Global ETD Search

11	Ação de agroquímicos no controle de mofo branco em soja Arruda, Josicléa Hüffner 28 January 2014 (has links) A soja é uma das principais commodities produzidas no mundo. Entretanto, tem sua produtividade reduzida, significativamente, devido às doenças, dentre estas o mofo branco, causado pelo fungo Sclerotinia sclerotiorum, com expressiva severidade em regiões de clima ameno e úmido. O controle da doença, incluindo o uso de fungicidas, é pouco eficiente. Assim, o trabalho teve por objetivo avaliar a eficiência de herbicidas e adubos foliares à base de fosfito de potássio no manejo do mofo branco em soja, bem como a ação dos produtos, indução da síntese de fitoalexinas e das enzimas peroxidases e superóxido dismutase, assim como a ação direta dos agroquímicos sobre o patógeno. Para isso, avaliou-se a ação in vitro dos produtos químicos sobre o crescimento micelial do fungo e germinação de escleródios. A indução foi testada em laboratório por meio da avaliação da síntese de fitoalexinas em cotilédones de soja, e das enzimas POX e SOD, submetidas aos mesmos tratamentos de campo. O experimento de campo foi implantado em Coronel Domingos Soares - PR, safra 2012/2013, em área com infestação natural do fitopatógeno. O delineamento experimental foi de blocos ao acaso, com 4 repetições e 6 tratamentos: testemunha, lactofen (0,6 L ha-1 em V4), bentazon (1,5 L ha-1 em V4), fluazinam (1 L ha-1 em R1) e dois adubos foliares denominados fosfito A (30 p/p % de P2O5 e 20 p/p % de K2O) (3 L ha-1 em V4 + R1) e fosfito B (26 p/p % de P2O5 e 19 p/p % de K2O) (2 L ha-1 em V4 + R1). O fungicida foi o único produto que inibiu totalmente o desenvolvimento do fungo in vitro. Em laboratório, o bentazon alcançou os maiores índices de produção de fitoalexinas, enquanto os adubos foliares não as induziram. Ambos os herbicidas e o fosfito A tiveram potencial para aumentar a atividade da enzima POX. No experimento de campo os herbicidas bentazon e lactofen destacaram-se no controle do mofo branco, sendo de 60,5% e 52,3%, respectivamente, e o tratamento com fosfito A com um controle de 37,9%, superiores ao tratamento com fungicida. Em relação aos componentes de rendimento houve incrementos utilizando os herbicidas, entretanto, não diferiram estatisticamente da testemunha pelo teste de Duncan a 5%. / Soybean is one of the most important crops in the world. However, several times the yield is reduced due to diseases as the stem rot (white mold) caused by Sclerotinia sclerotiorum, which is a several fungal, mainly in areas with low temperatures and high moisture. The disease control, including the use of fungicides, is difficult. Thus, the objective of this study was to verify the effect of herbicides and foliar fertilizers with potassium phosphite on control of white mold soybean, determining the action of this agrochemicals about the phytoalexin, superoxide dismutase and peroxidase synthesis, and the direct action on the pathogen. For this, the in vitro effect of agrochemicals on the pathogen was evaluated. Also, the induction was tested in the laboratory by evaluation of phytoalexin synthesis in soybean cotyledons, and POX and SOD enzymes, subjected to the same treatment field. The field trials were conducted in Coronel Domingos Soares – PR, evaluations were made in 2012/2013 crop. A randomized-complete blocks design with 6 treatments and 4 replicates was used. The treatments were: lactofen (0,6 L ha-1 applied in V4), bentazon (1,5 L ha-1 in V4), fluazinam (1 L ha-1 in R1) and two foliar fertilizers called fosfito A (30 p/p % de P2O5 and 20 p/p % de K2O) (3 L ha-1 in V4 + R1) and fosfito B (26 p/p % de P2O5 and 19 p/p % de K2O) (2 L ha-1 in V4 + R1). . The fungicide was the only product that completely inhibited fungal growth in vitro. In the laboratory, the bentazon reached the highest levels of phytoalexin production, but the foliar fertilizers did not induce the production of the same. Both herbicides and phosphite A had the potential to elicit the production of peroxidase enzyme. In field experiments the herbicides bentazon and lactofen stood out in the control of white mold, being 60.5% and 52.3% respectively, and treatment with the fosfito A provided a control of 37.9%, being superior to the treatment with fungicide. Regarding the grain fields compounds had increase using the herbicides, but did not differed from the control by Duncan test at 5%. Soja - Doenças e pragas Pragas - Controle Fungicidas Produtos químicos agrícolas Soybean - Disease and pests Pests - Control Fungicides Agricultural chemicals
