Effectiveness and interaction of the association of Flumioxazin and Pyroxasulfone in the control of Guinea grass (Panicum maximum) / Eficácia e interação da associação de Flumioxazin e Pyroxasulfone para controle de capim-colonião (Panicum maximum)

The infestation of difficult-to-control weeds in a crop has direct negative effects on growth and development as they compete for water, light, and nutrients, in addition to hindering the harvest, and in the specific case of sugarcane they can reduce the longevity of the field. Normally, formulated mixture of herbicides, applied in pre-emergence conditions, is used to achieve a greater weed spectrum, longer residual effect, and lower costs. However, a mixture of two molecules can cause diverse effects, such as antagonism, synergism, or additives effects; therefore, it is important to know the interaction involved in each mixture used. In this way, this work has been developed to assess possible interactions of the association of the herbicides flumioxazin and pyroxasulfone applied in pre-emergence conditions, as well as assessing the effectiveness of the mixture control in Guinea grass (Panicum maximum). The study was conducted in greenhouse conditions in 5 L plastic pots, and the treatments consisted of a 4 x 4 factorial design: four flumioxazin doses (0, 50, 100, and 200 g ha-1) and four pyroxasulfone doses (0, 50, 100, and 200 g ha-1). The experimental design was the randomized block, with percentage control and residual dry mass evaluations at 35 days after application (DAA). The interaction data were analyzed using the Colby's model, and the control effectiveness data were analyzed using the F-test, followed by Tukey test, when significant. The effectiveness of the association between the herbicides flumioxazin and pyroxasulfone on Guinea grass was proven when applied in pre-emergence conditions with averages above 90% of control. The interaction between the herbicides flumioxazin and pyroxasulfone has been considered additive by Colby's model.(AU)

A infestação de plantas daninhas de difícil controle em uma cultura exerce efeitos negativos diretos no seu crescimento e desenvolvimento, competindo por água, luz e nutrientes, além de dificultar a colheita e, no caso específico da cana-de-açúcar, pode reduzir a longevidade do canavial. Normalmente, a mistura formulada de herbicidas em condições de pré-emergência é utilizada na cultura de cana-de-açúcar, para se alcançar maior espectro de ação, longo efeito residual e redução de custos. No entanto, uma mistura de duas moléculas pode resultar em efeitos sinérgicos, antagônicos ou aditivos, portanto, é importante conhecer a interação envolvida em cada mistura utilizada. Desta forma, este trabalho foi desenvolvido com o objetivo de avaliar possíveis interações da associação dos herbicidas flumioxazin e pyroxasulfone aplicados em condições de pré-emergência, bem como avaliar a eficácia de controle da mistura em capim-colonião (Panicum maximum). O experimento foi realizado em condição de casa-de-vegetação em vasos plásticos com capacidade de 5 L, e os tratamentos constaram de esquema fatorial 4 x 4, quatro doses do herbicida flumioxazin (0, 50, 100 e 200 g ha-1) e quatro doses do herbicida pyroxasulfone (0, 50, 100 e 200 g ha-1). Adotou-se o esquema experimental de blocos ao acaso, com avaliações percentuais de controle, e massa seca residual aos 35 dias após a aplicação (DAA). Os dados da interação foram analisados utilizando-se o modelo de Colby, e os dados de eficácia de controle foram analisados por meio do teste F e do teste de Tukey. A eficácia da associação entre os herbicidas flumioxazin e pyroxasulfone sobre o capim-colonião foi comprovada na aplicação em condições de pré-emergência, com médias acima de 90% de controle. A interação dos herbicidas flumioxazin e pyroxasulfone foi considerada aditiva pelo modelo de Colby.(AU)

Monitoring and baseline of glyphosate-resistant sourgrass in the main soybean growing regions of Brazil / Monitoramento e baseline da resistência de capim-amargoso ao herbicida glifosato nas principais regiões produtoras de soja no Brasil

