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11	Gebruik van genetiese manlike steriliteit in herhalende seleksie met koring (Triticum aestivum) Botes, Willem Cornelus 04 1900 (has links) Thesis (MScAgric.)--University of Stellenbosch, 2001. / ENGLISH ABSTRACT: In cross pollinated crops, recurrent selection is used to increase the frequency of desirable alleles by breaking up existing linkage blocks and forming new gene combinations. Despite promising results from numerous feasibility studies, recurrent selection is seldom routinely used in wheat. A major obstacle has been the inability to readily achieve random interbreeding of large numbers of selected plants. In China the Taigu genetic male sterility gene, Ms2, has however been used to establish a recurrent selection programme in which field grown male sterile plants were pollinated by selected male fertile plants (Huang et al., 1988). Another dominant gene for male sterility, Ms3, was found after EMS treatment of the seeds of an alloplasmie common wheat with Triticum tauschii cytoplasm (Maan et al., 1984) and is located at 3 map units from the centromere on chromosome arm SAS (Maan et al., 1987). In a study done during 1999 at Welgevallen to determine the frequency of natural intererossing under field conditions, Ms3 showed incomplete penetrance and only about two thirds of the seed set on male sterile plants could be attributed to intercrossing. Ms3 has stable expression in plants grown within the normal range of greenhouse temperatures for wheat, 16 - 2SoC. Under warmer field conditions, 21 - 3SoC, its penetrance is, however, incomplete (Maan et al., 1984). The utility of Ms3 under field conditions is therefore unsatisfactory. An attempt to determine the location and origin of an unknown male sterility gene, found in cross 9SK3 of a routine breeding programme, showed that a single locus was not the cause of the male sterility. Chromosome abnormalities and gene imbalances were probably to blame. The male sterility probably relates to a T.urartu addition chromosome in the pedigree of cross 9SK3. To facilitate the production of large numbers of hybrid progeny, a simple hydroponic system was developed in which male sterile tillers cut at the flowering stage can be pollinated and maintained for about 8 weeks, long enough to produce viable seeds. For pollination, florets on male tillers are cut open and placed in a container with a similar number of pollen shedding male tillers. It was found that cut tillers could be maintained in the hydroponic system as long as certain precautions were met: (a) The tillers must be handled with care so as not to damage the flag leaf which must be maintained for as long as period possible. (b) The tillers have a nutrient requirement and a 20% solution showed the best results of the nutrient solutions tested. (c) The sterilizing effect of Jik at O.OS%gave excellent fungal control en helped to sustain the nutrient solution. (d) Although the treatment of tillers with hormones improved seed quality, it was not justified by the additional inputs required. Different selection strategies were used for male and female plants. At the onset of the recurrent selection programme in 1998, a total of 1881 plants were tested for seedling resistance and 597 plants were selected for use as parents and source material for 1999. In total 158 male sterile and 188 male fertile ears were used in the hydroponic pollination and a 63.47% seed set was obtained, resulting in 3410 seeds, forming the 1999 female component. One hundred and fifty seven F2:96K109plants were selected from a field grown population in 1998. These, together with 44 selections from a pedigree programme, formed the male component for 1999. In total 9564 plants were tested for seedling resistance during 1999. A total of 3230 resistant seedling were selected and planted. Again male fertile plants from the previous season were field planted and selected. The selected plants were subjected to mixograph testing. A total of 448 male sterile and 1020 male fertile ears were used for hydroponic pollination. Approximately 12000 seeds were harvested, the seed set being around 75%. The 157 F2:96K109 field selected plants (1999) and 64 selections from a pedigree programme formed the male component for 2000. Seedling resistance testing during 2000 included a total of 6465 plants and 2832 were selected and planted. The hydroponic system was improved during 2000 with new, larger capacity containers being used which improved cross pollination. In total 878 male sterile tillers and 1016 male fertile tillers were cut and intercrossed. In total 25380 seeds were harvested, the seed set being 81.7%. In an attempt to determine the amount of variation within the 157 F2-families selected during 1999, mixograph testing was performed. The data showed variation among families. Seedling resistance testing for leaf and stem rust was performed on the 1999 and 2000 FIs to determine the variation for resistance within the populations. Both populations showed high level of stem rust resistance but lower levels of leaf rust resistance (± 50%). Ms3 can thus be used in combination with hydroponic tiller culture to facilitate recurrent selection. Integration with an excisting pedigree selection programme is viable and requires little additional input. Some of the these results have already been published (Addendum D). / AFRIKAANSE OPSOMMING: Herhalende seleksie word by kruisbestuiwers aangewend om die frekwensie voordelige allele te verhoog deur die opbreek van bestaande koppelingsblokke en vorming van nuwe geen-kombinasies. Hoewel uitstekende resultate m.b.V.herhalende seleksie reeds by koring verkry is, is die roetine aanwending egter beperk weens die gebrek aan effektiewe kruisbestuiwing van groot getalle plante. In China is "Taigu" genetiese manlike steriliteit, Ms2, egter met sukses aangewend vir die vestiging van 'n herhalende seleksieprogram vir landverboude koring. Die manlik-vrugbare plante word vir die bestuiwing van geselekteerde manlik-steriele plante aangewend (Huang et al., 1988). Nog 'n dominante manlike steriliteitsgeen, Ms3, is ontdek na EMS behandeling van sade afkomstig vanaf 'n alloplasmiese gewone koring met 'n Triticum tauschii sitoplasma (Maan et al., 1984) en is gesetelop chromosoom 5AS, 3 kaarteenhede vanaf die sentromeer (Maan et al., 1987). 