12	The Relative Nitrogen Fixation Rate and Colonization of Arbuscular Mycorrhizal Fungi of Iron Deficient Soybeans Podrebarac, Frances Ann January 2011 (has links) Soybeans (Glycine max L. Merr.) are a symbiont of two beneficial associations: biological nitrogen fixation (BNF) with Bradyrhizobium japonicum, and arbuscular mycorrhizal fungi (AMF). Within the Northern Great Plains of the USA, iron deficiency chlorosis (IDC) of soybean is a yield-limiting factor. The effects of IDC on BNF and AMF are not well defined. This study was conducted to determine the effects of IDC on BNF and AMF. A laboratory study was performed to compare three methods of measuring ureide-N, a product of BNF in soybeans. Field studies in soybean were performed at three locations at eastern N011h Dakota. The experimental design was a factorial combination of three cultivars and three treatments. The three cultivars, in order of decreasing chlorosis susceptibility, were NuTech NT-0886, Roughrider Genetics RG 607, and Syngenta S01-C9 RR. The three treatments were control, Sorghum bicolor L. companion crop planted with the soybean seed, and FeEDDHA applied with the soybean seed. Chlorosis severity was the greatest and least for the NuTech and Syngenta cultivars, respectively. The FeEDDHA treatment decreased chlorosis severity. Ureide levels were abnormally high in plants severely stunted by JDC. The excess accumulation of ureides in IDC-stunted plants suggests that plant growth was reduced more than the rate of nitrogen fixation. The AMF population \vas at an adequate level at all locations and not affected by cultivar or treatment, in general. In the laboratory study, the Patterson et al. method had greater ureide concentrations due to the non-specific measuring of ammonium compounds compared to the Vogels and Van der Drift and Goos methods. / North Dakota Soybean Council Soybean -- Diseases and pests. Soybean -- Disease and pest resistance. Nitrogen -- Fixation. Vesicular-arbuscular mycorrhizas. Chlorosis (Plants) Iron deficiency diseases in plants. Mycorrhizal fungi.
13	Molecular genetic analysis of host resistance to soybean mosaic virus Yu, Yong Gang 01 February 2006 (has links) Soybean mosaic virus (SMV), a potyvirus detected worldwide, can cause serious diseases in soybean (Glycine max L. Merr.). Host resistance to SMV conferred by a single dominant gene, Rsvl, was studied as a model to gain insights of plant virus resistance genes, and to facilitate the breeding of resistant cultivars. DNA restriction fragment length polymorphisms (RFLPs) and microsatellites (or simple sequence repeats, SSRs) were used as genetic markers to identify the chromosomal location of Rsvl1 in a cross between PI 96983 (resistant) and a susceptible cultivar. Twenty five RFLP and three SSR loci polymorphic between the parental lines were analyzed in 107 F, individuals. Genotypes of Rsv1 were determined by inoculating F2.3 progeny with SMV-G1. Genetic analysis revealed that one SSR (HSP176L) and two RFLP (pA186 and pK644a) markers are closely linked to Rsv1, with a distance of 0.5, 1.5, and 2.1 cM, respectively. The tight linkages of the three markers to Rsv1 were confirmed by SSR and RFLP analysis of three near isogenic lines (NILs) of Rsv1 derived from PI 96983 or Marshall. The three Rsv1-linked markers were then used to screen 67 diverse soybean types. These marker loci showed a remarkably high level of polymorphism, indicating a possible association between disease resistance and rapid sequence divergence. At each Rsv1-linked marker locus, one SSR allele or RFLP haplotype is highly correlated with SMV resistance. These resistance markers, especially the SSR allele at HSP176L which can be detected by the polymerase chain reaction (PCR), may be useful for germplasm screening. The grouping of the 67 accessions according to their Rsv1-linked multilocus marker haplotypes agrees with available pedigree information. A set of differential cultivars known to contain Rsv1 clustered into putative Rsv1- carrying groups. Based on molecular marker analysis and previous inheritance studies, 37 of the 45 resistance accessions probably derive their resistance from Rsv1. The remaining eight accessions include Columbia (Rsv3), and the other