RESUMO
Globally, people use sugarcane (Saccharum officinarum) to produce sugar and ethanol. Rainfed or irrigated sugarcane agricultural systems are available. Among the pests affecting this crop, the weevil Sphenophorus levis, Vaurie 1978 (Coleoptera: Curculionidae), is increasingly becoming a significant threat in southern South America. Sphenophorus levis populations are controlled using chemical or biological measures. Control decisions hinge upon the economic injury level (EIL). The EIL delineates the pest density that results in financial losses for producers. This study aims to determine the EIL for S. levis, considering the factors favoring this insect pest and chemical and biological control methods in rainfed and irrigated systems. The intensity of S. levis attacks was monitored in commercial sugarcane plantations over four years in João Pinheiro, Minas Gerais, Brazil. Sampling occurred in a 50 × 50 × 30-cm-deep trench dug in the soil surrounding the sugarcane clump. The total number of stumps in the clump, including those attacked by S. levis, was tallied. The EILs for this pest were 5.93% and 4.85% of targeted stumps for chemical control in rainfed and irrigated crops, respectively. Biological control in sugarcane plots resulted in an EIL of 4.15% and 3.40% for stumps attacked in rainfed and irrigated crops, respectively. Pest attacks were more severe during rainy years and in older sugarcane crops. The EIL values determined in this study could inform integrated pest management programs for sugarcane crops.
Assuntos
Irrigação Agrícola , Produtos Agrícolas , Saccharum , Gorgulhos , Animais , Brasil , Controle Biológico de Vetores , Controle de InsetosRESUMO
Crop diversity affects the processes of soil physical structuring and most likely provokes changes in the frequencies of soil microbial communities. The study was conducted for soil prokaryotic diversity sequencing 16S rDNA genes from a 25-year no-tillage experiment comprised of two crop systems: crop succession (Triticum aestivum-Glycine max) and rotation (Vicia sativa-Zea mays-Avena sativa-Glycine max-Triticum aestivum-Glycine max). The hypothesis was that a crop system with higher crop diversification (rotation) would affect the frequencies of prokaryotic taxa against a less diverse crop system (succession) altering the major soil functions guided by bacterial diversity. Soils in both crop systems were dominated by Proteobacteria (31%), Acidobacteria (23%), Actinobacteria (10%), and Gemmatimonadetes (7.2%), among other common copiotrophic soil bacteria. Crop systems did not affect the richness and diversity indexes of soil bacteria and soil archaea. However, the crop rotation system reduced only the frequencies of anaerobic metabolism bacteria Chloroacidobacteria, Holophagae, Spirochaetes, Euryarchaeota, and Crenarchaeota. It can be concluded that crop succession, a system that is poorer in root diversity over time, may have conditioned the soil to lower oxygen diffusion and built up ecological niches that suitable for anaerobic bacteria tolerating lower levels of oxygen. On the other hand, it appeared that crop rotation has restructured the soil over the years while enabling copiotrophic aerobic bacteria to dominate the soil ecosystem. The changes prompted by crop succession have implications for efficient soil organic matter decomposition, reduced greenhouse gas emissions, higher root activity, and overall soil productivity, which compromise to agriculture sustainability.
Assuntos
Agricultura , Bactérias Anaeróbias , Biodiversidade , Microbiologia do Solo , Agricultura/métodos , Bactérias/genética , Bactérias Anaeróbias/fisiologia , Brasil , Produção Agrícola , Oxigênio , RNA Ribossômico 16S/genéticaRESUMO
Agricultural practices exert selective forces on weed populations. As these practices change over time, weed adaptive traits also evolve, allowing weeds to persist in the new environment. However, only weeds having individuals showing the trait with adaptive significance will be able to cope with these changes, thus allowing a sub-population to be selected for persistence. In addition, changes in agricultural practices can select new weed species showing functional traits with characteristics adaptive to the modified system. Seed dormancy has long been recognized as a trait with enormous adaptive value to adjust weed biology to cropping systems. In this paper, we illustrate with examples of success and failure, the value of seed dormancy as a functional trait to cope with long-term changes in crop production systems. We show that successful outcomes are mostly related to the existence of sufficient variability for the functioning of physiological mechanisms that control dormancy characteristics as influenced by the agricultural environment. Presented examples illustrate how knowledge about the relationship that exists between agricultural practices and their selective pressure on seed dormancy can be instrumental in predicting changes in weed biotype dormancy characteristics or foreseeing the appearance of new weed species in future agricultural scenarios. © 2019 Society of Chemical Industry.
