Section Objectives: Explain biodiversity and its importance. Relate various threats to the loss of biodiversity.

Similar documents
Carrying Capacity Has Greatly Increased

Name: Class key. Period: The Living Environment 14-15

1 Environmental Problems

Global Environmental Issues

Section 6.2 Notes. Renewable and Non-Renewable Resources

Chapter 16 Human Impact on Ecosystems DAY ONE

Multiple Choice Write the letter that best answers the question or completes the statement on the line provided.

Chapter 18 Conservation of Biodiversity. Tuesday, April 17, 18

Chapter 30. Conserving Earth s Biodiversity

13-14 LL Final Exam (Science) Biology B Assessment ID: dna.5702 ib LL Final Exam (Science) Biology B

Human impact on the environment

Lesson Overview. Cycles of Matter. Lesson Overview. 3.4 Cycles of Matter

Population Growth Concept Map

Five Major Threats to Biodiversity in Ecosystems

Cycles of Ma,er. Lesson Overview. Lesson Overview. 3.4 Cycles of Matter

Chapter 1 Lesson 4 Changes in Ecosystems

Essential Questions. What are three types of biodiversity? Why is biodiversity important? What are the direct and indirect values of biodiversity?

AN INTERCONNECTED PLANET

NOTES: CH 5 Populations

STAAR Science Tutorial 55 TEK 8.11D: Human Dependence on Ocean Systems

Human Activity. and Ecosystems. How do human activities affect ecosystems? Lesson. p 6.LS2.5, 6.LS2.6, 6.LS4.1, ESSENTIAL QUESTION

NOTES: CH 5 Populations

Biodiversity. Biodiversity. Biodiversity - Ecosystem Services. Biodiversity- Medicinal Value. Extinction 11/11/16. Ecology (BIOL 250)

Biodiversity. Biodiversity the variety of different organisms found within an ecosystem. One of Earth s greatest natural resources.

Interdependence Review

Earth Systems and Interactions

Explain how human activities can impact chemical cycles. Explain how pollution can affect food chains.

OCEAN DEFENDERS. A little more help for your research!

NOTES 12.4: HUMAN ISSUES, IMPACTS, & SOLUTIONS. Pages ,

Foundation Course. Semester 3 THREATS TO THE ENVIRONMENT

What is biodiversity?

Preserving Biodiversity

Humans in the biosphere 6.1 A changing landscape

Dr. Ramesh GRU4L4: CYCLES: WATER, CARBON, NITROGEN

BIOLOGY: GLOBAL WARMING. 22. Q1.) What is global dimming? Why is it dangerous? (3)

Human Effect on Resources

B1 Biogeochemical Systems

The rest of this article describes four biogeochemical cycles: the water cycle, carbon cycle, nitrogen cycle, and phosphorous cycle.

SY 2018/ st Final Term Revision. Student s Name: Grade: 10A/B. Subject: Biology

Chapter: Conserving Resources

Human Impact on the Environment

Ch. 11 Biodiversity. Central Case: Saving the Siberian tiger

11/6. Announcements -Late work due date: Today - End of quarter: 11/7. Pick Up Human Impact Notes Agenda Human Impact Notes

5/12/15. We depend on environment for. Food Water Air Shelter Fuel, etc. Environmental science the study of the impact of humans on the environment

Biodiversity Notes. Short for Biological Diversity What does this mean? Biological = Living organisms (plants and animals) Diversity = variety

Lesson Overview. Cycles of Matter. Lesson Overview. 3.4 Cycles of Matter

Changes in Biodiversity

Slide 1. Earth Science. Chapter 11 Living Systems

Keystone Biology Remediation B4: Ecology

Chapter 6 Humans in the Biosphere. Dr. Bertolotti

Classifying our Biotic Environment (Trophic Levels) Ecology. Ecology is study how things interact with other and else in the.