potentially diverse resistance sources. A heat shock protein (HSP) multigene family, HSP176L included, was analyzed for its positional proximity to the Rsv1 gene cluster. A technique termed amplified sequence length polymorphism (ASLP) was developed to convert known DNA sequences to PCR-based genetic markers. Among six pairs of HSP primers used, two (HSP175E and 185C) detected ASLPs between the parents, and segregated in the F₂ population with a size of 174. HSP175E was found to be closely-linked (0.7 cM) to HSP176L, both of which are Class I small HSP genes. HSP185C, however, was mapped to a different linkage group, suggesting that it may belong to another family. ADR11, a member of auxin down-regulated (ADR) multigene family, is known to be linked to HSP173B, also a Class I gene but not mappable in this population. ASLP analysis of ADR11 in a set of Rsv1 NILs indicates that it is linked to Rsv1, and ADR11 co-segregates with HSP175E in the F, population. Thus, the Class I small HSP multigene family including HSP176L, 175E, and 173B, and possibly a family of ADR genes, is located near the Rsvi resistance gene cluster. / Ph. D. LD5655.V856 1994.Y8 Soybean mosaic virus
14	Population genetics of Colletotrichum truncatum associated with soybean anthracnose / Genética populacional de Colletotrichum truncatum associado à antracnose da soja Rogério, Flávia 05 July 2019 (has links) The soybean crop is one of the main agricultural crops, with high global economic relevance. The large area under soybean cultivation in Brazil, including the incorporation of new areas in the northern and midwestern regions, mostly under monoculture and non-tillage system, has been affected the prevalence and the intensity of diseases. Among these, one of most prominent is anthracnose, mainly associated with the fungal species Colletotrichum truncatum. Knowledge of the genetic structure of plant pathogen populations can be used to infer their life histories and the evolutionary processes that shape populations in the agroecosystems, which can help to implement effective disease management strategies. However, the genetic structure of C. truncatum populations associated with soybean remains unknown. We collected C. truncatum isolates from 10 sites representing two of main areas of soybean producing in Brazil and used microsatellite markers and whole-genome sequencing to investigate the population biology and evolutionary history of this important pathogen. The multilocus microsatellite typing of 237 isolates revealed high gene and haplotypic diversity within populations, as well low genetic differentiation and sharing of multilocus haplotypes among populations and regions. In addition, three distinct genetic clusters were detected, coexisting in syntopy in the soybean fields, without evidence of admixture between them. Such finding suggesting that Brazilian C. truncatum populations resulted from at least three founder events, which led to three genetic lineages that spread throughout the country. However, the genetic makeup of these lineages remains unknow, and their extreme geographic proximity raises the question of the maintenance of their genetic integrity in the face of admixture. In order to gain insights into the evolutionary history of C. truncatum lineages and to investigate in more details the possibility of a lack of genetic exchanges between them, we employed a population genomic approach. For that, we produced a draft genome sequence of a typical strain of the species associated with soybean anthracnose, which was used as the reference genome. Eighteen representative C. truncatum isolates from the three lineages were submitted to whole genome sequencing, aligned against the reference genome, and variants were identified. Our population genomic analyzes revealed that the genetic structure of C. truncatum pathogen causing soybean anthracnose is formed by three deeply divergent lineages with levels of genetic diversity consistent with repeated introduction events for each lineage. We also found evidence for sexual recombination within and between lineages, with multiples isolates displaying signatures of admixture. Our findings support a scenario in which the three lineages initially diverged in allopatry before experiencing hybridization following secondary contact. Monitoring of the pathogen\'s diversity over time is needed to reveal whether these lineages maintain