ABSTRACT:
Herbicides are expected to show selectivity towards cultivated plants, i.e., they ought to control weeds without jeopardizing the development and productivity of crops. The objective of this project was to evaluate the selectivity of herbicides applied in pre-planting of three sugar cane cultivars which were planted according to the system of pre-budded seedlings (PBS) under climatic natural conditions, between September and November of 2013. The experiment was set according to a completely random design with four replications. The treatments were distributed according to a factorial scheme of 3 × 8, in which factor A was the cultivar (CTC14, CTC7, and RB966928), and factor B was the herbicide (in g.ha-1): S-metolachlor (2,640), clomazone (1,000), sulfentrazone (800), diclosulam (200), metribuzin (1,920), diuron + hexazione (1,170 + 330), S-metolachlor + sulfentrazone (2,640 + 800), and a no treatment. The visual symptoms of intoxication were evaluated 14, 28, 35, 42, 49, 56, and 63 days after application (DAA), the height and number of tillers 14, 35, 49, 56, and 63 DAA, the dry weight of shoot (DWS), and the dry weight of root (DWR) 63 DAA. Under the conditions of the experiment, the herbicides S-metolachlor, clomazone, metribuzin, diuron + hexazinone, and S-metolachlor + sulfentrazone were selective towards the presprouted sugar-cane plantlets. Diclosulam was the less selective herbicide, followed by sulfentrazone. Cultivar CTC14 was visually the less tolerant to the herbicides diclosulam and sulfentrazone.
KEYWORDS:
chemical control; phytointoxication; Saccharum spp.; pre-planting
RESUMO:
Os herbicidas devem apresentar seletividade às culturas agrícolas, ou seja, controlar as plantas daninhas sem comprometer o desenvolvimento nem a produtividade da cultura. O objetivo deste trabalho foi avaliar a seletividade de herbicidas aplicados em pré-plantio de três cultivares de cana-de-açúcar plantados pelo sistema de mudas pré-brotadas (MPB). O experimento foi desenvolvido na Usina São Martinho, próximo ao município de Pradópolis (SP), sob condições naturais de clima, no período de setembro a novembro de 2013. O delineamento experimental utilizado foi o inteiramente casualizado, com quatro repetições. Os tratamentos foram distribuídos em esquema fatorial (3 × 8), sendo o fator A composto de três cultivares: CTC14, CTC7 e RB966928; e o fator B por sete herbicidas (em g.ha-1): S-metolachlor (2,640); clomazone (1,000); sulfentrazone (800); diclosulam (200); metribuzin (1,920); diuron + hexazinone (1,170 + 330); S-metolachlor + sulfentrazone (2,640 + 800); mais uma testemunha sem aplicação de herbicidas. Foram avaliados os sintomas visuais de fitointoxicação aos 14, 28, 35, 42, 49, 56 e 63 dias após aplicação (DAA), a altura e o número de perfilhos dos cultivares aos 14, 35, 49 e 63 DAA, a massa seca da parte aérea (DWS) e a massa seca do sistema radicular (MSSR) aos 63 DAA. Nas condições em que o experimento foi conduzido, os herbicidas S-metolachlor, clomazone, metribuzin, diuron + hexazinone e S-metolachlor + sulfentrazone foram seletivos às mudas pré-brotadas de cana-de-açúcar. O herbicida diclosulam foi o menos seletivo, seguido do sulfentrazone. O cultivar CTC14 apresentou-se visualmente menos tolerante aos herbicidas diclosulam e sulfentrazone.
PALAVRAS-CHAVE:
controle químico; fitointoxicação; Saccharum spp.; pré-plantio
INTRODUCTION
Planting sugar cane by the pre-budded seedlings (PBS) shows several advantages such as the reduction of the volume of plantlets needed for the planting, crops of better quality and vigor, as well as the reduction of the risks of diffusion of diseases and insects vectors. In addition to that, it speeds up the introduction of new varieties in the area (LANDELL et al., 2012LANDELL, M.G.A.; CAMPANA, M.P.; FIGUEIREDO, P.; XAVIER, M.A.; ANJOS, I.A.; DINARDO-MIRANDO, L.L.; SCARPARI, M.S.; GARCIA, J.C.; BIDÓIA, M.A.P.; SILVA, D.N.; MENDONÇA, J.R.; KANTHACK, R.A.D.; CAMPOS, M.F.; BRANCALIÃO, S.R.; PETRI, R.H.; MIGUEL, P.E.M. Sistema de multiplicação de cana-de-açúcar com uso de mudas pré-brotadas (MPB), oriundas de gemas individualizadas. Campinas: IAC, 2012. (Documentos, 109). Disponível.em: <Disponível.em: http://www.iac.sp.gov.br/publicacoes/porassunto/pdf/Doc%20109_online.pdf
>. Acesso em: 20 jun. 2014.
http://www.iac.sp.gov.br/publicacoes/por...