Chapter: Conserving Resources

HUMAN IMPACT on the BIOSPHERE part 4

We share the Earth. Ecology & Environmental Issues

Chapter Biodiversity

Warm Up Exercise. Why is only a small portion of the solar energy that strikes Earth s atmosphere stored by primary producers?

Environmental Science Diagnostic Practice Exam

LIFE SCIENCE CHAPTER 20 & 21 FLASHCARDS

Interest Grabber. Levels Within Levels

WHAT S YOUR FAVORITE MEMORY OF THE OCEAN?

Regents Living Environment Ecology and Human Impact on Ecosystems

STUDY GUIDE SECTION 21-1 Terrestrial Biomes

CYCLES OF MATTER NATURAL WORLD

1 An Interconnected Planet

the world. their plant Farmers of miles available Algal bloom areas are

Chapter 6 Review. 3. A resource that cannot be replenished by natural processes is called a. common. b. renewable. c. nonrenewable. d. conserved.

GLOBAL ENVIRONMENTAL PROBLEMS

Threat to Species: Extinction Most serious aspects of the loss of biodiversity extinction of a species Extinction when no number of the species remain

ECOLOGY NOTES. ECOLOGY - the scientific study of interactions among organisms and between organisms and their environment or surroundings.

Chapter 6 Section 1: Interconnected Planet. Key Vocabulary Terms 1

CH 6 review. Name: Class: Date: Completion Complete each sentence or statement.

Section 6.1 & 6.2 A changing Landscape

a. Use of fossil fuels b. Population Boom c. Improved Quality of Life d. Growth of Cities

Introduction to Ecology p

Ecology Final Exam. 2. What is a pioneer species? What is the most common pioneer species? First species to move into an ecosystem - lichen

Find this material useful? You can help our team to keep this site up and bring you even more content consider donating via the link on our site.

Energy Movement. How Life Interacts. Food Chains. Trophic Levels. Levels. Pathway which shows how matter and energy is moved through an ecosystem

The Biosphere Chapter 3. What Is Ecology? Section 3-1

10/18/2010 THINK ABOUT IT CHAPTER 3 THE BIOSHPERE RECYCLING IN THE BIOSPHERE RECYCLING IN THE BIOSPHERE

Chapter 6. Aquatic Biodiversity. Chapter Overview Questions

BIODIVERSITY THE ECOSYSTEM APPROACH

Resources that can be replaced, given a sufficient amount of time. Nonrenewable Resources: Food, oxygen, wood, wind, water.

Ecology Part 2. Living Environment

Earth as a System. Chapter 2. Table of Contents. Section 1 Earth: A Unique Planet. Section 2 Energy in the Earth System.

A great deal of this topic revolves around the concept of SUSTAINABILITY

6-3 Biodiversity Slide 1 of 35

PALM PLANET Can we have tropical forests and our palm oil too?

What is Ecology? Includes land, air, and water as well as life. Living organisms are NOT distributed uniformly throughout the biosphere.

4.C.3.a.Using one of the following examples, explain how population ability to respond to changes in the environment is affected by genetic

Ecosystems. Trophic relationships determine the routes of energy flow and chemical cycling in ecosystems.

Biogeochemical Cycles

CHAPTER 1, SECTION 1 CHAPTER 3, SECTION 4

3.3 Human Impact on Biodiversity

2/11/16. Materials in ecosystems are constantly reused Three cycles: The Carbon Cycle The Nitrogen Cycle The Phosphorus Cycle

The water cycle describes the continuous movement of water on, above and below the surface

Ecology Module B, Anchor 4

Pollution. Pollution refers any substance introduced into the environment that has harmful or poisonous effects

Biogeochemical Cycles: Ecosystem Recycling

UNIT 5: ECOLOGY Chapter 16: Human Impact on Ecosystems

9/23/2013. Mass extinction events change the course of evolution and induce a dramatic shift in the types of organisms inhabiting the planet

Transcription:

Section Objectives: Explain biodiversity and its importance. Relate various threats to the loss of biodiversity. Biological Diversity Biodiversity refers to the variety of species in a specific area. The simplest and most common measure of biodiversity is the number of different species that live in a certain area. Where is biodiversity found? Areas around the world differ in biodiversity. Biodiversity increases as you move toward the equator. Where is biodiversity found? Tropical regions contain two-thirds of all land species on Earth. Where is biodiversity found? The richest environments for biodiversity all seem to be warm places: tropical rain forests, coral reefs, and large tropical lakes. 1

Studying biodiversity How do ecologists perform experiments related to biodiversity? Today you can read about projects in rain forests that require scientists to live 150 meters up in the canopy for weeks while they collect species that live only at that level. Studying biodiversity Other researchers catalogue the organisms that live in coral reefs and others attach radio collars to sea turtles. Studying biodiversity Still others work in laboratories comparing the DNA of members of isolated populations to see how or if these populations might be changing. Importance to nature Living things are interdependent. Living things can be niches for other living things. Populations are adapted to live together in communities. Importance to nature Scientists do know that if a species is lost from an ecosystem, the loss may have consequences for other living things in the area. Biodiversity brings stability Biodiversity can bring stability to an ecosystem. A pest could easily destroy all the corn in a farmer s field, but it would be far more difficult for a single type of insect or disease to destroy all individuals of a plant species in a rain forest. Ecosystems are stable if their biodiversity is maintained. 2

Importance to people Humans depend on other organisms for their needs. Yet only a few species of plants and animals supply the major portion of the food eaten by the human population. Biodiversity could help breeders produce additional food crops. Importance to people Another important reason for maintaining biodiversity is that it can be used to improve people s health. Living things supply the world pharmacy. Penicillium Importance to people Preserving biodiversity ensures there will be a supply of living things, some of which may provide future drugs. Loss of Biodiversity Extinction is the disappearance of a species when the last of its members dies. Extinction is a natural process and Earth has experienced several mass extinctions during its history. Penicillium Loss of Biodiversity There is also a certain level of natural extinction, called background extinction, that goes on. Scientists estimate that background extinction accounts for the loss of one to ten species per year. However, the current rate of extinction exceeds that by many times. Loss of Biodiversity A species is considered to be an endangered species when its numbers become so low that extinction is possible. 3

Loss of Biodiversity When the population of a species is likely to become endangered, it is said to be a threatened species. Threats to Biodiversity Complex interactions among species make each ecosystem unique. Changes to habitats can therefore threaten organisms with extinction. Habitat loss One of the biggest reasons for decline in biodiversity is habitat loss. Habitat fragmentation Habitat fragmentation is the separation of wilderness areas from other wilderness areas. Habitat fragmentation Habitat fragmentation has been found to contribute to: increased extinction of local species. changes in overall biodiversity. disruption of ecological processes. new opportunities for invasions by unwanted or exotic species. increased risk of fire. Habitat fragmentation The smaller the fragment, the less biodiversity the area can support. Geographic isolation can lead to genetic isolation. Habitat fragmentation also makes it difficult for species to reestablish themselves in an area. 4

Edge and size The edge of a habitat or ecosystem is where one habitat or ecosystem meets another. Edge and size The different conditions along the boundaries of an ecosystem are called edge effects. Different organisms might live along the edge of a forest instead of in the interior of the forest. Edge and size If a road is cut through a wooded area, the shape of the wooded area changes and the edge is changed. Now there is less distance between the edge and the interior. Some plants might die out. Edge and size When an edge changes, animals might migrate because there isn t enough space from which to gather food. As a result, biodiversity of that area changes. Habitat degradation Another threat to biodiversity is habitat degradation, the damage to a habitat by pollution. Three types of pollution are air, water, and land pollution. Habitat degradation Pollutants enter the atmosphere in many ways including volcanic eruptions and forest fires. 5