Frequent application of glyphosate for consecutive years has enhanced the selection pressure on sourgrass (Digitaria insularis) populations, which resulted in the development of glyphosate-resistant biotypes. Therefore, this work was developed with the objective of monitoring sourgrass resistance to glyphosate, develop a baseline of sourgrass susceptibility to this molecule and, consequently, identify the discriminatory dose between resistant and susceptible populations. This work was divided into three steps. The first step consisted of identifying and sorting sourgrass resistant and susceptible biotypes among 30 samples. In the second step, glyphosate baseline was elaborated considering exclusively the glyphosate-susceptible biotypes, which allowed the definition of a discriminatory dose. At the end, the third step, monitoring of glyphosate-resistant biotypes was achieved, considering five growing seasons (2016 ­2020) and 809 samples of sourgrass populations, collected throughout 12 states of Brazil. Glyphosate baseline was elaborated to sourgrass and ideal discriminatory rate was identified as 960 g ha-1.Glyphosate-resistant populations of sourgrass were found in all soybean growing regions sampled. Among 809 populations, 25.96% were considered resistant to glyphosate. The states with the highest frequency of glyphosate-resistant populations were Rio Grande do Sul, Mato Grosso do Sul, Bahia, Mato Grosso and Paraná.

Este trabalho foi desenvolvido com o objetivo de monitorar a resistência de capim-amargoso ao herbicida glyphosate desenvolver uma baseline de suscetibilidade da espécie e, por consequência, identificar a dose discriminatória de glifosato entre populações resistentes e suscetíveis de capim-amargoso. Todo o trabalho foi dividido em três fases. A primeira fase consistiu da análise de 30 amostras de capim-amargoso, identificando-as e classificando-as em resistentes ou suscetíveis. Na segunda fase, foi elaborada uma baseline para suscetibilidade do capim-amargoso ao herbicida glyphosate, o que permitiu a definição de uma dose discriminatória. Ao final, na terceira fase, obteve-se o monitoramento dos biótipos de capim-amargoso quanto à resistência, considerando-se cinco safras (2016 ­2020) e 809 amostras de capim-amargoso, oriundas de 12 estados brasileiros. Assim sendo, a baseline de suscetibilidade de capim-amargoso ao glyphosate foi estimada, cuja dose discriminatória ideal foi de 960 g ha-1. Populações de capim-amargoso resistentes ao glyphosate foram encontradas em todas as regiões produtoras de soja amostradas. Dentre 809populações, 25,96% foram consideradas resistentes ao glyphosate. Os estados com maior frequência de populações resistentes foram: Rio Grande do Sul, Mato Grosso do Sul, Bahia, Mato Grosso e Paraná.

Population genomics of Digitaria insularis from soybean areas in Brazil.

BACKGROUND: Digitaria insularis is a weed species that has gained considerable importance in Brazil's soybean production areas that rely on glyphosate-resistant cultivars. Herbicide-resistant weed populations of this species have been reported in many regions in Brazil, first in the south, followed by later reports in the north. We hypothesized that the spread of herbicide-resistant D. insularis is facilitated by movement of agricultural machinery from the southern regions of Brazil. RESULTS: Population genomics revealed a weak or no genetic structure (FST  = [0; 0.16]), moderate expected heterozygosity (HE  = 0.15; 0.44) and low inbreeding (FIS  = [-0.1; 0.1]) in D. insularis populations. Our data supported the hypothesis that herbicide resistance gene flow predominantly occurred in a south-to-north direction based on a migration analysis. We also found evidence of local adaptation of resistant populations in the northern soybean-growing regions of Brazil. CONCLUSION: Evidence in our work suggests that gene flow of glyphosate-resistant D. insularis is associated with movement of agricultural machinery, although local selection pressure seems to play an important role in the evolution of herbicide resistance throughout the country. Our results suggest preventive practices such as equipment sanitation should be implemented to limit the spread of herbicide resistant D. insularis. © 2021 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.

