922 resultados para soybean aphid
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2004
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1998
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2015
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Mildio da soja (Peronospera manshurica); Oidio da soja (Microsphaera diffusa); Mancha parda da folha (Septoria glycines); Mancha alvo (Corynespora cassiicola); Mancha de alternaria (Alternaria spp.); Mancha olho-de-rã (Cercospora sojina); Mancha purpura (Cercospora kikuchii); Seca da haste e da vagem (Phomopsis spp.); Antracnose (Colletotrichum truncatum); Cancro da haste (Phomopsis phaseoli f. sp. meridionalis); Podridão parda da haste (Phialophora gregata); Podridão vermelha da raiz (Fusarium solani); Mofo branco da haste (Sclerotinia sclerotiorum); Murcha de esclerotium (Sclerotium rolfsii); Podridão da raiz e da haste (Phytophthora megasperma f. sp. glycinea); Mela da folha (Rhizoctonia solani); Tombamento (Rhizoctonia solani); Morte em reboleira (Rhizoctonia solani); Roseliniose (Dematophora necatrix); Podridão negra da raiz (Macrophomina phaseolina); Nematoide de cisto (Heterodera glycines); Nematoide de galha (Meloidogyne incognita); Mosaico comum da soja; Queima do broto; Pustula bacteriana (Xanthomonas campestris pv. glycines); Fogo selvagem (Pseudomonas syringae pv. tabaci); Crestamento bacteriano (Pseudomonas syringae pv. glycinea); Aspergillus spp.; Penicillium spp.; Bacillus subtilis; Créditos fotográficos; Estádios vegetativos da planta de soja; Estádios produtivos da planta de soja.
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Identificar genótipos resistentes ao cancro da haste, causado por Diaporthe phaseolorum f. sp. meridionalis, visando o melhoramento genético de soja (Glycine max) e o desenvolvimento de cultivares resistentes.
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RESUMO: A necessidade de controle adequado de plantas voluntárias de soja (Glycine max) tem se intensificado nos últimos anos em função da incidência de doenças da soja, principalmente a ferrugem asiática ( Phakopsora pachyrhizi). Além disso, a competição imposta por essas plantas pode causar perdas de produtividade em culturas implantadas na entressafra. Dois experimentos foram conduzidos em condições de campo no município de Rio Verde, Goiás, a fim de avaliar o controle de plantas voluntárias de soja infestantes da cultura do girassol (Helianthus annuus), semeado na época de safrinha. O delineamento experimental foi em blocos casualizados, com quatro repetições. Os tratamentos aplicados no experimento 1 foram a testemunha capinada, a testemunha sem capina, sulfentrazone 25 g i.a. ha-1, sulfentrazone 50 g i.a. ha -1, sulfentrazone 100 g i.a. ha-1 e sulfentrazone 150 g i.a. ha-1. No experimento 2, foram aplicados os mesmos tratamentos mencionados e acrescentadas as doses de 200 g i.a. ha-1 e 250 g i.a. ha-1 do mesmo herbicida. O sulfentrazone não proporciona morte completa das plantas voluntárias de soja. No entanto, há uma interrupção temporária do crescimento da soja permitindo o arranque inicial da cultura de girassol. As doses de sulfentrazone que variaram de 114,2 a 158,8 g i.a. ha-1 proporcionaram os maiores rendimentos de girassol, evitando a competição das plantas voluntárias de soja com essa cultura. ABSTRACT: The control of volunteer soybean plants (Glycine max ) has intensified in recent years in function of the increasing incidence of soybean diseases mainly the Asian soybean rust (Phakopsora pachyrhizi). Moreover, the competition of volunteer soybean plants can cause yield losses in successive crops. Two experiments were conducted under field conditions in Rio Verde, Goiás State, Brazil, in order to evaluate the control of volunteer soybean plants in sunflower (Helianthus annuus). The experimental design was a randomized complete block, with four replications. Treatments applied on experiment 1 were: hoed check; unhoed check, sulfentrazone 25 g ai ha-1, sulfentrazone 50 g ai ha-1, sulfentrazone 100 g ai ha-1, sulfentrazone 150 g ai ha-1. The treatments applied on experiment 2 were the same doses described on experiment 1 plus sulfentrazone 200 g ai ha-1 and 250 g ai ha-1. The sulfentrazone is unable to completely kill the volunteer soybean plants. However, there is a temporary stoppage of soybean growth enabling the initial startup of the sunflower plants. Doses ranging from 114.2 to 158.8 g ai ha-1 provided the highest sunflower yield, avoiding the competition of the volunteer soybean plants.
