I2 INDEX
Case study (cont’d)
Great Lakes and invasive species, 269–70
honeybees disappearing, 202–3
human species and evolution, 83
industrial fi sh harvesting, 256–57
inland wetlands losses in United States, 179
kudzu vine, 198
marine turtles, 259–60
New Orleans and fl ood control, 177–78
polar bears and global warming, 203
sharks, protection of, 96–97
slowing population growth in India, 136–37
United States and immigration, 129–30
U.S. national parks, stresses on, 234–35
vanishing amphibians, 93–95
whales, 257–59
white-tailed deer populations, 114–15
wilderness protection in U.S., 238–39
Catastrophic events
evolution and, 85
extinction and, 88–89
Cells (atmospheric), 141, 144, 144f
Cells (biological), 38, 38 f,51, 52 f
eukaryotic, 51, 52 f
prokaryotic, 51, 52 f
Cell theory, 51
Chain reaction, 40
Chaparral, 152–53, 152f
Chattanooga, Tennessee, 21–22, 21f
China
affl uence and consumers, 15–16, 19
air pollutants from, 140
giant panda, 92
one-child policy and, 135–36
per capita ecological footprint, 14, 122, 136
population and resource use per person, 122f
replacement-level fertility and, 135
Chemical bonds, 37
Chemical change in matter, 40
Chemical composition, 39
Chemical formula, 37
Chemical reaction, 40
Chemical warfare by species, 102
Chemosynthesis, 59
Chesapeake Bay, 172–73, 173f
Chromosomes,38, 38 f
Chlorinated hydrocarbons, 38
Clear-cutting, 219, 219f, 220 f
Climate, 141
biomes, wind, and, 140
biodiversity and, 141–59
effect on biomes, 145–57
Climate change, 5. See also Global warming
evolution and, 84–85, 85f, 86 b
extinction of toad, frog species and, 87
forests and, 222, 222f, 230 b
as threat to aquatic systems, 254
vanishing amphibians and, 95
Climate zones of earth, 142f
Climax community, 118
Clownfi sh (mutualism), 106f
Clumping, population dispersion and, 108, 109f
Cockroaches, 92, 92f
Coastal coniferous forests, 156
Coastal wetlands, 166
Coastal zone, 165
Coevolution,104, 105 f
Cold deserts, 148, 149f
Cold forests, 153, 154f,155–56
Cold grasslands, 150–152, 151f, 152 f
Collins Pine, 228b
Colonizing species, 115
Colony collapse disorder, 202–3
Columbia River, 270
Comanagement of fi sheries, 264
Commensalism,101, 106, 106 f
Commercial extinction, 254
Commercial fi shing methods, 256–57, 256f
Common property rights, 13
Community (biological), 52f, 53
ecosystems, environmental changes, and,
115–19
Community-based conservation, 244
Competition
reduction by natural selection, 107–8
Competitive exclusion principle, 102
Complex carbohydrates, 38
Compounds, 35
important to environmental science, 37t
inorganic, 38
organic, 38
Comprehensive Everglades Restoration Plan
(CERP), 268
Conduction, 41
Conference on Population and Development
(U.N.), 134–35
Coniferous evergreen trees, 156
Conservation, 12
Conservation concessions, 231
Conservation International, 239
Consumers, in ecosystems, 59
Consumption, and species extinctions, 201
Continental shelf, 166
Controlled scientifi c experiment, 28, 28f
Control group, 28
Control site, 28
Convection, 42
Convention on Biological Diversity (CBD), 207
Convention on International Trade in
Endangered Species (CITES), 206–7, 257
Coral bleaching, 162
Coral reefs, 162, 170, 171f, 180, 250
artifi cial, 261b
Core case study
American alligator’s ecological role, 77, 97
controlled scientifi c experiment, 28, 47
coral reefs, 162, 180
disappearing tropical rain forests, 50, 74
exponential growth, 5, 24
gray wolves in Yellowstone National Park,
214, 245
Nile perch in Lake Victoria, 249, 253, 272
passenger pigeon, 183, 211
population of earth and resource
consumption, 122, 137
southern sea otters, 100, 119
wind, climate, and biomes, 140, 159
Costanza, Robert, 218
Costa Rica, 87
conservation and, 237–38, 238f
leatherback turtle nesting areas in, 260
tropical dry forest restoration, 242b
Cousteau, Jacques-Yves, 180
Crabtree, Robert, 235b
Crown fi res, 220–21, 220f
Crude birth rate, 126
Crude death rate, 126
Crust, earth’s, 55
Cultural carrying capacity, 125
Cultural eutrophication, 175Culture, 16
Currents (ocean), 143, 143 f, 144 f
Curtis Prairie, 243, 243f
Cyclic population fl uctuations, 113Dams, New Orleans and fl ood control,
177–78
Darwin, Charles, 78, 80, 101
Data, 30
DDT, 201, 201f
Death rate, 126
AIDS and, 132–33
factors affecting, 128–29
Debt-for-nature swaps, 230–31
Decomposers,59, 60 f,61, 164
Deductive reasoning, 32
Deforestation, 193, 222 –23, 222f, 223 f
fuelwood and, 229
of tropical forests, 223–27, 224f, 225 f, 226 f
Deltas, 177–78
Demographic bottleneck, 113
Demographic transition, 133, 134f
Demographic trap, 69
Denitrifi cation, 69
Density-dependent population controls, 113
Density independent, 113
Deposit feeders, 170
Desert(s), 148
types of, 148, 149f
Detritivores,59, 60 f
Detritus, 59
Detritus feeders, 59, 61
Developed countries, 10 –11, 11f
Developing countries, 11, 11 f
deforestation and, 222
population growth and, 133–34
Dieback (crash), 111, 112f
Differential reproduction, 82
Discontinuity, 46
Dissolved oxygen content, 58
DMS, 71
DNA, 38, 38f, 88 b
using to protect elephants, 191b
Dominican Republic, whale watching
in, 259
Drainage basin, 176
Drift-net fi shing, 257
Dubos, René, 6
Dunes, 169, 170fEarly (pioneer) successional species, 116
Earth
biomes of, 146f
climate zones of, 142f
conditions for life and, 86b
life-support system of, 54–55
population and resource consumption, 123
surface of and effect on climate, 144–45, 145f
Earthquakes, 84
East Africa
biodiversity hotspot, 240
Nile perch in Lake Victoria, 249
Easter Island, 31b
Ecological defi cit, 14
Ecological effi ciency, 62
Ecological extinction, 185
Ecological footprint, 14 –16
cultural changes and, 16
Ecological footprint analysis, 26, 76, 139,
247, 274