Impacto da resistência ao glyphosate em genótipos de azevém e de capim-pé-de-galinha / Glyphosate resistance impact in italian ryegrass and goosegrass genotypes

Barroso, Arthur Arrobas Martins [UNESP]

18 July 2017

Submitted by Arthur Arrobas Martins Barroso null (arthuragro07@hotmail.com) on 2017-09-06T14:00:26Z No. of bitstreams: 1 Tese_Arthur_Arrobas_Martins _Barroso.pdf: 1551513 bytes, checksum: 9d065640a6416beb7443eb7e6ad2dd94 (MD5) / Approved for entry into archive by Luiz Galeffi (luizgaleffi@gmail.com) on 2017-09-06T16:52:44Z (GMT) No. of bitstreams: 1 barroso_aam_dr_jabo.pdf: 1551513 bytes, checksum: 9d065640a6416beb7443eb7e6ad2dd94 (MD5) / Made available in DSpace on 2017-09-06T16:52:44Z (GMT). No. of bitstreams: 1 barroso_aam_dr_jabo.pdf: 1551513 bytes, checksum: 9d065640a6416beb7443eb7e6ad2dd94 (MD5) Previous issue date: 2017-07-18 / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / As culturas agrícolas estão sujeitas a conviver com plantas daninhas que podem, em determinadas situações, reduzir seu potencial genético de produção, causando prejuízos. Na maioria das vezes, devido à praticidade e ao custo, essas plantas são controladas pela aplicação de herbicidas, o que se denomina de controle químico. Dentre os produtos utilizados, está o glyphosate, que nos últimos anos vem sendo usado de maneira repetitiva devido à presença quase que exclusiva de culturas tolerantes a esse herbicida, como a soja, o algodão e o milho. Com isso, a utilização desse herbicida vem selecionando, nos últimos anos, plantas que apresentam adaptações para resistir a sua ação, dentre elas o azevém e o capim-pé-de-galinha. A resistência pode ser causada por diferentes mecanismos, envolvendo ou não a enzima-alvo de atuação do herbicida. Para o glyphosate, essa enzima é a 5-enolpiruvilshiquimato-3-fosfato, e essa pode apresentar mutações simples ou duplas. Essas mutações, além de afetar a tolerância da planta ao herbicida, podem modificar a fisiologia e o metabolismo da espécie, tornando-a mais ou menos adaptada ecologicamente, o que é denominado de fitness. Este trabalho teve por objetivo estudar os impactos da resistência ao glyphosate nas duas espécies supracitadas. Em um primeiro trabalho, plantas de azevém resistentes ao glyphosate foram comparadas a plantas suscetíveis quanto a seu perfil metabólico e proteico antes e após a aplicação do herbicida. As plantas suscetíveis apresentaram maiores níveis de aminoácidos produzidos derivado da rota do ácido chiquímico e menores teores de glyphosate em suas folhas, 72 horas após a aplicação do herbicida. Observou-se que as plantas suscetíveis apresentaram maior desenvolvimento, maior expressão de proteínas ligadas ao sistema fotossintético do azevém e expressão diferencial de proteínas ligadas à defesa vegetal contra estresses, ausentes nas plantas resistentes. Após a aplicação do herbicida, as plantas suscetíveis morreram, e as resistentes sobreviveram, passando a expressar, também, a enzima EPSPS sintase, sendo esse um dos mecanismos de resistência encontrados para a espécie. Em um segundo trabalho, avaliaram-se, em dois experimentos, os impactos da resistência ao glyphosate, causados por mutações simples ou duplas, no capim-pé-de-galinha, e seus efeitos na cultura da soja. O desenvolvimento e a fecundidade do capim-pé-de-galinha são pouco afetados pela mutação simples na posição 106 da enzima EPSPS, na ausência do glyphosate. Por outro lado, a mutação dupla da enzima nas posições 102 e 106 gera elevados custos no desenvolvimento e na reprodução das plantas. Quando se aplica o herbicida, a situação inverte-se. Plantas com a presença de uma mutação passam a sofrer intoxicação com o herbicida, chegando, inclusive, a morrer, enquanto se observa sobrevivência total de plantas com duplas mutações. Quando em convivência com a soja, na ausência do herbicida, tem-se a cultura mais afetada pela convivência com os genótipos suscetíveis e com uma única mutação. Na presença do herbicida, nas condições observadas, a interferência das plantas de capim-pé-de-galinha foi reduzida. / Crops are subject to live with spontaneous plants that may in certain situations reduce their genetic potential of production, causing losses. Most of the time, due to the practicality and cost, these plants are controlled by the application of herbicides, what is called chemical control. Among the products for this control, there is glyphosate, which in recent years has been used repetitively due to the almost exclusive presence of crops tolerant to this herbicide, such as soybean, cotton and corn. The use of this herbicide has been selecting, therefore in the last years plants that present adaptations to resist its application, among them Italian ryegrass and goosegrass. The resistance can be caused by different mechanisms, involving or not the target enzyme of action of the herbicide. For glyphosate, this enzyme is 5-enolpyruvyl-silicon-3-phosphate and it may present single or double mutations. These mutations, in addition to affecting the tolerance of the plant to the herbicide, can modify the physiology and metabolism of the species, making it more or less ecologically adapted, which is called fitness. The objective of this work was to study the impacts of glyphosate resistance on the two species mentioned above. In a first work, glyphosate resistant Italian ryegrass plants were compared to susceptible plants for their metabolic and protein profile before and after herbicide application. Susceptible plants showed higher levels of amino acids produced from the shikimic acid route and lower levels of glyphosate in their leaves 72 hours after the application of the herbicide. It was observed that the susceptible plants presented greater development, proteins linked to the greater ryegrass physiology expressed and differential expression of proteins bound to vegetal defense against stresses, absent in resistant plants. After the application of the herbicide, the susceptible plants died, and the resistant ones continued their normal physiology and start expressing the EPSPS synthase enzyme, being this one of the mechanisms of resistance found for the species. In a second work, the impacts of resistance to glyphosate, caused by single or double mutations in goosegrass and its effects on soybean crop, were evaluated in two experiments. The development and fecundity of goosegrass is little affected by simple mutation at position 106 of the EPSPS enzyme in the absence of glyphosate. On the other hand, the double mutation of the enzyme at positions 102 and 106, generates high costs in the development and reproduction of plants. When the herbicide is applied, the situation reverses. Plants with the presence of a mutation begin to present phytointoxication with the herbicide. When living with soybeans, in the absence of the herbicide, the culture is most affected by the coexistence with the susceptible genotypes and genotype with a single mutation. In the presence of the herbicide, under the conditions observed, the interference of goosegrass plants was reduced. / CNPq: 140943/2014-5

