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171	Implicações da altura de manejo de pastagem de papuã nas características físicas e químicas de um latossolo vermelho sob sistema de integração lavoura-pecuária Bortolini, Diego January 2012 (has links) No sul do Brasil há ocorrência espontânea de papuã nas lavouras no período de verão, planta que, apesar de ser considerada daninha, possui grande potencial forrageiro. Entretanto, sua utilização como forrageira ainda é pouco estudada, especialmente no sistema de integração lavoura-pecuária. Este trabalho teve por objetivo avaliar as alterações ocorridas nas características físicas e químicas e na atividade microbiana do solo, em pasto de papuã (Urochloa (Syn. Brachiaria) plantaginea) com diferentes alturas de manejo, na presença e ausência de pisoteio animal. O trabalho foi conduzido na Estação Experimental do IAPAR, no município de Pato Branco, PR. O delineamento experimental utilizado foi o de blocos ao acaso com três repetições. Os tratamentos foram arranjados em esquema bifatorial de parcelas subdivididas durante o período de pastejo. As parcelas receberam os níveis do fator altura de manejo de pasto de papuã (0,10, 0,20, 0,30 e 0,40 m), enquanto que as subparcelas foram constituídas de áreas com (pastejadas por cabras) e sem pisoteio animal (corte manual). No inverno, em sucessão ao pasto, foi implantado cultivo de trigo, somente nas subparcelas que receberam pisoteio animal. Foram avaliadas a densidade do solo, porosidade total, macro e microporosidade e resistência à penetração, os teores de matéria orgânica, fósforo, potássio, cálcio, magnésio e alumínio, saturação por alumínio, pH e saturação por bases, em amostras coletadas nas camadas: 0,00–0,05, 0,05–0,10, 0,10–0,15 e 0,15–0,20 m de profundidade. Avaliou-se, também, a respiração microbiana em amostra da camada 0,00–0,10 m de profundidade. Os dados foram submetidos a análise de variância, complementada pela análise de regressão e por estudos de correlação simples. De maneira geral, a altura de manejo do pasto de papuã, na presença ou não de pisoteio animal, não alterou significativamente as características físicas, químicas e biológicas do solo, avaliadas após o primeiro ciclo de aplicação dos tratamentos. Foram observados efeitos do pisoteio sobre a porosidade do solo, mas em níveis que não causaram problemas ao desenvolvimento das plantas de trigo cultivadas após o pasto. O rendimento de grãos da cultura de trigo não foi afetado significativamente pela altura de manejo do pasto de papuã sob pastejo direto. / Spontaneous occurence of alexandergrass (Urochloa (Syn. Brachiaria) plantaginea) is observed in southern Brazil in the summer. This plant is considered a weed, although it has great potential forage. However, its use as pasture is still little studied, especially in the crop-livestock integration system. This study was performed to evaluate the effect of sward management heights of alexandergrass pasture, with and without cattle trampling, on soil physical and chemical properties, and microbial activity. The study was conducted at the IAPAR Experimental Station, at Pato Branco, Paraná, Brazil. The experimental design was randomized blocks with three replications. The treatments were arranged in a factorial split-plot during the grazing period. The plots received levels of the factor sward management heights of alexander (0.10, 0.20, 0.30 and 0.40 m), while the subplots were established in areas with (grazed by goats) and without cattle trampling (manual cutting). In winter, in succession to grazing, cultivation of wheat was implemented, only in the subplots that have received animal trampling. Have been evaluated the soil bulk density, porosity, macro and microporosity, and soil penetration resistance; the levels of soil organic matter, phosphorus, potassium, calcium, magnesium and aluminum; aluminum saturation, pH and base saturation in samples collected in the layers: 0.00 to 0.05, 0.05 to 0.10, 0.10 to 0.15 and from 0.15 to 0.20 m deep. Were evaluated also the microbial respiration in samples collected in the layer from 0.00 to 0.10 m deep. The data were subjected to analysis of variance, regression testing, and correlation analysis. In general, the height of pasture management in Alexandergrass, in the presence or absence of animal trampling, hasn't significantly affected the soil physical, chemical and biological characteristics, evaluated after the first cycle of treatment application. Effects of trampling were observed on soil porosity, but at levels that did not cause problems for the development of wheat plants grown after grazing. The grain yield of wheat crop was not affected by the height of pasture management of Alexandergrass. Solos - Manejo Pastagens - Manejo Plantas forrageiras Soil management Range management Forage plants
