In this studies, a plant water needs index was defined as an amount of rainfall, in the period of plant increasing water demands, which didn't increase a yield of an irrigated plants. Such defined optimal rainfall was calculated on the basis of results of long-term field experiments carried out on two kinds of soil in a region of Bydgoszcz. Irrigation needs understood as rainfall insufficiency in the period of plant increasing water demands, were calculated as a difference be-tween optimal and actual rainfall. Homogeneous rainfall data from years 1971-2005 in Mochełek (placed near Bydgoszcz) were used. Calculations of irrigation needs were made in the period of increasing water demands of the followed plants: spring cereals, medium-early potato and maize cultivated for grain. All of them were grown on two kinds of soil: a very light soil of permeable subsoil and a light soil of compact subsoil. Obtained results enabled to classify the evaluated irrigation needs. The criterions were: a number of essential individual water doses and a quantity of forecasted productive effects of the irrigated plants. Re-sults of the studies show that the irrigation needs calculated on a very light soil in the region of Bydgoszcz occurred in 87,7-97,1% (it ...
The paper presents results of a field experiment with maize varietas ‘Cedro’ (FAO230) irrigated on a light soil, carried out in years 2000-2008 in Mochełek (near Bydgoszcz. A combination of 90 and 150 kg of nitrogen per hec-tar was applied. Water was supplied by a drip irrigation system using the NAAN emitters. The layout of drip laterals placed in beetwen plants’ rows provided a moisture to the soil in a root zone. In the years of the study an average dose of water of 112 mm was used for irrigation (28 mm in June, 49 mm in July, 28 mm in August and 7 mm in September), but in separate seasons the dose varried from 25 mm (year 2007) to 215 mm (year 2008). Irrigation have increased the yield of corn from 5,62 t.ha-1 to 8,53 t.ha-1, which is 2,91 t.ha-1(52%). The increase of the yield of corn in separate years varied from 0,46 t.ha-1 (year 2000) and 0,60 t.ha-1 (in a cold year 2004) to 8,47 t.ha-1(in year 2006 when the art temperature in July was very high) and 6,26 t.ha-1(in year 2008 when was a rainfall shortage in months V-VII). The results of ...
The study presents the results obtained from the univariate series of laboratory experiments, conducted in 2009-2010. In the experiments, the effect of water constant magnetic field stimulated and unstimulated water on germination and initial growth of seedlings of pea, maize, yellow lupine and cucumbers were studied. The results confirmed the reaction varied seed plant species assessed on the type of water used. Beneficial effects of the use of magnetized water highlighted to boost growth and germination of seed maize and cucumbers. And in the case of the latter species also increases in the dry weight of the aboveground parts of seedlings. For the adverse effect of magnetized water should be considered to reduce the amount of seedlings of pea and yellow lupine and the dry weight of the underground part of the seedling corn. ...
The aim of study was to assess the effect of bottom sediments on the concentration of macronutrients (K, P, Na, Mg, Ca) and trace elements (Zn, Cd, Pb, Cr, Ni, Cu) in the plant test. The experimental design comprised 6 treatments: soil (control), soil + 5% of sediment, soil +10% of sediment, soil + 30% of sediment, soil + 50% of sediment and sediment (100%) in relation to the soil dry mass. The test plant - maize was harvested after 70 days of vegetation. Bottom sediment added to soil had a positive effect on maize biomass in the lowest dose, i.e. 5%. Higher doses of the sediment caused a reduction in maize yield. Bottom sediment positively affected concentration of nutrients: N, Mg, Na, K, Ca, Zn, Ni, Cu of maize shoots. However, the shoot biomass did not meet for fodder with respect to quality. Applied bottom sediment, has high content of sandy fractions, acid reaction and low concentration of organic carbon, nitrogen, phosphorus and potassium, can not be used as a fertilizer. Using bottom sediment from Narożniki reservoir in plant cultivation, one should take into consideration a necessity of application of supplementary NPK fertilization due to low concentration of these ...
The aim of the study was to evaluate the effect of four fertigation levels (25, 50, 75 and 100% of fertilizer dose, 240:100:200 kg N:P:K ha-1) and to compare with conventional practices (CP). The fertigation levels F1 25% of total fertilizer (60:25:50 kg N:P:K ha-1) treatments, F2 treatment is 50% of total fertilizer (120:50:100 kg N:P:K ha-1), F3 treatment is 75% of total fertilizer (180:75:150 kg N:P:K ha-1), F4 treatment is 100% of total fertilizer (240:100:200 kg N:P:K ha-1). The experiment was conducted during 2012 summer (from 20 June to 15 September) under the field conditions in the Menzilat soil series (Typic Xerofluvents) which is located in the East Mediterranean coastal part of Turkey. The experiment was designed as a completely randomized-block with three replications. The maize plant (Zea mays L.) was sown as second crop following with wheat cultivation. The maize yield was higher in F3 fertigation level treatment (12.47 Mg ha-1) compared to the other treatments. Lowest yield was recorded in F2 (8.45 Mg ha-1) treatment. The results shown that the half of the fertilizer application with conventional practices and the other half with fertigation are more efficient under Menzilat soil series conditions. For future, it is important ...
Drought is an important factor that causes a decrease in yield and quality in regions where second crop silage plants are grown. One of the biggest problems in animal husbandry is feed. Especially silage feed production tends to decrease in areas with increasing water deficit and where water needs cannot be met. The high water requirement of the corn plant requires irrigation in arid and semi-arid regions. However, in order to continue the production of silage fodder in regions where water resources are insufficient with the increase of drought, it will be necessary to grow forage plants that can be an alternative to corn plant. In previous studies, it has been discussed whether the sorghum plant is an alternative to the corn plant. The aim of this study is to determine the drought sensitivity index based on the yield values of both plants in wet and dry conditions. Thus, it will be determined whether the sorghum plant will be an alternative to the corn plant in terms of drought. The identification and selection of drought-resistant cultivars and species is possible using various indices. In this study, second crop silage maize and sorghum crops were grown in Kahramanmaraş conditions for two ...