).
Independently of the chosen planting system, controlling weeds is of very high importance. According to VICTORIA FILHO; CHRISTOFFOLETI (2004VICTÓRIA FILHO, R.; CHRISTOFFOLETI, P.J. Manejo de plantas daninhas e produtividade da cana. Visão Agrícola, Piracicaba, n.1, p.32-37, 2004.), one of the most important problems of the sugar-cane crop is the interference caused by weeds, which may cause crop losses of the order of 85%. There are different weed control methods with the chemical one being the most widely used due to its efficacy and low cost (CHRISTOFFOLETI et al., 2006CHRISTOFFOLETI, P.J.; BORGES, A.; NICOLAI, M.; CARVALHO, S.P.J.; LÓPEZ-OVEJERO, R.F.; MONQUERO, P.A. Carfentrazone-ethyl aplicado em pós-emergência para o controle de Ipomoea spp. e Commelina benghalensis na cultura da cana-de-açúcar. Planta Daninha, Campinas, v.24, n.1, p.83-90, 2006. Disponível em: <http://dx.doi.org/10.1590/S0100-83582006000100011>.
http://dx.doi.org/10.1590/S0100-83582006...
). Among the herbicides used in sugar cane crops, the residual ones applied in pre-emergence of the weeds and the crop are the ones most frequently used.
For the chemical control of weeds, herbicides selectivity is the basis of success, and the recommendation of a herbicide is conditioned to its selectivity, i.e., to its capacity of eliminating undesirable plant species without causing significant economical reductions both in the product quality as well as to its quantity (VELINI et al., 2000VELINI, E.D.; MARTINS, D.; MANOEL, L.A.; MATSUOKA, S.; TRAVAIN, J.C.; CARVALHO, J.C. Avaliação da seletividade da mistura de oxyfluorfen e ametryne, aplicada em pré ou pós-emergência, a dez cultivares de cana-de-açúcar (cana-planta). Planta Daninha, Viçosa, v.18, n.1, p.123-134, 2000.). Positioning the pre-emergence herbicide properly in the soil is the main factor of its selectivity (OLIVEIRA JR.; INOUE, 2011OLIVEIRA JR., R.S; INOUE, M.H. Seletividade de herbicidas para culturas e plantas daninhas. In: Biologia e Manejo de Plantas Daninhas. Curitiba: Omnipax, 348p., cap.10, 2011.).
The application of herbicides at the planting with pre-sprouted plantlets may be done pre or post emergence of the weed plants and pre (with or without incorporation) or post planting of the pre-sprouted plantlets. When the application of the herbicides is done in pre-emergence of the weeds and before the planting of the pre-budded seedlings, the plantlets roots are located in the herbicide treated zone, differently from the conventional plantings in which the roots are located below the treated zone. This fact may lead to the loss of selectivity and thus to significant damage.
So, the objective of this project was to evaluate the selectivity of herbicides applied in pre-emergence in three sugar cane cultivars with planting being done by using PBS.
MATERIAL AND METHODS
The experiment was carried out in the São Martinho sugar and alcohol factory, in the municipality of Pradópolis, a county in the state of São Paulo, Brazil, under natural climatic conditions, from September to November of 2013, and whose geographical location is of 21º21’34”S and 48º03’56”WGr; the mean altitude of the area is of 538 m above sea level. Polyethylene vases with a 12-liter capacity were used. Soil from the upper soil layer from a Red Yellow latosol (EMBRAPA, 2006EMBRAPA. Empresa Brasileira de Pesquisa Agropecuária. Centro Nacional de Pesquisa Agropecuária de Solos. Sistema brasileiro de classificação de solos. Rio de Janeiro, 2006. 412p.) was also used. The soil physical and chemical composition was 28% sand, 7% silt and 65% clay; pH in CaCl2 = 5.5; P (resin) = 53 mg.dm-3; K = 3.0 mmolc.dm-3; Ca = 37 mmolc.dm3; Mg = 15 mmolc.dm3; H + Al = 29 mmolc.dm3; CTC = 84.0 mmolc; V% = 66 and formula 8 - 28 - 16. The results of the chemical analysis showed that the soil needed no liming.
