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Characterization of maize testing locations in eastern and southern AfricaMaideni, Francis W. 16 August 2006 (has links)
The region of eastern and southern Africa is very diverse in environments and
agronomic practices. The region has one of the highest per capita consumption of maize (Zea
mays. L), which is predominantly produced by smallholder farmers. Some important constraints
facing these farmers include drought and low fertility. For decades, the International Center for
Wheat and Maize Improvement (CIMMYT) has been involved in developing maize genotypes
that have high grain yields and are tolerant to drought, low fertility and other important
constraints. This germplasm is developed for wide adaptation. However, the development of
superior germplasm is significantly affected by interaction between genotypes and the
environment (i.e., genotype by environment interaction, GEI). To estimate and understand GEI
maize genotypes are evaluated in a range of environments representing as much variability of the
target growing areas as possible. Because of dwindling resources needed to conduct testing in
the region, it may not be possible to test in all potential target areas. Therefore, a careful process
of site selection for testing is essential to improve efficiencies in cultivar testing and deployment.
The objective of this research was to characterize the maize testing locations of the
eastern and southern Africa region. Historical data from CIMMYT Regional Trials from 1999 to
2003 was used to characterize the environments and estimate genetic parameters.
Environmnent and GEI showed consistently high contributions to the total variation
observed among genotypes for grain yield. Environment contributed over 60% and sometimes
up to 85% of total variation observed. Sequential retrospective pattern analysis (Seqret) was
conducted on the adjusted standardized grain yield.
A total of 7 groups of environments were identified. Repeatabilites, a measure of the
proportion of phenotypic variation that is due to genetic differences, was reduced under stress
conditions. The relationship among traits showed that anthesis-silking interval (ASI) is an
important selective trait, which can improve selection efficiency for grain yield under stress conditions. Stability analysis provided an opportunity to observe the response and adaptation of
genotypes to a wide range of environments. Variety ZM621 was a stable and high yielding
genotype.
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Genetics of feed efficiency and feeding behavior in crossbred beef steers with emphasis on genotype-by-environment interactionsDurunna, Obioha Nnamdi Unknown Date
No description available.
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QTL mapping for Caenorhabditis elegans survivorship in response to Escherichia coli and Stenotrophomonas maltophiliaWang, Ziyi January 1900 (has links)
Master of Science / Division of Biology / Michael A. Herman / Caenorhabditis elegans are free-living bacterivorous nematodes that naturally consume bacteria as food source. As an excellent genetic model, C. elegans has proven to be a successful system to study innate immune responses to human pathogens, which resulted in identification of many evolutionarily conserved defense pathways. Most of these studies examined innate immune pathway mutants in a single genetic background in response to monoculture of human pathogens that worms might not necessarily encounter in the wild. While this has led to the successful genetic dissection of these defense pathways, in order to fully understand their biological functions, the relevant ecological and evolutionary context needs to be taken into account. The bacterial environment C. elegans naturally encounter is likely to be highly heterogeneous. While many bacteria are mainly considered as dietary resource for worms, some could be potential pathogens. Worms thus constantly face the challenge to defend against the pathogens mixed in the food. Stenotrophomonas maltophilia is one such bacterium. S. maltophilia is a ubiquitous bacterium that has been found associated with native nematodes. But it can also cause nosocomial infections in human, especially in immune-compromised individuals. Due to its natural resistance to multiple antibiotics, it has been emerging as an opportunistic human pathogen. Our lab isolated a S. maltophilia strain, JCMS, which was found being pathogenic to C. elegans. Both C. elegans strains, N2 (Bristol, England) and CB4856 (Hawaii), showed decreased survivorship when fed on S. maltophilia JCMS compared to E. coli OP50. However, more interestingly, the specific responses towards bacteria are different between strains. This indicates that survivorship of C. elegans is determined by not only genetic and environmental factors, but also genotype by environment (G×E) interactions (GEI). In order to identify the underlying genetic basis, we mapped quantitative trait loci (QTL) in a N2×CB4856 recombinant inbred panel for the survivorship in response to E. coli OP50 and S. maltophilia JCMS.