or fuse, which can impact the disease control methods currently employed. / A soja é uma das principais culturas agrícolas, com alta relevância econômica global. A grande área sob cultivo de soja no Brasil, incluindo a incorporação de novas áreas nas regiões norte e centro-oeste, principalmente sob monocultura e plantio direto, tem afetado a prevalência e a intensidade das doenças. Entre elas, uma das mais proeminentes é a antracnose, principalmente associada à espécie fúngica Colletotrichum truncatum. O conhecimento da estrutura genética das populações de patógenos de plantas pode ser usado para inferir suas histórias de vida e os processos evolutivos que moldam as populações nos agroecossistemas, o que pode ajudar a implementar estratégias eficazes de manejo da doença. No entanto, a estrutura genética das populações de C. truncatum associadas à soja permanece desconhecida. Coletamos isolados de C. truncatum em 10 áreas, representando duas principais regiões produtoras de soja no Brasil. Utilizamos marcadores microssatélites e sequenciamento do genoma completo para investigar a biologia populacional e a história evolutiva desse importante patógeno. A tipagem de microssatélites multilocus de 237 isolados revelou alta diversidade genética e haplotípica nas populações, bem como baixa diferenciação genética e compartilhamento de haplótipos entre populações e regiões. Além disso, foram detectados três grupos genéticos distintos, coexistindo nas mesmas áreas, sem evidência de mistura entre eles. Isto sugere que as populações C. truncatum no Brasil resultaram de pelo menos três eventos fundadores, o que levou á formação das três linhagens genéticas que se espalharam pelo país. No entanto, a composição genética dessas linhagens permanece desconhecida, e sua extrema proximidade geográfica levanta a questão sobre a manutenção de sua integridade genética em face a mistura entre elas. A fim de analisar a história evolutiva das linhagens de C. truncatum e investigar a possibilidade de ausência de trocas genéticas entre elas, empregamos uma abordagem genômica populacional. Para isso, produzimos uma versão preliminar do genoma completo de um isolado típico da espécie, o qual foi utilizado como genoma de referência. Dezoito isolados representativos das três linhagens foram submetidos ao sequenciamento completo, alinhados ao genoma de referência, e variantes foram identificados. Nossas análises genômicas populacionais revelaram que a estrutura genética do patógeno é formada por três linhagens profundamente divergentes, com níveis de diversidade consistentes com repetidos eventos de introdução para cada linhagem. Também encontramos evidências de recombinação sexual dentro e entre linhagens, com múltiplos isolados apresentando assinaturas de mistura. Nossas descobertas sugerem um cenário no qual as três linhagens divergiram inicialmente em alopatria antes de experimentar hibridação, após contato secundário. O monitoramento da diversidade do patógeno ao longo do tempo é necessário para revelar se essas linhagens se mantêm geneticamente separadas ou se fundem, o que pode afetar os métodos de controle da doença atualmente empregados. Admixture Diversidade genética Doença da soja Genetic diversity Genetic lineages Linhagem genéticas Mistura Multilocus microsatellite typing Sequenciamento genômico completo Soybean disease Tipagem de microssatélites multilocus Whole genome sequencing
15	Lepidópteros associados à cultura da soja : diversidade e parasitismo natural por insetos e fungos entomopatogênicos Formentini, Aline Carraro 17 December 2009 (has links) O equilíbrio entre insetos-praga e inimigos naturais existentes na cultura da soja, pode ser influenciado pelo manejo do solo, produtos fitossanitários e cultivares de soja. O presente estudo avaliou a diversidade de lepidópteros associados à cultura da soja, no continente Americano, e a abundância específica destes insetos e seus inimigos naturais (parasitóides e fungos entomopatogênicos), em soja convencional e transgênica RR, com aplicação de herbicidas seletivos (Amplo® e Aramo®) e uma formulação de glifosato (Gliz®), sendo o cultivo da soja BRS 133-convencional e BRS Charrua RR-transgênico realizado em Vacaria, RS, sob manejo de solo convencional, em três lotes de um hectare cada. Nas amostragens semanais, os lepidópteros foram coletados com pano-de-batida, mantidos em criação laboratorial até a obtenção dos