Global ETD Search

151	Modeling the factors affecting cereal crop yields in the Amhara National Regional State of Ethiopia. January 2010 (has links) The agriculture sector in Amhara National Regional State is characterised by producing cereal crops which occupy the largest percentage (84.3%) of the total crop area cultivated in the region. As a result, it is imperative to investigate which factors influence the yields of cereal crops particularly in relation to the five major types of cereals in the study region namely barley, maize, sorghum, teff and wheat. Therefore, in this thesis, using data collected by the Central Statistical Agency of Ethiopia, various statistical methods such as multiple regression analysis were applied to investigate the factors which influence the mean yields of the major cereal crops. Moreover, a mixed model analysis was implemented to assess the effects associated with the sampling units (enumeration areas), and a cluster analysis to classify the region into similar groups of zones. The multiple regression results indicate that all the studied cereals mean yields are affected by zone, fertilizer type and crop damage effects. In addition to this, barley is affected by extension programme; maize crop by seed type, irrigation, and protection of soil erosion; sorghum and teff crops are additionally affected by crop prevention method, extension programme, protection of soil erosion, and gender of the household head; and wheat crop by crop prevention methods, extension programme and gender of the household head. The results from the mixed model analysis were entirely different from the regression results due to the observed dependencies of the cereals mean yields on the sampling unit. Based on the hierarchical cluster analysis, five groups of classes (clusters) were identified which seem to be in agreement with the geographical neighbouring positions of the locations and the similarity of the type of crops produced. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2010. Crop yields--Mathematical models. Crops--Growth--Mathematical models. Crop yields--Africa--Ethiopia.
152	Effects of water table management on water quality and strip cropped corn-soybean yields Mejía, Manuel. January 1997 (has links) A two-year field study was carried out in eastern Ontario to investigate the effects of water table management (WTM) on water quality and crop yields. Corn (Zea mays L.) and soybean (Glycine max Merr.) were planted in alternate strips across the three treatments of 50 cm controlled water table (CWT), 75 cm CWT and free drainage (FD). Drainflow volume and nitrate-N concentration of the drainage water were measured. Soil samples were collected and analysed for total N, P, K, available N, soil moisture and organic matter levels. Chlorophyll-meter readings and plant harvest parameters were also measured. Rainfall, soil and air temperatures were recorded throughout the growing seasons. / The obtained data show that in 1995, the CWT plots significantly increased total drainflow, as compared to FD. In 1996, overall drainflow and nitrate concentrations were significantly reduced. Both the corn and soybean yields were higher with WTM than with FD for both years. (Abstract shortened by UMI.) Water table -- Ontario. Groundwater -- Pollution -- Ontario. Corn -- Yields -- Ontario. Soybean -- Yields -- Ontario.
153	The contribution of earthworm communities to nitrogen cycling in agroecosystems of Québec / Eriksen-Hamel, Nikita S. January 2007 (has links) Earthworms have an important role in the decomposition of organic matter, mineralization of nutrients and physical mixing of soils. Despite a large number of laboratory and greenhouse-level studies investigating how earthworms modify soil properties and promote soil fertility, we lack reliable methods to scale-up and quantify earthworm contributions to nutrient cycling at the agroecosystem level. The objective of this thesis is to determine the influence of earthworm communities on nitrogen (N) transformations in soils and to quantify their contribution to nitrogen flux through soils for soybean and maize cropping systems of Quebec. Laboratory growth rates were used to predict how earthworm growth responded to seasonal fluctuations in soil temperature and moisture. The relationships between earthworm populations, soil-N pools and annual crop production were evaluated in a field experiment. When favourable conditions occurred in 2004 (temperatures <20°C, and rainfall at least once a week), a positive relationship was found between earthworm numbers and the plant available-N, including soil mineral-N, microbial biomass-N and total-N removed in soybean grain. In 2005, soil conditions were unfavourable (temperatures > 20°C and little or no rainfall) to earthworm survival and growth, and no relationship was found between earthworm populations, soil N pools and corn production. These data permitted me to make assumptions about earthworm activity and life histories under field conditions, which were used to estimate N flux through earthworm communities with two models. The models were tested for their sensitivity to varying parameter values within the range reported in the scientific literature. During a crop growing period with favourable climate conditions, a large earthworm population (100 g fresh weight biomass m-2 or greater) is predicted to cycle as much as 120 kg N ha-1. Model predictions were very sensitive to input parameters and did not correspond to the partial N budget calculated at the site. Accurate predictions of N mineralization by earthworms require more species- and site-specific parameter values. Further investigation using stable 15N isotopes as tracers would help us to follow the N transformations and evaluate the N flux mediated by earthworms at the field scale. Earthworms -- Québec (Province). Soybean -- Yields -- Québec (Province). Corn -- Yields -- Québec (Province).