The herbicides were applied before the planting of PBS on September 14th 2013. Planting took place soon after the herbicides were applied. On the planting day, the PBS were approximately 15 cm long and bearing from three to five leaves. The herbicides were sprayed with the help of a CO2 pressurized costal sprayer with two nozzles, Teejet XR 11002VS, spaced by 50 cm and under a constant pressure of 200 kPa, presenting a volume of 200 L.ha-1. At the moment of the application, the temperature was between 28 and 30.1ºC, the relative humidity of the air was between 65 and 57.9%, wind speed between 5.1 and 6.5 km.h-1 and nebulosity was between 30 and 25%, at the beginning and the end of the application, respectively.
The experiment was set according to a completely random design with four replications. The treatments were distributed according to a factorial scheme (3 × 8), in which the A factor was represented by the cultivars (CTC14, CTC7, and RB966928) and B, the seven herbicides: S-metolachlor (2,640 g.ha-1), clomazone (1,000 g.ha-1), sulfentrazone (800 g.ha-1), diclosulam (200 g.ha-1), sulfentrazone (800 g.ha-1), metribuzin (1,920 g.ha-1), diuron + hexazinone (1,170 + 330 g.ha-1), S-metolachlor + sulfentrazone (2,640 + 800 g.ha-1), and no treatment (no herbicide applied). The chosen cultivars were, at the time of the experiment, largely used by sugar cane growers (CTC, 2014CTC. Centro de Tecnologia Canavieira. Variedades CTC. Disponível em: <Disponível em: http://www.ctcanavieira.com.br/downloads/variedades2013WEB3.pdf
>. Acesso em: 10 ago. 2014.
http://www.ctcanavieira.com.br/downloads...
; RIDESA, 2014RIDESA. Rede Interuniversitária para o Desenvolvimento do Setor Sucroalcooleiro. Catálogo nacional de variedades “RB” de cana-de-açúcar. 2010. Disponível em: <Disponível em: http://canaufv.com.br/catalogo/catalogo-2010.pdf
>. Acesso em: 08 ago. 2014.
http://canaufv.com.br/catalogo/catalogo-...
), because they displayed different tolerances to herbicides. CTC7, RB966928, and CTC14 are considered tolerant, intermediate and susceptible to the herbicides, respectively. The chosen herbicides were those most widely used by farmers and of different physico-chemical characteristics.
The analyzed characteristics were visual symptoms of intoxication by means of a scale of percentage in which zero corresponds to no injury and 100 corresponds to the death of the plant (SBCPD, 1995). The observations were made 14, 28, 35, 42, 49, 56, and 63 days after application (DAA). Plant height and number of tillers were determined 14, 35, 49, and 63 DAA, the dry weight of shoot (DWS) and the dry weight of root (DWR) at 63 DAA.
The results were submitted to the analysis of variance by F-test, and the means were compared by the Tukey test (5%). The statistical program used was Sisvar 5.0.
RESULTS AND DISCUSSION
The herbicides had a significant effect on the visual symptoms of intoxication since 14 DAA. In general, the most agressive treatments were, in decreasing order, diclosulam, sulfentrazone, and the association between S-metolachlor and sulfentrazone. Diclosulam resulted in the clearest symptoms of intoxication during the period between 35 and 49 DAA (Table 1). The most important symptoms were a lighter green color in the leaves and a reduction of height and vigor of the plants. These results are in disagreement with those ones reported by TERRA (2003TERRA, M.A. Seletividade de diclosulam, trifloxysulfuron-sodium e ametryne a cultivares de cana-de-açúcar. 2003. 60f. Dissertação (Mestrado em Agricultura) - Faculdade de Ciências Agronômicas, Universidade Estadual Paulista “Júlio de Mesquita Filho”, Botucatu, 2003. ) and MARTINS et al. (2005MARTINS, D.; VELINI, E.D.; NEGLISOLE, E.; MARCHI, S.R.; SILVA, J.R.V. Seletividade do diclosulam aplicado em pré-emergência e pós-emergência em diversas cultivares de cana-de-açúcar. Revista Brasileira de Herbicidas, Passo Fundo, v.4, n.2, p.77-85, 2005.), in whose works no symptom was detected in sugar cane plantlets treated with diclosulam applied in pre-emergence.