adultos, dos parasitóides ou dos fungos entomopatogênicos. Também realizaram-se amostragens de solo para isolamento de fungos entomopatogênicos. Elaborou-se uma listagem dos lepidópteros associados à cultura da soja no continente Americano, relacionando-se 71 espécies cujas formas larvais já foram referidas alimentando-se de soja. No presente estudo foram coletadas 1634 larvas de lepidópteros identificados em 22 táxons, destacando-se Anticarsia gemmatalis, Pseudoplusia includens e Rachiplusia nu como as mais representativas (83,05% das larvas coletadas). A aplicação da formulação de glifosato afetou negativamente o número médio de lagartas em relação aos demais lotes tratados com herbicidas seletivos. Os himenópteros, dípteros e strepsípteros foram responsáveis pelo parasitismo de 34,52% das lagartas. Entretanto com relação ao parasitismo específico, observou-se que entre as lagartas parasitadas, 93,05% pertenciam às três espécies mais freqüentes, destacando-se os plusiíneos que foram mais parasitados que A. gemmatalis. N. rileyi foi o único fungo entomopatogênico isolado a partir de lagartas, sendo responsável por 1,41% da mortalidade das três espécies mais abundantes. Os números de unidades formadoras de colônias de Beauveria, Metarhizium e Paecilomyces, isolados das amostras de solo não diferiram estatisticamente entre os lotes. / Submitted by Marcelo Teixeira (mvteixeira@ucs.br) on 2014-05-30T17:11:50Z No. of bitstreams: 1 Dissertacao Aline Carraro Formentini.pdf: 342643 bytes, checksum: 93c716533f6eda2fbf2bb806b35f1c62 (MD5) / Made available in DSpace on 2014-05-30T17:11:50Z (GMT). No. of bitstreams: 1 Dissertacao Aline Carraro Formentini.pdf: 342643 bytes, checksum: 93c716533f6eda2fbf2bb806b35f1c62 (MD5) / In soybean plantations, the equilibrium between insect pests and their natural enemies can be influenced by various factors such as soil management, use of phytosanitary products and soybean cultivar. This study evaluated the diversity of Lepidoptera associated with soybean crops in the Americas, and the specific abundance of these organisms and their natural enemies (parasitoids and entomopathogenic fungi) on conventional and transgenic RR soybean, treated with selective herbicides and glyphosate formulations. The experiment was carried out in Vacaria, Rio Grande do Sul state. Conventional BRS 133 and transgenic RR soy were each planted on three, one-hectare plots and treated with either selective herbicides or a glyphosate formulation. During weekly sampling, Lepidoptera were collected using the drop cloth method and maintained in the laboratory until adults and associated parasitoids and fungi could be obtained. Entomopathogenic fungi were isolated from soil samples. Based on literature data one list of 71 species of Lepidoptera that had been previously reported as feeding on soybean crop was prepared. In the present study, 1634 Lepidoptera larvae were identified in 22 taxa, including the following well-represented species: A. gemmatalis, P. includens e R. nu (83.05% of the larvae collected). The glyphosate treatments reduced the mean number of larvae when compared with the selective herbicide treatments. Hymenopterans, dipterans and strepsipterans were responsible for 34.52% of the total caterpillar parasitism. A large percentage of the larvae parasitized (93.05%) belong to the three most common species of Lepidoptera in our sampling, particularly to the Plusiinae, which were more heavily parasitized than A. gemmatalis. The entomopathogenic fungus N. rileyi was the only species isolated from the caterpillars and was responsible for 1.41% of the deaths amongst the three most common species. The numbers of colony-forming unities of Beauveria, Metarhizium and Paecilomyces, isolated from soil samples, did not differ among the plots. Lepidóptero - Controle biológico Soja - Doenças e pragas Pragas agrícolas - Controle biológico Lepidoptera - Biological control Soybean - Disease and pests Agricultural pests - Biological control