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The interaction of parenting and the serotonin transporter gene on trajectories of fearfulness in early childhoodRiley, Moira R 18 December 2015 (has links)
Children who are more fearful and inhibited during early childhood are at greater risk for social problems (e.g., loneliness, social isolation) and clinically significant internalizing disorders during adolescence and adulthood (e.g., Rubin, Chen, McDougall, Bowker, & McKinnon, 1995; Williams et al., 2009). While the impact of fearful temperament on adjustment indices are regularly the focus of study, less well understood are biological and social processes that may affect the development of fearful temperament. The present study considered the role of the 5-HTTLPR polymorphism and parenting on change in fearful and inhibited temperamental characteristics during early childhood.
The s/s genotype was expected to be associated with elevated and sustained levels of fearful temperament. Moreover, supportive parenting was expected to be associated with less fearful temperament while more harsh parenting would be associated with more fearful temperamental characteristics, especially for children with the s/s 5-HTTLPR genotype. Study hypotheses were tested using 165 families (i.e., biological mothers and fathers, 3-5 year old children) who participated in the Family Transitions Project (FTP: R. D. Conger & K. J. Conger, 2002). Children were genotyped using cheek swabs. Parents reported on children’s temperamental characteristics at ages 3, 4, and 5. Independent observations of mothers and fathers completing a puzzle with their 3 and 4 year old children were used to measure parenting. Results were partially supportive of predictions. Parenting interacted with the 5-HTTLPR genotype to predict trajectories of shyness and soothability dimensions of fearful temperament, but the pattern of findings varied for mothers and fathers. Results are discussed in terms of differential susceptibility and the conceptualization of risk and resilience.
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Improving the efficiency of turkey breeding programs through selection index design, technological advancements, and management optimizationCase, Lindsay Anne 20 September 2011 (has links)
Breeding objectives in the turkey industry are heavily weighted towards improving growth traits. This thesis focused on methods to efficiently select for other important production traits such as reproduction, feed efficiency, and meat yield. Based on bivariate and random regression modeling it was determined that egg production, fertility, and hatchability were influenced by genotype by environment interactions and, as a result, the regulation of reproductive traits is by some unique genes in the summer and winter. This may be due to changes in day length and temperature. Feed efficiency is another important consideration in a breeding objective and feed conversion ratio and residual feed intake were both moderately heritable. Residual feed intake was also more independent of production traits than feed conversion. Feed intake, body weight, and weight gain were moderately heritable and progress can be made in feed efficiency by appropriately weighting these traits in an index. Infrared measures of surface temperature were then investigated to determine if they can be used to select for feed efficiency. Temperatures of the distal metatarsus, eye, neck, and head did not show a strong relationship to feed efficiency and therefore offer limited advantages to a breeding program. Selection for breast meat yield (BMY) is important and it was determined that breast muscle depth, measured with ultrasound technology, is heritable and highly correlated to the carcass trait. As a result, ultrasound traits can compliment conformation scoring and sibling testing in a breeding program to increase the accuracy of selection for BMY and increase response to selection. A deterministic model was also developed and could be used to determine optimum slaughter weight. This would optimise profits in an integrated system, enabling the industry to account for and capitalize on genetic gains. Overall, the population parameters and selection criteria identified for reproduction, efficiency, and meat yield traits identified in the present thesis could be used to increase selection efficiency in turkey breeding programs. Further, the developed production model can be used by the industry to slaughter turkeys at a time that maximizes profits, based on performance levels.