154	Evaluation of three cycles of recurrent phenotypic selection for forage yield in orchardgrass and timothy Shateryan, Djavad January 1994 (has links) Three cycles of recurrent restricted phenotypic selection (RRPS) were carried out on two cultivars each of timothy (Phleum pratense L.) and orchardgrass (Dactylis glomerata L.). The selections were conducted at the E. A. Lods Agronomy Research Center of Macdonald Campus of McGill University from 1984 to 1988. Individual plant selections were based on dry matter yields of 25 plants. Within each of 16 grids, the five highest yielding genotypes were selected (i.e. 80 genotypes overall) and allowed to interpollinate. Equal weights of seeds from each of the 80 selected plants were mixed in each cycle. Evaluation trials were carried out in both sward and spaced stand from 1989 to 1993 to assess the effectiveness of selection in improving dry matter yield. Several other morphological and physiological characteristics of cycles were recorded to find possible associated changes. / Three cycles of RRPS were not effective in increasing forage dry matter yields. The lack of response may be due to a narrow genetic base in the source populations and/or the population size under selection may have been too small, resulting in inbreeding depression. Another explanation for the ineffective selection may be non-random pollination among selected plants. The selection for forage yield produced some minor changes in other characteristics. There was a tendency towards increased plant height and circumference in orchardgrass; however, for timothy, height and circumference were reduced by selection. Cycle 3 of Avon orchardgrass was one day later in maturity and there was also a tendency for later maturity for timothy. Orchard grass -- Breeding. Orchard grass -- Yields. Timothy-grass -- Breeding. Timothy-grass -- Yields.
155	An evaluation of pepperbean intercropping using different plant populations and bean cultivars Teolis, Igino January 1994 (has links) One of the advantages of intercropping has been the increase in yield over the monocultures. Intercrop yield can be improved by selecting for compatible cultivars and by efficient spacing arrangements of the component crops. A field experiment was conducted in the 1990 growing season to compare two spacing arrangements for the pepper/bean intercrop, to observe the effects of three bean cultivars on the system, and to examine whether there is any interaction between cropping system and bean cultivar. Three bean cultivars (Frenchie, Earliserve, and E-Z Pick), differing in their morphology and time to maturity, and one pepper cultivar (Hybrid Bell Boy) were used in the study. In the intercrop, the beans were sown at 50% of the optimum bean monocrop density while the peppers were planted at 100% or 50% of the optimum pepper monocrop density, resulting in 50:50 and 100:50 pepper/bean intercrop treatments. The experiment was repeated the following growing season with the addition of light transmission measurements, an $ sp{15}$N experiment to test for the possibility of nitrogen transfer, and the addition of three monocrop treatments (one for each cultivar) with the same intra-row spacing as in the intercrops. Beans were generally the dominant crop for both years. When compared to the optimum monocrops on a per plant basis, intercropping increased bean yields by 52% and 31% and decreased pepper yields by 49% and 21% in 1990 and 1991, respectively. The LER (Land Equivalent Ratio) ranged from 0.96 to 1.23 in 1990 and from 1.09 to 1.42 in 1991, with the 100:50 intercrops usually having the higher values. Frenchie and E-Z Pick were best suited for intercropping in 1990 and 1991, respectively. The overall increase in yields in intercropping was probably due to the larger bean intra-row spacing and the greater utilization of light, water and nutrients, as well as the increased population pressure in the 100:50 intercrop. Bean cultivars generally performed the same relative t
