Avaliação da toxicidade aguda do inseticida metomil e o seu efeito sobre a atividade da acetilcolinesterase do peixe Danio rerio

Methomyl (Lannate®) is an insecticide from the carbamate group, frequently used in pest control in various types of crops. This compound works inhibiting the activity of the enzyme acetylcholinesterase. The use of physicochemical and ecotoxicological analysis is the most efficient strategy for the correct characterization and control of residues of metomil. The main objectives of this study were to evaluate the acute toxicity of methomyl in 96 hours of exposure and, through a sublethal assay of 5 hours, to assess its effect on the activity of acetylcholinesterase present in brain and squeletic dorsal muscle of the Danio rerio fish. The results showed that the LC50-96 found to D. rerio was 3.4 mg/L and it was found through the average of four definitive tests. In vitro assays were used to test the inhibitory action of methomyl directly over soluble AChE, extracted from the squeletic dorsal muscle, with maximum inhibition of 68.57% to the insecticide concentrations of 0.2 mg/L. In sublethal tests with D. rerio, inhibitory effect of methomyl was found over the soluble form of AChE in the squeletic dorsal muscle, both in one and five hours of fish exposure to the insecticide. In both period, the average values of inhibition were around 61%. In the same condition, no significant inhibitory effect of methomyl soluble and membrane AChE of the D. rerio was observed in the 0.42, 0.85, 1.70 and 2.50 mg/L concentrations and in both times of fish exposure

Enhancing legume ecosystem services through an understanding of plant–pollinator interplay

Legumes are bee-pollinated, but to a different extent. The importance of the plant– pollinator interplay (PPI), in flowering crops such as legumes lies in a combination of the importance of pollination for the production service and breeding strategies, plus the increasing urgency in mitigating the decline of pollinators through the development and implementation of conservation measures. To realize the full potential of the PPI, a multidisciplinary approach is required. This article assembles an international team of genebank managers, geneticists, plant breeders, experts on environmental governance and agro-ecology, and comprises several sections. The contributions in these sections outline both the state of the art of knowledge in the field and the novel aspects under development, and encompass a range of reviews, opinions and perspectives. The first three sections explore the role of PPI in legume breeding strategies. PPI based approaches to crop improvement can make it possible to adapt and re-design breeding strategies to meet both goals of: (1) optimal productivity, based on an efficient use of pollinators, and (2) biodiversity conservation. The next section deals with entomological aspects and focuses on the protection of the “pest control service” and pollinators in legume crops. The final section addresses general approaches to encourage the synergybetweenfoodproductionandpollinationservicesatfarmerfieldlevel.Twobasic approaches are proposed: (a) Farming with Alternative Pollinators and (b) Crop Design System.

Enhancing legume ecosystem services through an understanding of plant–pollinator interplay

Legumes are bee-pollinated, but to a different extent. The importance of the plant– pollinator interplay (PPI), in flowering crops such as legumes lies in a combination of the importance of pollination for the production service and breeding strategies, plus the increasing urgency in mitigating the decline of pollinators through the development and implementation of conservation measures. To realize the full potential of the PPI, a multidisciplinary approach is required. This article assembles an international team of genebank managers, geneticists, plant breeders, experts on environmental governance and agro-ecology, and comprises several sections. The contributions in these sections outline both the state of the art of knowledge in the field and the novel aspects under development, and encompass a range of reviews, opinions and perspectives. The first three sections explore the role of PPI in legume breeding strategies. PPI based approaches to crop improvement can make it possible to adapt and re-design breeding strategies to meet both goals of: (1) optimal productivity, based on an efficient use of pollinators, and (2) biodiversity conservation. The next section deals with entomological aspects and focuses on the protection of the “pest control service” and pollinators in legume crops. The final section addresses general approaches to encourage the synergybetweenfoodproductionandpollinationservicesatfarmerfieldlevel.Twobasic approaches are proposed: (a) Farming with Alternative Pollinators and (b) Crop Design System.

Biotechnology and crop protection in Brazil.