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Cartographie de QTL et évaluation génomique chez la poule pondeuse dans un contexte alimentaire changeant / QTL mapping and genomic evaluation in laying hens which receive various diets.Romé, Hélène 13 November 2015 (has links)
La filière « poule pondeuse » représente un marché en pleine expansion. L’amélioration des caractères est essentielle pour satisfaire les attentes des consommateurs et des industriels. Cette amélioration est réalisée via la sélection. Actuellement, les candidats à la sélection sont évalués à partir de leur valeur génétique estimée (Estimated Breeding Value, EBV) en appliquant un modèle statistique prenant en compte l’ensemble des phénotypes disponibles sur leurs apparentés (BLUP). L’essor de nouvelle technologie permettant le génotypage à moindre coût de nombreux individus, permet d’envisager la mise en place d’une sélection génomique dans cette filière. La valeur génomique estimée (Genomic Estimated Breeding Value, GEBV) serait potentiellement plus précise que l’EBV, disponible dès la naissance de l’individu et sûrement pour un plus grand nombre de candidats, engendrant ainsi un gain de progrès génétique.Par ailleurs, un même type génétique de poule pondeuse étant largement diffusé à travers le monde, les animaux produisent dans des environnements différents (alimentation, température…). Des interactions génotype – environnement pourraient donc affecter l’estimation des valeurs génétiques des candidats à la sélection. L’objectif premier de ce travail est de préciser l’impact de celles-ci sur un panel large de caractères de production et de qualité des œufs aussi bien au niveau de leur architecture génétique qu’au niveau des évaluations. De plus, les conséquences de l’architecture génétique des caractères sur l’estimation des valeurs génétiques également ont été étudiées. / The laying hens farming represents a growing market. The improvement of traits is needed to satisfy the willing of customers and industrials. This improvement is done with selection. Actually, (candidates for selection are evaluated according to their Estimated Breeding Value (EBV), which is estimated, using a statistic model which considers all the available phenotypes of their relative BLUP). The development of new technologies which allow the genotyping at a lower cost of numerous individuals, could allow the development of genomic selection in this farming. The Genomic Estimated Breeding Value (GEBV) could be potentially more accurate than the EBV, available at the birth of the individual and for probably a larger number of candidates, increasing the rates of genetic progress.Besides, a same genetic type of laying hens is widely distributed around the world, so animals produce in various environments ((alimentation, temperature, hygiene standards…). So, genotype – environment interactions could affect the estimation of breeding values of the candidates for selection. The first objective of this work is to determine of the impact of these interactions on a large panel of egg production and egg quality traits, as well at the genetic architecture level than at the evaluations level. Moreover, the consequences of genetic architecture of these traits on breeding value estimation have been studied.
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Genetic Mapping of Grass Monoculture and Grass-Legume Mixture Compatibility QTLs in Intermediate WheatgrassMortenson, John 01 August 2019 (has links)
Due to increased environmental stewardship and fertilizer prices, there is increased interest in using legume mixes in perennial croplands. The objective of this study was to compare quantitative genetic parameters and quantitative trait loci (QTLs) associated with intermediate wheatgrass (Thinopyrum intermedium) when grown in 1) a non-competitive spaced environment, 2) a polyculture with alfalfa (Medicago sativa), and 3) a monoculture with crested wheatgrass (Agropyron desertorum). Traits evaluated include plant growth characteristics (Zadok’s maturity, height, and tiller count), biomass, and forage nutritive value (CP, NDF, ADF, ADL, IVTD, NDFD, NFC, ME, RFQ). A linkage map comprised of 3568 single nucleotide polymorphisms in 21 linkage groups corresponding to 21 homologous chromosome pairs of both parents was used to identify QTLs and QTL x environment interactions (QxE) based on trait averages for each genotype in each environment. Significant genotype x environment interactions were detected for biomass, NDF etc. A total of 26 QTLs were identified, including 6 MASS, 2 TILE, 2 TICR, 1 ZAMA, 1 CP, 3 NDF, 2 ADF, 3 IVTD, and 5 NDFD. A subset of 7 QTLs showed significant QxE interaction. These results indicate that breeders need to evaluate plants in polyculture or swards if these are the intended crop management systems.
