Podridão vermelha da raiz em variedades de soja associada a níveis de irrigação e de compactação do solo /

De Luca, Helena Baroni Junqueira Franco.

January 2012

Orientador: Maria Aparecida Pessoa da Cruz Centurion / Banca: Itamar Andrioli / Banca: Ivana Marino Bárbaro / Banca: Claudia Fabrino Machado Mattiuz / Banca: Rita de Cássia Panizzi / Resumo: Objetivou-se verificar se a época de semeadura, o grau de compactação do solo e o conteúdo de água no solo influenciam o comportamento de duas cultivares de soja (CAC-1, classificada como resistente e FT-Cristalina, como suscetível), em relação a severidade da podridão vermelha da raiz (PVR). Os experimentos foram desenvolvidos na FCAV/UNESP/Jaboticabal, envolvendo etapas de casa de vegetação e de campo. No campo, as cultivares FT-Cristalina e CAC-1 apresentaram níveis de doença variáveis conforme a época de semeadura, sendo que no outono/inverno 2009, na cultivar CAC-1 foi observado maior número de plantas com sintomas da PVR na parte aérea. Na primavera/verão 2009/10, a cultivar FT-Cristalina apresentou maior número de plantas com sintomas. Graus mais elevados de compactação e de umidade do solo (-0,001 MPa) favoreceram a ocorrência da PVR, e reduziram o desenvolvimento e produtividade da soja. Houve maior desenvolvimento radicular na camada superficial (0,0-0,10 m) onde a compactação foi menor comparada a camada de 0,10-0,20 m. Tanto na cultivar resistente quanto na suscetível à PVR, observaram-se maiores áreas, comprimentos, densidades e massas seca de raízes nas plantas inoculadas. Em casa de vegetação, na primavera/verão de 2009/10, o maior grau de compactação (resistência a penetração = 0,602 MPa) foi o qual proporcionou menor desenvolvimento radicular. No outono/inverno de 2010, a PVR foi influenciada pela irrigação, sendo que nas menores tensões de água observaram-se maiores severidades dos sintomas na parte aérea em ambas cultivares. Os tratamentos infestados, nesta época, tiveram a altura de plantas reduzida em relação aos não infestados. A infestação do solo com F. tucumaniae promoveu redução significativa do desenvolvimento do sistema radicular / Abstract: The objective of this experiment was to assess the influence of sowing time, soil compaction level, and soil water content on the severity level of sudden death syndrome (SDS) in two soybean cultivars - one (CAC-1), classified as resistant and another (FT-Cristalina) as susceptible. Experiments were carried out in Jaboticabal, a campus of the Paulista State University, in Jaboticabal, state of São Paulo, Brazil. The experiments were conducted both in the field and under green house conditions. In the field both cultivars showed variable levels of SDS, depending on sowing time. When sowing was made during the 2009 Fall/Winter period, CAC-1 cultivar showed the highest number of plants with the sudden death syndrome. When sowing took place during the 2009/10 Spring/Summer period, FT-Cristalina was the cultivar with the highest number of plants exhibiting the symptoms. High soil compaction and moisture (-0.001 MPa) degrees favored the occurrence of SDS and this resulted in plant growth and yield reductions. Plant root system, due to soil compaction, was more developed at the depth of 0.0 - 0.10 m than at 0.10 - 0.20. Plants of both cultivars showed root larger areas, lengths, densities, and dry matter when they had been previously inoculated. Under green house conditions, during the 2009/10 Spring/Summer period, the highest degree of soil compaction (penetration resistance of 0.602 MPa) was the factor causing the lowest root development. During the 2010 Fall/Winter period, SDS was influenced by irrigation - the lower soil water's tensions (high irrigation level), the more severe the symptoms in both cultivars. Infected plants were shorter than the non infected ones. Soil infection with F. tucumaniae caused significant reductions in root system development / Doutor

Solos - Manejo.

Agua na agricultura.

Fungos fitopatogenicos.