The process of modernization of Brazilian agriculture aimed at increasing the productivity in response to the high demand for agricultural products in the world market and it was based on the intensive use of inputs such as agrochemicals, intense mechanisation and breeding of new varieties. Among these, pesticides were incorporated in almost all production systems. Over reliance on pesticide use has produced many negative effects on both biotic and abiotic components of the environment, generating chemical contamination of soil and water, decrease in biological diversity of agroecosystems, disruption of natural cycles, pest resistance, intoxication of growers, among others. The consumption of pesticides in Brazil was 151.8 thousand tonnes in 1989, and today the country is the fifth world market of these products. The use of pesticides increased from 16 thousand tonnes (a.i.) in 1964 to 60.2 thousand tonnes in 1991, while the area planted to crops grew from 28.4 to 50.0 million ha in the same period. This means an increase of 276.2% in consumption of pesticides compared to an increase of 76% in planted area. Even with this large increase in the use of pesticides, the losses caused by pests have not been significantly reduced, and the net gain in crop productivity has been low. On the other hand, problems with food contamination, environmental degradation of growers have considerably mounted. It is possible to define two classes of crops regarding intense use of pesticides. One is represented by those crops that occupy large areas, and therefore contribute to a large amont of pesticides used for pest control in a country basis. The other class comprises crops that require large amounts of pesticides per unit of area, but not necessarily represent large amounts of pesticides used coutry-wide. Based on the classes proposed, citrus, soybean and sugarcane stand as crops with a nationally great consumption of pesticides, while tomato, potato and citrus are important as intensive users of pesticides. In this paper the biotechnologies in use, the biotechnologies in advanced stages of development, the main constraints to the development and use of biotechnlology and the impact of pesticed on the environment are discussed.

Influence of Baculovirus anticarsia on the growth rate and survival of some nontarget aquatic organisms.

Recently, microbial pest control agents (MPCAs) have been worldwide used to reduce chemical pesticide use and to diminish the high risk of those compounds in the environment. Among various MPCAs, the nuclear polyhedrosis virus Baculovirus anticarsia is widely used in Brazil in the biological control of the velvet bean caterpillar. Although literature data do not show adverse effects of baculoviruses to nontarget organisms, it is necessary to evaluate their toxicity or patogenicity in order to study th environmental risk of those products and to register the formulations in the Brazilian Environmental Regularory Agency - IBAMA. In the presente work, the influence of a Baculovirus anticarsia formulation was evaluted to measure the consequences in the growth rateof the green algae Selenastrum capricornutum, the duckweed Lemna valdiviana and the microcrustacean Daphnia similis. The survival of the fish Hyphessobrycon scholzei exposed during 28 days was also evaluated. No significative adverse effects (P > 0.05) were observed in the test organisms which were exposed to 1-1000 times the maximum calculated pesticide concentration following a direct application to 15 cm layer of water.

Formigas associadas a cochonilhas-farinhentas em cultivos de videira no semiárido brasileiro.

A região do Submédio São Francisco é pioneira na produção de uvas em condições tropicais no Brasil. No entanto, com a expansão das áreas cultivadas, surge simultaneamente, a ampliação da distribuição de insetos-praga (OLIVEIRA et al., 2010), como as cochonilhas. Dentre as espécies que atacam os cultivos de videira na região, destacam-se as cochonilhas-farinhentas (Hemiptera: Pseudococcidae) das espécies Maconelicoccus hirsutus (Green, 1908), Planococcus citri (Risso, 1813) e Dysmicoccus brevipes (Cockerell, 1893). Estas espécies podem ocasionar danos em uvas destinadas ao consumo in natura, danificando as bagas devido à sucção de seiva e como consequência, favorecer o aparecimento da fumagina, depreciando a fruta para o mercado externo e o interno (MORANDI FILHO, 2008). As formigas são muito importantes por dispersarem as cochonilhas-farinhentas e a constatação de algumas espécies em videira pode ser um indicativo da presença de populações destes insetos (DAANE et. al., 2006). Formigas e cochonilhas da família Pseudococcidade podem associar-se com benefícios mútuos. Neste tipo de relação, as formigas se alimentam do honeydew excretado e em troca, defendem as cochonilhas dos seus inimigos naturais, diminuem a taxa de mortalidade, e consequentemente, aumentam a população de cochonilhas, auxiliam na diminuição da contaminação dos fungos e/ou transportam as suas ninfas para outros locais de nidificação (ZHOU et al., 2015). Um exemplo é a espécie de formiga argentina Linepithema humile (Hymenoptera: formicidae) que tem se associado diretamente à cochonilha-farinhenta em busca das excreções açucaradas, tendo sido considerada uma das principais pragas, como na Califórnia e na África do Sul (DAANE et al. 2006). Além disso, a presença de formigas dificulta o controle biológico (MGOCHEKI; ADDISON, 2009) e como as formigas transportam as ninfas para o interior dos cachos, o controle é dificultado. Assim, o controle de formigas deve estar associado às estratégias de manejo das cochonilhas-praga (DAANE et. al., 2008). Com isso, o objetivo deste trabalho foi realizar o levantamento de espécies de formigas 31 doceiras associadas à cochonilhas-farinhentas (Hemiptera: Pseudococcidae) em cultivos de videira no Submédio São Francisco.

