Digitaria insularis biotypes resistant to glyphosate have been detected in Brazil. Studies were carried out in controlled conditions to determine the role of absorption, translocation, metabolism, and gene mutation as mechanisms of glyphosate resistance in D. insularis. The susceptible biotype absorbed at least 12% more 14C-glyphosate up to 48 h after treatment (HAT) than resistant biotypes. High differential 14C-glyphosate translocation was observed at 12 HAT, so that >70% of the absorbed herbicide remained in the treated leaf in resistant biotypes, whereas 42% remained in the susceptible biotype at 96 HAT. Glyphosate was degraded to aminomethylphosphonic acid (AMPA), glyoxylate, and sarcosine by >90% in resistant biotypes, whereas a small amount of herbicide (up to 11%) was degraded by the susceptible biotype up to 168 HAT. Two amino acid changes were found at positions 182 and 310 in EPSPS, consisting of a proline to threonine and a tyrosine to cysteine substitution, respectively, in resistant biotypes. Therefore, absorption, translocation, metabolism, and gene mutation play an important role in the D. insularis glyphosate resistance.
Sourgrass is a perennial weed infesting annual and perennial crops in Brazil. Three biotypes (R1, R2, and R3) of sourgrass suspected to be glyphosate-resistant (R) and another one (S) from a natural area without glyphosate application, in Brazil, were tested for resistance to glyphosate based on screening, dose-response, and shikimic acid assays. Both screening and dose-response assays confirmed glyphosate resistance in the three sourgrass biotypes. Dose-response assay indicated a resistance factor of 2.3 for biotype R1 and 3.9 for biotypes R2 and R3. The hypothesis of a glyphosate resistance was corroborated on the basis of shikimic acid accumulation, where the S biotype accumulated 3.3, 5.0, and 5.7 times more shikimic acid than biotypes R1, R2, and R3, respectively, 168 h after treatment with 157.50 g ae ha−1of glyphosate. There were no differences in contact angle of spray droplets on leaves and spray retention, indicating that differential capture of herbicide by leaves was not responsible for resistance in these biotypes. The results confirmed resistance of sourgrass to glyphosate in Brazil.
Weed management systems in almost all Brazilian coffee plantations allow herbicide spray to drift on crop plants. In order to evaluate if there is any effect of the most commonly used herbicide in coffee production, glyphosate, on coffee plants, a range of glyphosate doses were applied directly on coffee plants at two distinct plant growth stages. Although growth of both young and old plants was reduced at higher glyphosate doses, low doses caused no effects on growth characteristics of young plants and stimulated growth of older plants. Therefore, hormesis with glyphosate is dependent on coffee plant growth stage at the time of herbicide application.
Glyphosate has been applied in European countries for over a decade between rows in olive groves and grape vineyards to control Conyza species [hairy fleabane (C. bonariensis), horseweed (C. canadensis) and Sumatran fleabane (C. sumatrensis)], however poor control has been observed in recent years. Glyphosate susceptible (GS) or resistant (GR) populations were assayed in each species. In addition, Conyza spp. control with alternative herbicides (alone or in mixture with glyphosate) over two years was also assessed. The GS populations of the three species were controlled with glyphosate field doses (1080 g ae ha −1). The GR hairy fleabane, horseweed and Sumatran fleabane populations were 15.0, 15.7 and 19.8 times more resistant, respectively, than their respective GS population. The shikimic accumulation of GS populations was 4-6 times higher compared with the GR Conyza populations, confirming the glyphosate resistance of the latter ones. The increase in the glyphosate dose did not control the GR Conyza populations, despite providing a higher dry growth reduction. Glufosinate and flazasulfuron, alone or mixed with glyphosate, were the effective options to control GR and GS populations of hairy fleabane and Sumatran fleabane. However, the GR horseweed population might have evolved multiple resistance to glyphosate and flazasulfuron in Hungary. The other herbicides (PSI, auxinic and PPO) showed an additive effect together with the control provided by glyphosate in the GS and GR populations; however generally, these herbicides could be applied alone at the rosette stage. Effective herbicides with modes of action different from glyphosate, except flazasulfuron for controlling horseweed, should be used to delay the selection of herbicide resistance in perennial crops in Europe. around the world (Heap, 2018). Glyphosate [N-(phosphonomethyl)-glycine] is the world's most successful post-emergence and non-selective herbicide (Duke, 2018). In Spain it has been widely used to control weeds in citrus orchards, olive groves, grape vineyards, and others perennial and annual crops (González-Torralva et al., 2010, 2014), as well as in path borders, railway lines, recreation areas and derelict sites (Urbano et al., 2007). This herbicide is absorbed through leaves and other young-green tissues, and translocated via phloem into meristematic tissues (Preston and Wakelin, 2008). Glyphosate is a potent inhibitor of 5-enolpyruvylshikimate 3-phosphate synthase (EPSPS) by blocking the biosynthesis of phenylalanine, tryptophan, tyrosine and others aromatic compounds in susceptible plants (Maeda and Dudareva, 2012).
