Uma espécie que está sendo incorporada no cultivo de pequenas frutas é a physalis. Esta Solanaceae é considerada uma planta rústica que tem dificuldade de manter suas hastes eretas, seus frutos estão dentro de um cálice que os protege contra insetos, pássaros e condições adversas. o objetivo neste trabalho foi avaliar as características físico-químicas dos frutos de Physalis peruviana em função das diferentes colorações de cálice e dos sistemas de condução utilizados. A colheita dos frutos foi realizada levando em consideração cinco diferentes classificações quanto à coloração de cálice: 1 (verde); 2 (verde-amarelada); 3 (amarelo-esverdeada); 4 (amarela), e 5 (amarelo-amarronzada), provenientes dos sistemas de condução "v" invertido e triangular. o delineamento experimental foi o inteiramente casualizado, com esquema fatorial 5x2 (colorações do cálice x sistemas de condução). A unidade experimental foi composta de dez frutos, sendo cada tratamento repetido três vezes. os dados foram submetidos à análise de variância (ANOVA), aplicando o teste de Tukey, ao nível de 5% de probabilidade de erro, para comparação das médias. As variáveis avaliadas foram: massa fresca do fruto, do cálice e total, diâmetro, firmeza, coloração da epiderme, sólidos solúveis totais (SST), acidez total titulável (ATT), razão SST/ATT e pH. o sistema de condução triangular, combinado às colorações de fruto amarela e amarelo-amarronzada resultou, respectivamente, em frutos com maior conteúdo de SST e razão SST/ATT. os maiores valores para massa e diâmetro de fruto foram alcançados quando os cálices se apresentavam amarelo-amarronzados, enquanto a maior massa total foi atingida quando os cálices tinham coloração amarela. Já para a massa do cálice, as maiores respostas foram obtidas nos de coloração verde. Conclui-se que physalis colhidos a partir da terceira fase (3) (cálice amarelo-esverdeado) apresentam o melhor conjunto de características físico-químicas, em ambos os sistemas de condução avaliados.
Root-knot nematodes (RKN) are important plant pathogens affecting rice in South-East Asia and southern Brazil in irrigated rice fields. In order to investigate the specific diversity of RKN associated with irrigated rice in southern Brazil, Meloidogyne spp. from Rio Grande do Sul (RS) and Santa Catarina (SC) States were characterised biochemically by esterase (Est) and malate dehydrogenase (Mdh) phenotypes. Fifty-six Meloidogyne spp. populations were detected in 48% of rice samples, and a total of fiveesterase phenotypes were identified, four of which presented as drawn-out bands in different positions. In RS State, M. graminicola (Est VS1), Meloidogyne sp. 2 (Est R2) and Meloidogyne sp. 3 (Est R3) were identified, which corresponded to ca 80, 40 and 10% of samples, respectively. In SC State, M. graminicola, M. javanica (Est J3), Meloidogyne sp. 1 (Est R1), Meloidogyne sp. 2 and Meloidogyne sp.3 accounted for ca 93.75, 12.50, 62.50, 12.25 and 6.25% of samples, respectively. The esterase phenotypes R1, R2 and R3 are new, never having been detected on rice before. Meloidogyne javanica showed a N1 Mdh phenotype (Rm: 1.0), while four other populations exhibited a N1a (Rm: 1.4) phenotype. All populations were tested with two SCAR markers specific to M. graminicola, which confirmed that, but no specificity was obtained with both markers in relation to the atypical populations analysed. Sequencing and phylogenetic analyses of internal transcribed spacer-rRNA (ITS) were performed to infer the phylogenetic relationship of these atypical Meloidogyne spp. populations. Meloidogyne sp. 1 grouped with the mitotic parthenogenetic species, while the two others (Meloidogyne sp. 2 and sp. 3) clustered with M. graminicola and other meiotic parthenogenetic species. Taken together, these data highlight the unprecedented specific diversity of RKN associated with irrigated rice in southern Brazil. Further morphological and phylogenetic studies involvingthese atypical isolates will be carried out to identify this complex of species
Anastrepha fraterculus (Wiedemann) (Diptera: Tephritidae) is among the most important pests of fruit trees in South America, where it can cause losses of up to 100% in fruit orchards. The endoparasitoid Aganaspis pelleranoi (Brèthes) (Hymenoptera: Figitidae) is one of the main natural enemies of A. fraterculus in Neotropical countries and can be used as a biological control agent against this pest. This study aimed to provide background biological information for the development of a method for mass rearing of A. pelleranoi in larvae of A. fraterculus We determined the effects of diet on the longevity and parasitism capacity of A. pelleranoi adults, the optimal instar of A. fraterculus for parasitism, the ideal exposure time of the larvae to the parasitoid, and the parasitism capacity of females of A. pelleranoi The results showed that a 30% honey:water solution maximized parasitoid longevity. Third-instar larvae of A. fraterculus should be used in parasitoid multiplication. An exposure time of 4 h of A. fraterculus larvae produced a larger number of parasitoid offspring, with the highest proportion of females. In addition, the estimated mean parasitism capacity of females of A. pelleranoi was 10 larvae per day. This information can help to develop a mass-rearing method for A. pelleranoi in larvae of A. fraterculus.
-Herbicide resistance can cause biochemical, physiological, morphological and phenological changes in weeds, altering their competitive ability against crops. The aim of the study was to assess physiological changes and cellular damage in susceptible and resistant biotypes of ryegrass and soybeans under competition. Three experiments were conducted in a greenhouse using a completely randomized design with four replications performed in a replacement series. The ratios of soybean and to susceptible (experiment 1) and resistant ryegrass (experiment 2) and of susceptible to resistant (experiment 3) ryegrass were 100:0, 75:25, 50:50, 25:75 and 0:100. Forty days after the emergence of the soybean crop and 60 days after the emergence of the ryegrass plants, the leaves of the competing plants were collected. The following variables were assessed: the levels of carotenoids, chlorophylls and total phenolic compounds; amount of hydrogen peroxide; degrees of lipid peroxidation and electrolyte leakage; and activity of enzymes catalase, superoxide dismutase and ascorbate peroxidase. The production of phenols and increased oxidative damage due to interspecies competition with ryegrass was, in general, observed in the soybeans; the ryegrass biotypes, susceptible and resistant to glyphosate, coexisting with soybean have generally higher oxidative damage due to intraspecific competition; since when these biotypes coexist not present modifications of these parameters.Keywords: oxidative stress, antioxidant enzymes, adaptability of herbicide resistant plants. RESUMO -A resistência aos herbicidas pode causar mudanças bioquímicas,fisiológicas, morfológicas ou fenológicas nas plantas daninhas alterando a capacidade competitiva com as culturas.O objetivo do estudo foi verificar alterações na fisiologia e os danos celulares em biótipos de azevém resistente
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