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Sustaining Biodiversity: The Ecosystem Approach. Chapter 8. Core Case Study: North American Gray Wolf. Reduced to a few hundred Keystone species Restoration proposal angered ranchers, hungers, loggers 1995, reintroduced in Yellowstone, 136 by 2007
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Core Case Study: North American Gray Wolf • Reduced to a few hundred • Keystone species • Restoration proposal angered ranchers, hungers, loggers • 1995, reintroduced in Yellowstone, 136 by 2007 • Positive ripple effect after reintroduction
The Gray Wolf Fig. 8-1, p. 149
8-1 How Are We Affecting the Earth’s Biodiversity and Why Should We Protect It? • Concept 8-1A We are degrading and destroying biodiversity in many parts of the world and these threats are increasing. • Concept 8-1B We should protect biodiversity because it exists and because of its usefulness to us and other species.
Loss of Biodiversity • Earth’s biodiversity depleted and degraded • 83% land surface disturbed • Degradation of aquatic biodiversity • Ecological fishprint unsustainable
Why Protect Biodiversity • Intrinsic value • Instrumental value • Nonuse values • Existence • Aesthetic • Bequest
Endangered Orangutans Fig. 8-2, p. 152
8-2 How Should We Manage and Sustain Forests? • Concept 8-2 We can sustain forests by recognizing the economic value of their ecological services, protecting old-growth forests, harvesting trees no faster than they are replenished, and making most paper from fast-growing plants and agricultural residues instead of trees.
Forest Services • Forests 30% of earth’s land surface • Economic services • Ecological services
Types of Forests • Old-growth forests • Second-growth forests • Tree plantation
Natural Capital: Forests Fig. 8-3, p. 153
Old-growth Forest Fig. 8-4, p. 154
Weak trees removed 25 yrs Clear cut 30 yrs 15 yrs Years of growth Seedlings planted 5 yrs 10 yrs Fig. 8-5, p. 154
Loss of Original Forests • 46% in 8,000 years, most since 1950 • Most in tropical areas, developing countries • Estimated loss of 40% intact forests within next 20 years
Natural Capital Degradation: Deforestation Fig. 8-6, p. 155
Science Focus: Putting a Price Tag on Nature’s Ecological Services • Estimated value of earth’s ecological services • $33.2 trillion per year • $4.7 trillion per year for forests • Need to start factoring values into land use
Cleared plots for grazing New highway Highway Cleared plots for agriculture Old growth Fig. 8-7, p. 156
Cleared plots for grazing New highway Highway Cleared plots for agriculture Old growth Stepped Art Fig. 8-7, p. 156
Good News on Forests • 2000–2005 net total forested area stabilized or increased • Most of the increase due to tree plantations • Net loss of terrestrial biodiversity
Return of Forests in the United States (1) • U.S. forests • Cover ~30% of land • Contain ~80% of wildlife species • Supply ~67% of nation’s surface water • Forest cover greater now than in 1920 • Secondary succession
Return of Forests in the United States (2) • Second- and third-growth forests fairly diverse • More wood grown than cut • 40% of forests in National Forest System • Forests transformed into tree plantations
Individuals Matter: Butterfly in a Redwood Tree • Julia Hill – “Butterfly” – two years on a platform of California redwood tree • Protest clear-cutting of the ancient trees • Nonviolent civil disobedience • Lost battle, but her tree was saved
Controversy over the National Forests • Forest service mandate • Principle of sustainable yield • Principle of multiple use • Timber companies push for tree cutting to be primary goal
Harvest Methods (1) • Step one – build roads • Erosion • Invasive species • Open up for human invasion • Step two – logging operations • Selective cutting • Strip cutting • Clear cutting
(a) Selective cutting Clear stream Fig. 8-8a, p. 156
(b) Clear-cutting Muddy stream Fig. 8-8b, p. 156
(c) Strip cutting Cut 1 year ago Uncut Dirt road Cut 3–10 years ago Uncut Clear stream Fig. 8-8c, p. 156
Clear-cut Logging Fig. 8-9, p. 157
Trade-offs: Clear-cutting Forests Fig. 8-10, p. 157
Forests and Fires • Surface fires • Burn undergrowth only • Cool fire • Ecological benefits • Crown fires • Burn the entire tree • Hot fire • Occur in forests with lack of surface fires
Management of Forest Fires • Fire suppression in all types of forests • Some forests naturally fire adapted • Restoration of fire’s natural role
Forest Fires Fig. 8-11, p. 158
Science Focus: Certifying Sustainably Grown Timber • Forest Steward Council certification of forest operations • Environmentally sound practices • Sustainable yield harvest • Minimal erosion from operations • Retention of dead wood for wildlife habitat
Solutions: Sustainable Forestry Fig. 8-12, p. 159
Trees and Paper • Many trees are cut for paper production • Alternatives • Pulp from rice straw and agricultural residues (China) • Kenaf (U.S.)
Solutions: Kenaf Fig. 8-13, p. 159
8-3 How Serious Is Tropical Deforestation and How Can It Be Reduced? • Concept 8-3 We can reduce tropical deforestation by protecting large forest areas, teaching settlers about sustainable agriculture and forestry, using government subsidies that encourage sustainable forest use, reducing poverty, and slowing population growth.
Tropical Forests • Cover 6% of earth’s land area • Habitat for 50% of terrestrial plants and animals • Vulnerable to extinction – specialized niches • Rapid loss of 50,000–170,000 km2 per year
Burning of a Tropical Forest Fig. 8-14, p. 160
Destruction of Tropical Forests Fig. 8-15, p. 161
Causes of Tropical Forest Deforestation and Degradation • Population growth and poverty • Government subsidies • International lending agencies encourage development
Effects of Tropical Deforestation • Fragmentation of remaining patches • Remaining forests get drier and may burn • Degrades biodiversity • CO2 to the atmosphere • Accelerates climate change
How to Protect Tropical Forests • Teach settlers to practice small-scale sustainable agriculture • Harvest renewable resources from the forests • Debt-for-nature swaps • Conservation concessions • Gentler logging methods
Solutions: Sustaining Tropical Forests Fig. 8-16, p. 162
Individuals Matter: Wangari Maathai and Kenya’s Green Belt Movement • Backyard small tree nursery • Organized poor women • Women paid for each surviving seedling planted • Breaks cycle of poverty • Reduces environmental degradation • People walk less distance to get fuelwood • Sparked projects in +30 African countries
8-4 How Should We Manage and Sustain Grasslands? • Concept 8-4 We can sustain the productivity of rangeland by controlling the number and distribution of livestock and by restoring degraded rangeland.
Grasslands • Provide important ecological services • Second most used and altered ecosystem by humans • 42% grazed by cattle, sheep, and goats – rangeland and pasture • Overgrazing