Sulfentrazone was the second most toxic herbicide. The period in which the symptoms were more clearly visible was that between 21 and 42 DAA, though the toxicity symptoms of sulfentrazone started to dissipate 49 DAA and were almost completely gone 63 DAA (Table 1). The main intoxication symptom was the presence of purple spots followed by necrosis in the leaves. Under pre-emergence conditions, BARELA (2005BARELA, J.F. Seletividade de herbicidas para a cultura da cana-de-açúcar (Saccharum spp.) afetada pela interação com nematicidas aplicados no plantio. 2005. 83f. Dissertação (Mestrado em Agronomia) - Escola Superior de Agricultura “Luiz de Queiroz”, Universidade de São Paulo, Piracicaba, 2005.) and NEGRISOLI (2002NEGRISOLI, E. Seletividade de herbicidas aplicados em pré-emergência e associados a nematicidas, à cultura da cana-de-açúcar, cultivar RB855113. 2002. 48f. Dissertação (Mestrado em Agricultura) - Faculdade de Ciências Agronômicas, Universidade Estadual Paulista “Júlio de Mesquita Filho”, Botucatu, 2002.) observed no intoxication symptoms caused by sulfentrazone, thus in disagreement with our results.
The association of S-metolachlor and sulfentrazone was the third most toxic treatment. Probably, the intoxication symptoms of that mixture were less severe than those of isolated sulfentrazone due to a possible antagonic effect between those products, considering that the sulfentrazone doses were the same in both treatments (Table 1).
S-metolachlor, clomazone, metribuzin and diuron + hexazinone were visually selective to the PBS, since they caused intoxication symptoms lower than 2.1% during the whole experimental period (Table 1). Making use of clomazone in pre-emergence, NEGRISOLI et al. (2002NEGRISOLI, E. Seletividade de herbicidas aplicados em pré-emergência e associados a nematicidas, à cultura da cana-de-açúcar, cultivar RB855113. 2002. 48f. Dissertação (Mestrado em Agricultura) - Faculdade de Ciências Agronômicas, Universidade Estadual Paulista “Júlio de Mesquita Filho”, Botucatu, 2002.), BARELA (2005BARELA, J.F. Seletividade de herbicidas para a cultura da cana-de-açúcar (Saccharum spp.) afetada pela interação com nematicidas aplicados no plantio. 2005. 83f. Dissertação (Mestrado em Agronomia) - Escola Superior de Agricultura “Luiz de Queiroz”, Universidade de São Paulo, Piracicaba, 2005.) and SANDANIEL et al. (2008SANDANIEL, C.R.; FERNANDEZ, L.B.; BARROSO, A.L.L. Controle de plantas daninhas em cana soca com herbicidas aplicados em pré-emergência. Núcleos, Ituverava, n.1, p.1-10, 2008.) also reported selectivity of sugar cane to this herbicide. BARELA (2005BARELA, J.F. Seletividade de herbicidas para a cultura da cana-de-açúcar (Saccharum spp.) afetada pela interação com nematicidas aplicados no plantio. 2005. 83f. Dissertação (Mestrado em Agronomia) - Escola Superior de Agricultura “Luiz de Queiroz”, Universidade de São Paulo, Piracicaba, 2005.) also observed no intoxication signs caused by diuron + hexazinone applied in pre-emergence to sugar cane.
Cultivar effects on the visual symptoms of intoxication evaluated 42, 56, and 63 DAA were significant. At those three moments, CTC14 was the most affected one, followed by RB966928. CTC7 was the less affected one (Table 1).
Observations made 14, 28, 56, and 63 DAA showed a statistically significant interaction between herbicides and cultivars (Table 1).
In Table 2, one may observe the mean values resulting from the partitioning of the sum of squares of the degrees of freedom of the treatments, when the interactions were significant.
On the 14th DAA, the only herbicide showing different responses of the cultivars was diclosulam. Among the cultivars, CTC14 and RB966928 were the ones most severely injured by the herbicides. On the 28th DAA, cultivars CTC14 and RB966928 showed the highest sensitivity to diclosulam, whereas to sulfentrazone the most sensitive ones were cultivars CTC14 and CTC7. Observations made 56 DAA showed that only diclosulam caused significant injury to the cultivars, with the exception of CTC14 - in this cultivar, sulfentrazone also caused injury, although less severe than those caused by diclosulam. At the end of the study, on the 63rd DAA, the only herbicide different from the others was the diclosulam - it caused high levels of intoxication in the three cultivars with CTC14, being the most severely injured one (Table 2).
The results of the analysis of variance of the data concerning plant height and the effects of the herbicides and cultivars are shown in Table 3.
The herbicides had a significant influence on plant height since 14 DAA (Table 3). Fourteen DAA, herbicides had caused significant differences in the height of the plantlets, although none of them differed statistically from the no-treatment case. From 28 DAA onwards up to the last observation, only diclosulam caused reductions in plant height. These data are in agreement with those of visual intoxication symptoms caused by diclosulam (Table 1).
S-metolachlor, clomazone, sulfentrazone, metribuzin, diuron + hexazinone, and S-metolachlor + sulfentrazone did not cause reductions in PBS height in all evaluation periods, and are, thus, considered to be selective as to this aspect.
