Structures of Life Unit Design - Grade 3

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Structures of Life Unit Design - Grade 3 The Structures of Life Module consists of four sequential investigations dealing with observable characteristics of organisms. Students observe, compare, categorize, and care for a selection of organisms, and in so doing they learn to identify properties of plants and animals and to sort and group organisms on the basis of observable properties. Students investigate structures of the organisms and learn how some of the structures function in growth and survival. RI Statements of Enduring Knowledge - (Established Goals): LS 1 All living organisms have identifiable structures and characteristics that allow for survival (organisms, populations, and species). LS2 Matter cycles and energy flows through an ecosystem LS 3 Groups of organisms show evidence of change over time (structures, behaviors, and biochemistry).. Related Rhode Island GSE s (Understandings) LS1 (3-4)-1 Students demonstrate an understanding of classification of organisms by 1a citing evidence to distinguish between living and nonliving things. 1b identifying, sorting and comparing based on similar and/or different external features. 1c recording and analyzing observations/data about external features (e.g., within a grouping, which characteristics are the same and which are different). 1d citing evidence (e.g., prior knowledge, data) to draw conclusions explaining why organisms are grouped/not grouped together (e.g., mammal, bird, fish). LS1 (3-4)-2 Students demonstrate understanding of structure and function-survival requirements by 2a observing that plants need water, air, food, light and space to grow and reproduce; observing that animals need water, air, food, and shelter/space to grow and reproduce. LS1 (3-4)-3 Students demonstrate an understanding of reproduction by 3a observing changes and recording data to scientifically draw and label the stages in the life cycle of a familiar plant and animal. 3b sequencing the life cycle of a plant or animal when given a set of data/pictures. 3c comparing the life cycles of 2 plants or 2 animals when given a set of pictures. LS1 (3-4)-4 Students demonstrate an understanding of structure and function survival requirements by 4a identifying and explaining how the physical RI Assessment Targets Assessment Evidence ***High Emphasis Targets LS1 (K-4) INQ+POC 1 Sort/classify different living things using similar and different characteristics. Describe why organisms belong to each group or cite evidence about how they are alike or not alike. Investigations 1-4 Science Stories, pp. 1-48 Investigation 3, Part 1, pp. 8-15 Investigation 4, Parts 1-2, pp. 8-19 Science Stories, pp. 17-18, 41-42 Investigation 4, Part 2, pp. 14-19 Investigation 4, Part 2, pp. 14-19 LS1 (K-4) SAE -2** Identify the basic needs of plants and animals in order to stay alive. (i.e., water, air, food, space). Investigation 1, Part 2, pp. 18-27 Investigation 2, Part 2, pp. 14-17 Investigation 3, Part 2, pp. 16-19 Science Stories, pp. 4-5, 10-11, 18, 22-34 LS1 (K-4) POC 3 Predict, sequence or compare the life stages of organisms plants and animals (e.g., put images of life stages of an organism in order, predict the next stage in sequence, compare two organisms) Investigation 2, Part 3, pp. 18-22 Investigation 2, Part 3, pp. 18-22 FOSS web, Activity: Life Cycles LS1 (K-4) FAF 4 Identify and explain how the physical structures of an East Bay Educational Collaborative Structures of Life 1

structure/characteristic of an organism allows it to survive and defend itself (e.g., of a characteristic the coloring of a fiddler crab allows it to camouflage itself in the sand and grasses of its environment so that it will be protected from predators). 4b analyzing the structures needed to for survival of populations of plants and animals in a particular habitat/environment (e.g., populations of desert plants and animals require structures that enable them to obtain/conserve/retain water organism (plants or animals) allow it to survive in its habitat/environment (e.g., roots for water; nose to smell fire). Investigation 3, Part 1, pp. 8-15 Investigation 4, Part 1-2, pp. 8-19 Science Stories, pp. 3, 17-18, 20-21, 22-34, 37-39 Science Stories, pp. 20-21, 22-34 LS2 (3-4)-5 Students demonstrate an understanding of energy flow in an ecosystem by 5a identifying sources of energy for survival of organisms (i.e. light or food). LS2 (K-4) SAE 5 Recognize that energy is needed for all organisms to stay alive and grow or identify where a plant or animal gets its energy. Science Stories, p. 43 LS2 (3-4)-6 Students demonstrate an understanding of food webs in an ecosystem by 6a demonstrating in a food web that all animals food begins with the sun. 6b use information about organisms to design a habitat and explain how the habitat provides for the needs of the organisms that live there. 6c explaining the way that plants and animals in that habitat depend on each other. LS2 (K-4) SAE 6 Describe ways plants and animals depend on each other (e.g., shelter, nesting, food). Science Stories, p. 43 Investigation 3, Part 2, pp. 16-19 LS3 (3-4)-7Students demonstrate an understanding of equilibrium in an ecosystem by 7a explaining what plants or animals might do if their environment changes (e.g., changing food supply or habitat due to fire, human impact, LS3 (K-4) SAE 7 Using information (data or scenario), explain how changes in the environment can cause organisms to respond (e.g., survive there and reproduce, move away, die). Science Stories, pp. 35-36 East Bay Educational Collaborative Structures of Life 2