Monitoring Glyphosate- and Chlorimuron- resistant Conyza spp. Populations in Brazil.

Conyza species are important weeds in global agriculture, especially due to their capacity to evolve resistance to multiple herbicide mechanisms of action. We aimed to evaluate the frequency and distribution of resistance to glyphosate and chlorimuron-ethyl in Conyza spp. populations from Brazil. Seed samples were collected from grain production areas across nine Brazilian states over five consecutive years (2014 to 2018). Prior to resistance monitoring trials, dose-response assays were conducted to determine a single dose of glyphosate or chlorimuron-ethyl to discriminate resistant and susceptible populations. Resistance monitoring based on plant responses to the application of discriminatory doses of glyphosate (960 g ha-1) or chlorimuron-ethyl (20 g ha-1). Populations were classified as resistant, moderately resistant, or susceptible to either herbicide. While glyphosate resistance was highly frequent (71.2%) in all the five years, chlorimuron-ethyl resistant populations occurred at 39.8% of the total. The frequency of multiple resistance to both herbicides (35.3%) was proportional to the occurrence of chlorimuron-ethyl resistance (39.6%). Resistance to glyphosate and to chlorimuron-ethyl were found across all states evaluated.

Confirmation and mechanism of glyphosate resistance in tall windmill grass (Chloris elata) from Brazil.

BACKGROUND: Overreliance on glyphosate as a single tool for weed management in agricultural systems in Brazil has selected glyphosate-resistant populations of tall windmill grass (Chloris elata Desv.). RESULTS: Two C. elata populations, one glyphosate resistant (GR) and one glyphosate susceptible (GS), were studied in detail for a dose-response experiment and for resistance mechanism. The dose causing 50% reduction in dry weight was 620 g a.e. ha(-1) for GR and 114 g ha(-1) for GS, resulting in an R/S ratio of 5.4. GS had significantly higher maximum (14) C-glyphosate absorption into the treated leaf (51.3%) than GR (39.5%), a difference of 11.8% in maximum absorption. GR also retained more (14) C-glyphosate in the treated leaf (74%) than GS (51%), and GR translocated less glyphosate (27%) to other plant parts (stems, roots and root exudation) than GS (36%). There were no mutations at the Pro106 codon in the gene encoding 5-enolpyruvylshikimate-3-phosphate synthase (EPSPS). There was no difference in EPSPS genomic copy number or EPSPS transcription between GS and GR populations. CONCLUSION: Based on these data, reduced glyphosate absorption and increased glyphosate retention in the treated leaf contribute to glyphosate resistance in this C. elata population from Brazil. © 2015 Society of Chemical Industry.

Boro e nitrogênio na incidência de hastes ocas e no rendimento de brócolis / Boron and nitrogen on hollow stem and yield of broccoli

A incidência de hastes ocas em brócolis (Brassica oleracea L. var. italica Plenck) depende de vários fatores que afetam a absorção e o transporte de B, elemento responsável pelo aparecimento dessa desordem fisiológica. O trabalho avaliou os efeitos de quatro níveis de nitrogênio e dois níveis de boro e da interação entre eles na incidência de hastes ocas e na produção de brócolis. As doses de N (100, 150, 200 e 250 kg ha-1) foram divididas em quatro aplicações iguais aos 15, 30, 45 e 60 dias após o transplante. O boro (0, 4 e 8 kg ha-1) foi aplicado metade no plantio e a outra metade em cobertura aos 45 dias após o transplante. A massa média das inflorescências e a produção total foram diminuídas com a aplicação de B em função do crescimento mais lento das plantas provocado pela toxicidade desse elemento. Contudo, nas áreas não adubadas com B, a porcentagem de plantas com hastes ocas foi, em média, de 44,14 por cento, sendo que a incidência dessa anomalia sofreu drástica redução com a aplicação de B, onde a maior dose (8 kg ha-1) resultou em apenas 4,52 por cento de inflorescências afetadas. Doses de N superiores a 215,4 kg ha-1 aumentaram o número de plantas com hastes ocas somente nas áreas que não receberam B.

