-Cyperus iria (CYPIR) is one of the main weeds in irrigated rice crops. The intense chemical control with acetolactate synthase (ALS) inhibiting herbicides favors the selection of cross-resistance. This study aimed to evaluate the crossresistance of CYPIR to ALS-inhibiting herbicides in irrigated rice in Rio Grande do Sul. Two experiments arranged in a factorial scheme, in a completely randomized design, with four replications were conducted. Experiment I consisted of resistant (CYPIR-R) and susceptible (CYPIR-S) biotypes and ALS-inhibiting herbicide doses: imazethapyr (106 g a.i. ha ); corresponding to 0; 1/16; 1/8; 1/4; 1/2; 1; 2; 4; 8 and 16x (x = maximum registered dose). Experiment II followed the same procedures, with doses of 0; 1/64; 1/32; 1/16; 1/8; 1/4; 1/2; 1 and 2x for CYPIR-S and 0; 1/2; 1; 2; 4; 8; 16; 32; 64 and 128x for CYPIR-R; including bispyribac-sodium (50 g a.i. ha -1). The variables evaluated were: visual control at 7, 14, 21 and 28 days after the treatments (DAT) and shoot dry matter (SDM) at 28 DAT. The results, fitted by nonlinear regression, show varied and high levels of cross-resistance of CYPIR-R to ALS-inhibiting herbicides from the group of imidazolinones, sulfonylureas, triazolopyrimidines and pyrimidinyl(thio)benzoates. Bentazone can be used as an alternative herbicide, however, not exclusively in the control of this biotype.
The objective of the study was to evaluate the efficiency of herbicides use in the control of tough lovegrass according to the availability of solar radiation and the presence or absence of flooded. Two experiments were conducted in a completely randomized design, in a 2x2x4 and 2x2x5 factorial scheme, where factor A was equivalent to the environment (natural or reduced radiation); factor B to water condition (with a 2 cm flooded or without); and, factor C the herbicides: cyhalofop butyl (315 g ha-1), glyphosate (1080 g ha-1), cyhalofop butyl + glyphosate (315 g ha-1 + 1080 g ha-1) and control (without application) in the first experiment. In the second experiment, the herbicides used were cyhalofop butyl (315 g ha-1), glyphosate (1080 g ha-1), sethoxydim (184g ha-1), imazethapyr (106 g ha-1) and control (without application). Glyphosate efficiently controls plants of tough lovegrass with four tillers (>90%), being superior to cyhalofop, imazethapyr and sethoxydim; independently, of resource conditions. Reduction in the availability of solar radiation generates less shoot dry mass production from the weed, and improves the control only by imazethapyr and cyhalofop. In general, a flooded condition does not affect tough lovegrass control by herbicides.
Lolium multiflorum, one of the most important temperate forage grasses in the world, is used in integrated crop-livestock systems and as a cover crop. However, it is also one of the main weeds in winter crops. The continuous use of glyphosate to manage this species has led to the selection of resistant biotypes (LOLMU-R), making it important to prevent the dispersal of these seeds. This study aimed to assess the recovery and germination of LOLMU-R that have passed through the digestive system of cattle. The experiments were carried out in metabolism cages, using a completely randomized design with six replications. The animals were given 12 112 seeds each, which were recovered from their faeces over a period of 6 days. Germination of the recovered seeds was assessed in a germination chamber and compared against a control (no animal passage). After germination, a glyphosate dose-response curve was constructed. The results obtained showed a total recovery of 1109 seeds (9.1%), with maximum recovery 2 days after ingestion, decreasing to almost zero on day 6. Germination declined linearly as a function of recovery time; however, 4 days after ingestion, germination potential was 18%. The dose-response curve proved the resistance of the recovered seeds. Cattle is a dispersal agent for LOLMU-R seeds, with animals requiring 7 days of quarantine before moving from one infested area to another.