Assuntos
Produção Agrícola , Produtos Agrícolas , Herbicidas , Dormência de Plantas , Plantas Daninhas , Controle de Plantas DaninhasRESUMO
Concerns about the negative effects of agriculture on soil physical quality and soil organic carbon (SOC) pools have spurred on the adoption of conservation tillage systems in tropical regions. This study aimed to evaluate the long-term impacts (16th year) of conventional (CT), minimum (MT) and no-tillage (NT) practices and different cover crops (sunn hemp and a bean/millet sequence) on soil physical properties and SOC content of a corn cultivated Ultisol in the northeast of Brazil. Soil bulk density (Bd), soil penetration resistance (SPR), soil aggregation, and total aggregate-associated carbon (C) (4-2 mm) were evaluated. Tillage practices exerted strong control on soil physical properties and total aggregate-C content but were influenced by cover crop species. Minimum tillage presented the lowest Bd, irrespective of cover crop, while NT with bean/millet sequence resulted in the lowest SPR. However, as regards soil aggregation and total aggregate-C, the results indicated that there were no differences between MT and NT, with both systems presenting greater mean weight diameter (MWD) and total aggregate-C content than CT. Total aggregate-C content in the 0.00-0.05 m soil layer in conservation tillage was increased by the adoption of a bean/millet sequence. Increased mechanical disturbance through CT practices was harmful to Bd, soil aggregation and SOC accrual. Overall, more conservative tillage practices and the proper choice of cover crops might yield greater soil quality. Low intensity of soil disturbances due to the adoption of MT favors soil aggregation and the accrual of SOC in weakly structured soils through increases in contact between organic and mineral particles while not causing significant destruction of soil aggregates.(AU)
Assuntos
Análise do Solo , Características do Solo , Conservação de Terras , Agricultura SustentávelRESUMO
Concerns about the negative effects of agriculture on soil physical quality and soil organic carbon (SOC) pools have spurred on the adoption of conservation tillage systems in tropical regions. This study aimed to evaluate the long-term impacts (16th year) of conventional (CT), minimum (MT) and no-tillage (NT) practices and different cover crops (sunn hemp and a bean/millet sequence) on soil physical properties and SOC content of a corn cultivated Ultisol in the northeast of Brazil. Soil bulk density (Bd), soil penetration resistance (SPR), soil aggregation, and total aggregate-associated carbon (C) (4-2 mm) were evaluated. Tillage practices exerted strong control on soil physical properties and total aggregate-C content but were influenced by cover crop species. Minimum tillage presented the lowest Bd, irrespective of cover crop, while NT with bean/millet sequence resulted in the lowest SPR. However, as regards soil aggregation and total aggregate-C, the results indicated that there were no differences between MT and NT, with both systems presenting greater mean weight diameter (MWD) and total aggregate-C content than CT. Total aggregate-C content in the 0.00-0.05 m soil layer in conservation tillage was increased by the adoption of a bean/millet sequence. Increased mechanical disturbance through CT practices was harmful to Bd, soil aggregation and SOC accrual. Overall, more conservative tillage practices and the proper choice of cover crops might yield greater soil quality. Low intensity of soil disturbances due to the adoption of MT favors soil aggregation and the accrual of SOC in weakly structured soils through increases in contact between organic and mineral particles while not causing significant destruction of soil aggregates.
Assuntos
Análise do Solo , Características do Solo , Conservação de Terras , Agricultura SustentávelRESUMO
Management systems to improve soil quality are essential for agricultural and environmental sustainability. We assessed the quality of soil management systems applied to a subtropical Acrisol in terms of the carbon management index (CMI), the stratification ratio for total organic carbon (SR-TOC) and light fraction of organic matter (SR-LF). In addition, we examined their relationship to chemical, physical and biological soil quality indicators, as well as to maize yield. The study was conducted on a long-term experiment (18 years) in southern Brazil involving two different systems [no tillage (NT) and conventional tillage (CT)], two cropping systems [black oat/maize (O/M) and black oat + vetch/maize + cowpea (OV/MC)] and two nitrogen fertilizer rates for maize (0 and 180 kg ha1). Based on the three indices, the best managements for soil quality comprised NT (50-212 % better than CT), legume cover crops (10-47 % better than O/M) and N fertilization (8-33 % better than no fertilizer). All three indices proved accurate to assess the impact of soil management systems, especially SR-LF, which showed increased sensitivity and close relationships with chemical, physical and biological soil quality indicators. On the other hand, a poor relationship was observed between soil C indices and maize yield, which was improved only by legume cover crops and N fertilization. The results showed that the association of no-till system to an abundant supply of crop residues is key to ensure high soil quality and crop yields in humid subtropical regions.(AU)
Assuntos
Química do Solo , Qualidade do Solo , Critérios de Qualidade do Solo , 24444 , Conservação de Terras/métodosRESUMO
Management systems to improve soil quality are essential for agricultural and environmental sustainability. We assessed the quality of soil management systems applied to a subtropical Acrisol in terms of the carbon management index (CMI), the stratification ratio for total organic carbon (SR-TOC) and light fraction of organic matter (SR-LF). In addition, we examined their relationship to chemical, physical and biological soil quality indicators, as well as to maize yield. The study was conducted on a long-term experiment (18 years) in southern Brazil involving two different systems [no tillage (NT) and conventional tillage (CT)], two cropping systems [black oat/maize (O/M) and black oat + vetch/maize + cowpea (OV/MC)] and two nitrogen fertilizer rates for maize (0 and 180 kg ha1). Based on the three indices, the best managements for soil quality comprised NT (50-212 % better than CT), legume cover crops (10-47 % better than O/M) and N fertilization (8-33 % better than no fertilizer). All three indices proved accurate to assess the impact of soil management systems, especially SR-LF, which showed increased sensitivity and close relationships with chemical, physical and biological soil quality indicators. On the other hand, a poor relationship was observed between soil C indices and maize yield, which was improved only by legume cover crops and N fertilization. The results showed that the association of no-till system to an abundant supply of crop residues is key to ensure high soil quality and crop yields in humid subtropical regions.