16	Lepidópteros associados à cultura da soja : diversidade e parasitismo natural por insetos e fungos entomopatogênicos Formentini, Aline Carraro 17 December 2009 (has links) O equilíbrio entre insetos-praga e inimigos naturais existentes na cultura da soja, pode ser influenciado pelo manejo do solo, produtos fitossanitários e cultivares de soja. O presente estudo avaliou a diversidade de lepidópteros associados à cultura da soja, no continente Americano, e a abundância específica destes insetos e seus inimigos naturais (parasitóides e fungos entomopatogênicos), em soja convencional e transgênica RR, com aplicação de herbicidas seletivos (Amplo® e Aramo®) e uma formulação de glifosato (Gliz®), sendo o cultivo da soja BRS 133-convencional e BRS Charrua RR-transgênico realizado em Vacaria, RS, sob manejo de solo convencional, em três lotes de um hectare cada. Nas amostragens semanais, os lepidópteros foram coletados com pano-de-batida, mantidos em criação laboratorial até a obtenção dos adultos, dos parasitóides ou dos fungos entomopatogênicos. Também realizaram-se amostragens de solo para isolamento de fungos entomopatogênicos. Elaborou-se uma listagem dos lepidópteros associados à cultura da soja no continente Americano, relacionando-se 71 espécies cujas formas larvais já foram referidas alimentando-se de soja. No presente estudo foram coletadas 1634 larvas de lepidópteros identificados em 22 táxons, destacando-se Anticarsia gemmatalis, Pseudoplusia includens e Rachiplusia nu como as mais representativas (83,05% das larvas coletadas). A aplicação da formulação de glifosato afetou negativamente o número médio de lagartas em relação aos demais lotes tratados com herbicidas seletivos. Os himenópteros, dípteros e strepsípteros foram responsáveis pelo parasitismo de 34,52% das lagartas. Entretanto com relação ao parasitismo específico, observou-se que entre as lagartas parasitadas, 93,05% pertenciam às três espécies mais freqüentes, destacando-se os plusiíneos que foram mais parasitados que A. gemmatalis. N. rileyi foi o único fungo entomopatogênico isolado a partir de lagartas, sendo responsável por 1,41% da mortalidade das três espécies mais abundantes. Os números de unidades formadoras de colônias de Beauveria, Metarhizium e Paecilomyces, isolados das amostras de solo não diferiram estatisticamente entre os lotes. / In soybean plantations, the equilibrium between insect pests and their natural enemies can be influenced by various factors such as soil management, use of phytosanitary products and soybean cultivar. This study evaluated the diversity of Lepidoptera associated with soybean crops in the Americas, and the specific abundance of these organisms and their natural enemies (parasitoids and entomopathogenic fungi) on conventional and transgenic RR soybean, treated with selective herbicides and glyphosate formulations. The experiment was carried out in Vacaria, Rio Grande do Sul state. Conventional BRS 133 and transgenic RR soy were each planted on three, one-hectare plots and treated with either selective herbicides or a glyphosate formulation. During weekly sampling, Lepidoptera were collected using the drop cloth method and maintained in the laboratory until adults and associated parasitoids and fungi could be obtained. Entomopathogenic fungi were isolated from soil samples. Based on literature data one list of 71 species of Lepidoptera that had been previously reported as feeding on soybean crop was prepared. In the present study, 1634 Lepidoptera larvae were identified in 22 taxa, including the following well-represented species: A. gemmatalis, P. includens e R. nu (83.05% of the larvae collected). The glyphosate treatments reduced the mean number of larvae when compared with the selective herbicide treatments. Hymenopterans, dipterans and strepsipterans were responsible for 34.52% of the total caterpillar parasitism. A large percentage of the larvae parasitized (93.05%) belong to the three most common species of Lepidoptera in our sampling, particularly to the Plusiinae, which were more heavily parasitized than A. gemmatalis. The entomopathogenic fungus N. rileyi was the only species isolated from the caterpillars and was responsible for 1.41% of the deaths amongst the three most common species. The numbers of colony-forming unities of Beauveria, Metarhizium and Paecilomyces, isolated from soil samples, did not differ among the plots. Lepidóptero - Controle biológico Soja - Doenças e pragas Pragas agrícolas - Controle biológico Lepidoptera - Biological control Soybean - Disease and pests Agricultural pests - Biological control
17	Soybean Yield Response in High and Low Input Production Systems Bluck, Grace M. 18 May 2015 (has links) No description available. Agronomy Agriculture Plant Pathology Plant Sciences soybean yield inoculant fungicide insecticide manganese gypsum soybean disease pyraclostrobin lambda-cyhalothrin high input agronomy agriculture Ohio agriculture frogeye brown spot