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RESUMO: O controle de plantas voluntárias de soja (Glycine max ) é uma exigência estabelecida em lei. A criação do vazio sanitário determina o período na entressafra no qual não deve haver a presença no campo de plantas emergidas de soja. Essa deliberação visa reduzir o inóculo do fungo causador da ferrugem asiática da soja (Phakopsora pachyrhizi). Além disso, a competição imposta por essas plantas pode reduzir a produtividade das culturas em sucessão. O experimento foi conduzido a fim de avaliar o controle de plantas voluntárias de soja em cultivos de girassol (Helianthus annuus). Os tratamentos aplicados foram: testemunha capinada, testemunha sem capina, amônio glufosinato 40 g i.a. ha-1, amônio glufosinato 100 g i.a. ha-1, sulfentrazone 75 g i.a. ha-1, sulfentrazone 100 g i.a. ha-1, tembotrione 21 g i.a. ha-1, carfentrazone 4 g i.a. ha-1, saflufenacil 1,75 g i.a. ha-1, saflufenacil 3,5 g i.a. ha-1, triclopyr 120 g i.a. ha-1 e MSMA 197,5 g i.a. ha-1. O herbicida sulfentrazone nas doses de 75 e 100 g i.a. ha -1 causa fitotoxicidade ao girassol logo após a aplicação, porém há recuperação das plantas, sem prejuízo a produtividade da cultura. Esses mesmos tratamentos não causam morte total das plantas voluntárias de soja, mas paralisam temporariamente seu crescimento, evitando a competição com a cultura do girassol. O amônio glufosinato é eficaz no controle de plantas voluntárias de soja. No entanto, os sintomas de fitotoxicidade na cultura do girassol são elevados, refletindo em perda de rendimento da cultura. Os outros tratamentos não proporcionam controle satisfatório das plantas voluntárias de soja, além de causar redução na produtividade do girassol. ABSTRACT: The control of volunteer soybean (Glycine max) is regulated by law due to the host-free period which determines the interval that is not allowed the presence of soybean plants in fields. The decision aims to reduce the inoculum of the fungus that causes the Asian soybean rust (Phakopsora pachyrhizi). Furthermore, the competition imposed by volunteer soybean plants can reduce crop yields. The experiment was conducted to evaluate the control of volunteer soybean plants in sunflower (Helianthus annuus). The treatments were as follows: hoed check, check without hoeing, glufosinate ammonium 40 g ai ha-1, glufosinate ammonium 100 g ai ha-1, sulfentrazone 75 g ai ha-1, sulfentrazone 100 g ai ha-1, tembotrione 21 g ai ha-1, carfentrazone 4g ai ha-1, saflufenacil 1.75 g ai ha-1, saflufenacil 3.5 g ai ha -1, triclopyr 120 g ai ha-1 and MSMA 197.5 g ai ha-1. Sulfentrazone (75 and 100 g ai ha-1) caused phytotoxicity on sunflower plants, however there is recovery of plants and no yield losses. The same treatments do not cause the total death of volunteer soybean plants, however temporarily paralyze its growth and avoid competition with the sunflower crop. The glufosinate ammonium is effective in controlling volunteer soybean plants. However, symptoms of phytotoxicity in the sunflower crop are high, reflecting in yield losses. The other treatments do not provide satisfactory control of volunteer soybean plants and even cause reduction in sunflower productivity.
