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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
171

Strategien zur Verbesserung der N-Ausnutzung im ökologisch wirtschaftenden Futterbaubetrieb / Strategies in organic forage farms to increase nitrogen utilization

Poddey, Eike 21 July 2011 (has links)
No description available.
172

SUPAPRASTINTO ŽEMĖS DIRBIMO ĮTAKA DIRVOŽEMIUI IR SĖJOMAINOS PRODUKTYVUMUI / THE INFLUENCE OF REDUCED SOIL TILLAGE ON SOIL PROPERTIES AND CROP PRODUCTIVITY

Masilionytė, Laura 05 June 2006 (has links)
During the period 1996–2005, experiments were carried out at the Joniškėlis Research Station of the Lithuanian Institute of Agriculture on an Endocalcari-Endohypogleyic Cambisol. The experiment was set up in 1956 in the ten - field crop rotation: 1) mixture of vetch and oat, 2) winter wheat, 3) spring barley, 4) fodder beet, 5)spring barley with under sowing, 6) 1-st year perennial grasses (red clover and timothy), 7) 2-nd year perennial grasses, 8) winter wheat, 9) fodder beet, 10) spring barley. Scheme of the soil tillage: 1) Conventional soil tillage with ploughing 22-25 cm, 2) permanent shallow ploughing 12-15 cm, 3) soil tillage with an inconstant ploughing depth: 25 cm in fallow, 20 cm after perennial grasses, 15 cm after spring barley, 10 cm after fodder beet, 20-25 cm after winter wheat, 4) soil ploughing depth according to necessity, 5) deep loosening with chisel cultivator PČ-2,5 25 cm. The aim of this investigation was to evaluate the influence of conventional and permanent shallow soil tillage, its alternation, and no-shell board deep loosening on humous, soil physical properties, the productivity of crop rotation and energy efficiency. During the fifth crop rotation, conventional soil tillage alternated with permanent shallow soil tillage or with deep loosening with an inconstant ploughing depth according to necessity had no significantly influence on soil humous. The most increase (0,19 percentage units) of soil humous was determined in soil tillage with an... [to full text]
173

Soilborne disease suppressiveness / conduciveness : analysis of microbial community dynamics / by Johannes Hendrikus Habig