18	The Effect of Mid-season Foliar Fungicide and Insecticide, Applied Alone or in Combination, on Soybean Yield in Ohio Ng, Sin Joe 30 August 2017 (has links) No description available. Agriculture Agronomy Entomology Plant Pathology Plant Sciences soybean fungicide insecticide soybean disease soybean insect pest frogeye leaf spot brown spot bean leaf beetle model yield agronomy Ohio agriculture
19	Genetic analyses for resistance to soybean rust (Phakopsora pachyrhiz) and yield stability among soybean genotypes in Kenya. Wanderi, Susan Wothaya. 31 October 2013 (has links) Soybean (Glycine max (L.) Merr.) occupies an important position in the world economy of the feedstock of high quality protein and vegetable oils. However, its production is threatened by, Asian soybean rust (ASR), caused by the rust fungus Phakopsora pachyrhizi Syd. & P. Syd. This fungus is highly dependent on environmental conditions, has a wide range of hosts, and evolves rapidly into novel races, making it difficult to control. In addition, most commercial varieties are susceptible to rust, the rust has already developed resistance to triazole fungicides, and most small-scale farmers cannot afford expensive systemic fungicides to control the disease. The use of resistant varieties is the most viable, long-term option to manage ASR, especially in the small-holder soybean farming sector. This study was therefore designed to undertake the following goals: (i) to identify farmers’ preferred varieties and desired traits, their knowledge of ASR, and other key constraints affecting soybean production in Kenya; (ii) to evaluate soybean accessions for rust resistance, and to determine the correlation of rust resistance with other agronomic traits; (iii) to determine the mode of inheritance for ASR resistance and selected agronomic traits; and (iv) to determine yield stability of soybean advanced lines at multiple sites in Central and Eastern Kenya. To understand farmers’ preferred varietal characteristics, knowledge of ASR and other key constraints to soybean production, a survey was conducted using a structured questionnaire in the major soybean growing areas of Kenya. The farmers preferred local varieties because of their desirable characteristics, which included high yields, early maturity, drought tolerance and seed availability. Although the majority of the participating farmers expressed a willingness to grow improved varieties, financial limitations, seed unavailability and lack of information were the major barriers to their use of improved varieties. High yield, early maturity, adaptability and grain quality were the traits that most farmers sought in an ideal soybean variety. Knowledge of the cause of ASR was limited, and its occurrence was largely attributed to environmental factors, poor soil fertility conditions, poor agronomic practices, physiological maturity and specific species of weeds. Their investments in control methods were minimal due to a lack of technical knowledge, poor access to fungicides, and limited resources. Other constraints faced by soybean farmers included: lack of access to grain markets; lack of knowledge in processing and utilization of soybean grain; the unavailability of seeds; losses to pests and diseases; the lack of inputs such as fertilizers; frequent dry spells; and low yielding varieties. A total of 110 soybean accessions were evaluated for their rust reactions and correlations with selected agronomic traits. These included plant introductions possessing single rust resistant genes (Rpp1-4), tolerant lines, gene bank accessions, commercial varieties and advanced lines. Soybean genotypes varied significantly in their reactions to rust severity, sporulation, lesion type and area under disease progress curve (AUDPC) values. Genotypes possessing Rpp4 (G10428) and Rpp2 (G8586) resistant genes, and non-characterized genotypes MAK BLD 11.3, GC 00138-29 and Namsoy 4M, were the most resistant accessions, as indicated by low rust severity scores, low AUDPC values, red brown lesions and low sporulation scores. Other genotypes with known resistant genes including G7955 (Rpp3), G58 and Tainung 4 (Rpp1), a few tolerant lines, and one advanced line (BRS Sambaiba) were moderately resistant. All the other