-The phytosociological method helps evaluate the vegetation composition. The objective of this study was to identify and quantify the main weed species present in irrigated rice. The phytosociological survey was carried out in three mainly rice monoculture, Clearfield ® technology using properties in Itaqui-RS, between 2013 and 2014. For each property and period, a ½ ha representative area was selected and 10 random samples were collected, using a quadrat square of 1 m 2 . The sample colletion was conducted in two periods of time: during the irrigated rice crop initial growth and during the cereal's pre-harvesting phase. All collected plants were identified and counted, allowing for their frequency, relative frequency, density, relative density, abundance, relative abundance, relative importance index and similarity index to be calculated. Eleven weed species belonging to five families were identified. Poaceae and Cyperaceae occurred more frequently. During the initial growth of rice, the Poaceae family presented the largest index of relative importance, mainly to Echinochloa crus-galli, Echinochloa colona and Digitaria horizontalis. Overall, there was a reduction in plant density in the pre-harvest period. However, Echinochloa colona and Oryza sativa occurred in density levels that may interfere with the cereal yield. Aeschynomene denticulata, Cyperus iria and Oryza sativa are not controlled efficiently, indicating possible cases of herbicide resistance. Our conclusions emphasize the importance of correct weed species identification for the management of Echinochloa colona and Cyperus ferax. Integrated management practices are necessary for efficient weed control, avoiding productivity loss in the region's flooded rice fields. Keywords
ResumoAs pastagens naturais, um dos principais ecossistemas do mundo, estão ameaçadas e as espécies nativas são desejáveis quando se trata de restauração. Os principais processos para o sucesso da restauração das pastagens são o estabelecimento das plantas e a adição de sementes no solo. Assim, isso requer a superação das barreiras que impedem a germinação e estratégias de dispersão de sementes. Este trabalho teve como objetivo avaliar o potencial germinativo, tratamentos para superar a dormência de sementes e a dispersão por endozoocoria de espécies nativas forrageiras por bovinos. Sementes de 21 espécies nativas das quatro famílias botânicas mais comuns (Poaceae, Asteraceae, Fabaceae e Cyperaceae) foram coletadas em uma área de pastagem natural (Bioma Pampa) e utilizadas nos experimentos. Experimento I: foi realizada a germinação em condições controladas de todas as espécies e comparada com a da forragem comercial (Paspalum notatum cv. “Pensacola”). Experimento II: foram testados três tratamentos para superação da dormência das sementes (escarificação mecânica e química e priming) em seis espécies. Experimento III: foi avaliada a recuperação, viabilidade e germinação das sementes das espécies nativas Paspalum notatum Flüggé e Desmodium incanum DC em fezes de gado. Os resultados mostram que Paspalum umbrosum Trin. e Saccharum angustifolium Nees apresentam alto potencial germinativo quando comparadas à forragem comercial. Os tratamentos para superar a dormência das sementes aumentaram a germinação de D. incanum, Paspalum plicatulum Michx. e Paspalum dilatatum Poir. A recuperação total de sementes de 15% (P. notatum) e 26% (D. incanum), sem afetar a viabilidade das sementes, mostra que os bovinos são capazes de suprir o banco de sementes do solo com espécies nativas. O potencial germinativo, tratamentos para superar a dormência de sementes e dispersão endozoocórica de espécies nativas forrageiras podem ser explorados na restauração de pastagens naturais.
Natural grasslands, one of the main ecosystems worldwide, are under threat and native species are desired when addressing restoration issues. The main processes for grasslands restoration success are plant establishment and seed addition in the soil. Thus, it requires overcoming barriers that prevent germination and seed dispersal strategies. This study aimed to assess the germination potential, treatments to overcome seed dormancy and endozoochory dispersal of forage native species by cattle. Seeds from 21 native species from the four most common botanical families (Poaceae, Asteraceae, Fabaceae and Cyperaceae) were collected in a natural grassland area (Pampa Biome) and used in the experiments. Experiment I: germination under controlled conditions of all species was carried out and compared to commercial forage (Paspalum notatum cv. “Pensacola”). Experiment II: three treatments to overcome seed dormancy (mechanical and chemical scarification; priming agent) were tested in six species. Experiment III: the recovery, viability and germination of native P. notatum Flüggé and Desmodium incanum DC seeds from cattle faeces were evaluated. The results show that Paspalum umbrosum Trin. and Saccharum angustifolium Nees have high germination potential when compared to commercial forage. The treatments to overcome seed dormancy increased the germination of D. incanum, Paspalum plicatulum Michx. and Paspalum dilatatum Poir. Total seed recovery of 15% (P. notatum) and 26% (D. incanum), without affecting seed viability, show that cattle are able to supply the soil seed bank with native species. Germination potential, treatments to overcome seed dormancy and endozoochory dispersal of forage native species may be exploited in natural grassland restoration.