The incidence of hollow stem in broccoli (Brassica oleracea L. var. italica Plenck) depends on several factors that affect the absorption and transport of boron, which is the element responsible for the appearance of this physiological disorder. This study evaluated the effects of four levels of nitrogen and two levels of boron and the interaction between them in the incidence of hollow stem and yield of broccoli. The levels of N (100, 150, 200 and 250 kg ha-1) were divided into four applications equal to 15, 30, 45, and 60 days after transplant. Half of the boron (0, 4 and 8 kg ha-1) was applied at planting and half in coverage at 45 days after transplanting. Average mass and total yield were reduced with B application, as a result of the slower growth of plants, having been caused by the onset of symptoms of toxicity of this element. However, in areas not fertilized with B, the percentage of plants with hollow stems was on average 44.14 percent, while the incidence of this anomaly suffered drastic reduction in B application, where the highest level (8 kg ha-1) resulted in only 4.52 percent of affected inflorescences. Levels of more than 215.4 kg ha-1 of N have increased the number of plants with hollow stems only in areas that did not receive B.

Herbicide selectivity by differential metabolism: considerations for reducing crop damages

Herbicide selectivity is an agricultural technology largely exploited in chemical strategies of weed control. The joint action of several protection mechanisms avoids phytotoxicity from herbicide treatment, maintaining the level of agronomically accepted damage to a minimum, or even totally avoiding them. The major mechanism of herbicide selectivity derives from the differential metabolism between weed and crop plant species, with weeds presenting a limited ability to perform it under agronomically recommended conditions. In this case, phytotoxicity can be interpreted as an overcoming of the maximum protection capacity offered by the mechanisms of selectivity, or when considering metabolism as the main factor, the overcoming of the inherent plant ability to detoxify a particular molecule. Considering that herbicide metabolism requires energy disposal, symptoms of phytotoxicity characterize an additional waste of energy that should not be accepted as a natural physiologic response; therefore it might result in yield losses. To avoid or minimize crop losses or damages, it is required that herbicide application recommendations are based on results from rigorously conducted selectivity experiments, as well as that there is an increase in the awareness of growers about the best use of each product.

A seletividade dos herbicidas é uma tecnologia agrícola que tem sido vastamente explorada nas estratégias de controle químico de plantas daninhas. É resultado da ação conjunta de diversos mecanismos que protegem a cultura da fitotoxicidade dos tratamentos herbicidas, mantendo-a com níveis de injúrias aceitáveis agronomicamente, ou mesmo na ausência destas. O principal mecanismo de seletividade dos herbicidas é o metabolismo diferencial desses produtos entre plantas daninhas e cultivadas, em que, nas situações de recomendação agronômica, as plantas daninhas são menos hábeis em realizá-lo. Neste caso, a fitotoxicidade pode ser entendida como a suplantação da capacidade máxima de proteção oferecida pelos mecanismos de seletividade ou, considerando o metabolismo como o principal mecanismo, como a superação da capacidade intrínseca da espécie em detoxificar determinada molécula. Considerando-se que o metabolismo de herbicidas envolve gasto de energia, os sintomas de fitotoxicidade caracterizam um segundo gasto energético que não deve ser aceito como uma resposta fisiológica natural, portanto pode resultar em perdas de rendimento das culturas. Para evitar ou minimizar as perdas ou injúrias às culturas, é necessário que as recomendações de herbicidas sejam baseadas em trabalhos de seletividade conduzidos com adequado rigor experimental; bem como é importante a conscientização dos agricultores quanto a melhor forma de utilizar cada produto.