Cochonilha rosada Maconelicoccus hirsutus: inter-relações no ambiente produtivo de videira e plantas espontâneas.

Maconellicoccus hirsutus (Green, 1908) (Hemiptera: Pseudococcidae), conhecida como cochonilha-rosada-do-hibisco é uma espécie altamente polífaga por apresentar hospedeiros distribuídos em 76 famílias, incluídos em mais de 200 gêneros, (OEPP/EPPO, 2005), podendo causar severos danos em culturas economicamente importantes como algodão, citros, cacau, café e uva (TAMBASCO et al., 2000). Esta cochonilha foi registrada pela primeira vez no Brasil em 2010 no Estado de Roraima infestando mudas de hibisco (MARSARO JÚNIOR et al., 2013) e no ano de 2012 foi encontrada no Estado do Espírito Santo em cultivo de quiabo (CULIK et al., 2013). Em 2013, no Espírito Santo e na Bahia, foi registrada a ocorrência da cochonilha rosada em cacaueiros (CEPLAC, 2014). Neste mesmo ano, M. hirsutus foi excluída da lista de pragas quarentenárias ausentes A1. E recentemente, foi registrada na região do Submédio do Vale do São Francisco em cultivos de videira (OLIVEIRA et. al., 2014). O Submédio do Vale do São Francisco é responsável por 95% das exportações brasileiras de uvas de mesa e infestações de cochonilhas vem sendo constatadas com frequência em parreiras comerciais. As cochonilhas são encontradas alimentando-se em todas as partes da planta de uva, sendo frequentemente observados sérios prejuízos a produção. As cochonilhas possuem vários hospedeiros alternativos que mantêm a população na entressafra, permitindo rápida infestação e crescimento populacional. Como recentemente M. hirsutus foi relatada se dispersando rapidamente pelo Brasil e constatada recentemente na região, o conhecimento de plantas hospedeiras alternativas torna-se uma prática importante, visto que, muitas plantas podem ser hospedeiras de cochonilhas durante o período em que a planta não está produzindo e, além disso, é um dos requisitos fundamentais para o planejamento do manejo integrado (MAZIERO et. al., 2007). Assim, este trabalho teve como objetivo identificar as espécies de plantas hospedeiras alternativas de M. hirsutus em agroecossistemas de videira na região do Submédio do Vale do São Francisco.

Learning in Helicoverpa armigera (Lepidoptera: Noctuidae): a new look at the behaviour and control of a polyphagous pest

Recent experimental evidence has shown that learning occurs in the host selection behaviour of Helicoverpa armigera (Hübner), one of the world‘s most important agricultural pests. This paper discusses how the occurrence of learning changes our understanding of the host selection behaviour of this polyphagous moth. Host preferences determined from previous laboratory studies may be vastly different from preferences exhibited by moths in the field, where the abundance of particular hosts may be more likely to determine host preference. In support of this prediction, a number of field studies have shown that the ‘attractiveness’ of different hosts for H. armigera oviposition may depend on the relative abundance of these host species. Insect learning may play a fundamental role in the design and application of present and future integrated pest management strategies such as the use of host volatiles, trap crops and resistant crop varieties for monitoring and controlling this important pest species

Utilizing the assassin bug, Pristhesancus plagipennis (Hemiptera: Reduviidae), as a biological control agent within an integrated pest management programme for Helicoverpa spp. (Lepidoptera: Noctuidae) and Creontiades spp. (Hemiptera: Miridae) in cotton