Habig, Johannes Hendrikus January 2003 (has links)
Take-all is the name given to the disease caused by a soilborne fungus Gaeumannomyces graminis (Sacc.) von Arx and Olivier var. tritici Walker (Ggt), an ascomycete of the family Magnaportheaceae (Cook, 2003). This fungus is an aggressive soil-borne pathogen causing root rot of wheat (primary host), barley and rye crops (secondary host). The flowering, seedling, and vegetative growth stages can be affected by the infection of the whole plant, leaves, roots, and stems. Infections of roots result in losses in crop yield and quality primarily due to a lowering in nutrient uptake. Take-all is most common in regions where wheat is cultivated without adequate crop rotation. Crop rotation allows time between the planting dates of susceptible crops, which causes a decrease in the inoculum potential of soilborne plant pathogens to levels below an economic threshold by resident antagonistic soil microbial communities. Soilborne disease suppressiveness is an inherent characteristic of the physical, chemical, and/or biological structure of a particular soil which might be induced by agricultural practices and activities such as the cultivation of crops, or the addition of organisms or nutritional amendments, causing a change in the microfloral environment. Disturbances of soil ecosystems that impact on the normal functioning of microbial communities are potentially detrimental to soil formation, energy transfers, nutrient cycling, and long-term stability. In this regard, an overview of soil properties and processes indicated that the use of microbiological and biochemical soil properties, such as microbial biomass, the analysis of microbial functional diversity and microbial structural diversity by the quantification of community level physiological profiles and signature lipid biomarkers are useful as indicators of soil ecological stress or restoration properties because they are more responsive to small changes than physical and chemical characteristics. In this study, the relationship between physico-chemical characteristics, and different biological indicators of soil quality of agricultural soils conducive, suppressive, and neutral with respect to take-all disease of wheat as caused by the soilborne fungus Gaeumannomyces graminis var. tritici (Ggt), were investigated using various techniques. The effect of crop rotation on the functional and structural diversity of soils conducive to take-all disease was also investigated. Through the integration of quantitative and qualitative biological data as well as the physico-chemical characteristics of the various soils, the functional and structural diversity of microbial IV communities in the soils during different stadia of take-all disease of wheat were characterised. All results were evaluated statistically and the predominant physical and chemical characteristics that influenced the microbiological and biochemical properties of the agricultural soils during different stadia of take-all disease of wheat were identified using multivariate analyses. Although no significant difference @ > 0.05) could be observed between the various soils using conventional microbiological enumeration techniques, the incidence of Gliocladium spp. in suppressive soils was increased. Significant differences @ < 0.05) were observed between agricultural soils during different stadia of take-all disease of wheat. Although no clear distinction could be made between soils suppressive and neutral to take-all disease of wheat, soils suppressive and conducive to take-all disease of wheat differed substantially in their community level physiological profiles (CLPPs). Soils suppressive / neutral to take-all disease were characterised by enhanced utilisation of carboxylic acids, amino acids, and carbohydrates, while conducive soils were characterised by enhanced utilisation of carbohydrates. Shifts in the functional diversity of the associated microbial communities were possibly caused by the presence of Ggt and associated antagonistic fungal and bacterial populations in the various soils. It was evident that the relationships amongst the functionality of the microbial communities within the various soils had undergone changes through the different stages of development of take-all disease of wheat, thus implying different substrate utilisation capabilities of present soil microbial communities. Diversity indices were calculated as Shannon's diversity index (H') and substrate equitability (J) and were overall within the higher diversity range of 3.6 and 0.8, respectively, indicating the achievement of very high substrate diversity values in the various soils. A substantial percentage of the carbon sources were utilised, which contributed to the very high Shannon-Weaver substrate utilisation indices. Obtained substrate evenness (equitability) (J) indices indicated an existing high functional diversity. The functional diversity as observed during crop rotation, differed significantly (p < 0.05) from each other, implying different substrate utilisation capabilities of present soil microbial communities, which could possibly be ascribed to the excretion of root exudates by sunflowers and soybeans. Using the Sorenson's index, a clear distinction could be made between the degrees of substrate utilisation between microbial populations in soils conducive, suppressive, and neutral to take-all disease of wheat, as well as during crop rotation. Furthermore, the various soils could also be differentiated on the basis of the microbial community structure as determined by phospholipid fatty acid (PLFA) analysis. Soil suppressive to take-all disease of wheat differed significantly (p < 0.05) from soils conducive, and neutral to take-all disease of wheat, implying a shift in relationships amongst the structural diversity of microbial communities within the various soils. A positive association was observed between the microbial phospholipid fatty acid profiles, and dominant environmental variables of soils conducive, suppressive, and neutral to take-all disease of wheat. Soils conducive and neutral to take-all disease of wheat were characterised by high concentrations of manganese, as well as elevated concentrations of monounsaturated fatty acids, terminally branched saturated fatty acids, and polyunsaturated fatty acids which were indicative of Gram-negative bacteria, Gram-positive bacteria and micro eukaryotes (primarily fungi), respectively. These soils were also characterised by low concentrations of phosphorous, potassium, percentage organic carbon, and percentage organic nitrogen, as well as low soil pH. Soil suppressive to take-all disease of wheat was characterised by the elevated levels of estimated of biomass and elevated concentrations of normal saturated fatty acids, which is ubiquitous to micro-organisms. The concentration of normal saturated fatty acids in suppressive soils is indicative of a low structural diversity. This soil was also characterised by high concentrations of phosphorous, potassium, percentage organic carbon, and percentage organic nitrogen, as well as elevated soil pH. The relationship between PLFAs and agricultural soils was investigated using principal component analysis (PCA), redundancy analysis (RDA) and discriminant analysis (DA). Soil suppressive to take-all disease of wheat differed significantly (p < 0.05) from soils conducive, and neutral to take-all disease of wheat, implying a shift in relationships amongst the structural diversity of microbial communities within the various soils. A positive association was observed between the microbial phospholipid fatty acid profiles, and dominant environmental variables of soils conducive, suppressive, and neutral to take-all disease of wheat. Hierarchical cluster analysis of the major phospholipid fatty acid groups indicated that the structural diversity differed significantly between soils conducive, suppressive, and neutral to take-all disease of wheat caused by Gaeumannomyces graminis var. tritici. The results indicate that the microbial community functionality as well as the microbial community structure was significantly influenced by the presence of take-all disease of wheat caused by Gaeumannomyces graminis var. tritici, and that the characterisation of microbial functional and structural diversity by analysis of community level physiological profiles and phospholipid fatty acid analysis, respectively, could be successfully used as an assessment criteria for the evaluation of agricultural soils conducive, suppressive, and neutral to take-all disease of wheat, as well as in crop rotation systems. This methodology might be of significant value in assisting in the management and evaluation of agricultural soils subject to the prevalence of other soilborne diseases. / Thesis (M.Sc. (Microbiology))--North-West University, Potchefstroom Campus, 2004.
174

