Agricultural and Environmental Quality
Analysis of effects of agriculture on environmental quality with emphasis on agricultural wastes and practices, the potential for using agricultural systems for disposal of other wastes and the effects of pollution on the agricultural environment. (P)
Credits: 3; Prereq: SWS 3022, ALS 3153 and AGR 4214C or the equivalent.
This course focuses on the principles of agroecology and presentation of topics that integrate ecological with agricultural principles to optimize resource conservation, productivity, societal benefit and profitability.
The full range of water issues including abundance and quality of water in the environment, water policy and conflict. (P)
Relationships between human activities and soil and environmental quality. Lectures concentrate on the fundamentals of soil and environmental science using case studies to illustrate basic principles. Intended for non-majors. (B)
Introduction to Soils in the Environment
Fundamentals of soil science emphasizing the physical, chemical and biological properties of soils in relation to growth of native and agricultural plants and environmental uses. (P)
Introduction to Soils in the Environment Laboratory
Hands-on exposure to soils-related properties and processes.
Credits: 2; can be repeated with a change in content up to 6 credits.
Students learn to inventory soil properties and record them on a standard form used by USDA soil scientists. Students travel locally to the field and also attend a 3-day regional soil judging contest where they learn to classify soils using soil taxonomy and to interpret soil quality and behavior from soil properties.
Environmental Nutrient Management
Credits: 3; Prereq: SWS 3022.
Consumption, existing reserves, formulation, chemical and physical properties, and manufacture of commercial fertilizers; basic chemical reactions of fertilizer materials with the soil and the fate of the nutritional elements whether it be loss by leaching, plant uptake, fixation or soil retention. (P)
Credits: 3; Prereq: MAC 2233 or PHY 2048.
Analysis of global-scale interdependences between climate, biogeochemical cycles and humans using a systems approach.
Sustainable Agricultural and Urban Land Management
Credits: 3; Prereq: SWS 3022 or instructor permission.
Agricultural and urban water quality issues in Florida, their bases, land and nutrient management strategies and the science and policy behind Best Management Practices (BMPs). Students will learn to evaluate BMP research and analyze its role in determining practices and policies that protect water quality.
Credits: 3; Prereq: BSC 2005 and BSC 2005L or BSC 2010 and BSC 2010L and CHM 2045 and 2045L.
To gain understanding of the earth as a biogeochemistry system in the context of global change.
Suitabilities/limitations of soils for different uses; using soil surveys and related information to plan use/management of land; behavior of water in soils/landscapes; policies for and implications of water allocation among urban, agricultural and natural resource uses. (P)
Soil/water resources, historical erosions and sediment problems, geologic vs. accelerated erosion, erosion prediction equations and government conservation programs; water conservation, irrigation, drainage and salinity; stormwater management; and case studies in erosion and sedimentation.
Introduces wetland ecosystems with emphasis on principles and problems associated with their functions and values as related to water quality. Students become familiar with basic and applied concepts in hydrology, soils and vegetation of both constructed and natural wetlands.
The quantitative effects of human impacts on hydrologic ecosystems (aquifers, watersheds, coastal zones, lakes and wetlands). Case studies illustrate detrimental effects of unsustainable resource utilization and beneficial management strategies.
Credits: 3; Prereq: SWS 3022.
Occurrence and activities of soil microorganisms and their influence on soil productivity and environmental quality.
Ecology of Waterborne Pathogens
Credits: 3; Prereq: MCB 3020, MCB 3023 or MCB 4203, or equivalent.
Survival strategies, gene regulation and metabolism of waterborne pathogens. Methods for microbe detection and control.
Physico-chemical processes such as mineral weathering and formation, sorption and ion exchange. Also includes introduction to diffuse double-layer theory.
Credits: 3; Prereq: CHM 2045, CHM 2046 and BSC 2010, or instructor permission.
Important instances where soil and water science and public health overlap. Students develop skills required for competency in both disciplines.
Credits: 3; Prereq: MAC 2311, PHY 2004 and SWS 3022.
Physical processes and properties of soils that influence optimum growth of plants as well as potential for groundwater pollution from agrochemicals and applied wastes. Primary emphasis is given to basic concepts of transport and retention for water and solutes; secondary emphasis is given to air and heat in the root zone of the soil profile; and limited attention is given to mechanical properties of soil that affect the proliferation of plant roots. (P)
Credits: 4; Prereq: SWS 3022.
Study and analysis of soil in the environment and the factors responsible for soil formation and geographic distribution. Development of hydric soil criteria and hydric soil indicators. Emphasis on morphology or hydric/ non-hydric soils and introduction to diagnostic horizons and soil classification. Course also includes abs on soil field techniques.
Basic, practical understanding of GIS concepts, technical issues and applications to soil and water science using ArcGIS geographic information system.
Environmental Soil and Water Monitoring Techniques
Credits: 3. Prereq: BSC 2010 and BSC 2010L; CHM 2045 and CHM 2045L.
Introduces students to the principles, objectives and practices in environmental monitoring. Students will learn the proper techniques in planning for monitoring projects, sampling design, sample collection, basic principles of laboratory analysis and basic data analysis. Quality assurance and quality control requirements are introduced and emphasized.
Credits: 1 to 3; can be repeated with change in content up to 6 credits. Prereq: 8 credits of soils and instructor permission.
Selected topics for qualified students.
Supervised Research in Soil and Water Science
Credits: 0 to 3; can be repeated with a change in content up to 6 credits.
Firsthand, authentic research in soil and water science under the supervision of a faculty member. Projects may involve inquiry, design, investigation, scholarship, discovery or application. (S-U)
Honors Thesis Research in Soil and Water Science
Credits: 0 to 3; can be repeated with a change in content up to 6 credits. Prereq: junior standing, upper division GPA of 3.75 or higher and completed honors thesis proposal on file.
Independent research in soil and water science leading to an honors thesis. Student will be mentored by a faculty member. Projects may involve inquiry, design, investigation, scholarship, discovery or application. (S-U)
Special Topics in Soil and Water Science
Credits: 1 to 3; can be repeated with change in content up to 6 credits.
Variable topics designed to meet students' needs and interests.
Full-time Practical Work Experience in Soil and Water Science
Credits: 1 to 3; Prereq: prior arrangement with adviser, and department and dean permissions.
Practical work must be a new experience and related to field of study. (S-U)