programas de
melhoramento visando a melhoria desses fenótipos.
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Canopy Architecture and Plant Density Effect in Short-Season Chickpea (Cicer arietinum L.)Vanderpuye, Archibald W. 22 September 2010
Chickpea (Cicer arietinum L.) production on the semi-arid Canadian Prairies is challenging due to a short growing season and low and variable moisture. The current recommended chickpea population density of 44 plants m-2 is based on preliminary studies and a narrow range of 20 to 50 plants m-2. The aims of this study were to i) determine optimum population density of varying chickpea canopy types, i.e., leaf type and growth habit, by investigating seed yield responses at 30 to 85 plants m-2 and ii) identify desirable parental traits for breeding programs by assessing growth and yield parameter responses to varying leaf types and growth habits at a range of population densities. Field experiments were conducted from 2002 to 2005. Canopy measurements and calculated variables included light interception, biomass, growth rate, seed yield, harvest index, ascochyta blight severity and radiation- and water use efficiencies.
The plant density which produced the highest seed yield when averaged over years for each location for each treatment revealed that a plant density of at least 55 plants m-2 produced a 23% to 49% seed yield increase above that of the currently recommended plant density. This indicates that a higher seed yield average over the long term in spite of periodic low seed yield episodes will be more profitable to producers. Increasing plant density increased lowest pod height significantly in all except one location-year but did not explicitly increase ascochyta blight severity or decrease individual seed size. This suggests that increasing the recommended chickpea plant density on the Canadian Prairies will increase seed yield but would neither negatively impact individual seed size nor ascochyta blight severity, especially, when combined with good agronomic practices.
Fern-leaved cultivars had significantly higher maximum intercepted light (62 to 91%), seed yield (136 to 369 g m-2), harvest index (0.33 to 0.53), yield-based water use efficiency (0.56 to 1.06 g m-2 mm-1) and lower ascochyta blight severity (3 to 27%) than the unifoliate cultivars in all location-years. The fern-leaved cultivars also tended to show significantly higher cumulative intercepted radiation (221 to 419 MJ m-2) and biomass (306 to 824 g m-2) but leaf type showed no consistent effect on radiation use efficiency.
Cultivars with bushy growth habit generally performed better regarding maximum intercepted light (62 to 90%), cumulative intercepted radiation (233 to 421 MJ m-2), biomass (314 to 854 MJ m-2), seed yield (120 to 370 g m-2), harvest index (0.37 to 0.50), yield-based water use efficiency (0.56 to 1.06 g m-2 mm-1) and ascochyta blight severity (7 to 36%) than the erect cultivars. The overall performance of the spreading cultivar was generally intermediate between the bushy and erect cultivars except for ascochyta blight severity where the spreading cultivar exhibited significantly lower disease severity (3 to 36%). Radiation use efficiency was generally not influenced by growth habit.
Increasing plant population density generally increased intercepted light, biomass and cumulative intercepted radiation on each sampling day after seeding resulting in a general increase in seed yield. Harvest index, however, remained constant and ascochyta blight severity was generally stable but radiation use efficiency decreased with increasing population density. Chickpea cultivars with fern leaves and bushy growth habit at higher than currently recommended population densities would best utilize the limited resources of the short-season Canadian prairie environment to maximize and stabilize seed yield.
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Canopy Architecture and Plant Density Effect in Short-Season Chickpea (Cicer arietinum L.)Vanderpuye, Archibald W. 22 September 2010 (has links)
Chickpea (Cicer arietinum L.) production on the semi-arid Canadian Prairies is challenging due to a short growing season and low and variable moisture. The current recommended chickpea population density of 44 plants m-2 is based on preliminary studies and a narrow range of 20 to 50 plants m-2. The aims of this study were to i) determine optimum population density of varying chickpea canopy types, i.e., leaf type and growth habit, by investigating seed yield responses at 30 to 85 plants m-2 and ii) identify desirable parental traits for breeding programs by assessing growth and yield parameter responses to varying leaf types and growth habits at a range of population densities. Field experiments were conducted from 2002 to 2005. Canopy measurements and calculated variables included light interception, biomass, growth rate, seed yield, harvest index, ascochyta blight severity and radiation- and water use efficiencies.
The plant density which produced the highest seed yield when averaged over years for each location for each treatment revealed that a plant density of at least 55 plants m-2 produced a 23% to 49% seed yield increase above that of the currently recommended plant density. This indicates that a higher seed yield average over the long term in spite of periodic low seed yield episodes will be more profitable to producers. Increasing plant density increased lowest pod height significantly in all except one location-year but did not explicitly increase ascochyta blight severity or decrease individual seed size. This suggests that increasing the recommended chickpea plant density on the Canadian Prairies will increase seed yield but would neither negatively impact individual seed size nor ascochyta blight severity, especially, when combined with good agronomic practices.
Fern-leaved cultivars had significantly higher maximum intercepted light (62 to 91%), seed yield (136 to 369 g m-2), harvest index (0.33 to 0.53), yield-based water use efficiency (0.56 to 1.06 g m-2 mm-1) and lower ascochyta blight severity (3 to 27%) than the unifoliate cultivars in all location-years. The fern-leaved cultivars also tended to show significantly higher cumulative intercepted radiation (221 to 419 MJ m-2) and biomass (306 to 824 g m-2) but leaf type showed no consistent effect on radiation use efficiency.
Cultivars with bushy growth habit generally performed better regarding maximum intercepted light (62 to 90%), cumulative intercepted radiation (233 to 421 MJ m-2), biomass (314 to 854 MJ m-2), seed yield (120 to 370 g m-2), harvest index (0.37 to 0.50), yield-based water use efficiency (0.56 to 1.06 g m-2 mm-1) and ascochyta blight severity (7 to 36%) than the erect cultivars. The overall performance of the spreading cultivar was generally intermediate between the bushy and erect cultivars except for ascochyta blight severity where the spreading cultivar exhibited significantly lower disease severity (3 to 36%). Radiation use efficiency was generally not influenced by growth habit.
Increasing plant population density generally increased intercepted light, biomass and cumulative intercepted radiation on each sampling day after seeding resulting in a general increase in seed yield. Harvest index, however, remained constant and ascochyta blight severity was generally stable but radiation use efficiency decreased with increasing population density. Chickpea cultivars with fern leaves and bushy growth habit at higher than currently recommended population densities would best utilize the limited resources of the short-season Canadian prairie environment to maximize and stabilize seed yield.
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