Soil and water management. eng

Impact of Land Management Practices on Water Balance and Sediment Transport in the Morogoro Catchment, Uluguru Mountains (Tanzania)

Kilemo, Dominico Benedicto

15 February 2018

Tanzania, like other developing countries in the tropics is severely affected by the degradation of water resources owing to improper land management practices. Such practices affect water supply through soil erosion which does not only cause sedimentation of rivers and water bodies but also leads to a reduction in the rainwater infiltration capacity of soils. This thesis seeks to demonstrate how the implementation of proper land management measures can reduce soil erosion and increase water supply in the Morogoro River catchment (Uluguru Mountains). The proper practices referred to are the soil and water conservation (SWC) approaches which include contour farming, fanya juu terracing and bench terracing. The thesis combines social science and geoscience methods in a synergetic manner to address this research problem. To understand how and to what degree SWC methods affect water fluxes and sediment yields, the hydrological model SWAT (Soil and Water Assessment Tool) was applied. Before carrying out the modelling procedures, it was necessary to examine the level of SWC adoption among farmers and factors influencing the process so as to establish the baseline. To this end, biophysical and socio-economic factors assumed to affect farmers’ adoption tendency were examined using a household questionnaire. Modelling results indicate that if correctly implemented contour farming, fanya juu terracing and bench terracing would significantly reduce sediment yield at different rates. The reduction would range approximately between 1% - 85% with the highest percentage change achieved by practicing the three SWC methods simultaneously. However, such SWC measures would not increase water flow annually owing to evapotranspiration losses. Nevertheless, according to modelling results groundwater storage would be increased by about 14% and hence contributing to water supply during the dry season. The household questionnaire survey suggests that the adoption of SWC methods in the study area is very low and complex. While age of the head of household, access to extension (professional) services, household annual income and proximity to the farm significantly influenced farmers’ decision to adopt SWC, gender of the head of household, slope characteristics of the farm, number of adults in the household and farmer’s perception on soil erosion effects had no considerable influence on adoption. Therefore, to successfully realize the SWC benefits demonstrated by the modelling results, smallholder farmers upstream of the catchment should be incentivized to implement proper land management practices. Payment for ecosystem services scheme appears to be a suitable strategy. To make this operational, the Tanzanian government should establish a national water fund which will finance watershed management activities. The methodological approach employed in this thesis is transferrable to other sites with problems comparable to the studied catchment.

SWAT model

Soil and Water Conservation Methods

SWAT Modell

ddc:550

rvk:RS 59363

SWAT bacteria sub-model evaluation and application

Parajuli, Prem B.

January 1900

Doctor of Philosophy / Department of Biological & Agricultural Engineering / Kyle R. Mankin / The overall goal of this study was to evaluate and apply the Soil and Water Assessment Tool (SWAT) model for fecal bacteria modeling. Methods were developed to characterize fecal coliform bacteria (FCB) from livestock, human, and wildlife sources to use as input in the model. Model sensitivity to predict FCB concentration was evaluated for the model parameters and input parameters using both SWAT 2000 and 2005 versions. Sensitivity of input parameters generally, ranked as Bacteria concentration ≥ TBACT > Wildlife source loads > Livestock stocking rate ≥ Livestock manure production rate > BACTKDQ for SWAT 2000 whereas it was ranked as BACTKDQ > TBACT > Bacteria concentration > WDLPQ > WDLPS for SWAT 2005. Sensitivity of model and input parameters were found changed from SWAT 2000. The SWAT (2005) model was calibrated and validated for daily flow, sediment, and fecal bacteria concentration using one year of measured data (January to December, 2004). The SWAT model predicted results with poor to very good agreement when compared with measured data with coefficient of determination (R2) and Nash-Sutcliffe Efficiency Index (E) range of 0.10 to 0.89 for daily flows, sediment, total phosphorus, total nitrogen and total FCB concentration. More extensive in-stream data are needed for more comprehensive model assessment. The SWAT model (2005) was evaluated for source-specific FCB modeling using three years (2004-2006) of observed modified deterministic probability of bacteria source tracking (BST) data. The FCB sources were modeled with three combinations (livestock and human, livestock and wildlife, wildlife and human) and each single source to evaluate the source-specific FCB concentrations. The SWAT model determined poor to good agreement for the combined source of FCB (R2, E range from -2.92 to 0.71) but determined generally decreased agreement for each single source of bacteria (R2, E range from -5.03 to 0.39) potentially due to BST uncertainty, spatial variability and source characterization. The SWAT model identified critical sub-watersheds in the watershed where implementing vegetative filter strips (VFS) could be most effective to abate fecal bacteria pollution. The targeting method of VFS application to the watershed sub-basins was found to be more effective in reducing both FCB (60% vs. 42%) and sediment yield (63% vs. 33%) as compared to a random approach. The FCB source characterization methods for modeling developed in this study are general and have the potential to be extended to other watersheds. The results of this study demonstrate that the SWAT model can be used to characterize the distribution of bacteria sources within a bacteria impaired watershed and assist with developing total maximum daily loads (TMDLs) and watershed restoration strategies.