172	A modeling investigation of ground and surface water fluxes for Konza Tallgrass Prairie Lauwo, Simon Yesse January 1900 (has links) Master of Science / Department of Civil Engineering / David R. Steward / Konza Prairie is one of the few areas in the United States were natural landscape of the area is still intact. Human action on changing the landscapes in this area is limited and much of the land remains as native grassland. In spite of its natural existence, this area is not completely isolated from the rest of the world. Changes that are taking place in climate will eventually have the same effect to this region as well as other human populated areas. Increase in carbon concentration in the air has resulted to increase in temperature, this increase in temperature increases the evaporation from the sea, oceans and the ice capes. As the atmospheric water vapor changes the precipitation pattern also change. Changes in precipitation due to climate change will result to change in hydrology and hydraulics of the streams and groundwater flow regime. Precipitation provides surface runoff and groundwater infiltration, which recharge the cracked limestone aquifer present in the Konza area. The infiltration water moves trough the cracked rocks and eventually reach the creeks such as Kings Creek and flow to the Kansas River. Increase in precipitation will result to increase in surface runoffs and more groundwater recharge. Decrease in precipitation will result to decrease in both surface and groundwater. To examine changes in groundwater elevation as recharge change in Konza, a groundwater model was developed based on erosion impact calculator (EPIC) ecological model and SLIT groundwater model. EPIC model estimates the deep percolation (recharge) as 12% and total runoff to about 24% of the annual average precipitation. The annual average recharge values from EPIC were used in SPLIT to simulate results for the groundwater elevation at Konza prairie. Field wells elevation were use to calibrate the SPLIT results. By estimating the hydraulic permeability value to 0.546m/d the field well measurements and SPLIT simulated groundwater elevation results provide a good match. After calibration max and min recharge together with a 5-years moving average were used to examine the changes in groundwater elevation as recharge changes. Future study intends to use the calibrated Konza groundwater model and the forecasted climate data to simulate result for groundwater elevation as climate changes. Groundwater Modeling Analitic Element Method Konza Recharge Tallgrass Prairie Agriculture, Range Management (0777) Engineering, Civil (0543)
173	A micrometeorology study of stock watering ponds, rangelands, and woodlands in the Flint Hills of Kansas Duesterhaus, Jamey L. January 1900 (has links) Doctor of Philosophy / Department of Agronomy / Jay M. Ham / Land management practices such as burning and grazing may affect evapotranspiration (ET) and water balance of the tall grass prairie in the Flint Hills of eastern Kansas. Experiments were designed to estimate or measure the water balance of a stock-watering pond, and compare energy balance parameters and ET between grazed and ungrazed prairies. The hydrology of the native tallgrass prairie also was compared with mature stand of eastern red cedar (Juniperus virginiana), a site that was formerly prairie but converted to woodland when prescribed burning was discontinued. Data were collected to encompass the seasonal and yearly changes in weather variability. A host of micrometeorological sensors were used to measure surface atmosphere exchange and water losses, including: eddy covariance towers on prairie and woodland sites, specialized through fall and stem flow equipment at the woodland site, and an instrumentation raft at the stock watering pond. Results of the stock pond study showed that, on average, evaporation accounted for 64% of the water loss, followed by seepage at 31%, cattle use at 3% and transpiration at 2%. Comparisons of grazed and ungrazed areas showed that grazing caused only small, 3 to 6 %, reductions in seasonal ET compared with ungrazed pastures despite large differences in vegetative cover. In the woodland study, the 50-yr-old cedar canopy intercepted 54% of the precipitation received, thus decreasing the amount of precipitation reaching the soil. Evapotranspiration from woodland and prairie sites were similar, but net carbon exchange was greater on the prairie. Thus, the apparent water use efficiency during he summer months was 3 times greater on the prairie. Net radiation at the woodland site was 100 W m-2 higher compared with the prairie. This caused an increase in the woodland sensible heat flux and midday Bowen ratios, yet woodland latent heat flux and ET was similar to the prairie during the study, factors that could affect regional climate. Land management decisions regarding grazing, prescribed burning, and stock pond design will impact the watershed hydrology and productivity of the tallgrass prairie. evaporation stockpond evapotranspiration Agriculture, Agronomy (0285) Agriculture, Range Management (0777) Engineering, Agricultural (0539)