Helicoverpa spp. and mirids, Creontiades spp., have been difficult to control biologically in cotton due to their unpredictable temporal abundance combined with a cropping environment often made hostile by frequent usage of broad spectrum insecticides. To address this problem, a range of new generation insecticides registered for use in cotton were tested for compatibility with the assassin bug, Pristhesancus plagipennis (Walker), a potential biological control agent for Helicoverpa spp. and Creontiades spp. Indoxacarb, pyriproxifen, buprofezin, spinosad and fipronil were found to be of low to moderate toxicity on P. plagipennis whilst emamectin benzoate, abamectin, diafenthiuron, imidacloprid and omethaote were moderate to highly toxic. Inundative releases of P. plagipennis integrated with insecticides identified as being of low toxicity were then tested and compared with treatments of P. plagipennis and the compatible insecticides used alone, conventionally sprayed usage practice and an untreated control during two field experiments in cotton. The biological control provided by P. plagipennis nymphs when combined with compatible insecticides provided significant (P<0.001) reductions in Helicoverpa and Creontiades spp. on cotton and provided equivalent yields to conventionally sprayed cotton with half of the synthetic insecticide input. Despite this, the utilization of P. plagipennis in cotton as part of an integrated pest management programme remains unlikely due to high inundative release costs relative to other control technologies such as insecticides and transgenic (Bt) cotton varieties.

Assessing the biological control potential of an adventitiously-established "pest", Scirtothrips aurantii (Faure), on a weed, Bryophyllum delagoense (Eckl. & Zeyh.), in Queensland

South African citrus thrips (Scirtothrips aurantii) established adventitiously in Australia. Although it is a major horticultural pest in Africa, it is now advocated as a possible biological control agent against Bryophyllum delagoense Eckl. & Zeyh. (Crassulaceae). To evaluate the biocontrol potential of S. aurantii a two year field study was conducted on the western Darling Downs of southern Queensland. Imidacloprid insecticide was applied to two quadrats at each of 18 field sites to assess, in the absence of S. aurantii, the persistence of individual plants and to quantify propagule production and recruitment by this declared weed. A third quadrat was left, as a control, to be infested naturally by S. aurantii. When released from herbivory by thrips in the field, plants grew significantly more, flowered more, and were significantly more fecund than plants in the quadrats with S. aurantii. Increases in growth and fecundity translated into significantly increased plant numbers but not increased recruitment. Recruitment even declined in experimental quadrats, through the indirect effects of releasing plants from herbivory. Field sampling also revealed that S. aurantii may be sensitive to seasonal climatic fluctuations. These and other local climatic influences may limit the biological control potential of the insect.

Using Trichogramma Westwood (Hymenoptera: Trichogrammatidae) for insect pest biological control in cotton crops: an Australian perspective.

Trichogramma Westwood egg parasitoids alone generally fail to suppress heliothine pests when released in established cotton-growing regions. Factors hindering their success include indiscriminate use of detrimental insecticides, compensation for minimal pest larval hatch due to their activity via reduced larval cannibalism or mortality in general, singly laid heliothine eggs avoiding detection and asynchronous development benefiting host over parasitoid. Yet, despite these limitations, relatively large Trichogramma pretiosum Riley populations pervade and effectively suppress Helicoverpa (Hardwick) pests in Australian Bt (Bacillus thuringiensis Berliner)-transgenic cotton, Gossypium hirsutum L., crops, especially in the Ord River Irrigation Area (ORIA) of tropical northern Australia, where their impact on the potentially resistant pest species, Helicoverpa armigera (Hubner), is considered integral to the local insecticide resistance management (IRM) strategy for continued, sustainable Bt-transgenic cotton production. When devoid of conventional insecticides, relatively warm and stable conditions of the early dry season in winter grown ORIA Bt-transgenic cotton crops are conducive to Trichogramma proliferation and biological control appears effective. Further, there is considerable scope to improve Trichogramma's biological control potential, in both the ORIA and established cotton-growing regions, via habitat manipulation. It is proposed that Trichogramma may prove equally effective in developing agricultural regions of monsoonal northern Australia, and that environmental constraints on Trichogramma survival, and those of other natural enemies, require due consideration prior to their successful application in biological control programs.