Žemės naudojimo pagrindimas Šiaulių rajone / Substantiation of land use in Šiauliai district

Kartašovaitė, Alina 21 June 2013 (has links)
Baigiamojo darbo tikslas yra išanalizuoti ir pagrįsti žemės naudojimą Šiaulių rajone. Baigiamojo darbo uždaviniai: išanalizuoti žemės naudojimą reglamentuojančius dokumentus, taip pat išnagrinėti Šiaulių rajono žemės naudojimo ypatumus bei pagrįsti žemės naudojimą Šiaulių rajone. Lietuva yra nedidelė šalis, tačiau gamtinės sąlygos joje gana skirtingos. Tai dirvožemių įvairovė, nevienodas reljefas, net klimato skirtumai. Lyginant dirvožemius, reljefą ir klimatą, šalyje išskirtos trys gamtinės zonos – Vakarų, Vidurio ir Rytų. Šiaulių rajonas yra Lietuvos šiaurės vakarų dalyje - Rytų Europos lygumos pakraštyje, Lietuvos vidurio žemumoje. Rajono savivaldybės bendras žemės plotas 2012 m. sausio 1 d. siekia 180732 ha, iš jų žemės ūkio naudmenų plotas sudaro 10315 ha, tame skaičiuje: 90904 ha ariama žemė, 1260 ha sodai, 10988 ha pievos ir natūralios ganyklos. Rajone yra 59586 ha miškų. Šiaulių rajone privačios žemės plotas sudaro 108676 ha , 72048 ha yra valstybinė žemė - nusausintos žemės plotas 29713 ha. Rajono teritorijoje vyraujančios žemumos - tinkamos žemdirbystei, todėl čia gausu žemės ūkio bei jo produktų perdirbimo įmonių. Yra ir laisvų žemės plotų, tinkamų verslo plėtrai, su netoliese esančiomis komunikacijomis (dujotiekiu, elektros bei vandentiekio magistraliniais tinklais). Šiaulių rajono žemės naudojimo pagrindimui turi įtakos tiek pačios žemės pasiskirstymas pagal paskirtis, tiek kraštovaizdžio ypatybės, turizmas, naudingosios iškasenos bei ūkininkų skaičius ir ūkių... [toliau žr. visą tekstą] / The aim of this graduation paper is to analyse land use in Siauliai district. Objectives of the work: analysis of land use regulations, documents, also analysis of land use characteristics based on the use of land in Siauliai district. Although Lithuania is a small country, it has many natural variations. It has a variety of soils, relief and climatic differences too. When comparing soil, relief and climate, Lithuania can be divided into three regions – West, Central and East. Siauliai region is in North west of Lithuania – on the edge of the East Europe flatlands. As on January 1st 2012 the land area totals 180,732ha. This comprises 10,315 ha of agricultural land, made up of 90,904 ha of arable land, 1,260 ha of gardens and 10,988 ha of grassland and natural pasture. In Siauliai region there are 59,586 ha forests. Private land amounts to 108,676 ha, 72,048 ha is state land and drained land amounts to 29713 ha. Because much of the land is suitable for agriculture, there are many agricultural and product recycling companies in existence. Siauliai region land use depends on land distribution, landscape properties, tourism, minerals, also farmers and farms size. Land use perspective is not about analysis of statistic data, but also evaluation of all factors, on which land uses and intensity depends. Under the current farm specialization provides, that it is more in line with the development needs of industries, environmental protection and management of land use requirements... [to full text]
175

Soilborne disease suppressiveness / conduciveness : analysis of microbial community dynamics / by Johannes Hendrikus Habig