174	Soil fertility enhancement through appropriate fertilizer management on winter cover crops in a conservation agriculture system Dube, Ernest January 2012 (has links) A study was carried out to determine the effects of oat (Avena sativa) and grazing vetch (Vicia darsycapa) winter cover crops and fertilizer application on SOM, phosphorus (P) pools, nutrient availability, nutrient uptake, maize yield and seedbanks of problematic weeds in an irrigated maize-based conservation agriculture (CA) system. A separate experiment was carried out to investigate the effects of the winter cover crops on nitrogen (N) management, N use efficiency and profitability. After four years of continuous rotation, the winter cover crops significantly (p<0.05) increased particulate SOM and hot water soluble carbon in the 0 – 5 and 5 – 20 cm soil depths. When fertilized, oat was better able to support SOM sequestration in water stable aggregates at 0 – 20 cm whilst grazing vetch was more effective at 20 – 50 cm. Where no fertilizer was invested, there were significant (p<0.01) reductions in biomass input and SOM on oat-maize and weedy fallow-maize rotations whereas vetch-maize rotations did not respond, both at 0 – 5 and 5 – 20 cm. Targeting fertilizer to the winter cover crop required less fertilizer, and yet gave a similar SOM response as targeting the fertilizer to the maize crop. In addition to increasing SOM in the surface soil (0 – 5 cm), the winter cover crops significantly (p<0.05) increased labile pools of P, including microbial P. The cover crops also significantly (p<0.05) increased maize P concentration during early growth, extractable soil P, Cu, Mn, and Zn but had no effect on Ca and K. Grazing vetch increased soil mineral N but reduced extractable soil Mg. Without fertilizer, there were sharp declines in maize grain yield on oat and weedy fallow rotations over the four year period, but less so, on the grazing vetch. Grazing vetch increased maize growth, grain yield response to N fertilizer, nitrogen use efficiency (NUE) and profitability for fertilizer rates below 180 kg N ha-1. Oat effects however on maize yield and NUE were generally similar to weedy fallow. Based on the partial factor productivity of N, the highest efficiencies in utilization of fertilizer N for maize yield improvement under grazing vetch and oat are obtained at 60 kg N ha-1 and would decline thereafter with any increases in fertilizer application rate. Grazing vetch gave N fertilizer replacement values of up to 120 kg N ha-1 as well as the highest marginal rates of return to increasing N fertilizer rate. The cover crops were more effective than the weedy fallow in reducing seedbank density of Digitaria sanguinalis, Eleusine indica, Amaranthus retroflexus and Datura stramonium at 0 – 5 cm soil depth, causing weed seed reductions of 30 - 70%. The winter cover crops however, selectively allowed emergence of the narrow leafed weeds; Cyperus esculentus and Digitaria sanguinalis in the maize crop. The findings of this study suggested that grazing vetch is suited for SOM improvement in low fertilizer input systems and that fertilizer is better invested on winter cover crops as opposed to maize crops. Oat, on the other hand, when fertilized, would be ideal for C sequestration in water stable aggregates of the surface soil. Grazing vetch is ideal for resource poor farmers who cannot afford mineral fertilizers as it gives grain yield improvement and high fertilizer replacement value. Grazing vetch can produce enough maize yield response to pay its way in the maize-based systems and oat may not require additional N than that applied to the weedy fallow. Phosphorus and Zn are some of the major limiting essential plant nutrients on South African soils and the winter cover crops could make a contribution. The cover crops also hasten depletion of some problematic weeds from seedbanks, leading to reduced weed pressure during maize growth. Fertilizers Soil fertility Crops -- Nutrition Soil productivity Range management Grazing -- Management Forage plants Humus
175	Socio-economic impact of the participatory and conventionally implemented irrigation and livestock development projects: a case of Beitbridge and Mberengwa Districts of Zimbabwe Ndou, Portia January 2008 (has links) The purpose of this study was to evaluate the impact of participatory and conventional approaches to livestock and irrigation project implementation in Zimbabwe’s Beitbridge and Mberengwa districts. The conventional livestock projects performed better than the participatory. Despite the breed for the participatory livestock projects being unsuitable for the environment, the farmers failed to utilize the drugs and surplus funding set aside for replacement of dead cattle. Farmer training was found to be of paramount importance in the establishment of the livestock projects in spite of the participatory approach used for the implementation of the projects. Also the technical backup and support for the livestock project beneficiaries is important to ensure early rectification of problems that may affect the smooth running of the projects as well as an opportunity to introduce new technical advice to boost production. Livestock projects take long period of time to establish, i.e. for the financial turn over to be realized. It takes long time for farmers in these projects to make investments from the proceeds of the livestock projects. For this reason, there is need for the number of beneficiaries for each pass-on livestock project to take into account