Control biológico de tizón temprano (Alternaria solani) en tomate con bacterias epifitas

En el presente trabajo se estudió el control biológico del Tizón Temprano, causado por Alternaria solani en el cultivo de Tomate. Dicho estudio consistió en dos fases: Fase de in vitro, en la cual se determinaron las características bioquímicas y el comportamiento antagonista de las bacterias aisladas del filoplano de la hoja de tomate contra Alternaria solani . En la fase de invernadero in vivo, se estudió el comportamiento de las bacterias escogidas por su conducta antagonista in vitro y no antagonistas en el cultivo de tomate con dos Variedades Dina y Hayslib, tomando dos momentos de aplicación: a) simultáneamente hongo y bacteria, b) aplicación de las bacterias 24 horas antes de la inoculación artificial del hongo. Para el estudio in vitre se tomaron 50 cepas bacteriales, de las cuales cuatro se comportaron antagonistas y 46 no antagonistas; las cuatro cepas antagonistas inhibieron el crecimiento del patógeno. En relación a las 46 cepas se tomó una al azar para la prueba in vivo y las restantes se apartaron. De las 50 cepas, el 30% resultó con Pseudomonas• fluorescentes (15 cepas bacteriales) y el 70% no fluorescentes (35 cepas bacteriales). Para la prueba in vivo en el cultivo de tomate, se utilizaron las cuatro cepas antagonistas y la cepa bacterial no antagonista escogida al azar. En el cultivo de tomate disminuyó la incidencia de la enfermedad en las cuatro cepas bacteriales antagonistas y a la vez observamos disminución en la incidencia de la enfermedad en la cepa de característica no antagonistas.

Influencia de dos cultivos antecesores y control de malezas sobre la cenosis y el crecimiento, desarrollo y rendimiento del tomate (Lycopersicon esculentum L.) c.v UC-82

El ensayo se realizó a partir de Diciembre de 1989 hasta Abril de 1990, en la Cooperativa "Rubén Duarte", Managua, con el obJetivo de "Determinar la influencia de diferentes cultivos antecesores y métodos de control de malezas sobre el crecimiento. desarrollo y rendimiento en el cultivo del tomate". El experimente se estableció en un diseño de Bloques Completos al azar en parcelas divididas con cuatro repeticiones por tratamientos en estudio. Los resultados indican que la mayor abundancia total de malezas se presentó cuando el cultivo antecesor fue el fríjol, reportandose la menor abundancia total en el control mecánico. El mayor peso seco total de malezas se presentó cuando antecedió el cultivo del frijol siendo mayores en las Poáceas y Dicotiledóneas, en el control con Metribuzin fueron las Poáceas y en el control con FluazHop las Dicotiledóneas. En cuanto a la diversidad se reportó que para ambos cultivos antecesores existió alta diversidad, los métodos de control reportaron alta diversidad al comienzo del ciclo disminuyendo al final del ciclo a excepción del control con FluazHop el cual presentó igual diversidad tanto al inicio como al final del ciclo. Con respecto al comportamiento general de las variables de crecimiento y componentes del rendimiento podemos decir que fue similar, presentando llgeramente diferencias la rotación del frijol - tomate y el control mecánico con azadon.

Evaluación del control quimico de malezas y su incidencia en el crecimiento, desarrollo y rendimiento del cultivo del tomate industrial (Lycopersicum esculentum Mill. C.V. "UC-82")

En siembra de tomate industrial (Lycopersicum esculentum Mill C.v. “UC-82”) bajo condiciones de riego, en el valle de sebaco (1986-1987”) se realizó el comportamiento de 5 herbicidas: OXODIAZON, METRIBUZIN, PENDIMENTALIN, NEPROPAMIDA y TRIFLURALIN, cada uno en dos dosis, aplicados según su época en pre siembra incorporado y pre emergente, con el objetivo de determinar el tratamiento que mejor controla las malezas y la influencia que estas mismas ejercen sobre el crecimiento desarrollo y rendimiento del cultivo: los resultados se compararon con dos testigos: uno enmalezado y otro mantenido siempre limpio por el método de control manual. Se observó que ciertas dosis causaron alteración en la normal fenología del cultivo, tal es el caso, de METRIBUZIN 0.35 kg/ha que causo adelanto del periodos de máxima floración, en cambio que PENDIMENTALIN 1.7kg/ha causo retraso sobre el mismo periodo alargando hasta los 80 días después de la siembra, lo que incidió en la obtención de los más bajos rendimientos. Se determinó además que NAPROPAMIDA 2.1 13 kg/ha, controló eficazmente las malezas, permitió un mejor comportamiento y desarrollo del cultivo asegurando un alto vigor y buena formación del fruto, lo que se tradujo en la obtención del mayor rendimiento real, que en comparación co el obtenido por la parcela de labores manuales, represento un aumento de 21% de la producción por consiguiente una mejor rentabilidad del cultivo