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This thesis is based on studies of Formica lugubris from 1972-1975. While this species' range is diminishing in Ireland, the nests are quite common in the State plantations of South Tipperary. It is not certain that the species is indigenous. Above-ground activity occurs from late-February to the end of October; foraging begins in April. Two territorial "spring-battles" between neighbouring nests are described. Most active nests produced alatae of both sexes and flights were observed on successive June mornings above l7.5°C air temperature. Both polygyny and polycaly seem to be rare. Where the nests occur commonly, the recorded densities are similar to those reported from the continent. Most nests persisted at the same site since 1973. The nest-sites are described by recording an array of nest, soil, tree, vegetation and location variables at each site. Pinus sylvestris is the most important overhead tree. Nests seem to be the same age as their surrounding plantation and reach a maximum of c. 30 years. Nearest-neighbour analysis suggests the sites are overdispersed. Forager route-fidelity was studied and long-term absence from the route, anaesthetization and "removal" of an aphid tree had little effect on this fidelity. There were no identifiable groups of workers specifically honeydew or prey-carriers. Size-duty relationships of workers participating in adult transport are described. Foraging rhythms were studied on representative days: the numbers foraging were linearly related to temperature. Route-traffic passed randomly and an average foraging trip lasted c. four hours. Annual food intake to a nest with 25 000 foragers was estimated at approximately 75 kg honeydew and 2 million prey-items. Forager-numbers and colony-size were estimated using the capture-mark - recapture method: paint marking was used for the forager estimate and an interval radiophosphorus mark, detected by autoradiography, was used for the colony-size estimate. The aphids attended by lugubris and the nest myrmecophiles are recorded.
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M66 an X-ray induced mutant of winter wheat (Triticum aestivum) cv. Guardian exhibits broad-spectrum resistance to powdery mildew (Blumeria graminis f. sp. tritici), yellow rust (Puccinia striiformis f. sp. tritici), and leaf rust (Puccinia recondita f. sp. tritici), along with partial resistance to stagnonospora nodorum blotch (caused by the necrotroph Stagonosporum nodorum) and septoria tritici blotch (caused by the hemibiotroph Mycosphaerella graminicola) compared to the parent plant ‘Guardian’. Analysis revealed that M66 exhibited no symptoms of infection following artificial inoculation with Bgt in the glasshouse after adult growth stage (GS 45). Resistance in M66 was associated with widespread leaf flecking which developed during tillering. Flecking also occurred in M66 leaves without Bgt challenge; as a result grain yields were reduced by approximately 17% compared to ‘Guardian’ in the absence of disease. At the seedling stage, M66 exhibited partial resistance. M66, along with Tht mutants (Tht 12, Tht13), also exhibit increased tolerance to environmental stresses (abiotic), such as drought and heat stress at seedling and adult growth stages, However, adult M66 exhibited increased susceptibility to the aphid Schizaphis graminum compared to ‘Guardian’. Resistance to Bgt in M66 was characterized with increased and earlier H2O2 accumulation at the site of infection which resulted in increased papilla formation in epidermal cells, compared to ‘Guardian’. Papilla formation was associated with reduced pathogen ingress and haustorium formation, indicating that the primary cause of resistance in M66 was prevention of pathogen penetration. Heat treatment at 46º C prior to challenge with Bgt also induced partial disease resistance to Blumeria graminis f. sp. tritici in ‘Guardian’ and M66 seedlings. This was characterized by a delay in primary infection, due to increased production of ROS species, such as hydrogen peroxide, ROS-scavenging enzymes and Hsp70, resulting in cross-linking of cell wall components prior to inoculation. This actively prevented the fungus from penetrating the epidermal cell wall. Proteomics analysis using 2-D gel electrophoresis identified primary and secondary disease resistance effects in M66 including detection of ROS scavenging enzymes (4, 24 hai), such as ascorbate peroxidase and a superoxidase dismutase isoform (CuZnSOD) in M66 which were absent from ‘Guardian’. Chitinase (PR protein) was also upregulated (24 hai) in M66 compared to ‘Guardian’.Monosomic and ditelosomic analysis of M66 revealed that the mutation in M66 is located on the long arm of chromosome 2B (2BL). Chromosome 2BL is known to have key genes involved in resistance to pathogens such as those causing stripe rust and powdery mildew. The TaMloB1 gene, an orthologue of the barley Mlo gene, is also located on chromosome 2BL. Sanger sequencing of part of the coding sequence revealed no deletions in the TaMloB1 gene between ‘Guardian’ and M66.
