Chapter 38 Conservation Biology

Size: px

Start display at page:

Download "Chapter 38 Conservation Biology"

Ross Lewis
5 years ago
Views:

Chapter 38 Conservation Biology Introduction Over the past century, wild tiger populations have been reduced from

Tigers are threatened by declining habitat, poaching, and human populations encroaching into their habitat.

Lecture by Edward J. Zalisko Figure 38.0_1 Figure 38.

1 Chapter 38 Conservation Biology Introduction Over the past century, wild tiger populations have been reduced from about 100,000 to 3,200. Tigers are threatened by declining habitat, poaching, and human populations encroaching into their habitat. PowerPoint Lectures for Campbell Biology: Concepts & Connections, Seventh Edition Reece, Taylor, Simon, and Dickey Lecture by Edward J. Zalisko Figure 38.0_1 Figure 38.0_2 Chapter 38: Big Ideas The Loss of Biodiversity Conservation Biology and Restoration Ecology THE LOSS OF BIODIVERSITY 38.1 Loss of includes the loss of ecosystems, species, and genes Biodiversity has three levels: 1. ecosystem diversity, 2. species diversity, and 3. genetic diversity.

38.1 Loss of includes the loss of ecosystems, species, and genes Figure 38.

1B 100% At present, scientists have described and formally named about 1.8 million species. It is difficult to estimate species loss.

Extinction is the irreversible loss of all populations of a species.

2 38.1 Loss of includes the loss of ecosystems, species, and genes Figure 38.1A As natural ecosystems are lost, so are essential services, including productivity of natural environments for human food supplies and the purification of water used by cities Loss of includes the loss of ecosystems, species, and genes Figure 38.1B 100% At present, scientists have described and formally named about 1.8 million species. It is difficult to estimate species loss. Species loss may be 1,000 times higher than at any time in the past 100,000 years. Extirpation is the loss of a single population of a species. Extinction is the irreversible loss of all populations of a species. Percentage of species assessed 80% 60% 40% 20% 0% Mammals (N 4,653) Birds Amphibians Freshwater (N 9,933) (N 4,688) fishes (N 2,689) Reptiles (N 1,429) Lowest risk Near threatened Threatened Extinct 38.1 Loss of includes the loss of ecosystems, species, and genes Figure 38.1C Because of the network of community interactions among populations of different species within an ecosystem, the loss of one species can negatively affect the species richness of an ecosystem.

2 CONNECTION: Habitat loss, invasive species, overharvesting, pollution, and climate change are major threats to Figure 38.

Habitation alteration is caused by agriculture, urban development, forestry, mining, and environmental pollution. 38.

3 38.1 Loss of includes the loss of ecosystems, species, and genes Figure 38.1D Genetic diversity of a species is reduced if local populations are lost and the total number of individuals declines CONNECTION: Habitat loss, invasive species, overharvesting, pollution, and climate change are major threats to Figure 38.2A Human alteration of habitats poses the greatest threat to. Habitation alteration is caused by agriculture, urban development, forestry, mining, and environmental pollution CONNECTION: Habitat loss, invasive species, overharvesting, pollution, and climate change are major threats to Figure 38.2B Invasive species rank second behind habitat destruction as a threat to. Invasive species compete with native species, prey on native species, and parasitize native species.

38.2 CONNECTION: Habitat loss, invasive species, overharvesting, pollution, and climate change are major threats to Figure 38.2C Overexploitation is the third major threat to.

The release of chemicals into the atmosphere promoted the thinning of the ozone layer. Biological magnification concentrates synthetic toxins that cannot be degraded by microorganisms. Figure 38.

4 38.2 CONNECTION: Habitat loss, invasive species, overharvesting, pollution, and climate change are major threats to Figure 38.2C Overexploitation is the third major threat to. Overharvesting has threatened rare trees, reduced populations of tigers, Galápagos tortoises, whales, and rhinoceroses, and depleted wild populations of game fish CONNECTION: Habitat loss, invasive species, overharvesting, pollution, and climate change are major threats to Figure 38.2D Human activities produce diverse pollutants that may affect ecosystems far from their source. The water cycle transfers pollutants from terrestrial to aquatic ecosystems. The release of chemicals into the atmosphere promoted the thinning of the ozone layer. Biological magnification concentrates synthetic toxins that cannot be degraded by microorganisms. Figure 38.2E Concentration of PCBs Herring gull eggs 124 ppm 38.3 CONNECTION: Rapid warming is changing the global climate The scientific debate about global warming is over. Lake trout 4.83 ppm Increased global temperatures caused by rising concentrations of greenhouse gases are changing climate patterns with grave consequences. Smelt 1.04 ppm Global temperature has risen 0.8 C in the last 100 years. 0.6 C of that increase occurred in the last three decades. 2 to 4.5 C increases are likely by the end of the 21st century. Temperature increases are not distributed evenly. Zooplankton ppm Phytoplankton ppm Precipitation patterns are changing too.