Assuntos
Critérios de Qualidade do Solo , 24444 , Qualidade do Solo , Química do Solo , Conservação de Terras/métodosRESUMO
Abstract Mycorrhizae are important components of agroecosystems and the diversification of crops stimulates the abundance of arbuscular mycorrhizal fungi and the participation of symbiosis in plant growth. This experiment examined mycorrhizal assessment, chemical and microbiological soil attributes in a maize-forage grasses intercropping compared to a maize-monocropping system. A complete randomized block design was used with crop systems installed under no-till management with three replicates, as follow: Maize (Zea mays L.); Panicum maximum Jacq. cv. Aruana; Urochloa humidicola (Rendle.) Schweickerdt.; Maize-P. maximum intercropping and Maize-U. humidicola intercropping. In 2015/2016 season, intercropping maize with Panicum maximum Jacq. cv. Aruana or Urochloa humidicola (Rendle.) Schweickerdt. promoted similar effects (Tukey test, p<0.05) to monocropped maize under no-till system on soil chemical and biochemical parameters related to carbon cycling in the soil surface layer, as well as the dynamics of arbuscular mycorrhizal symbiosis in tropical soils, managed for a period of more than six years. Similar grain yield was verified among maize crop systems. This result indicates that intercropping maize-tropical forage grasses represents an alternative for monocropped grains, a very common practice that is used in intensive management, being able to guarantee equivalent productivities and to combine grain production with crop-livestock systems. As a result, intercropping promotes the diversification of the property's income source, adding environmental gains, such as more efficient land use by cultivated plants, keeping soil constantly cultivated, storing carbon and contributing to minimize the impact of climate change on agricultural systems and the sustainability of food production.
Assuntos
Produção Agrícola , Grão Comestível , Ecossistema Tropical , Zea mays , MicorrizasRESUMO
Objetivando-se avaliar o desempenho de cultivares de alface crespa produzidas em hidroponia a partir de mudas produzidas em floating e espuma fenólica, realizou-se um experimento em casa de vegetação, na Fazenda Experimental da Universidade de Marília-SP. O delineamento experimental adotado foi o inteiramente casualizado em esquema fatorial 2 x 2, com cinco repetições, cujos fatores corresponderam respectivamente, a dois sistemas de cultivo para a produção de mudas (floating e espuma fenólica) e duas cultivares de alface crespa (Jullie e TPC). Foram avaliadas as características massa fresca e seca da parte aérea, número de folhas por planta e comprimento do caule. Ocorreram diferenças significativas entre cultivares para todos os caracteres avaliados. Diferença estatística significativa entre sistemas de cultivos foi observada somente para o comprimento de caule. A interação cultivar x sistemas de cultivos não foi significativa para nenhum dos caracteres avaliados. No número de folhas por planta a cultivar TPC foi superior a Jullie independentemente do sistema de cultivo. Já para o comprimento de caule, constatou-se que as duas cultivares apresentaram valores superiores no sistema floating em relação à espuma fenólica e que a cultivar Jullie apresentou comprimento de caule maior que a TPC em ambos os sistemas. Esses valores mais altos são indesejáveis, uma vez que são responsáveis pelo pendoamento precoce na alface. Para a massa seca da parte aérea verificou-se que a cultivar Jullie foi superior a TPC na espuma fenólica, porém não ocorreu diferença entre elas no sistema floating. Conclui-se que nas condições em que foi conduzido o experimento que a cultivar Jullie apresentou maior massa fresca da parte aérea do que a cultivar TPC e que no número de folhas a TPC se destacou em relação à Jullie e que os sistemas de cultivos não influenciaram no rendimento das cultivares.
With the purpose to evaluate the performance of crispy lettuce cultivars grown under the hidroponic system using seedlings produced in floating and phenolic foam was carry out this experiment in the greenhouse of Experimental Farm, of Marília University. The experimental design was a completely randomized arranged in a factorial scheme 2 x 2 with five replicates, whose factors corresponded respectively to two cultivation systems for the production of seedlings (floating and phenolic foam) and two cultivars of crisp lettuce ( Julie and TPC). The characteristics fresh and dry mass of the shoot, number of leaves per plant and stem length were evaluated. There were significant differences between cultivars for all evaluated traits. Significant statistical difference between cropping systems was observed only for stem length. The interaction cultivar x cropping systems was not significant for any of the characters evaluated. In the number of leaves per plant TPC cultivar was superior to "Jullie" regardless of the culture system. As for stem length, it was found that the two cultivars showed higher values in the floating system in relation to the phenolic foam and that the Jullie cultivar had a longer stem length than the "TPC" in the phenolic foam. These higher values are undesirable, as they are responsible for early tillage in lettuce. For the dry mass of the aerial part, it was verified that the cultivar Jullie was superior to "TPC" in the phenolic foam, but did not occur difference between them in the floating system. It was concluded that under the conditions in which the experiment was conducted, the Jullie cultivar showed a higher fresh shoot biomass than the TPC cultivar and that in the number of leaves the "TPC" stood out in relation to "Jullie" and that the systems did not influence the yield of the cultivars.