'n Ondersoek na die frekwensie natuurlike kruisbestuiwing onder landtoestande (Welgevallen, 1999) het getoon dat onvolledige penetrasie van Ms3 lei tot ongeveer 5% selfbestuiwing en dat slegs twee-derdes van die saadset aan kruisbestuiwing toegeskryf kon word. Ms3 word wel stabiel uitgedruk onder normale glashuistemperature tydens blom nl. 16 - 25°C, maar onder warmer landtoestande, 21 - 35°C, is uitdrukking onstabiel met laer penetrasie van die geen (Maan et al., 1984). Die benutbaarheid van Ms3 onder landtoestande was dus onbevredigend. Die ondersoek na die oorsprong en ligging van 'n onbekende, manlike steriliteitsgeen (95K3) wat ontdek is in 'n roetine teelprogram het daarop gedui dat 'n enkellokus waarskynlik me ter sprake is nie, maar eerder chromosoom-abnormaliteite en geenwanbalanse. Die manlike steriliteit kan verband hou met 'n T urartu addisie chromosoom in die stamboom van hierdie bron. Ten einde kruisbestuiwing van 'n groot aantal plante te bewerkstellig, is 'n eenvoudige bestuiwersisteem ontwikkel gegrond op waterkultuurkweking van afgeknipte manlik-steriele (Ms3ms3), are. Manlik-steriele en manlik-vrugbare are is tydens blom geknip. Die manliksteriele are se blommetjies is oopgeknip en toegelaat om deur die manlik-vrugbare are bestuif te word. Die bestuifde manlik-steriele are (Ms3ms3) is hierna vir ongeveer 8 weke gelaat vir saadvorming. Afgeknipte are kan baie suksesvol in voedingsmedium onderhou word mits sekere eenvoudige voorsorgmaatreëls getref word, naamlik: (a) Die are moet met sorg hanteer word en die vlagblaar moet so lank as moontlik behou word. Are moet weekliks teruggeknip word ten einde verstopping en agteruitgang van vaatweefsel teen te werk. Die oorspronklik- afgeknipte halm is dus belangrik. (b) Die are toon 'n definitiewe voedingsbehoefte en 'n 20% voedingsoplossing was die beste van die oplossings wat getoets is. Die voedingsoplossing moet verkieslik weekliks vervang word wanneer are teruggeknip word. Op die tydstip behoort die houers met 'n steriliseringsmiddel gewas te word vir die verwydering van enige moontlike swamgroei aan die houers se wande. (c) Jik was die beter steriliseringsmiddel en het teen 0.05% toediening goeie swaminhibering bewerkstellig. (d) Hormone is nie in die roetinetoepassing gebruik nie aangesien die voordeel hiervan nie die ekstra insette regverdig nie. Verskillende strategieë is aangewend vir die seleksie van manlike en vroulike plante. Met die aanvang van die herhalende seleksieprogram in 1998 is 'n totaal van 1881 plante getoets vir roesweerstand en 597 geselekteer as bronmateriaal vir 1999. In totaal is 158 manliksteriele en 188 manlik-vrugbare are gebruik in die bestuiwersisteem vir die verkryging van die 1999 vroulike komponent. 'n Totaal van 3410 sade is verkry met 'n 63.47% saadset. Tesame met 157 F2:96KI09 landgeselekteerde plante is 44 seleksies vanuit 'n stamboom seleksieprogram gebruik as manlike komponent in 1999. Gedurende 1999 is 9564 plante getoets vir roesweerstand en 3230 geselekteer en geplant. Weereens het landseleksie plaasgevind. Die 157 seleksies is onderwerp aan miksograaf-toetsing. Vierhonderd agt- en - veertig manlik-steriele en 1020 manlik-vrugbare are is gebruik in die bestuiwersisteem. Ongeveer 12138 sade is geoes, teen 'n 75% saadset. Gedurende 2000 is die sade asook 64 seleksies uit 'n stamboom seleksieprogram aangewend as die manlike komponent. Roestoetsing is weereens in 2000 uitgevoer en 6465 plante is geïnokuleer waaruit 2832 plante geselekteer en geplant is. Die bestuiwersisteem is aangepas vir die hantering van groter aantalle are tydens 2000 en in totaal is 878 manlik-steriele are en 'n 1016 manlik-vrugbare are gebruik vir kruisbestuiwing. Die saadset is verhoog na 81.7% en 25380 sade is verkry. Om die hoeveelheid variasie binne die populasie te bepaal, is miksograaftoetsing op die 1999 F2-populasie uitgevoer. Die data het aangetoon dat groot hoeveelhede genetiese variasie beskikbaar is binne die populasie. Roestoetsing van die 1999- en 2000-bestuiwerpopulasies is ook uitgevoer om 'n indikasie te verkry van die verspreiding van weerstand teen blaar- en starnroes. Die blaamoes het 'n relatief lae vlak van weerstand getoon (± 50%) terwyl die stamroesweerstand baie hoë vlakke gehandhaaf het. Ms3 kan dus gebruik word om in kombinasie met waterkultuurkweking van gesnyde halms, 'n herhalende seleksieprogram van stapel te stuur. Integrasie met 'n bestaande stamboom seleksieprogram is ook moontlik en sal relatief min addisionele insette vereis. 'n Gedeelte van die werk is reeds gepubliseer en word hierbyaangeheg as Aanhangsel D. Wheat -- Genetics Selection (Plant breeding) Male sterility in plants Dissertations -- Genetics Theses -- Genetics
12	Optimising aspects of a soybean breeding programme / Jarvie, John Antony. January 2008 (has links) Thesis (Ph.D)-University of KwaZulu-Natal, Pietermaritzburg, 2008. / Full text also available online. Scroll down for electronic link.