Habig, Johannes Hendrikus January 2003 (has links)
Take-all is the name given to the disease caused by a soilborne fungus Gaeumannomyces graminis (Sacc.) von Arx and Olivier var. tritici Walker (Ggt), an ascomycete of the family Magnaportheaceae (Cook, 2003). This fungus is an aggressive soil-borne pathogen causing root rot of wheat (primary host), barley and rye crops (secondary host). The flowering, seedling, and vegetative growth stages can be affected by the infection of the whole plant, leaves, roots, and stems. Infections of roots result in losses in crop yield and quality primarily due to a lowering in nutrient uptake. Take-all is most common in regions where wheat is cultivated without adequate crop rotation. Crop rotation allows time between the planting dates of susceptible crops, which causes a decrease in the inoculum potential of soilborne plant pathogens to levels below an economic threshold by resident antagonistic soil microbial communities. Soilborne disease suppressiveness is an inherent characteristic of the physical, chemical, and/or biological structure of a particular soil which might be induced by agricultural practices and activities such as the cultivation of crops, or the addition of organisms or nutritional amendments, causing a change in the microfloral environment. Disturbances of soil ecosystems that impact on the normal functioning of microbial communities are potentially detrimental to soil formation, energy transfers, nutrient cycling, and long-term stability. In this regard, an overview of soil properties and processes indicated that the use of microbiological and biochemical soil properties, such as microbial biomass, the analysis of microbial functional diversity and microbial structural diversity by the quantification of community level physiological profiles and signature lipid biomarkers are useful as indicators of soil ecological stress or restoration properties because they are more responsive to small changes than physical and chemical characteristics. In this study, the relationship between physico-chemical characteristics, and different biological indicators of soil quality of agricultural soils conducive, suppressive, and neutral with respect to take-all disease of wheat as caused by the soilborne fungus Gaeumannomyces graminis var. tritici (Ggt), were investigated using various techniques. The effect of crop rotation on the functional and structural diversity of soils conducive to take-all disease was also investigated. Through the integration of quantitative and qualitative biological data as well as the physico-chemical characteristics of the various soils, the functional and structural diversity of microbial IV communities in the soils during different stadia of take-all disease of wheat were characterised. All results were evaluated statistically and the predominant physical and chemical characteristics that influenced the microbiological and biochemical properties of the agricultural soils during different stadia of take-all disease of wheat were identified using multivariate analyses. Although no significant difference @ > 0.05) could be observed between the various soils using conventional microbiological enumeration techniques, the incidence of Gliocladium spp. in suppressive soils was increased. Significant differences @ < 0.05) were observed between agricultural soils during different stadia of take-all disease of wheat. Although no clear distinction could be made between soils suppressive and neutral to take-all disease of wheat, soils suppressive and conducive to take-all disease of wheat differed substantially in their community level physiological profiles (CLPPs). Soils suppressive / neutral to take-all disease were characterised by enhanced utilisation of carboxylic acids, amino acids, and carbohydrates, while conducive soils were characterised by enhanced utilisation of carbohydrates. Shifts in the functional diversity of the associated microbial communities were possibly caused by the presence of Ggt and associated antagonistic fungal and bacterial populations in the various soils. It was evident that the relationships amongst the functionality of the microbial communities within the various soils had undergone changes through the different stages of development of take-all disease of wheat, thus implying different substrate utilisation capabilities of present soil microbial communities. Diversity indices were calculated as Shannon's diversity index (H') and substrate equitability (J) and were overall within the higher diversity range of 3.6 and 0.8, respectively, indicating the achievement of very high substrate diversity values in the various soils. A substantial percentage of the carbon sources were utilised, which contributed to the very high Shannon-Weaver substrate utilisation indices. Obtained substrate evenness (equitability) (J) indices indicated an existing high functional diversity. The functional diversity as observed during crop rotation, differed significantly (p < 0.05) from each other, implying different substrate utilisation capabilities of present soil microbial communities, which could possibly be ascribed to the excretion of root exudates by sunflowers and soybeans. Using the Sorenson's index, a clear distinction could be made between the degrees of substrate utilisation between microbial populations in soils conducive, suppressive, and neutral to take-all disease of wheat, as well as during crop rotation. Furthermore, the various soils could also be differentiated on the basis of the microbial community structure as determined by phospholipid fatty acid (PLFA) analysis. Soil suppressive to take-all disease of wheat differed significantly (p < 0.05) from soils conducive, and neutral to take-all disease of wheat, implying a shift in relationships amongst the structural diversity of microbial communities within the various soils. A positive association was observed between the microbial phospholipid fatty acid profiles, and dominant environmental variables of soils conducive, suppressive, and neutral to take-all disease of wheat. Soils conducive and neutral to take-all disease of wheat were characterised by high concentrations of manganese, as well as elevated concentrations of monounsaturated fatty acids, terminally branched saturated fatty acids, and polyunsaturated fatty acids which were indicative of Gram-negative bacteria, Gram-positive bacteria and micro eukaryotes (primarily fungi), respectively. These soils were also characterised by low concentrations of phosphorous, potassium, percentage organic carbon, and percentage organic nitrogen, as well as low soil pH. Soil suppressive to take-all disease of wheat was characterised by the elevated levels of estimated of biomass and elevated concentrations of normal saturated fatty acids, which is ubiquitous to micro-organisms. The concentration of normal saturated fatty acids in suppressive soils is indicative of a low structural diversity. This soil was also characterised by high concentrations of phosphorous, potassium, percentage organic carbon, and percentage organic nitrogen, as well as elevated soil pH. The relationship between PLFAs and agricultural soils was investigated using principal component analysis (PCA), redundancy analysis (RDA) and discriminant analysis (DA). Soil suppressive to take-all disease of wheat differed significantly (p < 0.05) from soils conducive, and neutral to take-all disease of wheat, implying a shift in relationships amongst the structural diversity of microbial communities within the various soils. A positive association was observed between the microbial phospholipid fatty acid profiles, and dominant environmental variables of soils conducive, suppressive, and neutral to take-all disease of wheat. Hierarchical cluster analysis of the major phospholipid fatty acid groups indicated that the structural diversity differed significantly between soils conducive, suppressive, and neutral to take-all disease of wheat caused by Gaeumannomyces graminis var. tritici. The results indicate that the microbial community functionality as well as the microbial community structure was significantly influenced by the presence of take-all disease of wheat caused by Gaeumannomyces graminis var. tritici, and that the characterisation of microbial functional and structural diversity by analysis of community level physiological profiles and phospholipid fatty acid analysis, respectively, could be successfully used as an assessment criteria for the evaluation of agricultural soils conducive, suppressive, and neutral to take-all disease of wheat, as well as in crop rotation systems. This methodology might be of significant value in assisting in the management and evaluation of agricultural soils subject to the prevalence of other soilborne diseases. / Thesis (M.Sc. (Microbiology))--North-West University, Potchefstroom Campus, 2004.
176

