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Biology – Unit 2 Ecology. Opening Assignment: Explain in your own words what the term “ecology” means.

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Presentation on theme: "Biology – Unit 2 Ecology. Opening Assignment: Explain in your own words what the term “ecology” means."— Presentation transcript:

1 Biology – Unit 2 Ecology

2 Opening Assignment: Explain in your own words what the term “ecology” means.

3 Ecology- the study of how organisms interact with each other and with their environment Part 1 – Lesson 3.1 What is Ecology?

4 Abiotic Factors Abiotic factors- the nonliving parts of the environment. They include: Sunlight Water Temperature Wind Soil type The atmosphere The types and amounts of abiotic factors that are available in an ecosystem help determine which organisms can live there.

5 Biotic Factors biotic factors- all the living things or once-living things in an environment. Ex: Animals Plants Bacteria Fungi

6 Organization In The Environment The biosphere consists of all life on Earth and all parts of the Earth in which life exists, including land, water, and the atmosphere.

7 Biome — a geographic area that contain groups of ecosystems with similar biotic and abiotic features. Terrestrial (land) Biomes include: Forests Deserts Tundra Grasslands

8 Aquatic Biomes include: Marine Freshwater (rivers & lakes) Estuaries

9 Ecosystem—all the organisms that live in a place, together with their physical environment(abiotic factors) The types and amounts of abiotic factors that are available in an ecosystem help determine which organisms can live there

10 Community—All the populations of species that live in the same area and interact

11 Population-a group of individuals that belong to the same species and live in the same area

12 Organism- any unicellular or multicellular form exhibiting all of the characteristics of life, an individual

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14 Part 1 – Lesson 3.2 Energy, Producers, and Consumers All Life on Earth needs energy for cell processes. For most life on Earth, sunlight is the ultimate energy source. Organisms get energy by using light or chemical energy to make food or by eating other organisms

15 PRODUCERS Producers change the energy available in their environment into food energy. They make their own food (autotrophs) Plants, algae, and some microorganisms use a chemical process called photosynthesis to change light energy into chemical energy (Glucose) This process adds oxygen to the atmosphere and removes carbon dioxide.

16 Producers That Use Sunlight cyanobacteria Algal colony phytoplankton Plants & Trees

17 Life Without Light Biologists have discovered thriving ecosystems around volcanic vents in total darkness on the deep ocean floor. Deep-sea ecosystems depend on primary producers that harness chemical energy from inorganic molecules such as hydrogen sulfide. The use of chemical energy to produce carbohydrates is called chemosynthesis. giant tube worms live in symbiosis with the chemosynthetic bacteria

18 Consumers Consumers- organisms that cannot make their own food and get their energy from eating other organisms. (heterotrophs) Producers and Consumers use the chemical process of Cellular Respiration to break down food in the presence of oxygen to produce energy.

19 Types of Consumers Consumers are classified by the ways in which they acquire energy and nutrients. Herbivores-obtain energy and nutrients by eating plant leaves, roots, seeds, or fruits.

20 Types of Consumers Carnivores- kill and eat other consumers

21 Types of Consumers Decomposers-such as bacteria and fungi, feed by chemically breaking down organic matter. The decay caused by decomposers is part of the process that produces detritus— small pieces of dead and decaying plant and animal remains. Decomposers that live on, and in, detritus particles are called Detrivores. They feed on detritus particles, often chewing or grinding them into smaller pieces. Ex: giant earthworms

22 Opening Assignment: List the levels of organization of life. Explain the difference between biotic and abiotic factors in ecosystems and give 3 examples of each.

23 Each time one organism eats another organism, a transfer of energy occurs Food chain- models how energy flows in an ecosystem through feeding relationships. Part 2 – Lesson 3.3 Energy Flow in Ecosystems

24 Food Webs Food web- links all of the food chains in an ecosystem together. It shows many feeding relationships that are possible in an ecosystem An example of a food web in the Everglades is shown.

25 Trophic Levels and Energy Pyramids Each step in a food chain or food web is called a trophic level. Primary producers always make up the first trophic level. Various consumers occupy every other level Energy pyramids- show the amount of food energy available at each trophic level

26 Trophic Levels and Energy Pyramids Energy pyramids- show the amount of food energy available at each trophic level Each time energy is transferred from one organism to another, lost and less energy is available at the next trophic level.

27 Trophic Levels and Energy Pyramids Energy is lost:  as heat  through cellular respiration. o this energy is used to carry out functions of living things such as producing new cells, regulation of body temperature, and moving around

28 Trophic Levels and Energy Pyramids The remaining 10% of the energy becomes part of the organism’s body and is stored in its molecules. This 10% is available to the next trophic level when one organism consumes another organism

29 Part 2 – Lesson 3.4 Cycles of Matter Learning Goals: Students will be able to.. Identify and describe the flow of nutrients in each biogeochemical cycle. Explain the impact that humans have on the biogeochemical cycles.