13	Heterose e capacidade de combinação em trigo envolvendo fontes de genes de nanismo Capelin, Marcio Andrei 27 February 2014 (has links) A introdução de genes Rht, oriundos principalmente de programas de melhoramento da Ásia, Europa, Estados Unidos e México permitiu o avanço da cultura do trigo (Triticum aestivum L.) para áreas consideradas marginais. Nesse contexto, este trabalho se propõe avaliar a capacidade de combinação, heterose e heterobeltiose em um dialelo 8x8 afim de verificar o efeito pleiotrópico (único gene controla diversas características do fenótipo), ou seja, além da estatura, quais os componentes de rendimento que estão sendo alterados quando cultivares de maior estatura são cruzados com as linhas anãs CD 0827, CD 0985 e UTF 0605 disponibilizadas por programas de melhoramento genético nacionais de trigo. O experimento foi conduzido em Pato Branco – PR, na safra agrícola de 2012, em delineamento experimental de blocos casualizados com três repetições. As hibridações foram realizadas com oito genitores, sendo três anões (CD 0827, CD 0985 e UTF 0605) e BRS Pardela, Safira, BRS Tangará, CD 111 e CD 108, escolhidos por apresentarem estatura de planta média à elevada, potencial produtivo e demais caracteres agronômicos de interesse. Os valores dos quadrados médios da capacidade geral de combinação (CGC) foram superiores à capacidade específica de combinação (CEC) para todos os caracteres estudados, demonstrando maior contribuição dos efeitos gênicos aditivos. A capacidade geral de combinação das linhagens anãs (CD 0827, CD 0985 e UTF 0605) indicou as maiores contribuições para a redução da estatura de planta, em ambas as gerações avaliadas, com destaque para a linhagem UTF 0605. A CGC também indica que os genitores UTF 0605, Safira e BRS Tangará maximizam o número de afilhos férteis por planta (AFPL) e CD 0985 e CD 111 se mostraram efetivos em aumentar o número de grãos por planta (NGE). Os genitores Safira, BRS Tangará, CD 108 e entre as anãs CD 0827 se destacaram com os mais elevados valores quanto a CGC para rendimento de grãos por planta (RGP). Os genitores anãos UTF 0605, CD 0985 e CD 0827 são fontes promissoras de genes aditivos para o desenvolvimento de progênies de menor estatura de planta e maior número de afilhos férteis por planta, grãos por espiga e massa de mil grãos. Os cruzamentos CD 0827 x Safira, UTF 0605 x Safira, CD 0985 x CD 111, CD 0985 x CD 108, UTF 0605 x CD 111, UTF 0605 x BRS Tangará destacaram-se com maiores valores de capacidade específica de combinação para rendimento de grãos, e os dois primeiros foram superiores quando se considera os valores de heterose e heterobeltiose e depressão endogâmica. Os resultados deste estudo demonstram a viabilidade de utilização de linhagens anãs em programas de melhoramento genético. / The introduction of Rht genes, mainly from breeding programs in Asia, Europe, United States and Mexico has allowed the advancement of wheat (Triticum aestivum L.) to marginal areas considered. In this context, this study aims to evaluate the combining ability, heterosis and heterosis in a 8x8 diallel order to verify the pleiotropic effect (single gene controls several features of the phenotype), in other words, beyond the stature which components of income that are being changed when taller cultivars are crossed with dwarf lines CD 0827, CD 0985 and UTF 0605 provided by national wheat breeding programs. The experiment was conducted in Pato Branco - PR in the 2012 harvest, in a randomized block design with three replications. Hybridizations were performed with eight parents, three of them dwarfs (CD 0827 , CD 0985 and UTF 0605), BRS Pardela, Safira , BRS Tangara, CD 111 and CD 108. The values of the mean squares for GCA were higher than SCA for all traits indicating higher contribution of additive genetic effects. The general combining ability of the dwarf lines (CD 0827 , CD 0985 and UTF 0605) indicated the greatest contributions to the reduction of plant height in both generations evaluated, highlighting the UTF 0605 lineage. The CGC also indicates that UTF 0605, Safira and BRS Tangará parents maximize the number of fertile tillers per plant (NFPP) and CD 0985 , CD 111 were effective in increasing the number of grains per spike (NGS). The Safira, BRS Tangará, CD 108 and CD 0827 between dwarf parents stood out with the highest values for GCA for grain yield per plant (GYP) . The dwarf parents UTF 0605, CD 0985 and CD 0827 are promising sources of additive genes for the development of progenies of lower plant height and increased number of fertile tillers per plant, grains per spike and thousand grain weight. The CD 0827 x Safira, UTF 0605 x Safira, CD 0985 x CD 111, CD 0985 x CD 108, UTF 0605 x CD 111, UTF 0605 x BRS Tangará stood out with higher values of specific combining ability for grain yield, and the first two were higher when considering the values of heterosis and heterosis and inbreeding depression. The results of this study demonstrate the feasibility of using plant population used in breeding programs. Trigo - Melhoramento genético Plantas - Melhoramento genético Wheat - Breeding Plant breeding Selection (Plant breeding)