Foram realizados dois experimentos, em casa de vegetação, no Departamento de Biologia Aplicada à Agropecuária da FCAV-UNESP de Jaboticabal, objetivando-se determinar o acúmulo de massa seca e a distribuição e acúmulo de macronutrientes em plantas de milho, no período de outubro de 2000 a fevereiro de 2001, e de capim-marmelada, no período de setembro de 2003 a fevereiro de 2004. Os estudos foram realizados em delineamento experimental inteiramente casualizado, com quatro repetições. As plantas cresceram em vasos com capacidade de sete litros - preenchidos com areia de rio lavada e peneirada - e foram irrigadas diariamente com solução nutritiva. Os tratamentos foram representados pelas épocas de amostragem realizadas a intervalos de 14 dias, a saber: 21, 35, 49, 63, 77, 91, 105, 119 e 133 dias após a emergência (DAE) das plantas de milho; e 21, 35, 49, 63, 77, 91, 105, 119, 133 e 147 DAE das plantas de capim-marmelada. O ponto de máximo acúmulo teórico de massa seca deu-se aos 122 DAE para o milho (143,8 g por planta) e aos 143 DAE para o capim-marmelada (23,9 g por planta). A taxa de absorção diária dos macronutrientes atingiu maiores valores entre 71 e 104 DAE para o milho e entre 96 e 111 DAE para a planta daninha. Levando-se em conta a média dos valores de pontos de inflexão observados na cultura do milho, aos 85 DAE uma planta de milho acumula, teoricamente, 83,0 g de massa seca; 788,9 mg de N; 137,5 mg de P; 1.385,6 mg de K; 551,8 mg de Ca; 217,9 mg de Mg; e 92,5 mg de S. Enquanto que, no mesmo período, uma planta de B. plantaginea acumula, teoricamente, 9,6 g de massa seca; 127,8 mg de N; 15,9 mg de P; 217,3 mg de K; 43,9 mg de Ca; 58,3 mg de Mg; e 15,8 mg de S.
63Períodos de interferência de plantas daninhas na cultura do quiabo 1 Recebido para publicação em 15.4.2012 e aprovado em 2/9/2012. RESUMO -Poucas pesquisas têm sido realizadas sobre interferência de plantas daninhas na cultura do quiabo. Objetivou-se com este trabalho estimar os períodos de interferência da comunidade infestante no quiabeiro. Um experimento de campo foi conduzido sob dois grupos de tratamentos, mantendo períodos crescentes de 0 (testemunha), 7, 21, 28, 35, 42, 49, 63, 77, 91 e 105 dias após a emergência da cultura (DAE), com e sem controle das plantas daninhas. As plantas daninhas com maior importância relativa foram Portulaca oleracea, Nicandra physaloides e Eleusine indica. A convivência do quiabeiro com as plantas daninhas por todo o ciclo de cultivo reduziu a produtividade da cultura em 95%. O período anterior à interferência foi de 57 DAE, enquanto o período total de prevenção à interferência foi de 14 DAE. Não houve período crítico de prevenção à interferência, sendo um único controle das plantas daninhas entre 14 e 57 DAE suficiente para prevenir a interferência na cultura do quiabo.Palavras-chave: Abelmoschus esculentus, comunidade infestante, convivência, competição.ABSTRACT -Few research works have been carried out on weed interference in okra crop. The aim of this study was to estimate the periods of weed interference in okra crop. Thus, a field trial was carried out under two groups of treatments, using increased periods of 0 (check), 7, 21, 28, 35, 42, 49, 63, 77, 91, and 105 days after crop emergence (DAE) with weed control and without weed control. Weeds with highest relative importance were Portulaca oleracea, Nicandra physaloides, and Eleusine indica. Coexistence of okra crop and weeds throughout the season reduced crop yield by 95%. The period before interference was 57 DAE, while total period of interference prevention was 14 DAE. There was no critical period of interference prevention, with a single weed control between 14 and 57 DAE being sufficient for interference prevention in okra crop.