Rainfall

runoff

fecal bacteria

modeling

SWAT (Soil and Water Assessment Tool)

Engineering, Agricultural (0539)

Engineering, Environmental (0775)

Erosion 3D Sachsen

Schmidt, Walter, Schindewolf, Marcus

14 June 2010

Für die Erstellung von Bewirtschaftungs- und Maßnahmenplänen (FFH, EU-WRRL) ist es erforderlich, den bislang noch sehr hohen Aufwand für die Datenbeschaffung und -generierung im Rahmen der Modellierung mit EROSION 3D zu senken. Erreicht werden soll eine schnellere sowie effizientere Abschätzung von Landnutzungsänderungen, Landschaftseingriffen, des Klimawandels usw. auf Oberflächenabfluss, Bodenabtrag sowie Sedimenteintrag in Gewässer mit EROSION 3D. Im vorliegenden Projekt ist es gelungen, Parametrisierung und Modellanwendung so zu kombinieren, dass eine Bodenabtragssimulation mit dem Modell EROSION 3D flächendeckend für Sachsen mit vertretbarem Zeitaufwand durchführbar ist. Der korrigierte und angepasste Geo-Basisdatensatz liefert die Primärinformationen zur Datenbankabfrage der Parametrisierungssoftware DPROC. Durch eine interaktive Flächenauswahl, kombiniert mit einem Flächendatenzuschnitt, können Landnutzungs- und Bearbeitungsszenarien für hydrologische Einzugsgebiete oder Oberflächenwasserkörper schnell parametrisiert werden. Die grundlegend korrigierte und erweiterte Datenbank des DPROC erlaubt die verbesserte Abschätzung erosionsrelevanter Bodenparameter, besonders für die dauerhaft konservierende Bodenbearbeitung und die Direktsaat. Die umfangreiche Dokumentation der Arbeitsschritte und die Transparenz der Datenbank ermöglichen es, jederzeit Aktualisierungen (Geo-Basisdaten) und Erweiterungen (DPROC-Datenbank) vorzunehmen. Von den Projektergebnissen profitieren vor allem die Anwender des Programms EROSION 3D. Beim Druck des Dokumentes ist zu beachten, dass die Karten im Format DIN A3 erstellt wurden.

info:eu-repo/classification/ddc/630

ddc:630

Impact of Land Management Practices on Water Balance and Sediment Transport in the Morogoro Catchment, Uluguru Mountains (Tanzania)