Taking into consideration pre-emergence applications, DINARDO-MIRANDA et al. (2001DINARDO-MIRANDA, L.L.; GARCIA, V.; JACON, J.J. Efeito da Interação entre nematicidas e herbicidas em cana-de-açúcar. Nematologia brasileira, v.25, n.2, p.197-203, 2001.) verified plant height reduction in sugar cane treated with metribuzin (1,680 g.ha-1) and clomazone (1,000 g.ha-1). These results are supposed to be associated to doses, soil texture and the planting system.
Significant cultivar effects on plantlet height were verified from observations starting 14 DAA (Table 3). In general, CTC7 showed the highest means in all evaluated periods. Cultivars CTC14 and RB966928 did not differ significantly. The highest plant height values in CTC7 could be explained by the cultivar intrinsic characteristics, since its being an erect plant makes it easier to have a higher adaptability to mechanical sowing and harvesting (CTC, 2014CTC. Centro de Tecnologia Canavieira. Variedades CTC. Disponível em: <Disponível em: http://www.ctcanavieira.com.br/downloads/variedades2013WEB3.pdf
>. Acesso em: 10 ago. 2014.
http://www.ctcanavieira.com.br/downloads...
).
Herbicide vs. cultivar interaction had no significant effect on plantlet height (Table 3).
The results of the analysis of variance of data regarding the number of tillers and the effects of herbicides and cultivars are shown in Table 4.
Herbicides had a significant effect on the reduction of number of tillers, as shown by observations made 28, 42, and 56 DAA. The only treatment causing reduction in the number of tillers was diclosulam, with a mean lower than two tillers up to 56 DAA (Table 4).
MARTINS et al. (2005MARTINS, D.; VELINI, E.D.; NEGLISOLE, E.; MARCHI, S.R.; SILVA, J.R.V. Seletividade do diclosulam aplicado em pré-emergência e pós-emergência em diversas cultivares de cana-de-açúcar. Revista Brasileira de Herbicidas, Passo Fundo, v.4, n.2, p.77-85, 2005.) reported to have found no reduction in tiller number when diclosulam was applied in pre-emergence. These results do no support the ones presented here, probably because the planting system of pre-sprouted plantlets was not used.
Taking in consideration pre-emergence applications, DINARDO-MIRANDA et al. (2001DINARDO-MIRANDA, L.L.; GARCIA, V.; JACON, J.J. Efeito da Interação entre nematicidas e herbicidas em cana-de-açúcar. Nematologia brasileira, v.25, n.2, p.197-203, 2001.) verified, in sugar cane, that the application of metribuzin (1,680 kg.ha-1), clomazone (100 g.ha-1), and clomazone + (diuron + hexazinone) (1,000 + 468 + 132 g.ha-1) caused significant reduction in tiller number, i.e., conflicting results with the ones herein reported. These conflicting results may be ascribed to the planting system and soil texture, since DINARDO-MIRANDA et al. (2001DINARDO-MIRANDA, L.L.; GARCIA, V.; JACON, J.J. Efeito da Interação entre nematicidas e herbicidas em cana-de-açúcar. Nematologia brasileira, v.25, n.2, p.197-203, 2001.) used similar doses to the ones used in this study in a sandy soil.
All the other treatments with S-metolachlor, clomazone, sulfentrazone, metribuzin, and diuron + hexazinone were selective as to the number of tillers of pre-sprouted plantlets from 14 to 56 DAA, which all showed significant difference only from the treatment with diclosulam.
Cultivar effects on number of tillers were significant in the observations made 28, 42, and 56 DAA (Table 4). The largest number of tillers in cultivar RB966928 may be related to intrinsic characteristics of the cultivar since it is classified as a high-tillering cultivar (RIDESA, 2014RIDESA. Rede Interuniversitária para o Desenvolvimento do Setor Sucroalcooleiro. Catálogo nacional de variedades “RB” de cana-de-açúcar. 2010. Disponível em: <Disponível em: http://canaufv.com.br/catalogo/catalogo-2010.pdf
>. Acesso em: 08 ago. 2014.
http://canaufv.com.br/catalogo/catalogo-...
).
The interactions of the effects of the herbicides and those of the cultivars on the number of tillers were significant at the 28th and the 42nd DAA (Table 4). Table 5 shows the mean values of the partitioning of the sum of squares of the degrees of freedom of the treatments in those periods.