1.1 Seed Search Where do seeds come from? Where are seeds found on plants? Seeds develop in the plant part called a fruit. Different kinds of fruits have different kinds and number of seeds. Seeds have a variety of properties. Purpose: to clarify the understanding of fruit. The structure (part) of the plant that carries the seed(s) is called the fruit. Purpose: to describe the properties of bean seeds. A variety of properties of the bean seed are recorded. Purpose: to compare seeds. The name of the fruit and number of seeds are recorded. The properties of each kind of seed are described and drawn. Purpose: to record observations about seeds. Observations of the seeds properties and how they are changing are recorded over time. (Seeds will swell up, may change color, become slippery, have structures growing from them, and the seed coat might come off.) 1.2 The Sprouting Seed Can a seed grow without soil? What effect does water have on seeds? What would happen if we just watered the seeds instead of planting them in soil? Seeds undergo change in the presence of water. A seed is an organism, a living thing. Purpose: to serve as a reference for seed comparison. Purpose: to evaluate the observations of another student. Beth needs to include the date of each observation. Students should suggest ways to add more information and detail to the written observations. They might also suggest she draw pictures of the seed at the various stages. Students should be able to list some properties that Beth could include such as size, shape, color, texture, etc. Students should understand that it is important for scientists to keep written records to help them remember exactly what happened, especially if the observation takes a long time; you can t count on your memory. East Bay Educational Collaborative Structures of Life 3

Purpose: to record data and observations about dry and wet seeds. The mass of the water soaked up by the seeds is calculated. [Mass of soaked seeds mass of dry seeds = mass of water] Observations of lima beans are recorded and drawn. The structures of the seeds are labeled. 1.3 Seed Soak How much water does a seed soak up? A seed contains the embryo plant and stores food and water. Purpose: to identify the functions of the seed. The seed coat covers and protects the cotyledons. The cotyledons provide food for the young plant. The embryo contains the tiny leaves and root (which will grow into the root, stem, and leaves). Seeds can remain dormant for long periods until conditions are suitable for germination and growth, such as the presence of water. (Students may not notice this until further observation or questioning by you.) 2.1 Germination What effect does water have on the seeds in the mini-sprouter? How do the plants change over time? How do seeds develop into plants? Germination is the onset of a seed s growth. Purpose: to record the difference between dry seeds and bean seedlings. The seed is small and hard. Seeds remain dormant (inactive) until the presence of water cues them to begin to germinate. The seed coat has come off. The seed is swollen and softens. The seedling has a root, stems, and leaves (students may not use these terms until later). Purpose: to clarify the understanding of germination. Germination is the early growth of a plant. The plant uses food stored in the cotyledon. Purpose: to classify and sort seeds based upon properties and structures. Students are able to complete the chart with correct examples, identifying the different parts of the germinated seeds: root, stem, cotyledon, leaves, and seed coat. Purpose: to identify the structures of seedlings and their functions. The root grows down and gets nutrients and water. (It also anchors the plant in the ground.) The stem grows up and supports the rest of the plant. The leaves are the flat, green part of the plant. This is where the food for the plant is made. East Bay Educational Collaborative Structures of Life 4

2.2 Hydroponics How can you grow plants without soil What conditions do plants need in order to grow? Plants need water, light, and nutrients to grow Plants can grow in water if nutrients are added Purpose: to record the basic needs of plants The basic needs of plants are water, air, space, food, and light. Purpose: to discuss the structures of a plant and their functions. The root is growing in the picture, not the stem. The root always grows first, not the stem. The root s function is to take in water. (See teaching notes for more information about this.) 2.3 Life Cycle of the Bean What is the sequence of the bean plant s life cycle? The life cycle is the process of a seed growing into a mature plant, which in turn produces seeds. The fruit of the plant develops from the flower Purpose: to determine the life cycle of bean plants. All the pictures are in the correct order. Narrative includes (as numbered in snapshot): 1. Seed; contains the new plant. 2. Root is beginning to grow. 3. First leaves have grown; cotyledon drying up. 4. Plant has grown and has many leaves. 5. Flowers have appeared. 6. Fruit or bean pods have appeared. 7. Pods have matured; they are full of seeds. 8. Back to seed (from one of the pods) and the cycle repeats. East Bay Educational Collaborative Structures of Life 5

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