Habitat degradation Burning fossil fuels is also a major source of air pollutants such as sulfur dioxide. Acid precipitation rain, snow, sleet, and fog with low ph values has been linked to the deterioration of some forests and lakes. Habitat degradation Ultraviolet waves emitted by the Sun also can cause damage to living organisms. Ozone, a compound consisting of three oxygen atoms, is found mainly in a region of Earth s atmosphere between about 15 km and 35 km altitude. Habitat degradation The ozone in this region known as the ozone layer absorbs some of the ultraviolet waves striking the atmosphere, reducing the ultraviolet radiation reaching Earth s surface. Click image to view movie. Water pollution Water pollution degrades aquatic habitats in streams, rivers, lakes, and oceans. A variety of pollutants can affect aquatic life. Water pollution Excess fertilizers and animal wastes are often carried by rain into streams and lakes. The sudden availability of nutrients causes algal blooms, the excessive growth of algae. Water pollution Detergents, heavy metals, and industrial chemicals in runoff can cause death in aquatic organisms. Abandoned drift nets in oceans have been known to entangle and kill dolphins, whales, and other sea life. 6

Land pollution Trash, or solid waste, is made up of the cans, bottles, paper, plastic, metals, dirt, and spoiled food that people throw away every day. Land pollution Recycling Click image to view movie. Land pollution The average American produces about 1.8 kg of solid waste daily. That s a total of about 657 kg of waste per person per year. Although some of it might decompose quickly, most trash becomes part of the billions of tons of solid waste that are buried in landfills. Land pollution The use of pesticides and other chemicals can also lead to habitat degradation. Exotic species People sometimes introduce a new species into an ecosystem, either intentionally or unintentionally. These species can cause problems for the native species. Exotic species When exotic species are introduced, these species can grow at an exponential rate due to the fact that they are not immediately as vulnerable to local competitors or predators as are the established native species. Kudzu 7

Section Objectives Describe strategies used in conservation biology. Relate success in protecting an endangered species to the methods used to protect it. Conservation Biology Conservation biology is the study and implementation of methods to protect biodiversity. Effective conservation strategies are based on principles of ecology. Conservation Biology Natural resources are those parts of the environment that are useful or necessary for living organisms. Natural resources include sunlight, water, air, and plant and animal resources. Legal protections of species In response to concern about species extinction, the U.S. Endangered Species Act became law in 1973. This law made it illegal to harm any species on the endangered or threatened species lists. Preserving habitats A habitat is the physical location where an organism lives and interacts with its environment. Preserving habitats One way that habitats have been protected is through the creation of natural preserves and parks. 8

Preserving habitats Establishing parks and other protected regions has been an effective way to preserve ecosystems and the communities of species that live in them. Saguaro National Park, Arizona Habitat corridors A general strategy for protecting the biodiversity of an area probably is to protect the largest area possible. However, research is showing that keeping wildlife populations completely separate from one another may be resulting in inbreeding within populations. Habitat corridors Therefore, another strategy for preserving biodiversity is to connect protected areas with habitat corridors. Habitat corridors Habitat corridors are protected strips of land that allow the migration of organisms from one wilderness area to another. Working with people Parks and protected areas usually hire people, such as rangers, to manage the parks and ensure the protection of organisms. Working with people The philosophy of sustainable use strives to enable people to use natural resources in ways that will benefit them and maintain the ecosystem. 9

Reintroduction and species preservation programs Reintroduction programs release organisms into an area where the species once lived. The most successful reintroductions occur when organisms are taken from an area in the wild and transported to a new suitable habitat. Captivity Some species no longer exist in the wild, but a small number of individual organisms is maintained by humans. An organism that is held by people is said to be in captivity. Protecting plant species The ideal way to protect a plant species is to allow it to exist in a natural ecosystem. But seeds can be cooled and stored for long periods of time. By establishing seed banks for threatened and endangered plants, the species can be reintroduced if they become extinct. Protecting plant species Reintroductions of captive animals are more difficult than for plants. Animals kept in captivity may lose the necessary behaviors to survive and reproduce in the wild. 10

2024 © businessdocbox.com Privacy Policy | Terms of Service | Feedback