Eleusine indica

Fitness

Lolium multiflorum

Proteômica

Resistência

Proteomics

Resistance

Optimizing Topramezone and Other Herbicide Programs for Weed Control in Bermudagrass and Creeping Bentgrass Turf

Brewer, John Richard

02 April 2021

Goosegrass [Eleusine indica (L.) Gaertn.] and smooth crabgrass [Digitaria ischaemum (Schreb.) Schreb. ex Muhl.] are problematic weeds in bermudagrass and creeping bentgrass turf. Increased incidences of herbicide resistant weed populations and severe use restrictions on formerly available herbicides have increased need for selective, postemergence control options for these weeds in creeping bentgrass and bermudagrass turf. This weed management exigency has led turf managers to utilize less effective, more expensive, and more injurious options to manage goosegrass and smooth crabgrass. Although potentially injurious, topramezone can control these weeds, especially goosegrass, at low doses. Low-dose topramezone may also improve bermudagrass and creeping bentgrass response. An initial investigation of three 4-hydroxyphenylpyruvate dioxygenase (HPPD) inhibiting herbicides in different turf types showed that Kentucky bluegrass, perennial ryegrass, and tall fescue were highly tolerant to topramezone, while creeping bentgrass and bermudagrass could tolerate topramezone doses that may control grassy weeds. Further investigation suggested that frequent, low-dose topramezone applications or metribuzin admixtures could enhance weed control and may conserve turfgrass quality. A novel mixture of topramezone at 3.7 g ae ha-1 and metribuzin at 210 g ai ha-1 controlled goosegrass effectively and reduced bermudagrass foliar bleaching associated with topramezone 10-fold compared to higher doses of topramezone alone in 19 field and 2 greenhouse trials. In an attempt to further enhance bermudagrass tolerance to topramezone, post-treatment irrigation was applied at various timings. When bermudagrass turf was irrigated with 0.25-cm water at 15 or 30 minutes after herbicide treatment, bermudagrass injury was reduced to acceptable levels when following low-dose topramezone plus metribuzin but not when following high-dose topramezone alone. Goosegrass control was reduced significantly by post-treatment irrigation in all cases, while irrigation reduced goosegrass control by low-dose topramezone plus metribuzin to below-commercially-acceptable levels. Novel, low-dose, frequent application programs containing topramezone or siduron were developed for season-long crabgrass or goosegrass control on creeping bentgrass greens. Greens-height creeping bentgrass quality was preserved following five biweekly treatments of siduron at rates between 3,400 to 13,500 g ai ha-1 and topramezone at 3.1 g ha-1. Siduron programs controlled smooth crabgrass and suppressed goosegrass while topramezone programs controlled goosegrass and suppressed smooth crabgrass. In laboratory and controlled-environment experiments, goosegrass absorbed three times more 14C than bermudagrass within 48 hours of 14C-topramezone treatment. Bermudagrass also metabolized topramezone twice as fast as goosegrass. Metribuzin admixture reduced absorption by 25% in both species. When herbicides were placed exclusively on soil, foliage, or soil plus foliage, topramezone controlled goosegrass only when applied to foliage and phytotoxicity of both bermudagrass and goosegrass was greater from topramezone than from metribuzin. Metribuzin was shown to reduce 21-d cumulative clipping weight and tiller production of both species while topramezone caused foliar discoloration to newly emerging leaves and shoots with only marginal clipping weight reduction. These data