Figure 38.3A 2 1 0.5 0.2 1938 0.2 0.5 1 2 4 2005 1981 4.1 Figure 38.4A 38.

rapid warming is the result of burning fossil fuels. Atmospheric CO2 did not exceed 300 ppm for 650,000 years.

High levels of methane and nitrous oxide also trap heat.

500 1000 Year 1500 2000 Figure 38.4B Photosynthesis 38.

5 Figure 38.3A Figure 38.4A 38.4 CONNECTION: Human activities are responsible for rising concentrations of greenhouse gases 400 Much of the rapid warming is the result of burning fossil fuels. Atmospheric CO2 did not exceed 300 ppm for 650,000 years. The preindustrial concentration was below 300 ppm. Atmospheric CO2 is approximately 385 ppm today. High levels of methane and nitrous oxide also trap heat. 2,000 1,800 Carbon Dioxide (CO2) Nitrous Oxide (N2O) 350 1,600 Methane (CH4) 1,400 1, , Year Figure 38.4B Photosynthesis 38.5 Global climate change affects biomes, ecosystems, communities, and populations Atmosphere Climate change in western North America has spawned catastrophic wildfires. Respiration Combustion of fossil fuels Ocean CH4 (parts per billion) 4 CO2 (ppm), N2O (parts per billion) 4.1 Figure 38.3B

Figure 38.5B 38.5 Global climate change affects biomes, ecosystems, communities, and populations Warming oceans threaten coral reef communities.

6 Figure 38.5A 38.5 Global climate change affects biomes, ecosystems, communities, and populations The greatest impact of global climate change is affecting organisms that live at high latitudes and high elevations. Figure 38.5B 38.5 Global climate change affects biomes, ecosystems, communities, and populations Warming oceans threaten coral reef communities. Earlier arrival of warm temperatures in the spring is disturbing ecological communities. Birds and frogs have begun their breeding periods earlier. Migratory birds may experience mismatches, arriving after peak food availability has already passed Global climate change affects biomes, ecosystems, communities, and populations 38.6 EVOLUTION CONNECTION: Climate change is an agent of natural selection Climate change has also Phenotypic plasticity increased the range of disease-carrying mosquitoes and has minimized the impact of global climate change on some species, and enabled bark beetles to reproduce faster, promoting the destruction of millions of acres of conifers in western North America. cases of microevolutionary changes have been observed. The rapidity of the environmental changes makes it unlikely that evolutionary processes will save many species from extinction.

emergence of caterpillars. 6B In the Yukon Territory of Canada, where the spring temperatures have increased by about 2 C, red squirrels have begun breeding earlier in the spring. 38.

7 38.6 EVOLUTION CONNECTION: Climate change is an agent of natural selection Figure 38.6A In Europe, the great tit bird has shifted its breeding season earlier, in an example of directional selection, favoring individuals that lay their eggs sooner, and better matching the earlier emergence of caterpillars EVOLUTION CONNECTION: Climate change is an agent of natural selection Figure 38.6B In the Yukon Territory of Canada, where the spring temperatures have increased by about 2 C, red squirrels have begun breeding earlier in the spring Protecting endangered populations is one goal of conservation biology CONSERVATION BIOLOGY AND RESTORATION ECOLOGY Conservation biology is a goal-driven science that seeks to understand and counter the rapid loss of. Some conservation biologists direct their efforts at protecting populations and increasing endangered populations. Threats posed by human activities are also assessed.

38.7 Protecting endangered populations is one goal of conservation biology Figure 38.

18 individuals, has been bred in captivity, and was reintroduced into the wild.

8 38.7 Protecting endangered populations is one goal of conservation biology Figure 38.7A The black-footed ferret in the United States is one of three ferret species worldwide and the only ferret found in North America, was reduced to just 18 individuals, has been bred in captivity, and was reintroduced into the wild Protecting endangered populations is one goal of conservation biology Figure 38.7B In Hawaii, the silversword plants once abundant on the cinder cone of the volcano Mauna Kea were bred in greenhouses and reintroduced to reestablish wild populations Sustaining ecosystems and landscapes is a conservation priority Conservation efforts are increasingly aimed at sustaining ecosystems and landscapes, a regional assemblage of interacting ecosystems. Landscape ecology is the application of ecological principles to the study of the structure and dynamics of a collection of ecosystems. Figure 38.8A

38.8 Sustaining ecosystems and landscapes is a conservation priority Figure 38.

The increased frequency and abruptness of edges caused by human activities can increase species loss.

9 Establishing protected areas slows the loss of To establish parks, wilderness areas, and other legally protected reserves, conservation biologists

9 38.8 Sustaining ecosystems and landscapes is a conservation priority Figure 38.8B Edges between ecosystems have distinct sets of features and species. The increased frequency and abruptness of edges caused by human activities can increase species loss. Movement corridors connecting isolated habitats may be helpful to fragmented populations. Figure 38.8C 38.9 Establishing protected areas slows the loss of To establish parks, wilderness areas, and other legally protected reserves, conservation biologists are applying their understanding of population, ecosystem, and landscape dynamics Establishing protected areas slows the loss of Figure 38.9A Choosing locations for protection often focuses on hot spots, relatively small areas with a large number of endangered and threatened species, and an exceptional concentration of endemic species, those that are found nowhere else. Equator

38.9 Establishing protected areas slows the loss of Figure 38.

Monarch butterflies occupy many areas. Sea turtles travel great distances.