Assuntos
Lactuca/crescimento & desenvolvimento , Hidroponia/métodos , 24444 , Verduras/crescimento & desenvolvimentoRESUMO
Objetivando-se avaliar o desempenho de cultivares de alface crespa produzidas em hidroponia a partir de mudas produzidas em floating e espuma fenólica, realizou-se um experimento em casa de vegetação, na Fazenda Experimental da Universidade de Marília-SP. O delineamento experimental adotado foi o inteiramente casualizado em esquema fatorial 2 x 2, com cinco repetições, cujos fatores corresponderam respectivamente, a dois sistemas de cultivo para a produção de mudas (floating e espuma fenólica) e duas cultivares de alface crespa (Jullie e TPC). Foram avaliadas as características massa fresca e seca da parte aérea, número de folhas por planta e comprimento do caule. Ocorreram diferenças significativas entre cultivares para todos os caracteres avaliados. Diferença estatística significativa entre sistemas de cultivos foi observada somente para o comprimento de caule. A interação cultivar x sistemas de cultivos não foi significativa para nenhum dos caracteres avaliados. No número de folhas por planta a cultivar TPC foi superior a Jullie independentemente do sistema de cultivo. Já para o comprimento de caule, constatou-se que as duas cultivares apresentaram valores superiores no sistema floating em relação à espuma fenólica e que a cultivar Jullie apresentou comprimento de caule maior que a TPC em ambos os sistemas. Esses valores mais altos são indesejáveis, uma vez que são responsáveis pelo pendoamento precoce na alface. Para a massa seca da parte aérea verificou-se que a cultivar Jullie foi superior a TPC na espuma fenólica, porém não ocorreu diferença entre elas no sistema floating. Conclui-se que nas condições em que foi conduzido o experimento que a cultivar Jullie apresentou maior massa fresca da parte aérea do que a cultivar TPC e que no número de folhas a TPC se destacou em relação à Jullie e que os sistemas de cultivos não influenciaram no rendimento das cultivares.(AU)
With the purpose to evaluate the performance of crispy lettuce cultivars grown under the hidroponic system using seedlings produced in floating and phenolic foam was carry out this experiment in the greenhouse of Experimental Farm, of Marília University. The experimental design was a completely randomized arranged in a factorial scheme 2 x 2 with five replicates, whose factors corresponded respectively to two cultivation systems for the production of seedlings (floating and phenolic foam) and two cultivars of crisp lettuce ( Julie and TPC). The characteristics fresh and dry mass of the shoot, number of leaves per plant and stem length were evaluated. There were significant differences between cultivars for all evaluated traits. Significant statistical difference between cropping systems was observed only for stem length. The interaction cultivar x cropping systems was not significant for any of the characters evaluated. In the number of leaves per plant TPC cultivar was superior to "Jullie" regardless of the culture system. As for stem length, it was found that the two cultivars showed higher values in the floating system in relation to the phenolic foam and that the Jullie cultivar had a longer stem length than the "TPC" in the phenolic foam. These higher values are undesirable, as they are responsible for early tillage in lettuce. For the dry mass of the aerial part, it was verified that the cultivar Jullie was superior to "TPC" in the phenolic foam, but did not occur difference between them in the floating system. It was concluded that under the conditions in which the experiment was conducted, the Jullie cultivar showed a higher fresh shoot biomass than the TPC cultivar and that in the number of leaves the "TPC" stood out in relation to "Jullie" and that the systems did not influence the yield of the cultivars.(AU)
Assuntos
Lactuca/crescimento & desenvolvimento , Hidroponia/métodos , Verduras/crescimento & desenvolvimento , 24444RESUMO
Land use change and intensification in agricultural landscapes of the Andean highlands have resulted in widespread soil degradation and a loss in soil-based ecosystem services and biodiversity. This trend threatens the sustainability of farming communities in the Andes, with important implications for food security and biodiversity conservation throughout the region. Based on these challenges, we sought to understand the impact of current and future land use practices on soil fertility and biodiversity, so as to inform landscape planning and management decisions for sustainable agroecosystem management. We worked with local communities to identify and map dominant land uses in an agricultural landscape surrounding Quilcas, Peru. These land uses existed within two elevations zones (low-medium, 3200-3800 m, and high elevation, 3800-4300 m). They included three types of low-medium elevation forests (eucalyptus, alder, and mixed/native species), five pasture management types (permanent pasture, temporal pasture [in fallow stage], degraded pasture, high-altitude permanent pasture, and high-altitude temporal pasture [in fallow stage]) and six cropping systems (forage crops, maize/beans, and potato under four types of management). Soil fertility was evaluated in surface soils (0-20 cm) with soil physicochemical parameters (e.g., pH, soil organic matter, available nutrients, texture), while soil biological properties were assessed using the abundance and diversity of soil macrofauna and ground cover vegetation. Our results indicated clear impacts of land use on soil fertility and biological communities. Altitude demonstrated the strongest effect on soil physicochemical properties, but management systems within the low-mid elevation zone also showed important differences in soil biological communities. In general, the less-disturbed forest and pasture systems supported more diverse soil communities than the more intensively managed croplands. Degraded soils demonstrated the lowest overall soil fertility and abundance of soil macrofauna, but this may be reversible via the planting of alder forests. Our findings also indicated significant covariation between soil physicochemical parameters, soil macrofauna, and ground vegetation. This suggests that management for any one of these soil properties may yield unintended cascading effects throughout the soil subsystem. In summary, our findings suggest that shifts in land use across the landscape are likely to have important impacts on soil functioning and biodiversity.