the number of beasts at project establishment and also the number per each beneficiary group. However, the projects should still be encouraged as they will take full operation at a later stage and be of benefit to the rural disadvantaged who cannot access other means to own cattle, which in turn play a pivotal role in crop production (through draft power, manure provision) and cash earnings that indirectly ensures food security. Regardless of approach used, livestock projects should be strongly supported because the districts under study are prone to poor crop production and hence the cattle can be a source of income and food. Participatory irrigation projects performed better than the conventionally implemented, despite their small hectarages. This proved that farmer participation can greatly improve the efficiency of development work and eliminate many of the problems regarding proprietorship and enhance development activities at community level. Conventional irrigation projects were plagued by problems of mismanagement and theft as was reflected by poor performance and malfunction of the conventional Chingechuru and Chimwe-Chegato irrigation schemes. Fencing theft atChingechuru irrigation scheme had brought it to a stand still. However, the larger incomes associated with the conventionally implemented irrigation projects were the result of the larger areas under cropping for these projects. Production levels in participatory irrigation schemes were good. Adoption of most technical innovations in livestock projects was found to be associated with the conventional approach. Asset procurement was a function of the farmer’s accessibility to non-project income, like formal employment, and procurement of specific assets applied more to project type than the approach to project implementation. This study found that the approach used in implementation had a greater influence on the performance of irrigation projects than livestock projects. Irrigation -- Zimbabwe Water resources development -- Zimbabwe Range management -- Zimbabwe Livestock projects -- Zimbabwe
176	Principles of Obtaining and Interpreting Utilization Data on Rangelands Ruyle, George B., Smith, Lamar, Maynard, Jim, Barker, Steve, Stewart, Dave, Meyer, Walt, Couloudon, Bill, Williams, Stephen 10 1900 (has links) 14 pp. / Originally published: 2007 / A primary expression of stocking levels on rangeland vegetation is utilization defined as the proportion or degree of current years forage production that is consumed or destroyed by animals (including insects). Utilization may refer either to a single plant species, a group of species, or the vegetation as a whole. Utilization is an important factor in influencing changes in the soil, water, animal, and vegetation resources. The impact of a specific intensity of use on a plant species is highly variable depending on past and present use, period of use, duration of use, inter-specific competition, weather, availability of soil moisture for regrowth, and how these factors interact. Utilization data can be used as a guideline for moving livestock within an allotment with due consideration to season, weather conditions and the availability of forage and water in pastures scheduled for use during the same grazing season. In combination with actual use and climatic data, utilization measurements on key areas and utilization pattern mapping are useful for estimating proper stocking levels under current management. Utilization studies are helpful in identifying key and problem areas, and in identifying range improvements needed to improve livestock distribution. Reviewed 10/2016. Originally published 5/2007. forage grazing range management utilization data southwest rangelands stocking levels vegetation measurements livestock distribution
177	Acceptability and influence of rangeland fencing in the southern region of Botswana Sebina, Nkanyezi Venus 05 August 2005 (has links) Please read the abstract in the section 00front of this document / Thesis (PhD (Agric) Extension)--University of Pretoria, 2005. / Agricultural Economics, Extension and Rural Development / unrestricted Fences botswana Range management Communal rangelands botswana Sustainable agriculture botswana Agriculture and state botswana UCTD
178	Effects of Grazing of Reed Canarygrass (Phalaris arundinacea) in Restored Wet Meadows in the Northern Tall Grass Prairie Cleys, Jake Robert January 2019 (has links) Reed canarygrass (Phalaris arundinacea) is a grass species that can dominate wet meadow plant communities. This study investigated if grazing by cattle on restored wet meadows suppresses reed canarygrass, thereby promoting the restored plant community. This study was conducted at two locations in northwest Minnesota. Management practices used were a patch-burn grazing treatment and a four-pasture high intensity-short duration grazing rotation. A pretreatment survey was conducted before grazing followed by annual surveys every five years after grazing. Both treatments reduced reed canarygrass canopy cover by 49 percent compared to non-grazed control sites. Grazed patches were moving towards a Carex dominated community. The community not invaded with reed canarygrass had similar native species richness at the end of the experiment in the rotational grazing treatment, and improved plant richness in the patch-burn grazing treatment. This study demonstrates grazing reduces cover of reed canarygrass, while maintaining or increasing native plant species richness. grazing patch-burn grazing range management reed canarygrass rotational grazing wet meadows
