Spelling suggestions: "subject:"andmoisture."" "subject:"antimoisture.""
1 |
Moisture profiles of several grains as indicated by electrical meansCrockarell, Barney Earl January 2011 (has links)
Digitized by Kansas Correctional Industries
|
2 |
Two methods of comparing equilibrium moisture of grainsKososki, Adilson Reinaldo January 2011 (has links)
Typescript. / Digitized by Kansas Correctional Industries
|
3 |
A study of the movement of moisture in stored wheat due to temperature differentialSiy, Felipe Lian-Fuy. January 1956 (has links)
Call number: LD2668 .T4 1956 S62 / Master of Science
|
4 |
Diversidade genética e mapeamento por associação em linhagens de milho para maturação de grãos / Genetic diversity and mapping by association in maize inbred lines for grain maturationFriske, Élcio 29 February 2016 (has links)
Made available in DSpace on 2017-07-10T17:37:17Z (GMT). No. of bitstreams: 1
Elcio_Friske.pdf: 2134254 bytes, checksum: a68baa9abb11f51692fe7500a517561f (MD5)
Previous issue date: 2016-02-29 / Fundação Araucária / The aim of this work was to evaluate the genetic diversity and map genomic regions associated with grains maturation in common corn lineages. The phenotypic attributes of 81 elite inbred lines of corn were assessed in field experiment implanted in square lattice design with three repetitions. The variance and multivariate analysis were carried out considering complete randomized blocks due to its equivalence with the estimation for the lattice efficiency. For the mapping by linkage disequilibrium, 72 elite inbred lines have been genotyped for SNP markers at platform 650K (Affymetrix®) and associated with the genotypic values of the traits related to maturation: number of days for the male flowering (DFM) and female (DFF), and the grain moisture loss, determined by the area below the moisture curve (AACUM). The results of the variance analysis pointed out the existence of genetic diversity in the germplasm for all the assessed traits, detecting a wide variability for DFM, DFF and AACUM. Weak genetic correlations between yield and maturation components indicated the possibility of selection for earliness without compromising the grain yield. The genetic diversity quantified by the distances of Mahalanobis enabled the suggestion of hybrid combinations of higher heterotic effect for earliness and grain yield. There were similarities in the Tocher and UPGMA grouping, which were efficient to classify the genetic variability. By the mixed linear model (MLM) it was possible to detect associations among days for male and female flourishing with SNP markers in all chromosomes, with predominance of chromosomes 1 and 3 and for the loss of moisture in the chromosomes 5 and 6. With of multiple regression analysis of stepwise for DFM, DFF and AACUM, the complete models explained 79%, 93% and 56% of the variation for the genotypic values, respectively, being found predominantly significant markers in the chromosomes 1 and 3. The detection of similar and also different genomic regions for these traits, which are highly correlated, makes possible to raise the hypothesis of the importance of the genetic linkage and pleiotropy to explain the maturation of grains in corn inbred lines. The results obtained are promising and the genomic regions associated with DFM, DFF and AACUM, will be evaluated in validation experiments, which will be useful in selection programs of genotypes with the maturity sought by the breeder / O trabalho teve como objetivos avaliar a diversidade genética e mapear regiões genômicas associadas com maturação de grãos em linhagens de milho comum. Os atributos fenotípicos de 81 linhagens elites de milho foram avaliados em experimento de campo implantado em delineamento de látice quadrado com três repetições. Procedeu-se a análise de variância e multivariada considerando blocos completos casualizados devido a sua equivalência com a estimação para eficiência do látice. Para o mapeamento por desequilíbrio de ligação, 72 linhagens elites foram genotipadas para marcadores SNP na plataforma 650K (Affymetrix®) e associados aos valores genotípicos dos caracteres relacionados à maturação: número de dias para o florescimento masculino (DFM) e feminino (DFF), e perda de umidade dos grãos, determinada pela