Assuntos
Agricultura/métodos , Biodiversidade , Florestas , Pradaria , Solo/química , Altitude , PeruRESUMO
The objective of this study was to evaluate the development of Brachiaria brizantha- MG-4; sown in two seasons and two seeding systems in space between two rows, and to evaluate the effect of intercropping on maize yield, as well as evaluating the physical properties of the soil after the consortium. The experiment was conducted in the agricultural year 2010, the Municipality of Quatro Pontes/PR. The experimental design was randomized blocks as a factorial 2x2, and an additional treatment that was corn cultivation single, with four replications. The treatments consisted two intercropping systems: corn intercropped with Brachiaria brizantha in the row, and corn intercropped with Brachiaria brizantha in space between two rows, and two times of sowing Brachiaria brizantha: simultaneously corn, and twenty-five days after sowing corn. The seed was planted mechanically in no-tillage system, with spacing between the lines of 0,70 m. The ears were harvested by hand and in the laboratory were evaluated: yield components and productivity. Brachiaria brizantha- MG-4 was sown and harvested manually. We evaluated the production of fresh and dry mass and yield components. For soil analyzes the soil was sampled at 0-0.10 and 0,10-0,20 m. Were determined the total porosity, macroporosity and microporosity. The results demonstrated that the production components of Brachiaria brizantha were lower when it was sown twenty-five days after sowing corn, and between sowing systems when Brachiaria brizantha was sown in line. There was no reduction in grain yield of maize intercropped with Brachiaria system independent and sowing date. The consortium of pasture with corn increased the total porosity, and reduced soil bulk density.(AU)
O objetivo neste trabalho foi avaliar o desenvolvimento da Brachiaria brizantha cv. MG-4; semeada em duas épocas e dois sistemas de semeadura, na linha e na entrelinha da cultura do milho; avaliar o efeito do consórcio na produtividade do milho, bem como avaliar as propriedades físicas do solo após o consórcio. O experimento foi conduzido no ano agrícola de 2010, no Município de Quatro Pontes/ PR. O delineamento experimental foi de blocos ao acaso, em esquema fatorial 2x2, mais um tratamento adicional que foi o cultivo do milho solteiro, com quatro repetições. Os tratamentos constituíram de dois sistemas de cultivo: cultivo do milho com braquiária na linha de semeadura e cultivo do milho com braquiária na entrelinha; e duas épocas de semeadura da braquiária: simultaneamente ao milho e vinte e cinco dias após semeadura do milho. O milho foi semeado mecanicamente em sistema de plantio direto; com espaçamento nas entrelinhas de 0,70 m. As espigas foram colhidas manualmente e no laboratório foram avaliadas: os componentes de produção e a produtividade. A Brachiaria brizantha cv. MG-4 foi semeada e colhida manualmente. Avaliou-se a produção de massa verde e seca e os componentes de produção. Para análises físicas do solo foram coletadas amostras nas profundidades de 0-0,10 e 0,10- 0,20 m. Foram determinados a porosidade total, a macroporosidade e microporosidade. Os resultados demonstraram que os componentes de produção da braquiária foram menores quando esta foi semeada vinte e cinco dias após a semeadura do milho, e entre os sistemas de semeadura quando a braquiária foi semeada na linha do milho. Não houve redução na produtividade de grãos de milho em consórcio com a braquiária, independente do sistema e época de semeadura. O consórcio de braquiária com milho promoveu aumento na porosidade total do solo e redução na densidade do solo.(AU)
Assuntos
Brachiaria , Zea mays , Características do Solo , 24444 , Permeabilidade do SoloRESUMO
The objective of this study was to evaluate the development of Brachiaria brizantha- MG-4; sown in two seasons and two seeding systems in space between two rows, and to evaluate the effect of intercropping on maize yield, as well as evaluating the physical properties of the soil after the consortium. The experiment was conducted in the agricultural year 2010, the Municipality of Quatro Pontes/PR. The experimental design was randomized blocks as a factorial 2x2, and an additional treatment that was corn cultivation single, with four replications. The treatments consisted two intercropping systems: corn intercropped with Brachiaria brizantha in the row, and corn intercropped with Brachiaria brizantha in space between two rows, and two times of sowing Brachiaria brizantha: simultaneously corn, and twenty-five days after sowing corn. The seed was planted mechanically in no-tillage system, with spacing between the lines of 0,70 m. The ears were harvested by hand and in the laboratory were evaluated: yield components and productivity. Brachiaria brizantha- MG-4 was sown and harvested manually. We evaluated the production of fresh and dry mass and yield components. For soil analyzes the soil was sampled at 0-0.10 and 0,10-0,20 m. Were determined the total porosity, macroporosity and microporosity. The results demonstrated that the production components of Brachiaria brizantha were lower when it was sown twenty-five days after sowing corn, and between sowing systems when Brachiaria brizantha was sown in line. There was no reduction in grain yield of maize intercropped with Brachiaria system independent and sowing date. The consortium of pasture with corn increased the total porosity, and reduced soil bulk density.