advanced lines, commercial varieties, gene bank accessions and collections from the farmers’ fields were highly susceptible to rust. Rust severity was positively correlated with rust sporulation, indicating that reduction of sporulation made a significant contribution towards rust resistance. An F2 population was generated from a half diallel mating design, involving 4 resistant, 2 moderately resistant and 2 susceptible genotypes selected as parents. The F2 populations along with their parents were evaluated in two environments to determine the type of gene action for rust resistance and other quantitative traits in soybeans. The results revealed that both general combining ability (GCA) and specific combining ability (SCA) were significant for most of the traits studied, indicating that both additive gene action and non-additive gene action played a major role in the inheritance of rust resistance and selected agronomic traits. The GCA/SCA ratio was close to unity for rust severity, rust sporulation, days to flowering, days to maturity and plant height. This indicated that additive gene action played a more significant role in the inheritance of these traits than non-additive gene action. Non-additive gene action was only predominant for soybean grain yield. Parental lines G10428, G8586 and Namsoy 4M were the best general combiners for improving rust resistance across the environments. The most promising parents for early flowering were G7955, G8586 and G58. Parent Maksoy 1N was the best general combiner for early maturity while parents Maksoy 1N, G58, G7955 and Nyala contributed effectively towards reduced plant height. Yield stability analysis was conducted for 30 genotypes in 6 environments, using additive main effects and multiplicative interaction (AMMI), genotype main effect and genotype x environment interaction (GGE) biplot analyses. Genotypes 916/5/19 and G7955 were identified as the high yielding and most stable across the environments. On the other hand, genotypes BRS MG46 and Sable were high yielding but unstable and specifically suitable for the environments EM2 and MW2, respectively (both environments have long rainy seasons). Environment EM2 was identified as the most discriminating and representative among the six environments. Environments IG1 and MW1 (short rainy seasons) were less informative on genotypes tested, as confirmed by short environment vectors. Environment EM1 was better for discriminating genotypes but was a poor representative of the test environments, hence it should only be utilized for developing specifically adapted genotypes. Further analysis using GGE biplot approach grouped the environments into three putative mega-environments in Central and Eastern Kenya. Overall, this study established the need to educate farmers on the cause of ASR, to develop ASR resistant varieties, and to incorporate farmers’ desired traits in the breeding programme, especially by the use of participatory breeding approaches. The resistant and moderately resistant genotypes identified in this study could be used as sources of resistant genes to develop ASR resistant varieties in Kenya. This study also established that genetic improvement for ASR resistance and selected agronomic traits in soybeans is possible based on the use of recurrent selection breeding procedures that result in the accumulation of additive gene effects. Selection of late segregating generations would be effective for soybean grain yield improvement. This study identified potential parents for ASR resistance and selected agronomic traits, but they require further breeding to improve on farmers’ desired traits. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2012. Soybean--Diseases and pests--Kenya. Soybean--Breeding--Kenya. Soybean--Kenya--Genetics. Soybean--Varieties--Kenya. Soybean--Yields--Kenya. Soybean rust disease--Kenya. Phakopsora pachyrhizi--Kenya. Farmers--Kenya. Theses--Plant breeding.
20	Optimising aspects of a soybean breeding programme. January 2008 (has links) Abstract not available. / Thesis (Ph.D)-University of KwaZulu-Natal, Pietermaritzburg, 2008. Soybean--Breeding--South Africa. Soybean rust disease--South Africa. Phakopsora pachyrhizi--South Africa. Soybean--Yields--South Africa. Plant breeding--Statistical methods. Plant breeding--Research--South Africa. Theses--Plant breeding.

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