30 http://www.youtube.com/watch?v=09_sWPx QymA http://www.youtube.com/watch?v=09_sWPx QymA

31 Two Secrets of Survival: Energy Flow and Matter Recycle An ecosystem survives by a combination of energy flow and matter recycling. Figure 3-14

32 MATTER CYCLING IN ECOSYSTEMS Nutrient Cycles: Global Recycling Global Cycles recycle nutrients through the earth’s air, land, water, and living organisms. Nutrients are the elements and compounds that organisms need to live, grow, and reproduce. Biogeochemical cycles move these substances through air, water, soil, rock and living organisms.

33 What Sustains Life on Earth? Solar energy, the cycling of matter, and gravity sustain the earth’s life. Figure 3-7

34 Fig. 3-26, p. 72 Precipitation Transpiration Condensation Evaporation Ocean storage Transpiration from plants Precipitation to land Groundwater movement (slow) Evaporation from land Evaporation from ocean Precipitation to ocean Infiltration and Percolation Rain clouds Runoff Surface runoff (rapid) The Water Cycle

35 Effects of Human Activities on Water Cycle We alter the water cycle by: Withdrawing large amounts of freshwater. Clearing vegetation and eroding soils. Polluting surface and underground water. Contributing to climate change.

36 The Carbon Cycle

37 1.Plants remove carbon dioxide from the air. 2.When the plants died, they were buried in the earth. 3.After millions of years, their remains turned into coal and oil. 4.People mine the earth for coal and oil, which are called "fossil fuels". 5.When people burn fossil fuels, they send carbon dioxide and other greenhouse gases into the air.

38 Effects of Human Activities on Carbon Cycle We alter the carbon cycle by adding excess CO 2 to the atmosphere through: Burning fossil fuels. Clearing vegetation faster than it is replaced. Figure 3-28

39 The Nitrogen Cycle

40 This picture shows the flow of the nitrogen cycle. The most important part of the cycle is bacteria. Bacteria help the nitrogen change between states so it can be used. When nitrogen is absorbed by the soil, different bacteria help it to change states so it can be absorbed by plants. Animals then get their nitrogen from the plants.bacteria

41 Steps in the Nitrogen cycle 1.Fixation - Fixation is the first step in the process of making nitrogen usable by plants. Here bacteria change nitrogen into ammonium. 2.Nitrification - this is the process by which ammonium gets changed into nitrates by bacteria. Nitrates are what the plants can then absorb. 3.Assimilation - This is how plants get nitrogen. They absorb nitrates from the soil into their roots. Then the nitrogen gets used in amino acids, nucleic acids, and chlorophyll. 4.Ammonification - This is part of the decaying process. When a plant or animal dies, decomposers like fungi and bacteria turn the nitrogen back in ammonium so it can reenter the nitrogen cycle. 5.Denitrification - Extra nitrogen in the soil gets put back out into the air. There are special bacteria that perform this task as well.

42 Fig. 3-31, p. 77 Dissolved in Ocean Water Marine Sediments Rocks uplifting over geologic time settling out weathering sedimentation Land Food Webs Dissolved in Soil Water, Lakes, Rivers death, decomposition uptake by autotrophs agriculture leaching, runoff uptake by autotrophs excretion death, decomposition miningFertilizer weathering Guano Marine Food Webs The Phosphorous Cycle

43 Steps of the Phosphorous Cycle 1. Phosphate is released by the erosion of rocks. 2. Plants and fungi take up the phosphate with their roots. 3. Phosphorus moves from producers to consumers via food chain. 4. Phosphorus may seep into groundwater from soil, over time forming into rock. 5. When these rocks erode, the cycle begins again.

44 Effects of Human Activities on the Phosphorous Cycle We remove large amounts of phosphate from the earth to make fertilizer. We reduce phosphorous in tropical soils by clearing forests. We add excess phosphates to aquatic systems from runoff of animal wastes and fertilizers.

45 Fig. 3-32, p. 78 Hydrogen sulfide Sulfur Sulfate salts Decaying matter Animals Plants Ocean Industries Volcano Hydrogen sulfide Oxygen Dimethyl sulfide Ammonium sulfate Ammonia Acidic fog and precipitation Sulfuric acid Water Sulfur trioxide Sulfur dioxide Metallic sulfide deposits The Sulfur Cycle

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47 The Steps of the Sulfur Cycle 1.Mineralization of organic sulfur into inorganic forms, such as hydrogen sulfide (H 2 S), elemental sulfur, as well as sulfide minerals.organic sulfurhydrogen sulfidesulfide minerals 2.Oxidation of hydrogen sulfide, sulfide, and elemental sulfur (S) to sulfate (SO 4 2– ).Oxidationsulfidesulfate 3.Reduction of sulfate to sulfide. 4.Incorporation of sulfide into organic compounds (including metal-containing derivatives).

48 Effects of Human Activities on the Sulfur Cycle We add sulfur dioxide to the atmosphere by: Burning coal and oil Refining sulfur containing petroleum. Convert sulfur-containing metallic ores into free metals such as copper, lead, and zinc releasing sulfur dioxide into the environment.


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