10 Zoned reserves are an attempt to reverse ecosystem disruption Zoned reserves

development. Costa Rica has established many zoned reserves.

10 38.9 Establishing protected areas slows the loss of Figure 38.9B Migratory species pose a special problem for conservationists. Monarch butterflies occupy many areas. Sea turtles travel great distances. Figure 38.9_UN Zoned reserves are an attempt to reverse ecosystem disruption Zoned reserves are undisturbed wildlands surrounded by buffer zones of compatible economic development. Costa Rica has established many zoned reserves. Ecotourism is travel to natural areas for tourism and recreation and has become an important source of revenue for conservation efforts. Figure 38.10A Figure 38.10B NICARAGUA COSTA RICA PANAMA National Parks and Reserves

Figure 38.11A CK MA NORTHWEST TERRITORIES TA YUKON TERRITORY ZIE EN OUN M 38.

parks and reserves in a 3,200-km wildlife corridor, ALBERTA RO CK Y included the reintroduction of wolf populations, considered a keystone species in this region, and BRITISH COLUMBIA Vancouver S S

Bozeman Jackson OREGON IDAHO WYOMING Figure 38.11B Figure 38.11C 38.12 CONNECTION: The study of how to restore degraded habitats is a developing science 38.

11 Figure 38.11A CK MA NORTHWEST TERRITORIES TA YUKON TERRITORY ZIE EN OUN M CONNECTION: The Yellowstone to Yukon Conservation Initiative seeks to preserve by connecting protected areas IN S The Yellowstone to Yukon Conservation Initiative Whitehorse created a string of parks and reserves in a 3,200-km wildlife corridor, ALBERTA RO CK Y included the reintroduction of wolf populations, considered a keystone species in this region, and BRITISH COLUMBIA Vancouver S S BIA IN M TA AIN LU UN NT CO M O OU PACIFIC OCEAN M extends from Alaska south across Canada to northern Wyoming, Calgary MONTANA Spokane WASHINGTON sparked angry protests from some ranchers. Bozeman Jackson OREGON IDAHO WYOMING Figure 38.11B Figure 38.11C CONNECTION: The study of how to restore degraded habitats is a developing science CONNECTION: The study of how to restore degraded habitats is a developing science Restoration ecology uses ecological principles to restore degraded areas to their natural state, a process that may include Large-scale restoration projects attempt to restore damaged landscapes. detoxifying polluted ecosystems, The Kissimmee River Restoration Project in Florida is replanting native vegetation, and restoring river flow and wetlands and returning waterways to their natural course. improving wildlife habitat.

removed in Kissimmee Phase 2 River Floodplain r Former canal FLORIDA 0 Miles 10 38.13 Sustainable development is an ultimate goal 38.

knowledge, and values our linkages to the biosphere. save what we appreciate and appreciate what we understand.

12 Figure 38.12A Figure 38.12B Widened canal Water control structure remaining im Kiss Water control structure removed Phase 1 River channel completed restored Canal backfilled m ee Water control Ri structure to v e be removed in Kissimmee Phase 2 River Floodplain r Former canal FLORIDA 0 Miles Sustainable development is an ultimate goal Sustainable development is an ultimate goal Sustainable development We are most likely to seeks to improve the human condition while conserving, depends on increasing and applying ecological knowledge, and values our linkages to the biosphere. save what we appreciate and appreciate what we understand. Now is the time to aggressively pursue more knowledge about life and work toward long-term sustainability. Figure You should now be able to 1. Describe the three components of. 2. Describe the greatest current threats to, providing examples of each. 3. Describe the process of biological magnification. 4. Describe the causes and consequences of global warming. 5. Explain why the efforts to save the black-footed ferret and silversword plant from extinction are a good model for future conservation efforts.

You should now be able to You should now be able to 6. Describe the goals of landscape ecology. Describe the significance of edges and movement corridors in maintaining. 10.

Explain why sustainable development should be the ultimate goal for the long-term maintenance of human societies and the ecosystems that support them. 9.

13 You should now be able to You should now be able to 6. Describe the goals of landscape ecology. Describe the significance of edges and movement corridors in maintaining. 10. Describe the goals and methods of restoration ecology. 7. Describe the significance of hotspots. 8. Explain how zoned reserves are being used to protect ecosystems. 11. Explain why sustainable development should be the ultimate goal for the long-term maintenance of human societies and the ecosystems that support them. 9. Describe the goals of the Yukon to Yellowstone Initiative. Figure 38.UN01 Figure 38.UN02 Conservation biology seeks to conserve Ecosystem diversity may involve ecosystems and landscapes (a) may be protected in attempt to restore nature reserves restoration projects which uses Species diversity (c) ATLANTIC OCEAN may be Genetic diversity to FLORIDA (d) which support sustainable development GULF OF MEXICO detoxify or replenish degraded ecosystems