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Currently, the sole strategy for managing food hypersensitivity involves strict avoidance of the trigger. Several alternate strategies for the treatment of food allergies are currently under study. Also being explored is the process of eliminating allergenic proteins from crop plants. Legumes are a rich source of protein and are an essential component of the human diet. Unfortunately, legumes, including soybean and peanut, are also common sources of food allergens. Four protein families and superfamilies account for the majority of legume allergens, which include storage proteins of seeds (cupins and prolamins), profilins, and the larger group of pathogenesis-related proteins. Two strategies have been used to produce hypoallergenic legume crops: (1) germplasm lines are screened for the absence or reduced content of specific allergenic proteins and (2) genetic transformation is used to silence native genes encoding allergenic proteins. Both approaches have been successful in producing cultivars of soybeans and peanuts with reduced allergenic proteins. However, it is unknown whether the cultivars are actually hypoallergenic to those with sensitivity. This review describes efforts to produce hypoallergenic cultivars of soybean and peanut and discusses the challenges that need to be overcome before such products could be available in the marketplace.
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During ecological speciation, divergent natural selection drives evolution of ecological specialization and genetic differentiation of populations on alternate environments. Populations diverging onto the same alternate environments may be geographically widespread, so that divergence may occur at an array of locations simultaneously. Spatial variation in the process of divergence may produce a pattern of differences in divergence among locations called the Geographic Mosaic of Divergence. Diverging populations may vary in their degree of genetic differentiation and ecological specialization among locations. My dissertation examines the pattern and evolutionary processes of divergence in pea aphids (Acyrthosiphon pisum) on alfalfa (Medicago sativa) and clover (Trifolium pretense). In Chapter One, I examined differences among North American aphid populations in genetic differentiation at nuclear, sequence-based markers and in ecological specialization, measured as aphid fecundity on each host plant. In the East, aphids showed high host-plant associated ecological specialization and high genetic differentiation. In the West, aphids from clover were genetically indistinguishable from aphids on alfalfa, and aphids from clover were less specialized. Thus, the pattern of divergence differed among locations, suggesting a Geographic Mosaic of Divergence. In Chapter Two, I examined genomic heterogeneity in divergence in aphids on alfalfa and clover across North America using amplified fragment length polymorphisms (AFLPs). The degree of genetic differentiation varied greatly among markers, suggesting that divergent natural selection drives aphid divergence in all geographic locations. Three of the same genetic markers were identified as evolving under divergent selection in the eastern and western regions, and additional divergent markers were identified in the East. In Chapter Three, I investigated population structure of aphids in North America, France, and Sweden using AFLPs. Aphids on the same host plant were genetically similar across many parts of their range, so the evolution of host plant specialization does not appear to have occurred independently in every location. While aphids on alfalfa and clover were genetically differentiated in most locations, aphids from alfalfa and clover were genetically similar in both western North America and Sweden. High gene flow from alfalfa onto clover may constrain divergence in these locations.
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Many food production methods are both economically and environmentally unsustainable. Our project investigated aquaponics, an alternative method of agriculture that could address these issues. Aquaponics combines fish and plant crop production in a symbiotic, closed-loop system. We aimed to reduce the initial and operating costs of current aquaponic systems by utilizing alternative feeds. These improvements may allow for sustainable implementation of the system in rural or developing regions. We conducted a multi-phase process to determine the most affordable and effective feed alternatives for use in an aquaponic system. At the end of two preliminary phases, soybean meal was identified as the most effective potential feed supplement. In our final phase, we constructed and tested six full-scale aquaponic systems of our own design. Data showed that soybean meal can be used to reduce operating costs and reliance on fishmeal. However, a more targeted investigation is needed to identify the optimal formulation of alternative feed blends.
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