Description: Principles of science and engineering used in the evaluation and control of water quality. Includes current legislation, types of pollution, sources and nature of pollution, introduction to water quality management practices, water supply and treatment, hydrologic concepts, effects of waste discharge on receiving waters, lake management, and water quality criteria and standards.
Description: Poor water quality, insufficient quantity and inadequate access to water are among the most serious threats to human health worldwide. This course analyzes the historical and contemporary roles that water plays on global health. Key drivers that affect water quality and quantity (with linkages to human health impacts) are investigated, including agriculture, climate change, population growth and urbanization, natural resources, international trade, and regional conflicts. Both theoretical and practical methods are used to examine real world cases. A systems framework is used to develop sustainable and appropriate solutions that consider individual, social, technological, and institutional factors.
Course Goals: Described under learning objectives and competences.
Competencies: C1 - compare and contrast historic and modern water-related public health issues and trends from different areas of the world, with an emphasis on inequity and sustainability
C2 - articulate how globalization of the world's economies, cultures, production systems, and policies converge and interact to affect water quality and quantity
C3 - find, analyze, manage, and interpret science-based data from international and global resources that may be used to tackle key issues related to water supply, security, sanitation, and waste
C4 - apply social ecology models to conceptually link ecosystem services and human well-being with respect to water, in consideration of economic, social, technological, and culture factors
C5 - collaborate in multi-disciplinary teams and apply systems frameworks to address contemporary and complex environmental health issues via problem-solving and decision-making exercises
C6 - propose and defend sustainable solutions to 'water and global health' at the societal-, organizational-, and individual-levels, and understand barriers to implementation
C7 - develop and utilize logic models to link programmatic inputs, processes, and outputs, and evaluate the likelihood of success for programs designed to protect water resources
Learning Objectives: L1 - the historical role of water in shaping the growth and development of humans and societies
L2 - similarities and differences of human health and disease issues across the world (e.g., developed versus developing nations, region X versus region Y) that are water-related
L3 - how key drivers (e.g., population growth, agriculture, international trade, biodiversity, resource exploitation) exacerbate water supply, security, sanitation and waste
L4 - the key biological, chemical, and physical stressors in water systems around the world
L5 - systems approaches and how these may be used to tackle complex environmental health issues
L6 -the roles of individuals, scientists, organizations (non-governmental, governmental), and nations in the management and sustainability of water resources
L7 - sustainable solutions and evaluative schemes/metrics to 'water and global health' at the individual-, technological-, and institutional-levels
Description: The course will be divided into three sections: Section 1, Introduction of a variety aspects of internships in global environmental health; Section 2, working with individual faculty (advisor) to select an international project and prepare funding applications; and Section 3; present the proposed project in class.