O objetivo neste trabalho foi avaliar o desenvolvimento da Brachiaria brizantha cv. MG-4; semeada em duas épocas e dois sistemas de semeadura, na linha e na entrelinha da cultura do milho; avaliar o efeito do consórcio na produtividade do milho, bem como avaliar as propriedades físicas do solo após o consórcio. O experimento foi conduzido no ano agrícola de 2010, no Município de Quatro Pontes/ PR. O delineamento experimental foi de blocos ao acaso, em esquema fatorial 2x2, mais um tratamento adicional que foi o cultivo do milho solteiro, com quatro repetições. Os tratamentos constituíram de dois sistemas de cultivo: cultivo do milho com braquiária na linha de semeadura e cultivo do milho com braquiária na entrelinha; e duas épocas de semeadura da braquiária: simultaneamente ao milho e vinte e cinco dias após semeadura do milho. O milho foi semeado mecanicamente em sistema de plantio direto; com espaçamento nas entrelinhas de 0,70 m. As espigas foram colhidas manualmente e no laboratório foram avaliadas: os componentes de produção e a produtividade. A Brachiaria brizantha cv. MG-4 foi semeada e colhida manualmente. Avaliou-se a produção de massa verde e seca e os componentes de produção. Para análises físicas do solo foram coletadas amostras nas profundidades de 0-0,10 e 0,10- 0,20 m. Foram determinados a porosidade total, a macroporosidade e microporosidade. Os resultados demonstraram que os componentes de produção da braquiária foram menores quando esta foi semeada vinte e cinco dias após a semeadura do milho, e entre os sistemas de semeadura quando a braquiária foi semeada na linha do milho. Não houve redução na produtividade de grãos de milho em consórcio com a braquiária, independente do sistema e época de semeadura. O consórcio de braquiária com milho promoveu aumento na porosidade total do solo e redução na densidade do solo.
Assuntos
Brachiaria , Características do Solo , 24444 , Permeabilidade do Solo , Zea maysRESUMO
Sistemas conservacionistas de manejo de solo são considerados usualmente uma alternativa para restaurar a capacidade de solos agrícolas degradados em oxidar metano (CH4), mas escassa informação é disponível para solos tropicais e subtropicais. O objetivo do presente estudo foi avaliar o efeito de longo prazo (19 anos) do plantio direto (PD) nos fluxos de CH4 em um Argissolo Vermelho (Classificação Brasileira) degradado da região Sul do Brasil, em comparação ao preparo convencional (PC). Fluxos anuais de CH4 do solo foram avaliados nos sistemas PD e PC sob dois sistemas de cultura (aveia/ milho- A/M e ervilhaca/milho-E/M). Amostragem do ar foi conduzida utilizando o método da câmara estática fechada e as análises de CH4 foram realizadas por cromatografia gasosa. Dados históricos do experimento evidenciaram melhoria expressiva da qualidade do solo em PD, especialmente quando associado ao sistema de cultura com leguminosas de cobertura de solo (E/M) que apresentou a mais elevada adição anual de biomassa ao solo. Os fluxos de CH4 variaram de ?42±2 a 38±16 ?g C m-2 h-1 e as emissões anuais de CH4 variaram de ?825±117 (PC E/M) a 453±185 g C ha-1 (PD A/M). Portanto, a capacidade de oxidação de CH4 não teve relação com a qualidade do solo nos distintos sistemas de manejo. Baseado nos resultados do presente estudo e da literatura, nos hipotetizamos que as zonas de oxidação de CH4 e de m
Conservation management systems are usually suggested as alternative to restore the soil methane (CH4) oxidation capacity of degraded soils; however, little information is available on tropical and subtropical soils. Our objective was to evaluate the long-term (19 years) effect of no-tillage (NT) versus conventional tillage (CT) management systems on CH4 fluxes in a formerly degraded Acrisol in Southern Brazil. Annual CH4 fluxes of two cropping systems [O/M-black oat (Avena strigosa)/maize and V/M-vetch (Vigna sativa)/maize] were measured in NT and CT soils. Static chambers were used for air sampling, while chromatography was used for CH4 analysis. Analysis of the historical dataset at this experimental site indicated improvements in soil quality under the NT system, especially in legume-based cropping system (V/M) that exhibited the highest annual biomass input. CH4 fluxes ranged from ?42 ± 2 to 38 ± 16 ?g C m-2 h-1, and annual CH4 emissions ranged from ?825 ± 117 (CT V/M) to 453 ± 185 g C ha-1 (NT O/M). Thus, the annual CH4 oxidation capacity of the soil was not related to the soil quality produced by the soil management systems. On the basis of our results and published literature, we postulate that conservation management systems improve the methane oxidation and soil quality in distinct soil layers, which result in a slow effect of these management systems on the methane o
RESUMO
Sistemas conservacionistas de manejo de solo são considerados usualmente uma alternativa para restaurar a capacidade de solos agrícolas degradados em oxidar metano (CH4), mas escassa informação é disponível para solos tropicais e subtropicais. O objetivo do presente estudo foi avaliar o efeito de longo prazo (19 anos) do plantio direto (PD) nos fluxos de CH4 em um Argissolo Vermelho (Classificação Brasileira) degradado da região Sul do Brasil, em comparação ao preparo convencional (PC). Fluxos anuais de CH4 do solo foram avaliados nos sistemas PD e PC sob dois sistemas de cultura (aveia/ milho- A/M e ervilhaca/milho-E/M). Amostragem do ar foi conduzida utilizando o método da câmara estática fechada e as análises de CH4 foram realizadas por cromatografia gasosa. Dados históricos do experimento evidenciaram melhoria expressiva da qualidade do solo em PD, especialmente quando associado ao sistema de cultura com leguminosas de cobertura de solo (E/M) que apresentou a mais elevada adição anual de biomassa ao solo. Os fluxos de CH4 variaram de ?42±2 a 38±16 ?g C m-2 h-1 e as emissões anuais de CH4 variaram de ?825±117 (PC E/M) a 453±185 g C ha-1 (PD A/M). Portanto, a capacidade de oxidação de CH4 não teve relação com a qualidade do solo nos distintos sistemas de manejo. Baseado nos resultados do presente estudo e da literatura, nos hipotetizamos que as zonas de oxidação de CH4 e de m