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Genetic Analysis of Black Raspberry Breeding GermplasmWillman, Matthew 24 October 2019 (has links)
No description available.
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Interação genótipo-ambiente em bovinos de corte compostos / Genotype-environment interaction in composite beef cattleSantana Júnior, Mário Luiz 29 July 2011 (has links)
Objetivou-se com o presente estudo foram caracterizar e definir ambientes homogêneos de produção de bovinos de corte compostos no Brasil com relação às variáveis climáticas e geográficas, utilizando técnicas exploratórias multivariadas. Verificar a presença de interação genótipo-ambiente (GxE) nas características peso ao nascimento (PN), peso a desmama (PD), ganho de peso da desmama ao sobreano (GP), perímetro escrotal (PE) e musculosidade (MUS). Pela análise de agrupamento não-hierárquico foram agrupadas as regiões similares com relação às variáveis ambientais. Foram formados seis grupos de fazendas. A inclusão do efeito de interação touro-grupo foi avaliada em análises uni-característica. Comparou-se um modelo com o efeito de interação touro-grupo com outro sem esse efeito. Incluir o efeito de interação touro-GEO no modelo de avaliação genética do PN, PD e PE não resultou melhor ajuste aos dados, no entanto não deve ser descartada a hipótese de se considerar outros tipos de efeitos de GxE. Foram estimados parâmetros genéticos por meio de análises multi-característica, considerando-se a mesma característica como diferente em cada grupo de fazendas. Foi verificada heterogeneidade de variância para todas as características. Os coeficientes de herdabilidade nos grupos de fazendas para PN, PD, GP, PE e MUS variaram de 0,15 a 0,25; 0,16 a 0,25; 0,10 a 0,20; 0,17 a 0,31 e 0,17 a 0,24, respectivamente. As correlações genéticas variaram de 0,19 a 0,90 para PN, -0,02 a 0,92 para PD, 0,31 a 0,93 para GP, 0,64 a 0,89 para PE e de 0,18 a 0,80 para MUS nos grupos fazendas. As diferentes estimativas de herdabilidade obtidas entre grupos de fazendas implicam resposta à seleção diferenciada conforme o ambiente em que os animais são criados e selecionados. Pelas correlações genéticas entre as características nas diversas regiões, constatou-se GxE, indicando que os melhores reprodutores para uma determinada região não são sempre os mesmos para as demais. Um modelo hierárquico de norma de reação sob abordagem Bayesiana também foi utilizado para estimação dos componentes de variância, parâmetros genéticos e verificação da existência de GxE. Os gradientes ambientais baseados nas soluções para o efeito de grupo de contemporâneos para PN, PD, GP e PE foram -6,45 a +4,75 kg, -65 a +65 kg, -72 a +112 kg e -6.5 a +5.5 cm, respectivamente. As estimativas de herdabilidade foram crescentes no gradiente ambiental, PN (0,04 a 0,55), PD (0,39 a 0,47), GP (0,01 a 0,43) e PE (0,21 a 0,23). A correlação entre o nível e a inclinação da norma de reação para PN e GP foi de alta magnitude, indicando que os animais de maior valor genético médio foram os que apresentaram maior resposta à melhoria das condições ambientais, caracterizando o efeito de escala da GxE. Para PD e PE, a correlação entre intercepto e inclinação foi baixa implicando reclassificação dos animais em ambientes diferentes. O modelo hierárquico de normas de reação foi útil para descrever alterações nos componentes de variância decorrentes do ambiente e para descrever a presença de GxE nas características estudadas de bovinos compostos. Existe variação genética com respeito à sensibilidade dos animais, o que possibilita a seleção de genótipos mais plásticos ou mais robustos. / The objectives of this study were to characterize and define homogenous production environments of composite beef cattle in Brazil in terms of climatic and geographic variables using multivariate exploratory techniques; to evaluate the presence of genotype by environment interaction (GxE) for birth weight (BW), weaning weight (WW), postweaning gain (PWG), scrotal circumference (SC) and muscling. Nonhierarchical cluster analysis was used to group farms located in regions with similar environmental variables into clusters. Six clusters of farms were formed. The effect of sire-cluster interaction was tested by