On the 28th DAA, the treatments with clomazone, diclosulam, and diuron + hexazinone led to a significant reduction in tiller number in cultivar CTC14, in comparison to the treatment with sulfentrazone. However, none of the treatments differed significantly from the no treatment case. In cultivar CTC7, the treatment with metribuzin resulted in a significantly higher number of tillers than that of the diclosulam. None of the treatments differed significantly from the no treatment case, though. Diclosulam caused a significant reduction in the number of tillers of cultivar RB966928.
On the 42nd DAA, it was verified that clomazone, diclosulam, and metribuzin resulted in cultivar CTC14 significant reductions in comparison with no treatment case. In cultivar CTC7, diclosulam did not lead to significant differences in comparison with the treatment with diuron + hexazinone and no treatment group, but, when compared to the other herbicides, its negative effects were significant. For cultivar RB966928, data from the 28th DAA showed that diclosulam caused a significant reduction in the number of tillers in comparison with other herbicides.
In general, it was observed that the intoxication caused by the herbicides to the plantlets (Table 5) led to a reduction in the number of tillers since the herbicide causing the strongest symptoms of intoxication (diclosulam) was also the one causing the largest reduction in the number of tillers.
The results of the analysis of variance reffering to the accumulated DWR and DWS and the effects of herbicides and cultivars are shown in Table 6.
Herbicides had a significant effect on the accumulation of DWR and DWS, as measured on the 63rd DAA (Table 6). The treatment with diclosulam, followed by the treatment with sulfentrazone, caused significant reductions in DWR, but only the treatment with diclosulam caused significant reductions in the accumulation of DWS. On the other hand, the plantlets treated with diclosulam showed an accumulation of dry matter in the root system much lower than that observed for treatment with sulfentrazone.
The effects of cultivars were significant for the accumulation of DWS when measured on the 63rd DAA, but not for the accumulation of DWR (Table 6). The highest amount of accumulated DWS was observed for cultivar CTC14 and the lowest one for RB966928. No difference in comparison with the others was observed in cultivar CTC7.
The accumulation of DWR and DWS by the pre-sprouted plantlets was not significantly influenced by the interaction between the herbicides and cultivars (Table 6).
In general, it was observed that the intoxication brought about by the treatments with the herbicides (Table 5) resulted in lower production of DWS and mainly of DWR. GALON et al. (2009GALON, L.; FERREIRA, E.A.; FERREIRA, F.A.; SILVA, A.A.; BARBOSA, M.H.P.; REIS, M.R.; SILVA, A.F.; CONCENÇO, G.; ASPIAZÚ, I.; FRANÇA, A.C.; TIRONE, S.P. Influência de herbicidas na qualidade da matéria-prima de genótipos de cana-de-açúcar. Planta Daninha, Viçosa-MG, v.27, n.3, p.555-562, 2009.), in a study of herbicide selectivity in sugar cane, also observed that the most intense symptoms of intoxication were related to the lowest DWS values.
It is worthwhile to mention that most of the mentioned studies which showed that the evaluated treatments showed selectivity were conducted in conventional plantings. The planting of pre-sprouted plantlets has some particularities which may cause damage to the crop.
The first particularity in the management of herbicides when planting PBS is the abscence of selectivity by positioning or toponomic selectivity. In the conventional method of planting sugar cane, the positioning selectivity was verified to occur since the planting material is positioned at a depth between 25 and 30 cm, far from the zone where the herbicides are placed (3 to 5 cm). When the herbicides are applied before planting the PBS, at planting, the plantlets will be placed right on top of the treated surface rather than below it. In addition to that, the PBS already show a large number of roots when they reach the field. These roots are the main via by which residual herbicides are absorbed.
Crop age is another factor intensifying herbicide effects in the PBS. Young plants have less specialized tissues, thus increasing the translocation of herbicides inside the plants (OLIVEIRA JR.; INOUE, 2011OLIVEIRA JR., R.S; INOUE, M.H. Seletividade de herbicidas para culturas e plantas daninhas. In: Biologia e Manejo de Plantas Daninhas. Curitiba: Omnipax, 348p., cap.10, 2011.).
The physico-chemical characteristics of the soil, which interact with herbicides and thus influence their adsorption, are the organic matter content, the texture and mineralogy, the cation exchanging capacity, pH and the water content. The soil used in this experiment shows high levels of those characteristics, therefore contributing for a larger adsorption of the herbicides molecules. Thus, these herbicides may lead to different results from the ones of this experiment.