Knowledge of plant nutritional status allows an understanding of the physiological responses of plants to crop fertilization. A hydroponic experiment evaluated the symptoms of macronutrient deficiency in cauliflower ‘Verona’ and determined: a) the macronutrient contents of foliar tissues when visual symptoms were observed, b) macronutrients content of foliar and inflorescence tissues at harvest. The effect of nutrient deficiency on inflorescence mass was also evaluated. Nitrogen deficiency caused chlorosis followed by purple color in the old leaves, while P deficiency caused only chlorosis in old leaves. Chlorosis at the edge of old leaves progressing to the center of the leaves was observed with the omission of K, and after was observed necrosis in the chlorotic areas. Ca deficiency caused tip burn in new leaves, while Mg deficiency caused internerval chlorosis in old leaves. The omission of each macronutrient reduced inflorescence dry matter. This deleterious effect was larger for N, P, and K deficiencies, reducing inflorescence dry matter by 87, 49, and 42%, respectively. When the nutrient solutions without N, P, K, Ca, or Mg were supplied to cauliflower plants, the macronutrient contents at harvest were 8.8, 0.6, 3.5, 13.0, and 0.8 g kg-1 in the foliar tissues and 27.3, 2.2, 21.6, 1.1, and 0.7 g kg-1 in the inflorescence tissues, respectively.
RESUMO -O grau de interferência depende da densidade de plantas daninhas que infestam a soja. O objetivo deste trabalho foi avaliar características de crescimento e nutrição mineral da soja mantida em convivência com densidades crescentes de Euphorbia heterophylla. O experimento foi conduzido em Jaboticabal, SP, Brasil, entre outubro e dezembro de 2008, em vasos mantidos em campo aberto. Os tratamentos consistiram em submeter uma planta de soja por vaso à convivência com 0, 1, 2, 4, 8 e 16 plantas de E. heterophylla por vaso, da semeadura até o início do florescimento. Nesse período, avaliaram-se, apenas na soja, a altura e o número de trifólios, e em ambas as espécies, a matéria seca e o acúmulo de macronutrientes. Observou-se variação na altura de plantas e redução no número de trifólios e no acúmulo de matéria seca e macronutrientes da soja devido ao maior acúmulo de matéria seca e macronutrientes por densidades crescentes de E. heterophylla. Conclui-se que a soja mantida em convivência com E. heterophylla teve o crescimento e o acúmulo de macronutrientes reduzidos em razão da interferência imposta pela planta daninha.Palavras-chave: amendoim-bravo, competição por nutrientes, Glycine max.ABSTRACT -The degree of weed interference depends on the density of the weeds infesting the soybean crop. The objective of this work was to evaluate the growth and mineral nutrition characteristics in soybean maintained in coexistence with increasing densities of Euphorbia heterophylla. The experiment was carried out in Jaboticabal, SP, Brazil, from October through December 2008, in pots maintained under open field conditions. The treatments consisted in submitting one soybean plant per pot to coexistence with 0, 1, 2, 4, 8 and 16 plants of E. heterophylla per pot, from sowing until the beginning of soybean flowering. At this period, only height and number of leaves were evaluated in soybean, while dry matter and macronutrient accumulation were evaluated in both species. Variation in plant height and reduction in the number of leaves and dry matter and macronutrient accumulation of soybean were observed due to the higher accumulation of dry matter and macronutrients per increasing densities of E. heterophylla. It was concluded that growth and macronutrient accumulation of soybean maintained in coexistence with E. heterophylla were reduced due to weed interference.
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