Soil nitrate and ammonia levels as affected by no-till and conventional tillage, monoculture corn and soybean, corn-soybean and corn- soybean-alfalfa rotations, and added N

Galiano, Norma Graciela. January 1996 (has links)
Corn (Zea mays L.) production under monoculture and conventional tillage systems may land to soil degradation and nitrate (NO$ sb3 sp-$) pollution of surface and groundwater. This study evaluated the impact of no-till and conventional tillage, monoculture corn and soybean, corn-soybean rotations and corn-soybean-alfalfa rotations, and three fertilizer N rates applied to monoculture corn or soybean, and corn in rotation, on soil NO$ sb3$-N and NH$ sb4$-N levels. Experimental sites were a Ste-Rosalie clay (Humic Gleysol) and an Ormstown silty clay loam (Humic Gleysol). Results obtained from fall 1992 to spring 1995 showed that tillage had no effect on soil N levels under corn. Soil N levels under corn showed a linear response to added N, specially in the fall. Soil N levels under corn did not change considerably during the non-growing season. Higher spring NO$ sb3$-N levels, particularly in plots under conventional tillage and alfalfa or soybean, compared to fall values indicated greater nitrification and/or mineralization than denitrification, immobilization or leaching. Low NH$ sb4$-N levels indicated that nitrification processes were active. No consistent estimation could be made of fertilizer N credits for corn from either soybean or alfalfa based on NO$ sb3$-N levels in soil.
177

Learning to develop participative processes to improve farming systems in the Balonne Shire, Queensland /

Christodoulou, Nicholas. January 2000 (has links)
Thesis (M.Sc.) (Hons.) -- University of Western Sydney, Hawkesbury, 2000. / "A thesis presented to the University of Western Sydney, Hawkesbury, in fulfilment of the requirements for the degree of Master of Science (Honours)". Bibliography : leaves 123-130.
178

Nitrogen use in a maize-bean rotation in Nicaragua : effects of organic and mineral fertilisers /

Salmerón-Miranda, Francisco, January 2008 (has links) (PDF)
Diss. (sammanfattning) Uppsala : Sveriges lantbruksuniversitet, 2008. / Härtill 4 uppsatser.
179