Conservation management systems are usually suggested as alternative to restore the soil methane (CH4) oxidation capacity of degraded soils; however, little information is available on tropical and subtropical soils. Our objective was to evaluate the long-term (19 years) effect of no-tillage (NT) versus conventional tillage (CT) management systems on CH4 fluxes in a formerly degraded Acrisol in Southern Brazil. Annual CH4 fluxes of two cropping systems [O/M-black oat (Avena strigosa)/maize and V/M-vetch (Vigna sativa)/maize] were measured in NT and CT soils. Static chambers were used for air sampling, while chromatography was used for CH4 analysis. Analysis of the historical dataset at this experimental site indicated improvements in soil quality under the NT system, especially in legume-based cropping system (V/M) that exhibited the highest annual biomass input. CH4 fluxes ranged from ?42 ± 2 to 38 ± 16 ?g C m-2 h-1, and annual CH4 emissions ranged from ?825 ± 117 (CT V/M) to 453 ± 185 g C ha-1 (NT O/M). Thus, the annual CH4 oxidation capacity of the soil was not related to the soil quality produced by the soil management systems. On the basis of our results and published literature, we postulate that conservation management systems improve the methane oxidation and soil quality in distinct soil layers, which result in a slow effect of these management systems on the methane o
RESUMO
Four experiments were carried out at the São Paulo State University, Brazil, with the aim of determining the agronomic viability of intercropping tomato and lettuce, under greenhouse conditions. The studied intercropping systems were established by transplanting lettuce at 0, 10, 20 and 30 days after transplanting (DAT) tomato and by transplanting tomato at 0, 10, 20 and 30 DAT lettuce. Intercropped tomato and lettuce were evaluated during two seasons and compared to their sole cropping. The experimental design was a randomized complete block with nine treatments. The productivity and the classification of the tomato fruits were not influenced by having lettuce intercropped with it, but lettuce production was lowered when tomato was intercropped with it. The longer the delay in lettuce transplanting, the greater the reduction in its productivity. There was an effect of cropping season on the extent of the agronomic advantage of intercropping over sole cropping. In the first cropping season, intercropping established by transplanting lettuce during the interval between 30 days before up to 20 DAT tomato yielded land use efficiency (LUE) indices of 1.63 to 2.22. In the second period, intercropping established with the transplanting of lettuce up to 30 days before tomato yielded LUE indices of 1.57 to 2.05.
Quatro experimentos foram conduzidos na Unesp, Brasil, com o objetivo de determinar a viabilidade agronômica de cultivos consorciados de alface e tomate em ambiente protegido. Consórcios estabelecidos por transplantes da alface aos 0, 10, 20 e 30 dias após o transplante (DAT) do tomate e de tomate aos 0, 10, 20 e 30 DAT da alface, foram avaliados em duas épocas e comparados às suas monoculturas. Cada experimento foi conduzido em delineamento de blocos ao acaso, com nove tratamentos. Verificou-se que a produtividade do tomate e a classificação dos frutos não foram influenciadas pela alface, mas a produção da alface foi menor em consórcio. Quanto mais atrasado o transplante da alface menor foi a sua produtividade. Houve efeito de época de cultivo sobre a dimensão da vantagem agronômica do consórcio sobre a monocultura. Na primeira época de cultivo, os consórcios estabelecidos com o transplante da alface de 30 dias antes e até 20 dias após o transplante do tomate proporcionaram índices de eficiência do uso da área (EUA) de 1,63 a 2,22. Na segunda época, os consórcios estabelecidos com o transplante da alface antes do tomate, em até 30 dias, proporcionaram índices EUA de 1,57 a 2,05.
Assuntos
Agricultura/métodos , Lactuca/crescimento & desenvolvimento , Solanum lycopersicum/crescimento & desenvolvimento , Brasil , Estações do AnoRESUMO
Path analysis of grain yield (basic variable) and its primary components (explicatory variables) was worked in common bean in monoculture and intercropped with maize. In general, the results were similar in both cropping systems. Among the explicatory variables studied, only the number of pods per plot showed a good combination of path coefficient and correlation, both high, in monoculture and intercropped. It could be concluded that the character number of pods per plot has an important influence on grain yield, which may be of great value for genetic gains in this character, by indirect selection.
Realizou-se análise de trilha do rendimento de grãos (variável básica) vs. seus componentes primários (variáveis explicativas), em monocultivo e em consórcio com a cultura do milho. De modo geral, os resultados foram semelhantes nos dois sistemas de cultivo. Das três variáveis explicativas envolvidas no estudo, o número de vagens por parcela foi a única que apresentou boa combinação de coeficiente de trilha e correlação, ambos altos, tanto no monocultivo como no consórcio. Concluiu-se que o caráter número de vagens por parcela tem influência marcante na produção de grãos, podendo ser de grande valor nos progressos genéticos deste caráter, via seleção indireta.
