CURRICULUM TR AILING ICE AGE M YST ERI E S

Similar documents
Page 1. Name:

School Program Name: Name of Sanctuary: Grade Level: Grades 6 8 Location Options: Time:

How do glaciers form?

Guided Notes Surface Processes. Erosion & Deposition By: Glaciers

3 Erosion and Deposition by Ice

CARD #1 The Shape of the Land: Effects of Crustal Tilting

Bruce County s BIG Picture

OAKLYN PUBLIC SCHOOL

Which landscape best represents the shape of the valleys occupied by glaciers? A) B) C) D)

Mass Movements, Wind, and Glaciers

SAMPLE PAGE. pulses. The Ice Age By: Sue Peterson

THE ACTION OF GLACIERS

Prentice Hall EARTH SCIENCE

MASS MOVEMENTS, WIND, AND GLACIERS

EARTH S SYSTEMS: PROCESSES THAT SHAPE THE EARTH

Lecture 10 Glaciers and glaciation

Glacial Modification of Terrain

Chapter 5: Glaciers and Deserts

Question #1: What are some ways that you think the climate may have changed in the area where you live over the past million years?

Section 11.1 pp Where Mountains Form

How to Use This Presentation

Earth s Plates, Part 1: What Are They, Where Are They and What Do They Do?

EROSION RATES (1 Hour)

PHYSICAL GEOGRAPHY. By Brett Lucas

Landscape evolution. An Anthropic landscape is the landscape modified by humans for their activities and life

Day 3 Weathering and Erosion.notebook. October 02, Section 7.2. Erosion and Deposition. Objectives

Explore! Fossils Original Air Date: January 28, 2015 Grade Levels: 3-6 Archived Program URL: Program Materials Page URL: Program Description:

Lecture Outline Lecture Outline Monday April 9-16, 2018 Questions? Announcements:

Glaciers. (Shaping Earth s Surface, Part 6) Science 330 Summer 2005

Disciplinary Core Ideas

Weathering and Erosion

Changes to Land 5.7B. landforms: features on the surface of Earth such as mountains, hills, dunes, oceans and rivers

Think about the landforms where you live. How do you think they have changed over time? How do you think they will change in the future?

Processes that Shape the Earth

Lecture Outlines PowerPoint. Chapter 6 Earth Science 11e Tarbuck/Lutgens

Tuesday, September 05, 2017 Planet Earth

Fascinating Fossils Grades 4-8

3.13Glaciers past and present

Potential short answer questions: What is Pangea? Describe at least 4 pieces of evidence that led Wegener to suggest the theory of Continental Drift.

Analyzing our Topic IF SO, MAKE THE CHANGES AND BE READY TO REPORT OUT!

2 Earth s Changing Continents

Landscape. Review Note Cards

EARTH S CHANGING SURFACE

Chapter 3 Erosion and Deposition. The Big Question:

Environmental Science Institute The University of Texas - Austin

4th Grade. Slide 1 / 101. Slide 2 / 101. Slide 3 / 101. Earth Systems. Earth Systems Earth's Systems. Mechanical Weathering

Name Test Date Hour. forms that lived only during certain periods. abundant and widespread geographically. changes to the surface of Earth.

Science Olympiad Dynamic Earth: Glaciers

Sculpted by Floods Learning Resource Guide

Topic 6: Weathering, Erosion and Erosional-Deposition Systems (workbook p ) Workbook Chapter 4, 5 WEATHERING

Glaciers Earth 9th Edition Chapter 18 Glaciers: summary in haiku form Key Concepts Glaciers Glaciers Glaciers Glaciers

4. The map below shows a meandering stream. Points A, B, C, and D represent locations along the stream bottom.

Bell Ringer. Are soil and dirt the same material? In your explanation be sure to talk about plants.

Erosion and Deposition along Rivers and Seashores - Part 1: Modeling in the Classroom

Chapter 2. Wearing Down Landforms: Rivers and Ice. Physical Weathering

Iowa s Tectonic Future * Created by Kyle N. Hoffman, Geology, Linn-Mar High School, Marion Iowa. 2009

UNIT 3 GEOLOGY VOCABULARY FLASHCARDS THESE KEY VOCABULARY WORDS AND PHRASES APPEAR ON THE UNIT 3 CBA

SEA ICE AND GLOBAL WARMING

W he natural resources of Adams

Required Materials Plummer, C., Physical geology. Columbus, OH: McGraw Hill Higher Education

Fourth Grade Social Studies

The Niagara Escarpment extends from western New York, through the GTA all the way up to Manitoulin Island and into Michigan and Wisconsin.