Herbicide selectivity by differential metabolism: considerations for reducing crop damages

Herbicide selectivity is an agricultural technology largely exploited in chemical strategies of weed control. The joint action of several protection mechanisms avoids phytotoxicity from herbicide treatment, maintaining the level of agronomically accepted damage to a minimum, or even totally avoiding them. The major mechanism of herbicide selectivity derives from the differential metabolism between weed and crop plant species, with weeds presenting a limited ability to perform it under agronomically recommended conditions. In this case, phytotoxicity can be interpreted as an overcoming of the maximum protection capacity offered by the mechanisms of selectivity, or when considering metabolism as the main factor, the overcoming of the inherent plant ability to detoxify a particular molecule. Considering that herbicide metabolism requires energy disposal, symptoms of phytotoxicity characterize an additional waste of energy that should not be accepted as a natural physiologic response; therefore it might result in yield losses. To avoid or minimize crop losses or damages, it is required that herbicide application recommendations are based on results from rigorously conducted selectivity experiments, as well as that there is an increase in the awareness of growers about the best use of each product.

A seletividade dos herbicidas é uma tecnologia agrícola que tem sido vastamente explorada nas estratégias de controle químico de plantas daninhas. É resultado da ação conjunta de diversos mecanismos que protegem a cultura da fitotoxicidade dos tratamentos herbicidas, mantendo-a com níveis de injúrias aceitáveis agronomicamente, ou mesmo na ausência destas. O principal mecanismo de seletividade dos herbicidas é o metabolismo diferencial desses produtos entre plantas daninhas e cultivadas, em que, nas situações de recomendação agronômica, as plantas daninhas são menos hábeis em realizá-lo. Neste caso, a fitotoxicidade pode ser entendida como a suplantação da capacidade máxima de proteção oferecida pelos mecanismos de seletividade ou, considerando o metabolismo como o principal mecanismo, como a superação da capacidade intrínseca da espécie em detoxificar determinada molécula. Considerando-se que o metabolismo de herbicidas envolve gasto de energia, os sintomas de fitotoxicidade caracterizam um segundo gasto energético que não deve ser aceito como uma resposta fisiológica natural, portanto pode resultar em perdas de rendimento das culturas. Para evitar ou minimizar as perdas ou injúrias às culturas, é necessário que as recomendações de herbicidas sejam baseadas em trabalhos de seletividade conduzidos com adequado rigor experimental; bem como é importante a conscientização dos agricultores quanto a melhor forma de utilizar cada produto.

Glyphosate sustainability in South American cropping systems.

South America represents about 12% of the global land area, and Brazil roughly corresponds to 47% of that. The major sustainable agricultural system in South America is based on a no-tillage cropping system, which is a worldwide adopted agricultural conservation system. Societal benefits of conservation systems in agriculture include greater use of conservation tillage, which reduces soil erosion and associated loading of pesticides, nutrients and sediments into the environment. However, overreliance on glyphosate and simpler cropping systems has resulted in the selection of tolerant weed species through weed shifts (WSs) and evolution of herbicide-resistant weed (HRW) biotypes to glyphosate. It is a challenge in South America to design herbicide- and non-herbicide-based strategies that effectively delay and/or manage evolution of HRWs and WSs to weeds tolerant to glyphosate in cropping systems based on recurrent glyphosate application, such as those used with glyphosate-resistant soybeans. The objectives of this paper are (i) to provide an overview of some factors that influence WSs and HRWs to glyphosate in South America, especially in Brazil, Argentina and Paraguay soybean cropped areas; (ii) to discuss the viability of using crop rotation and/or cover crops that might be integrated with forage crops in an economically and environmentally sustainable system; and (iii) to summarize the results of a survey of the perceptions of Brazilian farmers to problems with WSs and HRWs to glyphosate, and the level of adoption of good agricultural practices in order to prevent or manage it.