RESUMO
Despite the recent interest in organic agriculture, little research has been carried out in this area. Thus, the objective of this study was to compare, in a dystrophic Ultisol, the effects of organic and conventional agricultures on soil organism populations, for the tomato (Lycopersicum esculentum) and corn (Zea mays) crops. In general, it was found that fungus, bacterium and actinomycet populations counted by the number of colonies in the media, were similar for the two cropping systems. CO2 evolution during the cropping season was higher, up to the double for the organic agriculture system as compared to the conventional. The number of earthworms was about ten times higher in the organic system. There was no difference in the decomposition rate of organic matter of the two systems. In general, the number of microartropods was always higher in the organic plots in relation to the conventional ones, reflectining on the Shannon index diversity. The higher insect population belonged to the Collembola order, and in the case of mites, to the superfamily Oribatuloidea. Individuals of the groups Aranae, Chilopoda, Dyplopoda, Pauropoda, Protura and Symphyla were occasionally collected in similar number in both cropping systems.
Apesar do crescente interesse pela agricultura orgânica, são poucas as informações de pesquisa disponíveis sobre o assunto. Assim, num Argissolo Vermelho-Amarelo distrófico foram comparados os efeitos de sistemas de cultivo orgânico e convencional, para as culturas do tomate (Lycopersicum esculentum) e do milho (Zea mays), sobre a comunidade de organismos do solo e suas atividades. As populações de fungos, bactérias e actinomicetos, determinadas pela contagem de colônias em meio de cultura, foram semelhantes para os dois sistemas de produção. A atividade microbiana, avaliada pela evolução de CO2, manteve-se superior no sistema orgânico, sendo que em determinadas avaliações foi o dobro da evolução verificada no sistema convencional. O número de espécimes de minhoca foi praticamente dez vezes maior no sistema orgânico. Não foi observada diferença na taxa de decomposição de matéria orgânica entre os dois sistemas. De modo geral, o número de indivíduos de microartrópodos foi superior no sistema orgânico do que no sistema convencional, refletindo no maior índice de diversidade de Shannon. As maiores populações de insetos foram as da ordem Collembola, enquanto para os ácaros a maior população foi a da superfamília Oribatuloidea. Indivíduos dos grupos Aranae, Chilopoda, Dyplopoda, Pauropoda, Protura e Symphyla foram ocasionalmente coletados e de forma similar entre os sistemas.
RESUMO
Path analysis of grain yield (basic variable) and its primary components (explicatory variables) was worked in common bean in monoculture and intercropped with maize. In general, the results were similar in both cropping systems. Among the explicatory variables studied, only the number of pods per plot showed a good combination of path coefficient and correlation, both high, in monoculture and intercropped. It could be concluded that the character number of pods per plot has an important influence on grain yield, which may be of great value for genetic gains in this character, by indirect selection.
Realizou-se análise de trilha do rendimento de grãos (variável básica) vs. seus componentes primários (variáveis explicativas), em monocultivo e em consórcio com a cultura do milho. De modo geral, os resultados foram semelhantes nos dois sistemas de cultivo. Das três variáveis explicativas envolvidas no estudo, o número de vagens por parcela foi a única que apresentou boa combinação de coeficiente de trilha e correlação, ambos altos, tanto no monocultivo como no consórcio. Concluiu-se que o caráter número de vagens por parcela tem influência marcante na produção de grãos, podendo ser de grande valor nos progressos genéticos deste caráter, via seleção indireta.
RESUMO
Despite the recent interest in organic agriculture, little research has been carried out in this area. Thus, the objective of this study was to compare, in a dystrophic Ultisol, the effects of organic and conventional agricultures on soil organism populations, for the tomato (Lycopersicum esculentum) and corn (Zea mays) crops. In general, it was found that fungus, bacterium and actinomycet populations counted by the number of colonies in the media, were similar for the two cropping systems. CO2 evolution during the cropping season was higher, up to the double for the organic agriculture system as compared to the conventional. The number of earthworms was about ten times higher in the organic system. There was no difference in the decomposition rate of organic matter of the two systems. In general, the number of microartropods was always higher in the organic plots in relation to the conventional ones, reflectining on the Shannon index diversity. The higher insect population belonged to the Collembola order, and in the case of mites, to the superfamily Oribatuloidea. Individuals of the groups Aranae, Chilopoda, Dyplopoda, Pauropoda, Protura and Symphyla were occasionally collected in similar number in both cropping systems.
Apesar do crescente interesse pela agricultura orgânica, são poucas as informações de pesquisa disponíveis sobre o assunto. Assim, num Argissolo Vermelho-Amarelo distrófico foram comparados os efeitos de sistemas de cultivo orgânico e convencional, para as culturas do tomate (Lycopersicum esculentum) e do milho (Zea mays), sobre a comunidade de organismos do solo e suas atividades. As populações de fungos, bactérias e actinomicetos, determinadas pela contagem de colônias em meio de cultura, foram semelhantes para os dois sistemas de produção. A atividade microbiana, avaliada pela evolução de CO2, manteve-se superior no sistema orgânico, sendo que em determinadas avaliações foi o dobro da evolução verificada no sistema convencional. O número de espécimes de minhoca foi praticamente dez vezes maior no sistema orgânico. Não foi observada diferença na taxa de decomposição de matéria orgânica entre os dois sistemas. De modo geral, o número de indivíduos de microartrópodos foi superior no sistema orgânico do que no sistema convencional, refletindo no maior índice de diversidade de Shannon. As maiores populações de insetos foram as da ordem Collembola, enquanto para os ácaros a maior população foi a da superfamília Oribatuloidea. Indivíduos dos grupos Aranae, Chilopoda, Dyplopoda, Pauropoda, Protura e Symphyla foram ocasionalmente coletados e de forma similar entre os sistemas.