14	Recurrent selection for drought tolerance in Maize (Zea mays L. and study of heterotic patterns of maize populations from Eastern Kenya. January 2007 (has links) There are few maize varieties that are drought tolerant in semi-arid eastern Kenya and farmer perceptions of drought tolerant maize cultivars have not been studied in this region. Farmers in this region use maize landraces that have not been studied for their potential future hybridization. The main objectives of this study were therefore to: (i) study farmer perceptions of drought and preference for maize varieties, (ii) improve drought tolerance in maize populations in the semi-arid eastern Kenya using S1 family recurrent selection, and (iii) classify maize landraces according to their heterotic patterns. A participatory rural appraisal (PRA) was conducted in Machakos and Makueni districts in semi-arid eastern Kenya. A total of 175 farmers were involved in focus group discussions. An open ended questionnaire and a checklist were used to guide the farmers during the discussion sessions. Scoring and ranking techniques were used to assess farmers’ preferences of maize varieties and constraints to maize production. The farmers grew maize as their major crop followed by beans. Nearly 60% of the farmers grew local maize landraces, whose seed they recycled from season to season; 40% grew improved varieties, but mainly composites rather than hybrids. The key farmers’ criteria for choosing a maize variety in order of importance were drought tolerance, early maturity, high yield, and disease resistance. The major constraints to maize production were drought, lack of technical know-how, pests, poor soils, and inadequate seed supply. Maize traits preferred by farmers in a drought tolerant variety included high yield, recovery after a dry spell and the stay green characteristic. Two maize landrace populations MKS and KTU from semi-arid eastern Kenya and three CIMMYT populations V032, ZM423, and ZM523 were subjected to two cycles of S1 progeny recurrent selection for drought tolerance in yield and traits indicative of drought tolerance were measured during flowering and grain filling from February 2005 to September 2007. Evaluation to determine selection gains was done in one trial replicated five times. It was laid out as a 4x4 lattice design and drought was imposed at reproductive stage by withholding irrigation one week before flowering and resumed during grain filling. The trial was repeated under well-watered conditions which served as a control experiment. After two cycles of selection under drought stress conditions, KTU population had a realized gain in yield of 0.2 t ha-1, MKS population 1.2 t ha-1 and ZM423 0.4 t ha-1, whereas in V032 and ZM523, grain yield reduced by 1.1 t ha-1 and 0.6 t ha-1, respectively. Under well watered conditions, the realized gains in grain yield were positive in all the populations except V032, where there was a reduction of 0.1 t ha-1. Selection increased the genetic variability and heritability estimates for yield in S1 lines of MKS and ZM423 populations, but decreased in KTU, V032 and ZM523 populations. The research to identify heterotic patterns was undertaken using ten maize landraces from the semi-arid eastern Kenya, six maize landraces from coastal Kenya, and three maize populations from CIMMYT. These populations were planted at Kiboko Research Farm during the short rains of October-December 2005 and crossed to two population testers, Embu 11 and Embu 12. The evaluation of the test crosses was done during the long rains of March-June 2006. Percentage heterosis for yield ranged from -17.7% to 397.4%, -79.4 to 22.2% for anthesis-silking interval, -23.9% to 29.2% for ear height, -0.1 to 1.1 for ear diameter, -7.1 to 21.2% for ear length and -5.9% to 30.3% for plant height. iii General combining ability (GCA) effects were significant (p=0.05) for all the traits, while specific combining ability (SCA) effects were not significant (p>0.05), implying that variation among these crosses was mainly due to additive rather than nonadditive gene effects. Since SCA was not significant (p>0.05) for yield, maize populations were classified based on percentage heterosis for yield alone. The maize populations therefore, were grouped into three different heterotic groups P, Q and R. Twelve landrace populations and two CIMMYT populations showed heterosis with Embu 11 and no heterosis with Embu 12 were put in one group P. Two landrace populations that showed no heterosis with either tester were put in group Q. Two landrace populations and one CIMMYT population showed heterosis with both testers were put in group R. None of the populations showed heterosis only with Embu 12 and no heterosis with Embu 11. The main constraint to maize production was drought and the farmers preferred their landraces whose seed they recycled season to season. After two cycles of recurrent selection, the landrace populations showed improved progress in yield. Thus, further selection will be beneficial in the populations where genetic variability increased. Therefore, these populations can further be improved per se and released as varieties and/or incorporated into the existing maize germplasm to broaden their genetic base, given that their heterotic patterns have been identified. Considering that farmers recycle seed, breeding should be towards the development of open-pollinated varieties which are drought tolerant. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2007. Maize--Drought tolerance--Kenya. Maize--Effect of drought on--Kenya. Maize--Varieties--Kenya. Maize--Kenya--Genetics. Maize--Yields--Kenya. Selection (Plant breeding)--Africa. Theses--Plant breeding. Maize--Breeding--Kenya.