suggest that selectivity between bermudagrass and goosegrass is largely due to differential absorption and metabolism that reduces bermudagrass exposure to topramezone. Post-treatment irrigation likely reduces topramezone rate load with a concomitant effect on plant phytotoxicity of both species. Metribuzin admixture decreases white discoloration of bermudagrass by decreased topramezone absorption rate and eliminating new foliar growth that is more susceptible to discoloration by topramezone. / Doctor of Philosophy / Goosegrass and smooth crabgrass are problematic weeds in bermudagrass and creeping bentgrass turf. Increased incidences of herbicide resistant weed populations and severe use restrictions on formerly available herbicides have increased need for selective, postemergence control options for these weeds in creeping bentgrass and bermudagrass turf. Although potentially injurious, topramezone (Pylex™) can control these weeds, especially goosegrass, at low doses. Low-dose Pylex™ may also improve bermudagrass and creeping bentgrass response. An initial investigation evaluating tembotrione (Laudis®), Pylex™, and mesotrione (Tenacity®) in different turfgrass species showed that Kentucky bluegrass, perennial ryegrass, and tall fescue were highly tolerant to Pylex™ at rates ranging from 0.75 to 2.25 fl. oz./A, while creeping bentgrass and bermudagrass were low to moderately tolerant to Pylex™. Further investigation suggested that frequent, low-dose (less than 0.25 fl. oz./A) Pylex™ applications or metribuzin (Sencor®) admixtures could enhance weed control and may conserve turfgrass quality. A novel mixture of Pylex™ at 0.15 fl. oz./A and Sencor® at 4 oz. wt./A controlled goosegrass effectively and reduced bermudagrass injury to near acceptable levels and significantly less than Pylex™ applied alone at 0.25 fl. oz/A. In an attempt to further enhance bermudagrass tolerance to Pylex™, post-treatment irrigation was applied at different timings. When bermudagrass turf was irrigated at 15 or 30 minutes after herbicide treatment, bermudagrass injury was reduced to acceptable levels when following Pylex™ at 0.25 fl. oz./A plus Sencor® at 4 oz but not when following Pylex™ applied alone at 0.5 fl. oz./A. Goosegrass control was reduced significantly by post-treatment irrigation in all cases, while irrigation reduced goosegrass control by low-dose Pylex™ plus Sencor® to below-commercially-acceptable levels. Novel, low-dose, frequent application programs containing Pylex™ or siduron (Tupersan®) were developed for season-long crabgrass or goosegrass control in creeping bentgrass greens. Greens-height creeping bentgrass quality was preserved following five biweekly treatments of Tupersan® at rates between 6 and 24 lb./A and Pylex™ at 0.125 fl. oz./A. Tupersan® programs controlled smooth crabgrass and suppressed goosegrass while Pylex™ programs controlled goosegrass and suppressed smooth crabgrass. The data from these studies indicate that utilizing low-dose Pylex™ in combination with Sencor® can impart acceptable bermudagrass safety while also controlling goosegrass effectively. For creeping bentgrass greens, the low-dose, frequent application of Tupersan® is the safest legal option for golf course superintendents to control smooth crabgrass effectively, while having some ability to suppress goosegrass.

bermudagrass

Cynodon dactylon (L.) Pers.

creeping bentgrass

Agrostis stolonifera L.

digital image analysis

goosegrass

Eleusine indica (L.) Gaertn.

metribuzin

siduron

smooth crabgrass

topramezone

Fitorremediação e gessagem em solo afetado por sais. / Phytoremediation and plastering in soil affected by salts.

SILVA, João Jones.