área abaixo da curva de umidade (AACUM). Os resultados da análise de variância indicaram a existência de diversidade genética no germoplasma para todos os caracteres avaliados, detectando-se ampla variabilidade para DFM, DFF e AACUM. Correlações genéticas fracas entre os componentes de rendimento e de maturação indicaram a possibilidade de seleção para precocidade sem comprometer a produtividade. A diversidade genética quantificada pelas distâncias de Mahalanobis permitiu sugerir combinações hibridas de maior efeito heterótico para precocidade e produtividade. Houve semelhanças no agrupamento de Tocher e UPGMA, que foram eficientes para classificar a variabilidade genética. Pelo modelo linear misto (MLM) foi possível detectar associações entre dias para o florescimento masculino e feminino com marcadores SNP em todos os cromossomos, com predominância nos cromossomos 1 e 3, e para perda de umidade nos cromossomos 5 e 6. Com a análise de regressão múltipla de stepwise para DFM, DFF e AACUM, os modelos completos explicaram 79%, 93% e 56% da variação para os valores genotípicos, respectivamente, encontrando-se predominantemente marcadores significativos nos cromossomos 1 e 3. A detecção de regiões genômicas semelhantes e também distintas para esses caracteres, que são altamente correlacionados, torna possível levantar a hipótese da importância de ligação gênica e de pleiotropia para explicar a maturação de grãos em linhagens de milho. Os resultados obtidos são promissores e as regiões genômicas associadas com DFM, DFF e AACUM, serão avaliadas em experimentos de validação, que poderão ser úteis em programa para seleção de genótipos com a maturidade buscada pelo melhorista
|
5 |
INVESTIGATION OF CORN YIELD IMPROVEMENT FOLLOWING CEREAL RYE USING STARTER NITROGEN FERTILIZERHouston L Miller (7830965) 20 November 2019 (has links)
Cereal rye (CR), the most common and effective nitrogen (N) scavenging
cover crop option in the Midwest, is often utilized in cropping systems to
reduce nitrate loss for environmental benefits. To increase environmental
efficiency in Midwest corn cropping systems, we must increase the overall
adoption of CR. However, due to the yield reduction potential (6%) for corn
planted after CR termination, CR is primarily recommended before soybean. To
increase CR adoption, we must develop adaptive fertilizer management practices
that achieve competitive grain yields relative to cropping systems where CR is
not adopted. Therefore, the objectives of this study are to determine (1) the
effect of CR and starter nitrogen rate on corn growth and nitrogen content. (2)
the optimum starter nitrogen rate to achieve agronomic optimum corn yield
following CR. (3) the impact of phosphorus (P) at starter on plant growth,
nitrogen content, and yield with the inclusion of CR. For our study, five
starter N rates were applied in a 5x5 cm band to both CR and non-CR plots,
concentrations ranged from 0-84 kg N ha<sup>-1 </sup>in 28 kg N ha<sup>-1</sup>
intervals. Total N applied was the same for each treatment, relative to its
location, and was split between starter N at planting and sidedress applied at
growth stage V6 relatively. Although CR termination took place at least two
weeks before planting, CR decreased corn grain yield at one of three locations
by an average of 8%, nitrogen recovery efficiency (NRE) by 27%, and R6 total N content
by 23%, relative to the conventional control (non-CR 0N), when no starter N was
applied. At one of three locations, starter N rates of 56 kg N ha<sup>-1</sup>,
56 kg N ha<sup>-1 </sup>plus 17 kg P ha<sup>-1</sup>, and 84 kg N ha<sup>-1</sup>
increased corn grain yield, in CR plots, and 56 kg N ha<sup>-1</sup> plus 17 kg
P ha<sup>-1</sup> increased corn grain yield in non-CR plots. Phosphorus increased
corn grain N content at growth stage R6 in one of three locations and did not
impact corn grain yield at all locations. We conclude that the inclusion of
starter N at planting has the potential to increase agronomic productivity in
CR corn cropping systems in soil environments with a high capacity to
mineralize soil N. However, further research is required to refine our starter
N results to find an optimum starter N rate to apply before planting corn
following CR.
|
Page generated in 0.06 seconds