15	Ganho genético e seleção em gerações iniciais e em linhagens de trigo por meio de modelos mistos / Genetic gain and selection in early generations and lines of wheat using mixed models Woyann, Leomar Guilherme 05 March 2018 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / A cultura do trigo apresenta grande importância econômica no Brasil, sendo que o país produz, anualmente, cerca de 6 milhões de toneladas. Contudo, essa produção é suficiente para atender a aproximadamente 50% da demanda. Essa situação faz com que o Brasil seja um dos maiores importadores deste cereal. O melhoramento genético da cultura tem grande importância na tentativa de aumentar a produção, a produtividade e a qualidade do trigo produzido. Além disso, aumentar a eficiência dos programas de melhoramento é essencial para reduzir os custos e o tempo necessários para o lançamento de novas cultivares. Neste sentido, soluções para a correta avaliação em etapas onde há baixa disponibilidade de sementes ou onde o número de linhagens a serem avaliadas é grande são necessárias. Desta forma, os objetivos deste trabalho foram: 1) avaliar o ganho genético para a cultura do trigo no Brasil, nos últimos 30 anos; 2) utilizar modelos aditivo-dominantes, em gerações F2 e F3, na identificação dos melhores genitores para caracteres de importância agronômica e 3) avaliação de linhagens homozigotas em ensaios multi-ambientes sem o uso de repetições. Para todas estas análises foram utilizados modelos mistos. Para a análise do ganho genético foram utilizados dados de 126 cultivares brasileiras de trigo, lançadas entre 1984 e 2014. Estas cultivares foram avaliadas em 187 ensaios, conduzidos em 25 locais, distribuídos na Região Sul do Brasil, entre os anos de 2002 e 2014. O ambiente foi responsável por mais de 70% da variância e os genótipos apresentaram comportamento similar entre os ambientes avaliados. O ganho genético obtido foi de 33,9 kg ha-1 ano-1,o que representa 1,28% ano-1. Além disso, os dados indicam que não há estagnação no ganho genético para a cultura do trigo no Brasil. A análise, via modelos aditivo-dominantes, de gerações heterozigotas (F2 e F3) indicou cultivares e linhagens que apresentam elevados efeitos aditivos, que são os principais efeitos quando o objetivo é o lançamento de cultivares a partir de linhagens homozigotas. Para o caractere rendimento de grãos, se destacaram as cultivares TBIO Seleto, Mirante, TBIO Mestre, Sinuelo e Ametista, além das linhagens UTFT 0932, UTFT 0908 e UTFT 0944. Na análise de adaptabilidade, estabilidade e produtividade, as linhagens UTFT 1110, UTFT 1608, UTFT 1620, UTFT 1025 e UTFT 1691 se destacaram e seriam selecionadas em cada um dos ambientes avaliados. Contudo, as linhagens UTFT 1634 e UTFT 1405 estiveram entre as linhagens selecionadas no conjunto de locais, mas poderiam ter sido eliminadas caso o ensaio tivesse sido conduzido em um único local, com repetições. / Wheat crop has great economic importance in Brazil, producing annually about 6 million tons. However, this production is only sufficient to meet ~ 50% of demand. This condition makes Brazil one of the largest importers of this cereal worldwide. The genetic improvement of this crop has great importance in the attempt of increasing production, productivity and quality of wheat produced in Brazil. Furthermore, increasing the efficiency of breeding programs is essential to reduce costs and the time required to release new cultivars. In this sense, solutions are necessary for the correct evaluation in steps where limited seeds are available or where the number of lines to be evaluated is very hight. Thus, the objectives of this work were: 1) to evaluate the genetic gain of wheat crop in Brazil in the last 30 years; 2) to use additive-dominant models, in generations F2 and F3, to identify the best parents for agronomic traits, i.e., grain yield, hectoliter mass, thousand grain mass, plant height, among others; and 3) to evaluate homozygous lines in designs without repetitions in multi-environment trials. For all analyses, mixed models were used. Genetic gain was evaluated using 126 Brazilian wheat cultivars released 1984 and 2014. Cultivars were evaluated in 187 trials, conducted in 25 locations, distributed in the Southern Region of Brazil, between 2002 and 2014. Environment effects was responsible for more than 70% of the total variance and genotypes presented similar behavior in the evaluated environments. Genetic gain was of 33.9 kg ha-1 year-1, which represents 1.28% year-1. Moreover, results indicated absence of stagnation in the genetic gain in Brazil. Analysis of F2 and F3 generations with additive-dominant models show cultivars and lines with high additive effects, which are the main effects when the objective is to release homozygous cultivars. For grain yield, cultivars TBIO Seleto, Mirante, TBIO Mestre, Sinuelo and Ametista and lines UTFT 0932, UTFT 0908 and UTFT 0944 presented the highest additive effects. In the analysis of adaptability, stability and productivity, lines UTFT 1110, UTFT 1608, UTFT 1620, UTFT 1025 and UTFT 1691 would be selected in each of the evaluated environments. However, lines UTFT 1634 and UTFT 1405 were among the selected lineages in the set of locations but could have been eliminated if the trial had been conducted in a design with replications in a single location. CNPQ::CIENCIAS AGRARIAS::AGRONOMIA Interação genótipo-ambiente Modelos lineares (Estatística) Selection (Plant breeding) Genotype-environment interaction Linear models (Statistics) Fitotecnia
16	Breeding investigations for resistance to Phaeosphaeria Leaf Spot (PLS) and other important foliar diseases and a study of yield stability in African maize germplasm. Sibiya, Julia. January 2009 (has links) Abstract not available. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2009. Maize--Diseases and pests--Africa. Maize--Breeding--Africa. Maize--Africa--Genetics. Maize--Varieties--Africa. Maize--Yields--Africa. Plant breeding--Research--Africa. Selection (Plant breeding)--Africa. Farms, Small--Africa. Theses--Plant breeding.