Kilemo, Dominico Benedicto

14 December 2017

Tanzania, like other developing countries in the tropics is severely affected by the degradation of water resources owing to improper land management practices. Such practices affect water supply through soil erosion which does not only cause sedimentation of rivers and water bodies but also leads to a reduction in the rainwater infiltration capacity of soils. This thesis seeks to demonstrate how the implementation of proper land management measures can reduce soil erosion and increase water supply in the Morogoro River catchment (Uluguru Mountains). The proper practices referred to are the soil and water conservation (SWC) approaches which include contour farming, fanya juu terracing and bench terracing. The thesis combines social science and geoscience methods in a synergetic manner to address this research problem. To understand how and to what degree SWC methods affect water fluxes and sediment yields, the hydrological model SWAT (Soil and Water Assessment Tool) was applied. Before carrying out the modelling procedures, it was necessary to examine the level of SWC adoption among farmers and factors influencing the process so as to establish the baseline. To this end, biophysical and socio-economic factors assumed to affect farmers’ adoption tendency were examined using a household questionnaire. Modelling results indicate that if correctly implemented contour farming, fanya juu terracing and bench terracing would significantly reduce sediment yield at different rates. The reduction would range approximately between 1% - 85% with the highest percentage change achieved by practicing the three SWC methods simultaneously. However, such SWC measures would not increase water flow annually owing to evapotranspiration losses. Nevertheless, according to modelling results groundwater storage would be increased by about 14% and hence contributing to water supply during the dry season. The household questionnaire survey suggests that the adoption of SWC methods in the study area is very low and complex. While age of the head of household, access to extension (professional) services, household annual income and proximity to the farm significantly influenced farmers’ decision to adopt SWC, gender of the head of household, slope characteristics of the farm, number of adults in the household and farmer’s perception on soil erosion effects had no considerable influence on adoption. Therefore, to successfully realize the SWC benefits demonstrated by the modelling results, smallholder farmers upstream of the catchment should be incentivized to implement proper land management practices. Payment for ecosystem services scheme appears to be a suitable strategy. To make this operational, the Tanzanian government should establish a national water fund which will finance watershed management activities. The methodological approach employed in this thesis is transferrable to other sites with problems comparable to the studied catchment.

info:eu-repo/classification/ddc/550

ddc:550

SWAT Modell

SWAT Online: Development of a Web-Based Decision Support System for the Soil and Water Assessment Tool

McDonald, Spencer Dean

01 December 2018

As satellite and climate modelling technology continues to improve and as climatological disasters and issues continue to impact the global community, climate data will increase in size and relevance. With this new influx of information, it is becoming more and more important for scientists to simply and concisely communicate their findings to both decision makers in governments and disaster preparedness organizations and also to the general public. The Soil and Water Assessment Tool (SWAT) is a powerful modelling tool that allows scientists to simulate essentially all of the physical processes involved in the water cycle. The data that SWAT produces can be valuable information as people strive to better plan for and understand various hydrologic events. The work presented in this thesis represents an effort to overcome some of the limitations of the previously developed SWAT visualization software by creating a set of modular web applications that can be duplicated, customized, and run by any organization or individual interested in visualizing and sharing data from SWAT. By eliminating the technical knowledge barriers that are inherent in running and using SWAT models, this work has the potential to increase SWAT’s impact on non-technically trained stakeholders and decision makers in areas where water and climate management is important.

Soil and Water Assessment Tool

hydrology

Tethys

decision support tool

Civil and Environmental Engineering

Impact on Soil and Groundwater from Road Maintenance and Traffic: Initial Study of the E18 Highway.

Earon, Robert

January 2011

The investigation of environmental impacts of 16 different contaminants originating from the E18 Highway (17 000 AADT) were carried out over the first six months of the highway‘s operational life. Investigative methods used include electrical resistivity surveying, water chemistry analyses, soil analyses, distribution modelling and transportation modelling. The investigation shows conclusively a year round infiltration due to melting of the snowpack from road salt, and a strong preferential anthropogenic pathway due to in-creased hydraulic conductivities of the road building materials relative to the natural soils. The resistivity surveys show values well below the expected values for the highway materials, indicating increased ionic content of the unsaturated zone. Time lapse resistivity modelling shows a clear downwards spreading of contamination from the roadway to subsurface distances greater than 5 m. Elevated concentrations of nearly every contaminant relative to baseline values were observed, with many concentrations of metals in the snow pack averaging values in excess of Swedish EPA groundwater limitations. Distribution modelling demonstrated a potential offset of peak values from the road surface due to ploughing and splash transport processes, but otherwise conformed to established distribution patterns. One dimensional transport modelling demonstrated the importance of adsorption and other retentive factors to the migration of contaminants to the water table, and provided an estimate for potential long term contaminant concentrations.

