Detalhes bibliográficos
| Ano de defesa: |
2011 |
| Autor(a) principal: |
Silva, Rodrigo Gregório da |
| Orientador(a): |
Não Informado pela instituição |
| Banca de defesa: |
Não Informado pela instituição |
| Tipo de documento: |
Tese
|
| Tipo de acesso: |
Acesso aberto |
| Idioma: |
por |
| Instituição de defesa: |
Não Informado pela instituição
|
| Programa de Pós-Graduação: |
Não Informado pela instituição
|
| Departamento: |
Não Informado pela instituição
|
| País: |
Não Informado pela instituição
|
| Palavras-chave em Português: |
|
| Link de acesso: |
http://www.repositorio.ufc.br/handle/riufc/17077
|
Resumo: |
This study aimed at analyzing the intensification effects via different enhancement levels of the system of milk production in Mombasa grass pastures (Panicum maximum Jacq. cv. Mombaça) in the humid tropics, during the water period. Treatments consisted of four enhancement levels, determined by combining fertilization levels and production level of the animals. Treatments were in increasing sequence of fertilization, as follow: 1º » fertilization with 400 kg of N×ha-1×year-1, with low yield dairy cows; 2º» fertilization with 800 kg of N×ha-1×year-1, with low yield dairy cows; 3º» fertilization with 400 kg of N×ha-1×year-1, with high yield dairy cows; 4º» fertilization with 800 kg of N×ha-1×year-1, with high yield dairy cows. It was used mixed breed cows, on average of third calving, and the births had occurred in October/November 2009. At the beginning of the evaluation of milk production, the cows had around 110 days of lactation. The experiment was conducted between December 24th, 2009 and May 10th, 2010. For the measures related to the morphogenesis and structure, we used a completely randomized design with repeated measurements over time. Four treatments, with four cycles, and four replicates (paddocks) were used to assess the interaction between treatments and cycles. To evaluate the behavior of the animals, we used a completely randomized design, with four treatments, eight periods and four replicates (animals) to evaluate the interaction between treatments and periods. In the evaluation of the distribution of feces, a geostatistical analysis was applied, with four treatments and three replicates (paddocks). In the analysis of animal production, a simple completely randomized design (feces patches, total feces, forage intake and total consumption), with repeated measures over time (body condition score and live weight) and with repeated measures over time; the time considered the measure of local control (milk yield per cow, live weight, stocking rate, and milk production per hectare). The rest period was the necessary to enable the expansion of 2.5 new leaves and the residue equivalent to the residual leaf area index 2.0 (residual LAI 2.0). The greater supply of nitrogen has not provided increase in the following variables: leaf elongation rate (TAlF), stem elongation rate (TAlH), anterior leaf senescence rate (TSFant) and posterior leaf senescence rate (TSFpost). There was no difference among treatments as a function of the type of animals. The TAlF partly had followed the availability of water from the rainfall. It was observed a variation in the organic matter content throughout the area, reflected in the ability to store water and nutrients, which influenced their availability to the pastures. No difference was detected in TAlH in function of treatments. This effect was a result of the rest period adopted (2.5 new leaves×tiller-1), reducing the capture level of photosynthetically active radiation to values below 95%. The intensification has little consequence on studied variables (total forage dry mass, green forage dry mass, green leaf blade dry mass, and green stem dry mass). The pre-grazing height presented growth from the first to the second cycle and a subsequent decline until the last cycle, considering that this had the lowest values for all treatments. The increase in nitrogen availability promoted higher yield levels at certain moments, when water was supplied at suitable levels. Water availability influenced the yield response of pasture over the cycles. A relationship was verified between the soil organic matter content and yield performance of pastures. Regarding the animals behavior, it was registered interaction between treatments and day periods, except for urinating behavior that was only affected by the period. The fertilization had positive influence on the grazing behavior, increasing the time spent to expressing it. For the other activities the effect was negative, reducing the displacement time of animals. The fertilization and the interaction fertilization x supplement provided a longer use of shading by the animals. The use of concentrate feed increased the number of defecations, especially during the periods of longer permanence in the pasture. Day period influenced the drinking behavior, leading to a higher consumption of water in the periods with higher temperatures, as well as intermediate treatments presented higher consumption. In relation to the feces distribution, the data had coefficients of positive skewness and platicúrtica kurtosis. For the coefficient of variation, we verified a great variation, with the rest areas presenting higher values, and paddocks with higher fertilization level presenting the lowest values. Climatic factors radiation, temperature and relative humidity have significantly influenced the dispersal and location of the feces. Regarding the degree of spatial dependence (GDE) it was verified classification ranging from moderate to strong, with higher proportion of GDE. The range was between 14.0 and 12.7m for rest areas and paddocks, respectively. The fertilization and supply of concentrate influenced the deposition and loss of nitrogen via feces, increasing its values to the extent that it increased the nutrient input. We observed heterogeneity in deposition of feces, with areas of higher concentration, as shadow, entrance of paddocks, and rest area, presenting peaks of deposition reaching 1,051.2kg N×ha-¹×year-¹, and average varying between 148.8 and 210.7 N×ha-¹×year-¹. There was increase in milk daily production and per area, as it intensified the system, via enhancement. With the intensification there was a greater persistence of lactation, observed through the relationship obtained by dividing the slope per intercept, resulting in a daily percentage of decrease in lactations. The persistence of animals’ production responded directly to the system intensification, as a consequence of higher enhancement (improved diet). The production per area responded more strongly to the level of individual daily production and followed a quadratic trend, accompanying the rainfall distribution. The fecal production increased towards the highest level of enhancement, resulting in higher estimates of consumption. The greater input of nutrients (more intensive) allowed elevating the productivity levels per animal, per area, in relation to the labor and total daily production. The increase in area used for production improves the investment/production ratio, decreasing as enlarges the area. The greater enhancement enabled raising the revenues, but also raised the total monthly costs, presenting better relationship the intermediate levels of enhancement. To the extent that it has increased the area used, the lowest intensive level had a positive gross margin. The actual operating costs increased as the systems had been intensified. But the total operating costs decreased with the intensification, increasing again at the most intensive level. The feed represented around 70% of actual operating costs. Systems were unfeasible at medium-long terms, and at short term they were less attractive than observed in the sample of producers used in this study. |