15 May 2018

Submitted by Johnny Rodrigues (johnnyrodrigues@ufcg.edu.br) on 2018-05-15T17:40:46Z No. of bitstreams: 1 JOÃO JONES DA SILVA - DISSERTAÇÃO PPGSA PROFISSIONAL 2015..pdf: 1781652 bytes, checksum: 5ecbeafd5b48184bce3785273190c6dd (MD5) / Made available in DSpace on 2018-05-15T17:40:46Z (GMT). No. of bitstreams: 1 JOÃO JONES DA SILVA - DISSERTAÇÃO PPGSA PROFISSIONAL 2015..pdf: 1781652 bytes, checksum: 5ecbeafd5b48184bce3785273190c6dd (MD5) Previous issue date: 2015-09-29 / A Região Nordeste do Brasil é caracterizada por clima semiárido, sendo os volumes precipitados normalmente inferiores à evaporação e, tornando o uso da irrigação imprescindível para uma produção agrícola sustentável, entretanto, o manejo inadequado da irrigação atrelado às condições locais, tem favorecido os processos de salinização e sodificação de solos, promovendo a degradação e o abandono de extensas áreas anteriormente produtivas. Entre as áreas afetadas por sais nessa região, destaca-se o Perímetro Irrigado de São Gonçalo - PB em situação de degradação de solos com problemas de sais, isso ensejou a propositura de estudar métodos e técnicas visando o melhoramento das características físicas e químicas do solo. O experimento foi instalado em área previamente identificada como possuidora de solo salino-sódico no Perímetro Irrigado de São Gonçalo, e para a recuperação fez-se da aplicação dos métodos e da técnica da fitorremediação com Erva-Sal (Atriplex numulária L.), Capim-pé-de-galinha (Eleusine indica L.), Salsa - Brava (Ipomoea asarifolia L.) e Gesso agrícola. A pesquisa constou de oito tratamentos, com quatro repetições, os tratamentos foram submetidos a um delineamento em blocos casualizados (DBC), com os seguintes tratamentos: i) cultivo de atriplex; ii) cultivo de capim-pé-galinha, iii) cultivo de salsa, iv) solo com gesso; v)aplicação de gesso agrícola associado ao cultivo de atriplex; vi)aplicação de gesso agrícola associado ao cultivo de capim pé-de-galinha; vii)aplicação de gesso agrícola associado ao cultivo de salsa e viii) solo sem manejo (testemunha), numa área total de 62 m² conduzido em campo, em parcelas de 1,40 x 1,40 m. Com esse estudo pretende-se recuperar solo afetados por sais, utilizando um método alternativo, mais viável economicamente e sustentável através de plantas capazes de extrair os sais em excesso do solo. / Brazil's Northeast region is characterized by semi-arid climate, and the precipitated volumes usually lower than the evaporation and, making use of vital irrigation for sustainable agricultural production, however, inadequate irrigation management linked to local conditions, has favored processes salinization and sodification soils, promoting the degradation and abandonment of extensive formerly productive areas. Among the areas affected by salts in this region, we highlight the Irrigated Perimeter of São Gonçalo - PB in soil degradation situation with salt problems and this gave rise to the filing of study methods and techniques aimed at improving the physical and chemical characteristics ground. The experiment was installed in previously identified area as saline-sodic soil possessed in the Irrigated Perimeter of São Gonçalo, and the recovery was made of the application of methods and phytoremediation technique with herb-salt (Atriplex moneywort L.), grass crow's foot bath (Eleusine indica L.), Salsa - Brava (Ipomoea asarifolia L.) and Agricultural Gypsum. The survey consisted of eight treatments, with four replications, the treatments were subjected to a randomized block design (RBD), with the following treatments: i) atriplex cultivation; ii) grass-foot-chicken farming, iii) salsa culture, iv) soil with gypsum; v) application of gypsum associated with atriplex cultivation; vi) application of gypsum associated with grass growing chicken's foot; vii) application of gypsum associated with the parsley cultivation and viii) soil without management (control), a total area of 62 m² conducted under field conditions in portions of 1.40 x 1.40 m. With this study we intend to recover salt affected soil, using an alternative method more economically viable and sustainable through plants capable of extracting soil excess salts.

Ciências Agrárias.

Atriplex numulária L.

Eleusine indica L.

Ipomoea asarifolia L.

Recuperação do solo

Solidificação do solo

Salinização do solo

Fitorremediação do solo

Gessagem do solo

Capim-pé-de-galinha

Salsa - Brava

Gesso agrícola

Pedologia

Solidification of soil.

Phytoremediation of soil

Solos com problemas de sais

Soil with salt problems