A redução da radiação solar incidente na superfície terrestre pode alterar o comportamento vegetal e a seletividade de herbicidas. O objetivo deste trabalho foi avaliar a seletividade dos herbicidas bentazona, iodosulfuron-methyl-sodium e o rendimento de grãos do trigo, em condições de redução de luminosidade em diferentes estádios fenológicos da cultura. Foram conduzidos dois experimentos, o primeiro (I) em condições controladas e o segundo (II) a campo. Nos dois experimentos foram avaliadas variáveis no trigo em função da aplicação de herbicidas (bentazona, 900 g ha-1 i.a.; iodosulfuron-methyl-sodium, 5 g ha-1 i.a.; e testemunha, sem aplicação de herbicida) e da variação da taxa luminosa (testemunha; redução de luz durante todo o ciclo; redução no estádio inicial, da emergência até três folhas; redução no estádio vegetativo, entre três folhas até a emergência completa da inflorescência; e redução na fase reprodutiva, da inflorescência até a colheita). Os resultados demonstram que a redução de luz altera características morfofisiológicas do trigo, aumenta a estatura de plantas, reduz a taxa de transpiração e condutância estomática, mas não interfere na fotossíntese do cereal. No entanto, o rendimento de grãos é afetado negativamente pela redução de luz durante o estádio vegetativo, período ontogenético que coincide com a formação dos principais componentes de rendimento da cultura. Os herbicidas avaliados são seletivos ao trigo, com ou sem redução de luminosidade.
Cyperus iria L. (CYPIR) é uma das principais ciperáceas ocorrentes em lavouras de arroz irrigado. Durante muitos anos, os herbicidas inibidores da enzima acetolactato sintase (ALS) foram a principal ferramenta para controle de CYPIR, favorecendo a seleção de biótipos com resistência cruzada. Com base no nível de resistência, é necessária a adoção de medidas de controle químico alternativo a fim de evitar a evolução da resistência e reduzir a interferência sobre a cultura. O objetivo desse trabalho foi avaliar alternativas de controle químico de CYPIR com resistência cruzada aos herbicidas inibidores da ALS, ocorrente em lavouras de arroz irrigado no Sul do Brasil. Dois experimentos foram conduzidos em casa de vegetação, em delineamento inteiramente casualizado com quatro repetições. Os herbicidas utilizados foram: imazethapyr; formulação de imazapyr+imazapic; bentazon; propanil; formulação de bentazon+imazamox; mistura de (bentazone + imazamox) + (imazapyr + imazapic); associação de bentazone + formulação de (imazapyr + imazapic); glyphosate; e testemunha sem herbicida. A avaliação do controle foi realizada em biótipo resistente (CYPIR-R) e suscetível (CYPIR-S), e a fitotoxicidade avaliada nas cultivares Guri Inta CL, IRGA 424 RI e IRGA 409. Aos 28 dias após aplicação (DAA) foi avaliado o controle/ fitotoxicidade e a matéria seca da parte aérea (MSPA). Todos os tratamentos testados, com exceção do imazethapyr e formulação de imazapyr+imazapic isolados, foram eficientes. Há alternativas para o controle químico de Cyperus iria resistente aos inibidores da ALS e esses, quando associados com produtos que apresentam mecanismo de ação diferentes, não inviabilizam o uso da tecnologia ClearField®.
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