156	Crop response models for intensive cereal management applied to barley and wheat in Québec Stephen, Bruce G. January 1993 (has links) This thesis presents an investigation of two production functions (a non-linear-in-parameters and a generalized polynomial) in order to determine which function most appropriately represents the observed relationships of the components of ICM technology. Four spring barley and one spring wheat datasets were assembled from ICM field trials conducted in the Montreal region (1987-89). / A quadratic and a Mitscherlich-Baule equation were fitted to the (five) datasets and compared with respect to a number of measures of goodness of fit. One dataset was chosen for generating and graphing a three-dimensional response surface, based on the fitted equations of that dataset. The two surfaces were compared in light of expectations regarding the two equations. / The fitted equations of three of the five datasets did not produce noteworthy results. The other two datasets provided mixed results. The response surfaces provided outcomes that were contrary to prior expectations. In general graphing the response surfaces offered limited additional insight. Ultimately, this project may have been hampered by the experimental design of the field trials, those designs being oriented to results of agronomic rather than economic significance. Crop improvement -- Mathematical models. Barley -- Yields -- Québec (Province). Wheat -- Yields -- Québec (Province)
157	Crop response models for intensive cereal management applied to barley and wheat in Québec Stephen, Bruce G. January 1993 (has links) No description available. Crop improvement -- Mathematical models. Barley -- Yields -- Québec (Province). Wheat -- Yields -- Québec (Province)
158	Evaluation of three cycles of recurrent phenotypic selection for forage yield in orchardgrass and timothy Shateryan, Djavad January 1994 (has links) No description available. Orchard grass -- Breeding. Timothy-grass -- Yields. Timothy-grass -- Breeding. Orchard grass -- Yields.
159	An evaluation of pepperbean intercropping using different plant populations and bean cultivars Teolis, Igino January 1994 (has links) No description available.
160	The influence of fertilizers, manures, and lime on the plant and seed characters of wheat and corn and on their yield trend Kipps, M. S. January 1926 (has links) Under the conditions of the Rotation Experiment with Fertilizers, the following results were obtained with corn: The phosphorous plat, complete fertilizer plat and the manure plats produced a much higher yield of corn than the check plat. Also, these plats produced a higher percentage of marketable grain than the other plats. There was not much difference in the shelling percentage from the various plats but it was somewhat lower on the nitrogen and the floats plats. The nitrogen-phosphorous plat produced the greatest number pounds of shelled corn per pound of stover. The complete fertilizer plat also produced a high percentage of grain to stover. The percentage of matured ears was greatly increased on the nitrogen-phosphorous plat and the three manure plats. The corn plants on the manure plat developed sooner than those on the other plats while those of the check plat developed later. Also, the plants were larger in circumference and in height on the manured plat. The means of the corn characters were greater on the fertilized plats than on the check plat, and the means increased as the productivity increased. On the whole, the constants of variation were greater on the fertilized plats than on the check plat. The differences were sufficiently great to indicate that they were significant. On the whole, the coefficients of correlation of the corn characters were greater on the fertilized plats than on the check plat but the odds do not show that they are significant. Opposite results were obtained with wheat which is shown in Table 9. Also, in the case of wheat, the odds on the whole are not significant . In summing up all of the data in this experiment, it may be said that manure and acid phosphate were the chief limiting factors affecting yield. High yield of corn is usually accompanied by a high percentage of marketable grain, high shelling percentage, high ratio of grain to stover, high percentage of matured ears, and early maturity of plants. / Master of Science LD5655.V855 1926.K577 Wheat -- Fertilizers Corn -- Fertilizers Wheat -- Yields Corn -- Yields

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