Resistance and differential susceptibility of Bidens pilosa and B. subalternans biotypes to ALS-inhibiting herbicides

The frequent application of herbicides in agricultural areas may select resistant biotypes in weed populations, whose biological characteristics influence the speed and patterns of resistance. This research aims to charactere, simultaneously, resistance patterns and differential susceptibility of Bidens pilosa and B. subalternans biotypes to ALS-inhibiting herbicides of the imidazolinone and sulfonylurea chemical groups. Six hairy beggarticks biotypes, four suspected resistant and two known susceptible, were treated with eight rates of chlorimuron-ethyl or imazethapyr, in greenhouse conditions. Percent control and percent fresh weight of the plants were evaluated at 28 days after the application. B. subalternans is less susceptible to ALS-inhibiting herbicides than B. pilosa; B. subalternans biotypes were more resistant than B. pilosa biotypes; there are B. pilosa and B. subalternans biotypes with cross resistance to the ALS-inhibiting herbicides of the sulfonylurea and imidazolinone groups; there are different patterns of cross resistance to the diverse groups of ALS-inhibiting herbicides.

A freqüente aplicação de herbicidas em áreas agrícolas pode selecionar resistência em biótipos de plantas daninhas, cujas características biológicas influenciam na velocidade e nos padrões da resistência. Este trabalho foi conduzido com o objetivo de caracterizar, simultaneamente, o padrão de resistência e a susceptibilidade diferencial de biótipos de Bidens pilosa e B. subalternans aos herbicidas inibidores da ALS dos grupos químicos das imidazolinonas e sulfoniluréias. Para tanto, seis biótipos de picão-preto, quatro supostamente resistentes e dois sabidamente suscetíveis, foram submetidos à aplicação de oito doses de chlorimoron-ethyl ou imazethapyr, em condição de casa-de-vegetação. Avaliou-se o controle e a massa fresca percentual das plantas aos 28 dias após a aplicação. B. subalternans é menos suscetível aos herbicidas inibidores da ALS que B. pilosa; os biótipos de B. subalternans mostraram-se mais resistentes que o biótipo de B. pilosa; há ocorrência de biótipos de B. pilosa e B. subalternans com resistência cruzada aos herbicidas inibidores da ALS do grupo das sulfoniluréias e imidazolinonas; há padrões diferenciados de resistência cruzada de picão-preto aos diversos grupos de herbicidas inibidores da ALS.

Resistance and differential susceptibility of Bidens pilosa and B. subalternans biotypes to ALS-inhibiting herbicides

The frequent application of herbicides in agricultural areas may select resistant biotypes in weed populations, whose biological characteristics influence the speed and patterns of resistance. This research aims to charactere, simultaneously, resistance patterns and differential susceptibility of Bidens pilosa and B. subalternans biotypes to ALS-inhibiting herbicides of the imidazolinone and sulfonylurea chemical groups. Six hairy beggarticks biotypes, four suspected resistant and two known susceptible, were treated with eight rates of chlorimuron-ethyl or imazethapyr, in greenhouse conditions. Percent control and percent fresh weight of the plants were evaluated at 28 days after the application. B. subalternans is less susceptible to ALS-inhibiting herbicides than B. pilosa; B. subalternans biotypes were more resistant than B. pilosa biotypes; there are B. pilosa and B. subalternans biotypes with cross resistance to the ALS-inhibiting herbicides of the sulfonylurea and imidazolinone groups; there are different patterns of cross resistance to the diverse groups of ALS-inhibiting herbicides.