17	Breeding for Cassava brown streak resistance in coastal Kenya. Munga, Theresia Luvuno. January 2008 (has links) Cassava (Manihot esculenta Crantz ssp. esculenta) is the second most important food crop and a main source of income for the rural communities with potential for industrial use in the coastal region of Kenya. However, its productivity of 5 to 9 t ha-1 is low due to the low yield potential of the local cassava landraces caused by cassava brown streak disease (CBSD) among other biotic and abiotic constraints. Breeding for CBSD resistant varieties with farmer desired characteristics is hampered by limited information on the current status of the disease and farmers’ preferred characteristics of new CBSD resistant genotypes. In addition, there is a lack of an effective inoculation technique for cassava brown streak virus (CBSV) for screening genotypes for CBSD resistance. Information about the general combining ability (GCA) and specific combining ability (SCA) for CBSD above and below ground symptoms, fresh biomass yield (FBY) and fresh storage root yield (FSRY) (kg plant-1), harvest index (HI), dry matter % (DM %) and picrate score (PS) is limited and conflicting especially for the cassava germplasm in Kenya. These studies were carried out to update information on the status of CBSD, farmer’s preferences for cassava genotypes, and identify the most effective CBSV inoculation technique. In addition, the studies aimed to: determine the GCA and SCA for, and gene action controlling, the incidence and severity of above ground CBSD, root necrosis, FBY, FSRY, HI, DM %, and PS; and identify CBSD resistant progeny with farmers’ desired characteristics. A survey carried out in three major cassava-growing divisions in Kilifi, Kwale and Malindi Districts indicated that there was potential to increase production and productivity by increasing the area under cassava production and developing CBSD resistant genotypes that are early maturing, high yielding and sweet. In addition, CBSD was widely distributed, being present in 98.0% of the farms surveyed at a mean incidence of 61.2%. However, 99.0% of farmers interviewed lacked awareness and correct information about the disease. The genetic variability of cassava within the farms was low as the majority of farmers grew one or two landraces. Highly significant differences (P < 0.01) were observed among inoculation techniques for CBSV for which the highest infection rate of up to 92.0% was observed in plants inoculated by wedge grafting infected scion. Highly significant differences (P < 0.01) were observed among genotypes, between sites and their interaction for incidence of CBSD and root necrosis, while the differences among genotypes and the interaction between genotypes and the period of ratings were highly significant (P < 0.01) for the severity of CBSD and root necrosis. Above ground CBSD symptoms were not always associated with below ground CBSD symptoms and below ground CBSD symptoms were more severe at 12 months after planting (MAP) than at 6 MAP. Therefore, selecting cassava genotypes with resistance to below ground CBSD is more important than selection based on resistance to above ground CBSD and should be done after 12 months. Genotypes 5318/3 (exotic) followed by Msa140 and Plot4 (both local) had high resistance and can be used as new sources of resistance to root necrosis. Both GCA and SCA effects were highly significant with GCA sums of squares (SS) predominant over the SCA SS for most traits evaluated except for DM % at the clonal stage. These results indicate that although additive and non-additive genetic effects are involved in the inheritance of these traits, the additive genetic effects are more important except for DM %. Therefore breeding for CBSD-resistant genotypes that have characteristics desired by farmers in the coastal region of Kenya can be achieved through recurrent selection and gene pyramiding followed by participatory selection or use of a selection index that incorporates characteristics considered important by farmers. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2008. Cassava. Cassava--Diseases and pests--Kenya. Cassava--Breeding--Kenya. Selection (Plant breeding)--Africa. Plant breeding--Research--Africa. Plant viruses--Africa. Theses--Plant breeding. Theses--Plant pathology.
18	Breeding investigations of maize (Zea mays L.) genotypes for tolerance to low nitrogen and drought in Zambia. Miti, Francisco. January 2007 (has links) Low soil nitrogen (N) and drought impede maize production in the small-scale farming sector in Zambia; and adoption of new cultivars with improved tolerance might enhance production. This study: a) assessed farmer preferences for maize cultivars; b) determined genotype x environment interaction effects among popular maize cultivars under contrasting soil fertility levels and; c) investigated landraces for tolerance to low N and drought using S1 selection. The study was carried out in Zambia from 2004-07. Farmer preference influencing the adoption of maize cultivars was investigated using both formal and informal surveys in Luangwa, Chibombo and Lufwanyama rural districts representing the three agro-ecological regions of Zambia. Focus group discussions and personal interviews were used to collect data on issues that affected maize production in these areas. It has been found that although farmers perceived landraces to be low yielding, they believed that they were superior to improved cultivars for: tolerance to drought; tolerance to low soil fertility; grain palatability; grain storability; and poundability. The need for food security, their inability to apply fertiliser, and their need for drought tolerant cultivars significantly (p ≤ 0.05) influenced farmers in adopting cultivars. The farmers would readily adopt cultivars that address these concerns. The predominant use of certain landraces (76%) reflected their superiority in meeting some of these needs. The performance of nine popular cultivars (three for each of hybrids, OPVs and landraces) under contrasting levels of soil fertility, across six environments (ENVs) in the three agro-eological regions, was evaluated. An ENV was defined as season x location combination. The fertilizer treatments were full fertilization, basal dressing, top dressing and nil fertilization. The cultivars exhibited significant non-crossover type of genotype x fertilisation interaction effects at three ENVs, while the genotype x fertilisation interaction effects, were non-significant at the other three ENVs. The cultivars exhibited dynamic stability by increasing grain yield (GY) when fertilization was increased. Landraces yielded higher than all open pollinated varieties and were generally higher yielding than two hybrids. Based on average rank for GY, the five highest yielding cultivars were MRI724, Gankata, MM603, Kazungula and