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Topic 5.1: Communities & Ecosystems. 1. Objectives of today’s class…. Learn the basic language of ECOLOGY Ecology, ecosystem, population, species, community Learn about energy flow in ecosystems. Kick-off: Inquiry Activity . In groups of 2-3, you have five minutes to….
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1 Objectives of today’s class…. • Learn the basic language of ECOLOGY • Ecology, ecosystem, population, species, community • Learn about energy flow in ecosystems
Kick-off: Inquiry Activity In groups of 2-3, you have five minutes to…. • Choose a location and write it down, then • Make a list of all of the types of organisms, including plants, humans, animals, insects etc that you have seen in a specific location.
Inquiry Activity • Make a diagram that shows how the organisms that you listed interact with each other. • Who eats who/what? • Where do these organisms live?
Think About It • 1. Which organisms on your list provide energy or nutrients to the others? • 2. What would you expect to happen if all the plants in your diagram died? EXPLAIN your answer. • 3. Why is it difficult to make accurate predictions about changes in communities of organisms?
5.1.1 What is ecology? • Ecology is the scientific study of interactionsamong organisms and between organisms and their environment • Etymology (word Root): eco comes from theGreek oikoswhich means house.
The Biosphere The biosphere contains the combined portions of the Earth in which all life exists, including land, water and air or atmosphere. It extends 8 km above the Earth’s surface and as far as 11 km below the surface of the ocean.
5.1.1 Definitions (you must know these!) Species: • A group of individuals who can reproduce and produce fertile offspring. Populations • Members of the same species who live together in the same time and place.
5.1 Community vs. Population • A community is assemblage of different populations that live together in a defined area • A population is a group individuals that belong to the same species and live in the same area
5.1.1 Ecosystem An ecosystem is a collection of all organisms that live in a particular place, which includes the non-living, or physical, environment
5.1.1 Habitat: Definition Habitat is the environment in which a species normally lives or the location of a living organism.
Challenge: 2 minutes • What did you eat for breakfast? • What were the ingredients? • Where did the energy for the ingredients come from?.....
Connecting 5.1.2 and 5.1.9 1. True or False: Sunlight is the main energy source for all life on Earth: 2. Producers are autotrophs: an organism that synthesizes its organic molecules from simple inorganic substances. TRUE! which means they can make their own food from sunlight or chemicals in the environment.
The process that converts sunlight, water and carbon dioxide into energy is called.
Data Based Question: Pop Quiz! • You have 10 min. • You may NOT use class notes. • You may refer to your command term definitions.
Trophic levels of organisms: Autotrophs/ Producers Food energy is most commonly produced from light energy through photosynthesis Some autotrophs can produce food energy without light, instead using chemicals like hydrogen sulfide. These autotrophs use a process called chemiosynthesis.
Trophic levels: Heterotrophs/ Consumers (and decomposers) Organisms that rely on other organisms for food are called heterotrophs or consumers. Complete the chart for the different types of consumers and what they eat.
5.1.14 So what do decomposers do? Saprotrophicbacteria and fungi (decomposers) recycle nutrients(organic matter and other essential elements) in an ecosystem
5.1.4 Food Chain light
5.1.5, 6, 7 Food Webs & Trophic Level • Trophic Level:
5.1.10 Feeding Relationships Energy flows through an ecosystem in one direction from the sun or other inorganic compounds to autotrophs (producers) and then to various heterotrophs (consumers) • The arrows in a food chain (or food web) indicate the direction of energy flow • Trophic relationships within communities tend to be complex and web-like
Syllabus Topic 5.1.8 • Create your own food web with 5 to 10 organisms. • You must use names, common names (red oak) are OK, “tree” is not. • OBJECTIVE 3: “Analyse, comment, compare, constuct, deduce, derive, design”
Data-based question: ‘Fishing down the Food web…’ A recurring pattern of declining mean trophic level of fisheries landings, termed “fishing down the food web,”is thought to be indicative of the serial replacement of high-trophic-level fisheries with less valuable, low-trophic-level fisheries as the former become depleted to economic extinction. An alternative to this view, that declining mean trophic levels indicate the serial addition of low-trophic-level fisheries (“fishing through the food web”), may be equally severe because it ultimately leads to conflicting demands for ecosystem services. PNAS February 28, 2006 vol. 103 no. 9
Take out your food web • Double check the arrows, are they going in the direction of energy flow? • Label all the trophic levels
5.1.12 Ecological Pyramids An ecological pyramid is a diagram that shows the relative amounts of energy or matter contained within each trophic level in a food chain or web.
Biology Update! • The “rule of 10” was based on aquatic ecosystems. • It still generally applies… but… • Recent studies have shown that energy efficiency can range from 0.05% to 20%.
Calculating energy efficiency Only 4 kJ of the original energy available to the bullock is available to the next stage, which might be humans. The efficiency of this energy transfer is: efficiency = 4⁄100 × 100 = 4% 33 kJ
How can we improve efficiency? Food production is more efficient if the food chain is short, because a higher percentage of energy is available tothe top trophic level.
5.1.11 • True or False: • Energy transformations are 100% efficient FALSE!
5.1.12 The Shape of Energy Pyramids • A pyramid of energy shows the flow of energy from one trophic level to the next in a community. • The units of pyramids of energy are, therefore, energy per unit area per unit time, for example, kJ m–2 yr–1
5.1.13 Unlike the one way flow of energy, matter is recycled within and between ecosystems. These are called biogeochemical cycles
Syllabus Check! • Compare your notes to the syllabus. • Do you have information for all of the topics? • Rate your understanding 0-3 for each topic 0:What? Was I even here for this? 1: some of these words sound familiar 2: I feel pretty comfortable with this, but I might need to look something up 3: Hooray! I could definitely explain this to the class.