The physico-chemical characteristics of the herbicides which influence their adsorption, and thus their selectivity by the crop, are: water solubility (S), coefficient of the herbicide distribution in the soil and the organic matter (Kd, Koc); coefficient of the octanol-water (Kow) partition; and the electrolitic dissociation capacity (pK). According to OLIVEIRA JR; INOUE (2011OLIVEIRA JR., R.S; INOUE, M.H. Seletividade de herbicidas para culturas e plantas daninhas. In: Biologia e Manejo de Plantas Daninhas. Curitiba: Omnipax, 348p., cap.10, 2011.), for herbicides whose pK is equal to zero (non-ionizable), the Kow, Koc, and S are the most impactant characteristics on the adsorption of herbicide molecules. In addition to that, they have more affinity with the organic fraction than with the mineral fraction of the soil. The non-ionizable herbicides used in this experiment were S-metolachlor, clomazone, and diuron + hexazinone, whose Kow and Koc values (with the exception of hexazinone) favor a larger sorption of the herbicide, leading to a lower availability of the herbicide in the soil solution and thus reducing the chances of their being absorbed by the pre-sprouted plantlets. For those herbicides whose pk value is larger than zero (ionizables), in addition to Kow, Koc and S, the pK and pH values of the soil, also have a very strong influence on the sorption of herbicide molecules. These ionizable herbicides have a higher affinity with the mineral fraction than with the organic fraction of the soil. The ionizable herbicides used in this experiment were diclosulam, sulfentrazone, and metribuzin. All of them had low Koc values and, in a pH in CaCl2 = 5.5, they are lowly adsorbed and have, thus, their availability increased in the soil solution, which increases their chances of being absorbed in large quantities.
It is supposed that the diclosulam (the most toxic herbicide in the experiment) and sulfentrazone (the second most toxic herbicide) herbicides are not properly metabolized by those cultivars. Specifically in the case of diclosulam, other factors may have intensified its effects on the cultivars, such as its efficient translocation inside the plant (translocation via xylem/phloem) and also not having to go long distances inside the plant to reach its action site.
Considering all high effect factors on selectivity, it is possible to conclude that the treatments with S-metolachlor, clomazone, and diuron + hexazinone were selective mainly due to their physico-chemical characteristics, which favor a greater adsorption to the soil colloids, and thus, with decreasing chances of being absorbed in large quantities and/or to factors linked to the plant (differentiated absorption, differentiated translocation and metabolization). On the other hand, in treatments with metribuzin, selectivity was probably influenced by factors related to the plant, since its physico-chemical characteristics favor a larger availability in the soil solution and thus increases its chances of being absorbed in large quantities.
It is necessary to remember that this study produced important results concerning the selectivity of herbicides in pre-sprouted plantlets of three sugar cane cultivars. But, since it was conducted in vases, it is necessary to conduct it again, in the field, with the evaluation of production and technological parameters, to confirm the results herein presented.
CONCLUSION
Under the conditions prevailing during this experiment, the data allowed the conclusion that the diclosulam herbicide was less selective to the sugar cane cultivars planted with PBS, followed by sulfentrazone. The S-metolachlor, clomazone, metribuzin, diuron + hexazinone and S-metolachlor + sulfentrazone herbicides were selective to the sugar cane cultivars planted with PBS. Visually, cultivar CTC14 was the least tolerant one to diclosulam and sulfentrazone in comparison with cultivars RB966928 and CTC7.
REFERENCES
- BARELA, J.F. Seletividade de herbicidas para a cultura da cana-de-açúcar (Saccharum spp.) afetada pela interação com nematicidas aplicados no plantio 2005. 83f. Dissertação (Mestrado em Agronomia) - Escola Superior de Agricultura “Luiz de Queiroz”, Universidade de São Paulo, Piracicaba, 2005.
- CHRISTOFFOLETI, P.J.; BORGES, A.; NICOLAI, M.; CARVALHO, S.P.J.; LÓPEZ-OVEJERO, R.F.; MONQUERO, P.A. Carfentrazone-ethyl aplicado em pós-emergência para o controle de Ipomoea spp. e Commelina benghalensis na cultura da cana-de-açúcar. Planta Daninha, Campinas, v.24, n.1, p.83-90, 2006. Disponível em: <http://dx.doi.org/10.1590/S0100-83582006000100011>.
» http://dx.doi.org/10.1590/S0100-83582006000100011 - CTC. Centro de Tecnologia Canavieira. Variedades CTC Disponível em: <Disponível em: http://www.ctcanavieira.com.br/downloads/variedades2013WEB3.pdf >. Acesso em: 10 ago. 2014.
» http://www.ctcanavieira.com.br/downloads/variedades2013WEB3.pdf - DINARDO-MIRANDA, L.L.; GARCIA, V.; JACON, J.J. Efeito da Interação entre nematicidas e herbicidas em cana-de-açúcar. Nematologia brasileira, v.25, n.2, p.197-203, 2001.