Sistemas de implantação, irrigação e alterações fisiológicas de plantas de soja sob cultivo em terras baixas / Cropping systems, irrigation and physiological changes of soybean plants grown in lowland

Cassol, Guilherme Vestena 22 February 2017 (has links)
Soybean has been the main crop used in rotation with irrigated rice in Rio Grande do Sul. However, soybean cultivation in lowland represents a high-risk activity due to stresses that generally occur in this environment. These stresses may significantly reduce growth and development of soybean plants by limiting important physiological processes such as photosynthesis and biological nitrogen fixation. In view of the above, the thesis work aimed to determine the influence of different cropping and irrigation systems on root growth, nodulation, oxidative stress, photosynthesis, soil water holding capacity, water use efficiency and grain yield of soybean in lowlands. Two experiments were carried out under field conditions and one under greenhouse conditions in the Várzea Experimental area of the Federal University of Santa Maria, RS, during 2014/15 and 2015/16 growing seasons. For the burndown timing of ryegrass experiment, applications were carried out between 20 and 90 days before soybean planting on raised seedbeds. The experiment 1 involving cropping systems and irrigation consisted of combinations between raised seedbeds flat planting with or without the practice of irrigation. The experiment 2, was carried out under greenhouse condictions and was characterized by the implementation of 10 days water deficit during V6 (six expanded trifoliate), R2 (full flowering) and R5 (grain filling) growth stages. Based on the main results, it was observed that desiccation and sowing intervals of soybean less than 60 days or quantities of ryegrass straw remaining on the soil surface higher than 1000 kg ha-1 significantly increase soil moisture retention at the sowing time. Growing soybeans using raised seedbeds increase crop yield and reduce irrigation water use when compared to flat-planting of soybean in a rice-soybean rotation. Water shortage during the grain filling period significantly reduces grain yield of soybean in lowlands. / A soja tem sido a principal cultura utilizada em rotação com o arroz irrigado no Rio Grande do Sul. No entanto, o cultivo da soja em terras baixas constitue-se em uma atividade de alto risco devido aos estresses que geralmente atuam neste ambiente. Estes estresses podem reduzir significativamente o crescimento e desenvolvimento das plantas de soja através da limitação de processos fisiológicos importantes como por exemplo, a fotossíntese e a fixação biológica de nitrogênio. Em vista do exposto, o trabalho de tese teve como objetivo determinar a influência de diferentes sistemas de implantação e de irrigação no crescimento do sistema radicular, nodulação, estresse oxidativo, fotossíntese, armazenamento de água no solo, eficiência do uso de água e rendimento de grãos de soja em terras baixas. Foram realizados dois experimentos em condições de campo e um em casa de vegetação na área Experimental de Várzea da Universidade Federal de Santa Maria, RS, durante os anos agrícolas de 2014/15 e de 2015/16. O experimento1 consistiu de épocas de dessecação do azevém, as quais foram realizadas entre 20 e 90 dias antes da semeadura da soja em camalhões. O experimento envolvendo sistemas de implantação e irrigação constituiu-se das combinações entre camalhões e sem camalhões com ou sem irrigação suplementar. O experimento 2 foi realizado em casa de vegetação e caracterizou-se pela implementação de 10 dias de deficit hídrico nos estádios fenólóficos V6 (seis trifólios expandidos), R2 (florescimento pleno) e R5 (enchimento de grãos). Com base nos principais resultados, observou-se que intervalos de dessecação e semeadura da soja menores de 60 dias ou quantidades de palha de azevém remanescente na superfície do solo superiores a 1000 kg ha-1 aumentam signicativamente a retenção de umidade no momento de semeadura. O uso de camalhões para o cultivo da soja aumenta o rendimento de grãos e reduz o uso de água para irrigação comparado ao sistema sem camalhões. A deficiência hídrica durante o período de enchimento de grãos reduz significativamente o rendimento de grãos de soja em terras baixas.
180

Snížení erozní ohroženosti pozemků prostřednictvím meziplodin a jejich aplikace na vybrané pozemkové úpravě

JÁNOŠÍK, Vojtěch January 2016 (has links)
This thesis covers and evaluates the possibilities of using sowing procedures in the contemporary Czech agriculture. The first part of the thesis analysis erosion, anti-erosion protection and endowment policy. Universal Wischmeier-Smith equation for calculating soil loss from lan is described in the second part. The effectiveness of anti-erosion of some selected sowing procedures is analysed at the selected cadastral Čestice.

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