179	Modeling Potential Native Plant Species Distributions in Rich County, Utah Peterson, Kathryn A. 01 May 2009 (has links) Georeferenced field data were used to develop logistic regression models of the geographic distribution of 38 frequently common plant species throughout Rich County, Utah, to assist in the future correlation of Natural Resources Conservation Service Ecological Site Descriptions to soil map units. Field data were collected primarily during the summer of 2007, and augmented with previously existing data collected in 2001 and 2006. Several abiotic parameters and Landsat Thematic Mapper imagery were used to stratify the study area into sampling units prior to the 2007 field season. Models were initially evaluated using an independent dataset extracted from data collected by the Bureau of Land Management and by another research project conducted in Rich County by Utah State University. By using this independent dataset, model accuracy statistics widely varied across individual species, but the average model sensitivity (modeling a species as common where it was common in the independent dataset) was 0.626, and the average overall correct classification rate was 0.683. Because of concerns pertaining to the appropriateness of the independent dataset for evaluation, models were also evaluated using an internal cross-validation procedure. Model accuracy statistics computed by this procedure averaged 0.734 for sensitivity and 0.813 for overall correct classification rate. There was less variability in accuracy statistics across species using the internal cross-validation procedure. Despite concerns with the independent dataset, we wanted to determine if models would be improved, based on internal cross-validation accuracy statistics, by adding these data to the original training data. Results indicated that the original training data, collected with this modeling effort in mind, were better for choosing model parameters, but sometimes model coefficients were better when computed using the combined dataset. abiotic attributes accuracy assessment GIS ISODATA logistic regression vegetation range management Ecology and Evolutionary Biology
180	A Conceptual Framework for Understanding Effects of Wildlife Water Developments in the Western United States Larsen, Randy T 01 December 2008 (has links) Free water can be a limiting factor to wildlife in arid regions of the world. In the western United States, management agencies have installed numerous, expensive wildlife water developments (e.g. catchments, guzzlers, wells) to: 1) increase the distribution or density of target species, 2) influence animal movements, and 3) mitigate for the loss of available free water. Despite over 50 years as an active management practice, water developments have become controversial for several species. We lack an integrated understanding of the ways free water influences animal populations. In particular, we have not meshed understanding of evolutionary adaptations that reduce the need for free water and behavioral constraints that may limit use of otherwise available free water with management practices. I propose a conceptual framework for understanding more generally how, when, and where wildlife water developments are likely to benefit wildlife species. I argue that the following five elements are fundamental to an integrated understanding: 1) consideration of the variable nature in time and space of available free water, 2) location and availability of pre-formed and/or metabolic water, 3) seasonal temperature and precipitation patterns that influence the physiological need for water, 4) behavioral constraints that limit use of otherwise available free water, and 5) proper spacing of water sources for target species. I developed this framework from work done primarily with chukars (Alectoris chukar). I also report supporting evidence from research with mule deer (Odocoileus hemionus). Chukars demonstrated a spatial response to available free water when estimates of dietary moisture content were < 40%. Mule deer photo counts were reduced at water sources with small-perimeter fencing, suggesting increased predation risk caused mule deer to behaviorally avoid use of otherwise available free water. When all five framework elements are considered, I found strong evidence that wildlife water developments have benefited some chukar populations. Historic chukar counts suggested a population benefit following installation of wildlife water developments. Experimental removal of access to free water caused increased movements and decreased survival of adult chukars. alectoris chukar chukar guzzler mule deer partridge pronghorn Agriculture Range Management Biology Zoology

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