RESUMO Plantas de cobertura podem proporcionar supressão de plantas daninhas e juntamente com o controle químico compor o manejo adequado de plantas daninhas nas áreas agrícolas. O objetivo deste trabalho foi determinar o efeito do cultivo de plantas de cobertura durante a entressafra sobre o desenvolvimento de plantas daninhas em área de plantio direto. O delineamento experimental foi em blocos casualizados, com seis tratamentos e quatro repetições. Os tratamentos foram compostos das seguintes coberturas vegetais: 1. pousio (testemunha), 2. milheto (Pennisetum glaucum) + crotalárias (Crotalaria spectabilis + C. juncea + C. ochroleuca), 3. milheto + feijão-guandu (Cajanus cajans), 4. milheto + Urochloa ruziziensis, 5. milheto + Urochloa ruziziensis + feijão-guandu e 6. milheto + trigo mourisco (Fagopyrum esculentum). As avaliações foram realizadas aos 30, 75 e 225 dias após a semeadura (DAS) das plantas de cobertura. As principais plantas daninhas na área foram Cenchrus echinathus, Euphorbia heterophylla e Digitaria insularis. A área de pousio apresentou a maior quantidade, número de espécies e produção de matéria seca de plantas daninhas com densidade de 184 plantas m-2, 9,0 espécies e 527,8 g m-2 de matéria seca aos 225 DAS. Em todos os tratamentos com plantas de cobertura constatou-se que reduziu a densidade e a massa seca das plantas daninhas em comparação com o pousio, com média de 30 plantas m-2, 5,8 espécies m-1 e 7,9 g m-2 aos 225 DAS, respectivamente. Constata-se que o uso de plantas de cobertura é importante estratégia para o controle de plantas daninhas nas áreas agrícolas. | ABSTRACT Cover crops can provide suppression of weeds and together with chemical control make the proper management of weeds in agricultural areas. The objective of this study was to evaluate the effect of cover crop cultivation during the off-season on weed development in a no-tillage area. The experimental design was in randomized blocks scheme with six treatments and four replications. The treatments were: fallow (control), millet (Pennisetum glaucum) + crotalaria (Crotalaria spectabilis + C. juncea + C. ochroleuca), millet + pigeon pea (Cajanus cajans), millet + Urochloa ruziziensis, millet + Urochloa ruziziensis + pigeon pea and millet + buckwheat (Fagopyrum esculentum. The evaluations were done at 30, 75 and 225 days after sowing of the cover crops (DAS). The main growth weed species in the area were Cenchrus echinathus, Euphorbia heterophylla and Digitaria insularis. Fallow treatment showed greater number of weed species with density of 184 plants m-2, 9.0 species and with 527.8 g m-2 of dry matter mass at 225 DAS. In all treatments verified reduction in the density and mass of weeds dry matter compared to the fallow, with average of 30 plants m-2, 5.8 species and 7.9 g m-2 at 225 DAS, respectively. The use of cover crops is an important strategy for weed control in agricultural areas.

ABSTRACT Alternative management measures have been used to reduce nematode population levels in affected areas. In this perspective, the objective was to evaluate the efficiency of nematicides based on fungus and bacterium, associated with poultry litter applied via ground in the management of Pratylenchus brachyurus and Heterodera glycines in soybean and corn crops in succession. The experiment was conducted in the 2018/19 growing season in the municipality of Ipameri– GO (-17°34’55.58”S−48°12’02.35”O) in naturally infested field, arranged in a randomized block design, with 10 treatments and 4 replicates, being: T1- Witness/ control, T2- Poultry litter, T3- P. lilacinum + T. harzianum, T4- B. subtilis + B. licheniformis, T5- P. chlamydosporia, T6- Abamectina, T7- P. lilacinum + T. harzianum + Poultry litter, T8- B. subtilis + B. licheniformis + Poultry litter, T9- P. chlamydosporia + Poultry litter, T10- Abamectina + Poultry litter. The poultry litter was added in the soil 10 days before planting. The plots were composed of 6 lines of 6 m, with a spacing of 0.5 m. In the soybean crop at 45 and 90 days after sowing (DAS), the fresh weight of the roots (MFR), nematological variables and productivity were evaluated. In corn, only nematological variables were evaluated at 60 DAS. The treatments using P. lilacinum + T. harzianum and B. subtillis + B. licheniformes increased the MFR and reduced the number of P. brachyurus and H. glycines at the root. P. chlamydosporia associated with poultry litter increased in productivity in soybean plants.