Pandawe. Superiority of landraces revealed their genetic potential for GY under low soil fertility and they should be used as germplasm in developing cultivars targeting such environments. Ninety-six local landraces were selfed to generate S1 lines (2004/05 season) which were crossed to a tester (2005/06 season). Testcrosses were evaluated under optimal, low N, and drought conditions (2006/07 season). Data on GY, anthesis-silking interval, number of ears per plant, leaf senescence, leaf rolling, tassel size and grain texture were recorded in all the trials during the study period. Testcrosses, their S1 parents and landraces that were superior under low N, drought, optimal conditions and across environments were identified; these should be used to develop varieties targeted to a particular environment. Selection for tolerance to drought also selected for tolerance to low N. Selection for low N tolerance also selected for GY under drought and optimal conditions. Therefore, in selecting for tolerance to abiotic stresses, use of optimal and managed stress environments was effective. The following landraces were superior at 10% selection intensity: LR38, LR84 and LR86 (optimal, low N and drought conditions); LR11, LR35 and LR76 (low N and drought conditions); LR12 (optimal and drought conditions); LR40 and LR93 (low N conditions only); LR79 (drought conditions only) and; LR74 and LR85 (optimal conditions only). These landraces should be used as source germplasm targeting respective environments. Significant (p ≤ 0.05) positive general combining ability effects for GY under both low N and drought conditions were found implying that additive gene action conditioned GY under the abiotic stresses. The heritability for GY under low N (0.38), and drought (0.17) conditions, was low suggesting that selection based on GY alone was not effective. The genetic correlation for GY between optimal, and either low N (rG=0.458), or drought (rG = 0.03) environments, was low (rG < 0.5) suggesting that indirect selection would not be effective either. Therefore, use of secondary traits for selection is discussed. The study established that most farmers depended on local landraces for seed and would adopt low input improved varieties that yield higher than the landraces. Some landraces were found superior to some improved cultivars under contrasting fertilisation regimes. The study also found that landraces had genetic variation for tolerance to low N and drought. Landraces, S1 lines and testcrosses superior under low N, drought, optimal conditions and across environments were selected and they should be used to develop cultivars targeting respective environments. Policy implications of these results are discussed. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2007. Maize--Drought tolerance--Zambia. Maize--Effect of drought on--Zambia. Maize--Varieties--Zambia. Maize--Breeding--Zambia. Maize--Zambia--Genetics. Maize--Fertilizers--Zambia. Crops and nitrogen--Zambia. Selection (Plant breeding)--Africa. Theses--Plant breeding.
19	Study of anthracnose (Colletotrichum lindemuthianum) resistance and its inheritance in Ugandan dry bean germplasm. Nkalubo, Stanley. January 2006 (has links) The common bean (Phaseolus vulgaris L.) is an important crop grown widely in Uganda. It is also an important source of income for smallholder farmers particularly women. Despite its importance, production in the cool highland regions is constrained by anthracnose disease which causes losses in both the quantity and the quality of beans produced. The principal aim of this research was to elucidate on the status of dry bean anthracnose and the genetics governing its resistance. A participatory rural appraisal study was conducted to explore farmers' knowledge, experience, problems and cultivar preferences in association with managing dry bean anthracnose disease. This study revealed that anthracnose is an important constraint to production which is not controlled in any way. Although farmers have varying cultivar preferences, they use mostly home saved seed and only 1% could access improved seed. The study suggested the need for practical approaches in the provision of quality anthracnose resistant seed in consideration of farmers' preferences and the dynamics of their rural livelihoods. A study was conducted to determine the variability of the anthracnose (Colletotrichum lindemuthianum) pathogen in some of the major bean growing regions of Uganda. Use was made of a set of 12 internationally accepted anthracnose differential cultivars to identify the physiological races present. The results obtained indicated the presence of eight races with one race (767) being dominant and most aggressive. Differential cultivars AB 136 and G2333 were resistant to all the eight races, and can be utilised as potential sources of resistant genes. A germplasm collection of mostly Ugandan accessions was screened for anthracnose resistance. Using the area under disease progression curve as the tool for assessing disease severity, eleven accessions were identified that posses good levels of anthracnose resistance. The yield loss attributed to the anthracnose disease was determined on three susceptible Ugandan market-class dry bean cultivars and two resistant cultivars. The results showed that the yield of susceptible cultivars was reduced by about 40% and an almost equivalent yield was lost due to poor quality seed. In comparison, the yield lost by the resistant cultivars was not significant. The study suggested the use of resistant cultivars as the best solution in combating anthracnose resistance. Three susceptible Ugandan market class dry bean cultivars and six resistant cultivars were used for the study of the inheritance of resistance to the anthracnose pathotype 767 in a complete 9x9 diallel design. The results clearly indicated that the resistance was predominately conditioned by additive gene action. It was also established that epistatic gene action was important. More than one pair of genes displaying partial dominance were responsible for determining resistance and the maternal effect did not have an influence on resistance. Additionally, the result showed that some of susceptible cultivars combined very well with the resistant cultivars and that anthracnose resistance heritability estimates in both the narrow and broad sense were high. These results suggested that the use of simple pedigree breeding procedures such as backcross selection could be useful in improving anthracnose resistance levels in the Ugandan market class varieties. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2006. Beans--Diseases and pests--Uganda. Beans--Breeding--Uganda. Beans--Varieties--Uganda. Phaseolus vulgaris--Uganda. Selection (Plant breeding)--Africa. Colletotrichum--Uganda. Anthracnose--Uganda. Fungal diseases of plants--Africa. Theses--Plant breeding.
