Ruminal methane emission by dairy cattle in southeast Brazil.

ABSTRACT: Ruminal gases, particularly methane, generated during the fermentative process in rumen, represent a partial loss of feed energy and are also pointed to as an important factors in greenhouse effect. This study aimed at quantifying methane (CH 4) emission rates from lactating and dry cows and heifers, 24 month-old in average, on pasture under Southeast Brazil tropical conditions, using the tracer gas technique, sulphur hexafluoride (SF 6), four animals per category, distributed in four blocks. Measurements were performed in February and June, 2002, with Holstein and Brazilian Dairy Crossbred (Holstein ¾ x Gir (Zebu) ¼), maintained on fertilized Tanzania-grass (Panicum maximum Jacq. cv. Tanzania) and fertilized Brachiaria-grass (Brachiaria decumbens cv. Basilisk) pastures. Heifers of both breeds were maintained on unfertilized Brachiaria-grass to simulate conditions of extensive cattle farming systems. CH 4 and SF 6 levels were measured with gas chromatography. Differences in CH4 emissions were measured (p < 0.05) for genetical groups. Holstein produced more methane (299.3g day?1) than the Crossbred (264.2 g day?1). Lactating cows produced more methane (353.8 g day?1) than dry cows (268.8 g day?1) and heifers (222.6 g day?1). Holstein, with greater milk production potential, produced less CH4 (p < 0.05) per unit of dry matter intake (19.1 g kg?1) than the Crossbred (22.0 g kg?1). Methane emission by heifers grazing fertilized pasture (intensive system) was 222.6 g day?1, greater (p < 0.05) than that of heifers on unfertilized pasture (179.2 g day?1). Methane emission varied as function of animal category and management intensity of production system.

Obtenção de Trichoderma stromaticum por fermentação em estado sólido, visando o controle da vassoura de bruxa.

2009

Eficiência do atrativo a base de fermento biológico com diferentes tempos de fermentação na captura de Drosophila suzukii.

Drosophila suzukii é uma espécie nativa da Ásia com elevada capacidade de ocasionar danos em frutos sadios de uma diversidade de espécies vegetais, especialmente nos pequenos frutos. A falta de ferramentas adequadas para o monitoramento é fator limitante no desenvolvimento de métodos de manejo e controle da praga. A utilização de um atrativo a base de fermento biológico, açúcar e água tem se mostrado eficiente e seletivo na captura de D. suzukii em áreas de pequenos frutos. Porém, há necessidade de informações mais precisas sobre o tempo necessário para fermentação do atrativo antes do seu uso no campo. Assim, este estudo teve como objetivo avaliar o tempo de fermentação necessário para uso do atrativo F1 (fermento, açúcar e água) no monitoramento de D. suzukii em pomar de pequenos frutos.

Caracterização bioquímica de proteínas aderidas à fibra do bagaço de cana-de-açúcar obtidas de conteúdo ruminal de ovinos.

A conversão da celulose e da hemicelulose do bagaço de cana-de-açúcar em bioetanol tem utilizado enzimas comerciais importadas, tornando o processo caro, justificando a busca e a produção de enzimas nacionais. O presente trabalho objetivou caracterizar as proteínas aderidas à fibra do bagaço de cana-de-açúcar (BCA), obtidas do conteúdo ruminal de ovinos Morada Nova, quanto à resistência térmica e à variação de pH.

Proteomic analysis of Rhizobium freirei PRF 81 responses to low pH.

Rhizobium freirei PRF 81 is employed in common bean commercial inoculants in Brazil, due to its outstanding efficiency in fixing nitrogen, competitiveness and tolerance to abiotic stresses. Among the environmental conditions faced by rhizobia in soils, acidity is perhaps the encountered most, especially in Brazil. So, we used proteomics based approaches to study the responses of PRF 81 to a low pH condition. R. freirei PRF 81 was grown in TY medium until exponential phase in two treatments: pH 6,8 and pH 4,8. Whole-cell proteins were extracted and separated by two-dimensional gel electrophoresis, using IPG-strips with pH range 4-7 and 12% polyacrilamide gels. The experiment was performed in triplicate. Protein spots were detected in the high-resolution digitized gel images and analyzed by Image Master 2D Platinum v 5.0 software. Relative volumes (%vol) of compared between the two conditions tested and were statistically evaluated (p ≤ 0.05). Even knowing that R. freirei PRF 81 can still grow in more acid conditions, pH 4.8 was chosen because didn´t affect significantly the bacterial growth kinetics, a factor that could compromise the analysis. Using a narrow pH range, the gel profiles displayed a better resolution and reprodutibility than using broader pH range. Spots were mostly concentrated between pH 5-7 and molecular masses between 17-95 kDa. From the six hundred well-defined spots analyzed, one hundred and sixty-three spots presented a significant change in % vol, indicating that the pH led to expressive changes in the proteome of R. freirei PRF 81. Of these, sixty-one were up-regulated and one hundred two was downregulated in pH 4.8 condition. Also, fourteen spots were only identified in the acid condition, while seven spots was exclusively detected in pH 6.8. Ninety-five differentially expressed spots and two exclusively detected in pH 4,8 were selected for Maldi-Tof identification. Together with the genome sequencing and the proteome analysis of heat stress, we will search for molecular determinants of PRF 81 related to capacity to adapt to stressful tropical conditions.