Geophysics

Resistivity

Hydrogeology

Contaminant Transport

Contaminant Distribution

Soil and Water Chemistry

Civil Engineering

Samhällsbyggnadsteknik

Auswirkungen des Klimawandels auf die Bodenerosion

Routschek, Anne

12 October 2012

Auf der Grundlage von Szenarien zu künftigen Starkregenereignissen wurde mit dem Modell Erosion-3D die Entwicklung der Bodenerosion durch Wasser berechnet. Eine Analyse der projizierten Starkregenereignisse zeigt, dass durch den Klimawandel die Häufigkeit der sommerlichen Starkregenereignisse abnimmt und die Starkregenintensität zunimmt. Landnutzung und unterschiedliche Bodenbearbeitungsverfahren haben allerdings einen bedeutend größeren Einfluss auf das Ausmaß der Bodenerosion als die künftig zu erwartenden Starkregenereignisse.

Klima, Bodenerosion, Wasser

climate, soil erosion, water

info:eu-repo/classification/ddc/910

ddc:910

Environmental Study of Pesticide Residues in Soil and Water from Cotton Growing Areas in Mali

Dem, Safiatou Berthe

30 July 2004

A study was undertaken to obtain information on farmers' knowledge, attitudes and practices regarding pesticide usage and to determine the amount of pesticide in soil and water samples collected at four cotton producing areas of Mali. The results from a survey of 24 farmers identified various concerns regarding personal and environmental safety. Despite their training, sometimes growers did not use pesticides in an appropriate manner. Highly toxic pesticides are used by farmers with insufficient personal protective equipment. Sixty soil samples and eight water samples from four cotton growing areas in Mali were scanned for detectable levels of fifty pesticides in total. Pesticides were detected in 77% of the soil samples and the main pesticides were p,p-DDT and its breakdown products, endosulfan I endosulfan II, endosulfan sulfate and profenofos. Among the pesticides detected, p,p-DDT use in the study area had not been reported during the past ten years. The most common pesticide detected in the soil samples from cotton growing areas studied was endosulfan II constituting 65% of the detections with a maximum amount of 37 ng/g. Residues detected in soil samples were below the quantification limit for the newer cotton production region of Kita and for the intermediate region of San. Eight pesticides were detected in water samples: γ-BHC (lindane), endosulfan I, endosulfan II, endosulfan sulfate, dieldrin, p,p-DDD, p,p-DDE and atrazine. All detected pesticides in water had concentrations below the quantification limit except for atrazine. Even though pesticides were found at low concentrations in ground water samples, the fact that water from these wells is used for human and animal consumption is of concern. Also, soil pesticides may be taken up by plants and passed on to other organisms feeding on those plants. Further residues studies in the cotton growing areas of Mali are in order to monitor pesticides residues in Malian soils, water and living organisms. / Master of Science

Mali West Africa

cotton growing areas

soil and water pesticide residues

farmer survey

COLLABORATIVE WATERSHED MANAGEMENT IN THE EAST FORK LITTLE MIAMI WATERSHED WITH AN EMPHASIS IN PLANNING AND PROJECT IMPLEMENTATION: AN INTERNSHIP WITH CLERMONT SOIL AND WATER CONSERVATION DISTRICT

McClatchey, Rebecca

26 May 2011

No description available.

Natural Resource Management

watershed management

Ohio Watershed Program

watershed organization

soil and water conservation district