Annual crop rotation of tropical pastures with no-till soil as affectedby lime surface application.

Soil acidity and low natural fertility are the main limiting factors for grain production in tropical regionssuch as the Brazilian Cerrado. The application of lime to the surface of no-till soil can improve plant nutrition, dry matter production, crop yields and revenue. The present study, conducted at the Lageado Experimental Farm in Botucatu, State of São Paulo, Brazil, is part of an ongoing research project initi-ated in 2002 to evaluate the long-term effects of the surface application of lime on the soil?s chemical attributes, nutrition and kernel/grain yield of peanut (Arachis hypogaea), white oat (Avena sativa L.) and maize (Zea mays L.) inter cropped with palisade grass (Urochloa brizantha cv. Marandu), as well as the forage dry matter yield of palisade grass in winter/spring, its crude protein concentration, estimated meat production, and revenue in a tropical region with a dry winter during four growing seasons. The experiment was designed in randomized blocks with four replications. The treatments consisted of four rates of lime application (0, 1000, 2000 and 4000 kg ha−1), performed in November 2004. The surface application of limestone to the studied tropical no-till soil was efficient in reducing soil acidity from the surface down to a depth of 0.60 m and resulted in greater availability of P and K at the soil surface. Ca and Mg availability in the soil also increased with the lime application rate, up to a depth of 0.60 m. Nutrient absorption was enhanced with liming, especially regarding the nutrient uptake of K, Ca and Mg by plants.Significant increases in the yield components and kernel/grain yields of peanut, white oat and maize were obtained through the surface application of limestone. The lime rates estimated to achieve the maximum grain yield, especially in white oat and maize, were very close to the rates necessary to increase the base saturation of a soil sample collected at a depth of 0?0.20 m to 70%, indicating that the surface liming of 2000 kg ha−1is effective for the studied tropical no-till soil. This lime rate also increases the forage dry matter yield, crude protein concentration and estimated meat production during winter/spring in the maize-palisade grass inter cropping, provides the highest total and mean net profit during the four growing seasons, and can improve the long-term sustainability of tropical agriculture in the Brazilian Cerrado.

Growth, nutrient accumulation in leaves and grain yield of super early genotypes of common bean.

There is a lack of researches that evaluate the development and nutrient accumulation in super early genotypes of common bean for the elaboration of fertilization programs. This study aimed at characterizing the development; N, P, K, Ca and Mg accumulation by leaves; grain yield; and yield components of super early genotypes of common bean. Field experiments were conducted in a randomized blocks design, with four replications. The treatments consisted of the IPR Colibri (control), CNFC 15873, CNFC 15874 and CNFC 15875 genotypes. Plants were sampled throughout the common bean development, being divided into leaves, stems and pods. After determining the dry matter, the contents of N, P, K, Ca and Mg accumulated in leaves were estimated. At harvesting, the grain yield and yield components were evaluated. The biomass accumulation in stems and leaves occurred until the flowering stage, and then it started in the pods until harvesting. The genotypes that absorbed more nitrogen and phosphorus had a higher grain yield. The average growing season of super early genotypes was 70 days (winter) and 63 days (summer). CNFC 15874 was the most productive genotype in the winter, with grain yield similar to the IPR Colibri cultivar (control). In the summer, CNFC 15873 and CNFC 15875 achieved grain yield similar to the IPR Colibri cultivar.

Correlações fenotípicas entre variáveis de variedades de milho em condições de semiárido na safra 2014.

Resumo: A cultura do milho sofre grande instabilidade de cultivo em regiões semiáridas, ocasionada, principalmente pela insuficiência de cultivares adaptadas. Á genética, busca a identificação de plantas mais adaptadas às condições em que serão cultivadas, para seleção de um melhor ideótipo. Verificou-se o potencial de variedades de milho, para produtividade de grãos e forragem, além de estimar as relações existentes entre os diferentes caracteres sob condição semiárida do norte do Ceará. Foram avaliados 30 tratamentos, sendo 25 variedades e cinco híbridos testemunhas. O Delineamento utilizado foi blocos ao acaso com duas repetições e com parcelas 0,75m entre linhas e 0,20 m entre plantas. Foram avaliadas 12 variáveis diferentes, em condições de pluviosidade de aproximadamente 500 mm e com períodos de estiagem inferiores a 10 dias até o estádio de florescimento. Identificou-se que em condições de baixa pluviosidade, as cultivares que apresentam maior teor de clorofila e massa fresca, proporcionam melhor desempenho produtivo e conforme observado não houve correlação entres as varriáveis Florescimento Feminino (MF) e Florescimento Masculino (FM) com produtividade de grão (PROD) e produção de Materia Seca (MS), desta forma vale salientar que nas condições em que o experimento , o ciclo fenológico não influênciou nos indices produtivos. [Phenotypic correlations between maize varieties variables in semi-arid conditions in the crop 2014]. Abstract: The corn crop suffers instability crop in semi-arid regions, caused mainly by the lack of adapted cultivars. Genetic seeks to identify more plants adapted to the conditions in which they are cultivated, for selecting a best ideotype. It was verified the potential of maize varieties for grain yield and foragein addition to to estimate the relationships between the different characters under semiarid conditions of northern Ceará. A total of 30 treatments, 25 varieties and five hybrids witnesses. We evaluated 30 treatments with 25 varieties and five hybrids as controls. The design was a randomized block design with two replications. With plots of 0.75 m between rows and 0.20 m between plants. We evaluated 12 different variables, conditions of approximately 500 mm and dry periods less than 10 days until the flowering stage. It was found that in low rainfall conditions, the cultivars with the greatest chlorophyll content and fresh pasta, provide better growth performance and as noted there was no correlation entres the Flowering varriáveis Female (MF) and Flowering Male (FM) with grain yield (PROD) and production of Dry Matter (DM), thus worth pointing out that under the conditions of the experiment, the phenological cycle did not influence the production indices

Forage peanut (Arachis spp.) genetic evaluation and selection.

Forage peanut improvement for use in grass?legume mixtures is expected to have a great impact on the sustainability of Brazilian livestock production. Eighteen cloned Arachis spp. ecotypes were evaluated under clipping in a Brazilian Cerrado region and results analysed using a mixed model methodology. The objective was to estimate genetic and phenotypic parameters and to select the best ecotypes based on selection index applied on their predicted genotypic value. The traits of total dry-matter (DM) and leaf DM yield presented moderate (0_30 < h2g < 0_50) to high (>0_50) broad-sense heritability, in contrast to the low genetic variability in nutritional quality-associated traits. Ecotypes of Arachis spp. contained average crude protein concentrations of 224 g kg _1 DM in leaves and 138 g kg _1 DM in stems, supporting the potential role of these species to overcome the low protein content in Cerrado pastures. The correlations between yield traits and traits associated with low nutritional value in leaves were consistently significant and positive. Genetic correlations among all the yield traits evaluated during the rainy or dry seasons were significant and positive. The ecotypes were ranked based on selection index. The next step is to validate long-term selection of grass?Arachis in combination with pastures under competition and adjusted grazing in the Cerrado region.