single-trait analysis. The inclusion of sire-cluster interaction in the genetic evaluation model may not result in better fit to the data for BW, WW and SC. Genetic parameters were estimated by multiple-trait analysis considering the same trait to be different in each cluster. The heritability coefficient in the clusters for BW, WW, PWG, SC and muscling ranged from 0.15 to 0.25; 0.16 to 0.25; 0.10 to 0.20; 0.17 to 0.31 and 0.17 to 0.24, respectively. The genetic correlations ranged from 0.19 to 0.90 for BW, -0.02 to 0.92 for WW, 0.31 to 0.93 for PWG, 0.64 a 0.89 for SC and 0.18 to 0.80 for muscling in the clusters of farms. The different heritability estimates between groups of farms indicates that the response to selection varies with the environment in which animals are selected. The low genetic correlations between traits in the different regions demonstrated the presence of GxE, indicating that the best sires in a certain region are not the same for the other regions. A reaction norm hierarchical model using Bayesian approach was also used for estimation of variance components, genetic parameters and to verify the existence of GxE. Environmental gradients based in solutions for the effect of contemporary groups for BW, WW, PWG and SC were -6.45 to +4.75 kg, -65 kg to +65, -72 to +112 kg and -6.5 to +5.5 cm, respectively. Heritability estimates were increasing in the environmental gradient, BW (0.04 to 0.55), WW (0.39 to 0.47), PWG (0.01 to 0.43) and SC (0.21 to 0.23). The correlation between the level and slope of reaction norm for BW and PWG was of high magnitude, indicating that animals of higher average breeding value were the ones which presented a best response to environmental improvement, characterizing a scale effect on GxE. For WW and SC, the correlation between intercept and slope was low implying reranking of animals in different environments. The reaction norm hierarchical model has been useful to describe changes in the variance components due to the environment and to describe the presence of GxE traits in composite beef cattle. There is genetic variation with respect to the sensitivity of the animals, which enables the selection of genotypes most plastics or more robust.
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Seleção sequencial em cana-de-açúcar. / Sequential selection in sugarcane.Bressiani, José Antonio 28 August 2001 (has links)
Com a finalidade de avaliar o programa de melhoramento da cana-de-açúcar, este trabalho teve como objetivos: determinar o grau da interação famílias x ambientes (FA); comparar métodos de seleção na etapa inicial em termos de resposta esperada à seleção; e propor o método de seleção sequencial modificado. Para isso, foram avaliados 4752 'seedlings' pertencentes a 33 famílias (irmãs germanas e meia irmãs), em dois locais do Estado de São Paulo, Piracicaba e Jaú. Os caracteres estimados foram altura e diâmetro dos colmos, número de perfilhos, Brix % caldo da cana, toneladas de cana por hectare (TCH) e toneladas de Brix por hectare (TBH). Para validar a resposta esperada à seleção sequencial modificada, 40 famílias foram selecionadas por este método e os clones foram multiplicados até a etapa III do programa de melhoramento, a fim de fornecer a resposta realizada à seleção. Os resultados mostraram interação FA significativa para todos os caracteres avaliados. A opção por uma seleção específica implicou em aumentos de ganhos de 4,1% e 5,8% para TBH, para Piracicaba e Jaú, respectivamente, em relação à seleção de famílias generalistas, ou seja, baseada na média dos dois locais. A seleção sequencial modificada, proposta neste trabalho e a seleção combinada através de índices apresentaram pouca vantagem em relação à seleção massal, na condição de seleção direta (sem avaliação visual). Nessas mesmas condições, a seleção sequencial tradicional e a australiana foram inferiores à seleção massal, em termos de progresso esperado, para todos os caracteres. Incluindo a seleção indireta (com avaliação visual) o método sequencial modificado foi sempre superior à seleção massal, para os principais caracteres avaliados (TCH e TBH). Para os métodos australiano e tradicional, houve vantagem apenas quando a correlação genética entre a avaliação visual e o caráter