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Human-Environment Interaction Outline: Conceptual framework and terminology Human-Atmosphere Interactions Human-Lithosphere Interactions Human-Hydrosphere Interactions Policy Issues, Prospects, and Perspectives. Physical Landscape. Cultural Landscape.
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Human-Environment Interaction • Outline: • Conceptual framework and terminology • Human-Atmosphere Interactions • Human-Lithosphere Interactions • Human-Hydrosphere Interactions • Policy Issues, Prospects, and Perspectives
Physical Landscape Cultural Landscape • Conceptual framework and terminology • Cultural-Physical Landscape Interactions • Terminology • Environment • Biosphere (Ecosphere) • atmosphere, hydrosphere, lithosphere
Human-Atmosphere Interactions • Human-Atmosphere Interactions • Control Factors for Climate • Climatic regions and historical development patterns • Biome • desert, grassland, steppe, tropical rain forests, northern coniferous forests. • Ecosystems
Human-Atmosphere Interactions • Human-Atmosphere Interactions (cont.) • Natural- vs. Human-induced climate changes • Aerosols and the icebox effect • Volcanoes / Smoke stacks • Global Warming, Acid Rain, Ozone Depletion
Human-Atmosphere Interactions • Global Warming -- “greenhouse” effect • Industrial revolution • Greenhouse gases • carbon dioxide, methane, nitrous oxides, chlorofluorocarbons. • Greenhouse effect • Secondary effects • sea level rise, increasing aridity or dry areas, extremal weather patterns, crop yields and the distribution of agric. lands • Counterarguments
Human-Atmosphere Interactions • Acid Rain • low altitude vs. high altitude pollutants • volcanoes / smoke stacks (fuel consumption) • sulfur dioxide/nitrous oxide sulfuric/nitric acid • acid rain (precipitation) [pH<5.6] • geographic extent • effects • statues/buildings, forests, water bodies and fish, crop yields.
Human-Atmosphere Interactions • Ozone Depletion • Upper vs. lower level atmospheric ozone • Low: photochemical smogs / car pollution • Upper: • blocks UV radiation (DNA effects) • CFC and chlorine/oxygen interaction • Effects • immune system, skin cancer, crop damage, forest damage, phytoplankton kills. • Montreal Protocol
Human-Lithosphere Interactions • Human-Lithosphere Interactions • Critical roles of the lithosphere • surface reflectivity/solar radiation • water balance • temperature and region- to global-scale climate • methane, carbon dioxide, and carbon sink. • Major human-induced changes • tropical deforestation, desertification, soil erosion
Human-Lithosphere Interactions • Tropical deforestation • Total forest cover (30%); Tropical Forest (6%) • Tropical forest processes • oxygen/carbon balance • surface/air temperature; moisture/reflectivity • biodiversity • regulates watersheds/ water flow
Human-Lithosphere Interactions • Tropical deforestation (cont.) • Human-induced changes and problems • population pressure • agriculture • fuel and lumber • burger and steaks • Scale • 45% degraded globally • Africa (50%), Asia (50%), Central America (70%), South America (40%)
Human-Lithosphere Interactions • Desertification • Arid/semi-arid regions • Process • plants removed water/wind erosion pavement • increased surface water runoff; declining sub-surface water. • Causes • Natural versus human • overgrazing, deforestation, clearing for cultivation, burning. • Scale (900 million people; 1.2 billion hectares) • Africa (40%), Asia (33%), Latin America (20%)
Human-Lithosphere Interactions • Desertification (cont.) • Scale • 900 million people; 1.2 billion hectares. • Africa (40%), Asia (33%), Latin America (20%) • Severe cases: Algeria, Ethiopia, Iraq, Jordan, Lebanon, Mali, and Niger.
Human-Lithosphere Interactions • Soil Erosion • Top soil and lithosphere • Soil composition and formation • rock inorganic mineral, organic matter, organisms, air, and water • decomposing rock and decaying organic matter • tends to increase in depth over time. • Human-induced erosion no agriculture. • Mitigating factors • rotation, fallowing, and terracing.
Human-Lithosphere Interactions • Soil Erosion (cont.) • Scale • Global issue • Severe cases: Guatemala, El Salvador, Turkey, Haiti, China. • “A Worldwatch Institute report of the mid-1980s projected a 19% decline in cropland per person between that time and the end of the century. But, ominously, it also projected - at then current rates of soil loss and population growth - a 32% reduction in topsoil per person by the year 2000. Current evidence confirms those predictions, with profound implications for food production trends and for economic and political stability in the world.”
Human-Hydrosphere Interactions • Human-Hydrosphere Interactions • Critical roles of the hydrosphere • hydrologic cycle • renewable resource • life sustaining • agriculture and industry; constraint on development. • Major human-induced changes • regional supplies, silt loads, pollution, algae.
Human-Hydrosphere Interactions • Water pollution • wastewater treatment • 90% of sewage untreated in developing countries • India (70%), China (80% of rivers), Taiwan, Malaysia, Hong Kong, Eastern Europe and Russia.
Solid, Hazardous, and Toxic Waste • Solid Waste (municipal solid waste - MSW) • history of solid waste • 200 million tons per year/ 3.5 pounds per day • proportional to population and per capita income. • Landfills • open versus sanitary • 75% of U.S. waste; declining availability • Fresh Kills, Staten Island
Solid, Hazardous, and Toxic Waste • Incineration • 20% of U.S. solid waste/ 125 incinerators • waste-to-energy • dioxin, acid gases, heavy metals. • Japan, 75% of solid wastes 3x dioxin levels. • Ocean Dumping • history • “sustainable yield” • scale of problem
Solid, Hazardous, and Toxic Waste • Toxic Wastes • toxic - death or serious injury to humans or animals • hazardous - immediate or long-term human health risk. • 10% of industrial waste materials. • ground water and air pollution. • Radioactive Wastes • Low-level (100 years) versus high-level (10,000-240,000 years) • “spent fuel” • disposal sites and problems.
Solid, Hazardous, and Toxic Waste • Exporting Wastes • New York (3,774,000 tons) PA, VA, OH, CT VT, MA (0.16 mil tons) • Illinois (2,800,000 tons) IN, WI MO, IA, IN, WI (1.3 mil. tons) • California (453,183 tons) NV, WA
Prospects • Our perpetual dilemma lies in the reality that what we need and want in support and supply from the environments we occupy generally exceeds in form and degree what they are able to yield in an unaltered state. • This final chapter detailing a few of the damaging pressures placed upon the environment by today’s economies and cultures is not meant as a litany of despair. Rather it is a reminder of the potentially destructive ecological dominance of humans.