A freqüente aplicação de herbicidas em áreas agrícolas pode selecionar resistência em biótipos de plantas daninhas, cujas características biológicas influenciam na velocidade e nos padrões da resistência. Este trabalho foi conduzido com o objetivo de caracterizar, simultaneamente, o padrão de resistência e a susceptibilidade diferencial de biótipos de Bidens pilosa e B. subalternans aos herbicidas inibidores da ALS dos grupos químicos das imidazolinonas e sulfoniluréias. Para tanto, seis biótipos de picão-preto, quatro supostamente resistentes e dois sabidamente suscetíveis, foram submetidos à aplicação de oito doses de chlorimoron-ethyl ou imazethapyr, em condição de casa-de-vegetação. Avaliou-se o controle e a massa fresca percentual das plantas aos 28 dias após a aplicação. B. subalternans é menos suscetível aos herbicidas inibidores da ALS que B. pilosa; os biótipos de B. subalternans mostraram-se mais resistentes que o biótipo de B. pilosa; há ocorrência de biótipos de B. pilosa e B. subalternans com resistência cruzada aos herbicidas inibidores da ALS do grupo das sulfoniluréias e imidazolinonas; há padrões diferenciados de resistência cruzada de picão-preto aos diversos grupos de herbicidas inibidores da ALS.

Using thermal units for estimating critical period of weed competition in off-season maize crop.

Brazilian off-season maize production is characterized by low yield due to several factors, such as climate variability and inadequate management practices, specifically weed management. Thus, the goal of this study was to determinate the critical period of weed competition in off-season maize (Zea mays L.) crop using thermal units or growing degree days (GDD) approach to characterize crop growth and development. The study was carried out in experimental area of the University of São Paulo, Brazil, with weed control (C), as well as seven coexistence periods, 2, 4, 6, 8, and 12 leaves, flowering, and all crop cycle; fourteen treatments were done. Climate data were obtained from a weather station located close to the experimental area. To determine the critical period for weed control (CPWC) logistic models were fitted to yield data obtained in both W and C, as a function of GDD. For an arbitrary maximum yield loss fixed in 2.5%, the CPWC was found between 301 and 484 GDD (7-8 leaves). Also, when the arbitrary loss yield was fixed in 5 and 10%, the period before interference (PBI) was higher than the critical weed-free period (CWFP), suggesting that the weeds control can be done with only one application, between 144 and 410 GDD and 131 and 444 GDD (3-8 leaves), respectively. The GDD approach to characterize crop growth and development was successfully used to determine the critical period of weeds control in maize sown off-season. Further works will be necessary to better characterize the interaction and complexity of maize sown off-season with weeds. However, these results are encouraging because the possibility of the results to be extrapolated and because the potential of the method on providing important results to researchers, specifically crop modelers.

Alternative herbicides to manage Italian ryegrass (Lolium multiflorum lam) resistant to glyphosate at different phenological stages.

During the growing season of 2002--2003, field and greenhouse experiments were conducted with the objective of evaluating the influence of Italian ryegrass phenological stages and management alternatives on the control of resistant biotypes to glyphosate. Three field experiments were conducted in Lagoa Vermelha, RS, Brazil and glyphosate was applied alone and in combinations with alternative herbicides. Two greenhouse experiments were also conducted at the Department of Crop Science, ESALQ/USP, Piracicaba, SP, Brazil. The Italian ryegrass resistant population was collected from Lagoa Vermelha, RS, Brazil. From the results it was possible to conclude that: (i) the more advanced the phenological stage of application, the more difficult the control of resistant Italian ryegrass by glyphosate, mainly by the rate of 960 g a.i. ha(-1); however, this rate applied at earlier phenological stage (five tillers), the control was higher than 90%; (ii) with the increment of glyphosate rate, it significant response was observed on the control at all stages of application; (iii) the mixture of glyphosate + clethodim (1440 + 72 g a.i. ha(-1)), paraquat + diuron (500 + 250 g a.i. ha(-1)), at all stages of application and clethodim (96 g a.i. ha(-1)) and paraquat + diuron (300 + 150 g a.i. ha(-1)) at the initial stages until pre-flowering were excellent alternatives for management of these populations; and (iv) the response of control was much faster for the mixture of glyphosate + clethodim, independently of growth stage.