20	Genetic improvement of Zambian maize (Zea mays L.) populations for resistance to ear rots and a survey of associated mycotoxins. Mweshi, Mukanga. January 2009 (has links) Maize ear rots are among the most important impediments to increased maize production in Africa. Besides yield loss, they produce mycotoxins in their host whose contamination has been linked to several human and animal mycoses. The main objectives of the studies reported on in this thesis were (i) to investigate farmer perceptions of maize ear rot disease and prospects for breeding for host plant resistance in Zambia; and (ii) to establish the levels of incidence and extent of maize ear rot infection as well as the level of mycotoxins in the maize crops of smallholder farms in central and southern Zambia; (iii) to appraise the field inoculation techniques and assess them for their suitability for the Zambian environmental conditions, (iv) to determine the combining ability of Zambian maize populations for resistance to ear rot and investigate the genetic basis of this resistance; and (v) to investigate both direct and indirect responses to full-sib selection for ear rot resistance in Zambian maize populations. A participatory rural appraisal (PRA) was conducted in four communities, involving a total of 90 farmers. Participatory methods were used, such as focused group discussions, group interviews, participant scoring and ranking. Farmers ranked and scored the various constraints affecting their maize production in general and the maize ear rots in particular. Ear rots were ranked as the third most important biotic stress and it was evident that although farmers were aware of the disease, they were not aware of mycotoxins. This was reflected in the way they disposed of rotten maize: either by feeding livestock or eating it in periods of hunger. The survey of ear rots and mycotoxins was carried out in the Southern and Central Provinces of Zambia. A total of 114 farms were covered in the survey: maize samples were collected and both ear rot fungi and mycotoxins were isolated. Fusarium and Stenocarpella were the most frequently isolated fungi from smallholder farms. The levels of fumonisins on these farms ranged from 0.05 to 192 ppm, while those of aflatoxins were between 1.5 and 10.6 ppb. In 50% of the farmsteads surveyed, the mycotoxins, i.e. fumonisins and aflatoxins, exceeded the recommended FAO/WHO 1limits of 2 ppm and 2 ppb, respectively. Five field inoculation techniques namely, colonised toothpick, leaf whorl placement, ear top placement, spore suspension spray, and silk channel injection, were evaluated over three seasons in a series of experiments. It was found that the leaf whorl placement of inoculums, followed by colonized toothpick method, gave a constant ranking of genotypes across locations and years compared to the other three methods. In addition, the use of a mixture of ear rots as inoculum was as effective as its principal single species constituents. In the population diallel analysis, five broad-based maize populations were crossed in a diallel and evaluated under artificial ear rot inoculation using an inoculum mixture of three ear rot fungi, Aspergillus flavus, Fusarium verticilloides and Stenocarpella maydis at four locations in Zambia. The purpose was to estimate general (GCA) and specific combining ability (SCA) and investigate genotype x environment interaction. GCA effects were found not to be significant for disease severity but were significant for grain yield across environments. Populations with a strong GCA effect for disease severity across sites included PRA783244c3, Pop25, MMV600, and ZUCASRc2. Across sites, the F1 combinations, MMV600 x Pop25, ZUCASRc2 X Pop25, and Pop25 x PRA783244c2 had strong SCA effects for root lodging, ear drooping, husk cover and ear insect damage. In a related diallel analysis of 10 full-sib families derived from these populations, it was observed that resistant x susceptible families and their reciprocal crosses performed better than their resistant parents, suggesting an over dominant expression of resistance. Both maternal and non maternal effects were observed to be influencing resistance to ear rots. There was a preponderance influence of non-additive gene action. A response to full-sib recurrent selection was conducted in four locations in Central Zambia. Out of the 343 families created in 2005/6 season, 10% were selected from each population and recombined to create five new populations. These, with the original populations, were evaluated in four sites during the 2007/8 season. There was a net reduction in ear rot incidence and rot severity in the new synthetic population. Pop10 had the largest reduction in disease severity. The predicted gain per cycle was -4.1% and realized gain was -2.5% for disease incidence, and 0.19% and 19.4% for grain yield. Genetic variability was maintained though with low heritability estimates. Negative but at times strong association between grain yield and ear rot disease severity was detected suggesting that in general selecting for ear rot resistance would enhance grain yield in the five populations. Overall the importance of the ear rots and mycotoxins in compromising yield and health of the communities in Zambia, respectively, were confirmed and support the call to improve maize varieties for resistance to ear rots. The results indicate that the five populations could be enhanced for ear rot resistance through population improvement procedures such reciprocal recurrent selection that exploit both additive and non-additive variation. Selection might be compromised by the large genotype x environment interaction effects, and large reciprocal effects and their interaction with the environments. To enhance repeatability genotypes should be artificially inoculated, by placing the inoculum in the leaf whorl followed by colonized toothpick inoculation, and screened in many environments to identify genotypes with stable resistance to ear rots. / Thesis (Ph.D) - University of KwaZulu-Natal, Pietermaritzburg, 2009. Maize--Diseases and pests--Zambia. Maize--Breeding--Zambia. Fungal diseases of plants--Africa. Fusarium diseases of plants--Africa. Mycotoxins--Zambia. Selection (Plant breeding)--Africa. Plant breeding--Research--Africa. Theses--Plant breeding.

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