- EMBRAPA. Empresa Brasileira de Pesquisa Agropecuária. Centro Nacional de Pesquisa Agropecuária de Solos. Sistema brasileiro de classificação de solos Rio de Janeiro, 2006. 412p.
- GALON, L.; FERREIRA, E.A.; FERREIRA, F.A.; SILVA, A.A.; BARBOSA, M.H.P.; REIS, M.R.; SILVA, A.F.; CONCENÇO, G.; ASPIAZÚ, I.; FRANÇA, A.C.; TIRONE, S.P. Influência de herbicidas na qualidade da matéria-prima de genótipos de cana-de-açúcar. Planta Daninha, Viçosa-MG, v.27, n.3, p.555-562, 2009.
- LANDELL, M.G.A.; CAMPANA, M.P.; FIGUEIREDO, P.; XAVIER, M.A.; ANJOS, I.A.; DINARDO-MIRANDO, L.L.; SCARPARI, M.S.; GARCIA, J.C.; BIDÓIA, M.A.P.; SILVA, D.N.; MENDONÇA, J.R.; KANTHACK, R.A.D.; CAMPOS, M.F.; BRANCALIÃO, S.R.; PETRI, R.H.; MIGUEL, P.E.M. Sistema de multiplicação de cana-de-açúcar com uso de mudas pré-brotadas (MPB), oriundas de gemas individualizadas Campinas: IAC, 2012. (Documentos, 109). Disponível.em: <Disponível.em: http://www.iac.sp.gov.br/publicacoes/porassunto/pdf/Doc%20109_online.pdf >. Acesso em: 20 jun. 2014.
» http://www.iac.sp.gov.br/publicacoes/porassunto/pdf/Doc%20109_online.pdf - MARTINS, D.; VELINI, E.D.; NEGLISOLE, E.; MARCHI, S.R.; SILVA, J.R.V. Seletividade do diclosulam aplicado em pré-emergência e pós-emergência em diversas cultivares de cana-de-açúcar. Revista Brasileira de Herbicidas, Passo Fundo, v.4, n.2, p.77-85, 2005.
- NEGRISOLI, E. Seletividade de herbicidas aplicados em pré-emergência e associados a nematicidas, à cultura da cana-de-açúcar, cultivar RB855113 2002. 48f. Dissertação (Mestrado em Agricultura) - Faculdade de Ciências Agronômicas, Universidade Estadual Paulista “Júlio de Mesquita Filho”, Botucatu, 2002.
- OLIVEIRA JR., R.S; INOUE, M.H. Seletividade de herbicidas para culturas e plantas daninhas In: Biologia e Manejo de Plantas Daninhas Curitiba: Omnipax, 348p., cap.10, 2011.
- RIDESA. Rede Interuniversitária para o Desenvolvimento do Setor Sucroalcooleiro. Catálogo nacional de variedades “RB” de cana-de-açúcar 2010. Disponível em: <Disponível em: http://canaufv.com.br/catalogo/catalogo-2010.pdf >. Acesso em: 08 ago. 2014.
» http://canaufv.com.br/catalogo/catalogo-2010.pdf - SANDANIEL, C.R.; FERNANDEZ, L.B.; BARROSO, A.L.L. Controle de plantas daninhas em cana soca com herbicidas aplicados em pré-emergência. Núcleos, Ituverava, n.1, p.1-10, 2008.
- SOCIEDADE BRASILEIRA DA CIÊNCIA DAS PLANTAS DANINHAS. SBCPD. Procedimentos para instalação, avaliação e análise de experimentos com herbicidas Londrina, 1995. 42p.
- TERRA, M.A. Seletividade de diclosulam, trifloxysulfuron-sodium e ametryne a cultivares de cana-de-açúcar 2003. 60f. Dissertação (Mestrado em Agricultura) - Faculdade de Ciências Agronômicas, Universidade Estadual Paulista “Júlio de Mesquita Filho”, Botucatu, 2003.
- VELINI, E.D.; MARTINS, D.; MANOEL, L.A.; MATSUOKA, S.; TRAVAIN, J.C.; CARVALHO, J.C. Avaliação da seletividade da mistura de oxyfluorfen e ametryne, aplicada em pré ou pós-emergência, a dez cultivares de cana-de-açúcar (cana-planta). Planta Daninha, Viçosa, v.18, n.1, p.123-134, 2000.
- VICTÓRIA FILHO, R.; CHRISTOFFOLETI, P.J. Manejo de plantas daninhas e produtividade da cana. Visão Agrícola, Piracicaba, n.1, p.32-37, 2004.
Publication Dates
-
Publication in this collection
2017
History
-
Received
12 Feb 2015 -
Accepted
16 Mar 2017