principal foi igual ou inferior a 0,7. Dessa forma, e devido à dificuldade prática de utilizar índices (seleção combinada), concluiu-se que o método proposto de seleção sequencial modificada é perfeitamente viável, sendo, portanto, recomendado. Na comparação entre as respostas estimada e a realizada com a seleção sequencial modificada, houve concordância dos resultados, na condição de correlação genética igual a 0,62. Isso veio reforçar a confiabilidade das estimativas obtidas no trabalho, bem como assegurar as vantagens do método proposto sobre os demais aqui apresentados. Se considerada uma correlação genética entre o critério de avaliação visual e o caráter principal variando entre 0,5 a 0,7, a superioridade do método proposto em relação ao massal é da ordem de 3% a 5%, em termos de ganho esperado para TCH, em um ciclo de seleção. Para alcançar estes mesmos ganhos com a seleção massal, ter-se-ia que aumentar a população inicial entre 36% a 100%. Alternativamente, mantendo os mesmos tamanhos populacionais, o número provável de clones no final do processo seletivo seria aumentado em 85% a 150%, apenas com a substituição do método de seleção massal pelo sequencial modificado na etapa inicial. / Aiming at the evaluation of the sugarcane breeding program, this study had the following objectives: to determine the degree of the family x environments interaction (FE); to compare selection methods in the initial phase, in terms of expected response to selection, and to propose the modified sequential selection method. For this, 4752 seedlings, originated from 33 families (full-sibs and half-sibs), were evaluated in two sites of the State of São Paulo: Piracicaba and Jaú. The traits evaluated were stalk height and diameter, number of stalks, Brix % cane juice, tons of cane per hectare (TCH) and tons of brix per hectare (TBH). To validate the expected response to the modified sequential selection, 40 families were selected by this method and the clones were multiplied until phase III of the breeding program and the realized gains in selection measured. The results showed significant FE interaction for all evaluated traits. The option for a site specific selection would increase gains by 4.1% and 5.8% for TBH in Piracicaba and Jau, respectively, in relation to the generalized family selections, that is, based on the average of the two sites. The proposed modified sequential selection and the combined selection using indices showed little advantage over the mass selection using direct selection (without visual selection). In these conditions, the traditional sequential selection and the Australian one were inferior to the mass selection, in terms of expected progress, for all traits. Allowing for the indirect selection (with visual selection) the modified sequential method was always superior to the mass for the main traits evaluated (TCH and TBH). The Australian method and the Traditional one, were advantageous in relation to the mass selection only when the genetic correlation between visual selection and the main trait was equal or inferior to 0.7. For this reason, and given the practical difficulty of applying indices (combined selection), it was concluded that the proposed method of modified sequential is perfectly viable and was reccommended. Comparing the estimated and realized response of the modified sequential selection, there was correspondence of results, given rG equals to 0.62. This result confirmed the reliance of the estimates obtained in this study, and assured the advantages of the proposed method over those compared. Considering a genetic correlation (rG), between the visual selection criterion and the main character, varying from 0.5 to 0.7, the superiority of the proposed method over the mass one, varies from 3 to 5%, in terms of expected gain, for TCH in one selection cycle. To obtain these same gains with mass selection, one would have to increase the initial population between 36% and 100%. Alternatively, keeping the same population sizes, the likely number in the end of the selection process would be increased in 85% to 150%, just with the substitution of the method of mass selection by the modified sequential one, in the initial phase.
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