* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download CHAPTER 4
Occupancy–abundance relationship wikipedia , lookup
Restoration ecology wikipedia , lookup
Island restoration wikipedia , lookup
Biogeography wikipedia , lookup
Renewable resource wikipedia , lookup
Biological Dynamics of Forest Fragments Project wikipedia , lookup
Biodiversity action plan wikipedia , lookup
Assisted colonization wikipedia , lookup
Latitudinal gradients in species diversity wikipedia , lookup
Human impact on the nitrogen cycle wikipedia , lookup
Reconciliation ecology wikipedia , lookup
Natural environment wikipedia , lookup
Habitat conservation wikipedia , lookup
Ecological fitting wikipedia , lookup
CHAPTER 4 Ecosystems and Communities 4.1 Climate Weather vs. Climate Weather • Day to day conditions Climate • Average conditions over a long period • Year to year patterns of temperature and precipitation “Weather is how you pack your suitcase; climate is how you shop for a wardrobe” 4.1 Climate Solar Energy Some energy is reflected back into space and some is absorbed • Absorbed energy is converted into heat Some radiates into space Some is trapped in the biosphere Greenhouse Effect Greenhouse Gasses • Carbon dioxide, methane, & water vapor • Allows visible light to enter but traps heat Different wavelengths Figure 4.1 Page 97 4.1 Climate Latitude and Solar Energy Creates 3 different climate zones • Tropical • Temperate • Polar Depends on amount of direct sunlight • Due to tilt and curvature of Earth Figure 4.2 Page 97 4.2 Niches and Community Interactions Tolerance Range of conditions under which it can grow and reproduce Habitat The place where a species lives Determined by the tolerance of the species 4.2 Niches and Community Interactions Niche An organisms “role” in the ecosystem How it interacts with biotic and abiotic factors as it obtains resources • What it needs to survive and reproduce Food, water, nutrient, space, etc. Encourages competition 4.2 Niches and Community Interactions Competitive Exclusion Principle No two organisms can occupy exactly the same niche in exactly the same habitat at the same time Competition causes one species to die out or move 4.2 Niches and Community Interactions Dividing Resources By causing species to divide resources, competition helps determine the number and kinds of species in a community and the niche each species occupies 4.2 Niches and Community Interactions Predation One organism captures and eats another • Predator-prey relationship Affect the size of prey populations 4.2 Niches and Community Interactions 4.2 Niches and Community Interactions 4.2 Niches and Community Interactions Herbivory An animal(herbivore) feeds on a producer(plant) Affect the size and distribution of plant populations 4.2 Niches and Community Interactions Keystone Species Population of a single species can cause dramatic changes in the structure of the community 4.2 Niches and Community Interactions Symbiosis Any relationship in which two species live closely together Three main classes of symbiotic relationships in nature: • Mutualism • Parasitism • Commensalism 4.2 Niches and Community Interactions Mutualism Both species benefit from the relationship • Crocodile and Plover 4.2 Niches and Community Interactions Parasitism One species benefits and the other is harmed • Leech and human • Parasite does not want to kill host WHY? 4.2 Niches and Community Interactions Commensalism One organism is benefited and the other is neither benefited nor harmed • Barnacle and whale 4.3 Succession Ecological Succession • Video 4.3 Succession Ecological Succession A series of changes that occur in a community over time Some species die out and some new species move in • Number of species typically increases Example: Krakatau 4.3 Succession Primary Succession Succession that begins in an area with no remnant of an older community Making of new land or sterilizing existing areas • After volcanic eruptions Pioneer species • Breakdown rock and add organic material to form soil • Lichens 4.3 Succession Secondary Succession Existing communities are not completely destroyed Proceeds faster because soil survives Fire, hurricane, logging, farming 3 years 5 years 40+ years 4.3 Succession Five stages of succession Stage 1 • Grasses and weeds begin to grow and scatter seeds • Insects, worms, and birds return • Lasts about 2 years Stage 2 • Dense shrubs, vines and non-woody short plants appear • Rabbits, snakes, and mice move in • Lasts about 5 years 4.3 Succession Five stages of succession Stage 3 • Fast growing thin trunk trees take over (birch and popple) Habitat for squirrels • Larger animals return • Lasts about 15 years Stage 4 • Diverse species of diverse ages, From ground cover and undergrowth plants to tall trees • Lasts about 40 years 4.3 Succession Five stages of succession Stage 5 • Climax community • Most diverse forest ecosystem 4.4 Biomes Biomes Described in terms of abiotic and biotic factors • Abiotic factors Climate Soil types • Biotic Factors Plant life Animal life 4.5 Aquatic Ecosystems Water Depth Photic Zone • Region near the surface where photosynthesis can occur Aphotic Zone • Dark region below the photic zone where photosynthesis can not occur Benthic Zone Rocks and sediments at the bottom of a body of water 4.5 Aquatic Ecosystems Why are some photic zones much deeper than others? 4.5 Aquatic Ecosystems Temperature Colder at poles and warmer near equator Warmer at surface and colder at greater depths Currents Carry nutrients Affected by water temperatures 4.5 Aquatic Ecosystems Marine Ecosystems Ocean zones are divided into zones based on depth and distance from shore • Intertidal Zone Submerged in high tide and exposed at low tide • Costal Ocean Brightly lit and well supplied with nutrients • Open ocean Broken into two regions: Photic zone Aphotic zone 4.5 Aquatic Ecosystems Marine Ecosystems