Minnesota s Rocky Roots Multidisciplinary Classroom Activities

4. What type of glacier forms in a sloping valley between rock walls? a. firn glacier b. ice sheet c. cirque d. alpine glacier

Glacial processes and landforms NGEA01, 2014

Climate Change: How it impacts Canadians and what we can do to slow it down.

Module/Unit: Landforms Grade Level: Fifth

DeltaScience. Content Readers. Summary. Science Background. Objectives. Reading Comprehension Skills. Supporting English Learners

Class Notes: Surface Processes

Georgia Standards of Excellence for Science Grade 6

Earth s Changing Surface

The boulder was most likely moved to this location by A) glacial ice B) prevailing wind C) streamfiow D) volcanic action

Name: Mid-Year Review #2 SAR

Weathering & Erosion

The Great Ice Ages. Copyright abcteach.com 2001 Graphics from Art Today

The Continental Drift Hypothesis

Name. 4. The diagram below shows a soil profile formed in an area of granite bedrock. Four different soil horizons, A, B, C, and D, are shown.

Earth s Changing Surface Chapter 4

CT Science Standard 4.3 Erosion Water has a major role in shaping the earth s surface. Trail Guides

The Continental Drift Hypothesis

4th Grade. Earth Systems.

Earth s Interior. Use Target Reading Skills. Exploring Inside Earth

What is a Glacier? Types of Glaciers

Chapter 1 Section 2. Land, Water, and Climate

Thanks. You Might Also Like. I look forward helping you focus your instruction and save time prepping.

Erosion and Deposition

INDEX_Glaciers.pdf. mountain (alpine) glacier NLG Test bank: [Glaciers01-03.jpg] High Quality: [Moraine_med-lat_Haines_AK_.jpg]

COURSE OUTLINE Physical Geology

Science EOG Review: Landforms

Weathering, Erosion, Deposition

2nd Grade. Earth's Water. Slide 1 / 111 Slide 2 / 111. Slide 3 / 111. Slide 4 / 111. Slide 5 (Answer) / 111. Slide 5 / 111. Role of Water on Earth

Benchmark #: State Language: Student Friendly Language: The student models earth s cycles, constructive and

Weathering, Erosion and Deposition

Read Across America. Listen as I read for facts about Volcanoes. In the Shadow of the Volcano

What type of land feature is located at Point A? A Cliff B Delta C Mountain D Valley

Historical Geology Geological Time - Water, W.PA, and World

SYLLABUS FORM WESTCHESTER COMMUNITY COLLEGE Valhalla, NY lo CURRENT DATE: Please indicate whether this is a NEW COURSE or a REVISION:

LEIVONMÄKI NATIONAL PARK

Vocabulary Words. theory continental drift fault magma lava. weathering glacier erosion deposition delta

Changes over Time: Destructive Processes

Transcription:

MIDDLE SCHOOL CURRICULUM TR AILING ICE AGE M YST ERI E S THE Driftless Area

CONTENTS I. Enduring Knowledge... 3 II. Teacher Background... 3 III. Before Viewing the Video... 5 IV. Viewing Guide... 5 V. Discussion Guide... 5 VI. Evaluation... 6 Proficiency Standards...i, ii Note: This topical must be accompanied with the Overview for complete understanding. 2

Overview: During the past 2.5 million years, numerous continental glaciers advanced and retreated across much of the upper Midwest, with the last melting some 12,000 years ago. Four major periods of glacial activity shaped and deposited both the topography and soil types that we see today across much of Wisconsin. However, one area in Western Wisconsin along the Mississippi River somehow escaped the scouring and depositional effects of glaciation. Scientists believe that glacial lobes of ice during different periods came from different directions, completely surrounding yet somehow missing this area. Because the area wasn t covered with glacial drift (sand/gravel) it was named The Driftless Area. Saved from the impacts of glaciation, The Driftless Area gives scientists a rare look at pre-glacial geology that also harbors rare species that are true Ice Age relics. I. Enduring Knowledge: Students will see how various landforms have been created over millions of years, including the role of glaciers in shaping the land. They will know that variations in glacial activity result in different landforms. Learning Targets: 1. Students should learn the difference between glacial drift and driftless areas and the resulting land features of each. 2. Students should learn that by looking at maps and soil samples, scientists discovered relative dates of glaciers and movement characteristics of ice. 3. Students should learn factors that influenced the glacial movement. 4. Students should learn the implications of no glacial activity on the land, as well as which plants and animals are likely to thrive in that area. II. Teacher Background: A glacier is made up of thick layers of compressed ice formed from repeated snowfalls that has the ability to move. It flows like a slow river of putty and physically changes the shape of the land in the process. The size of a glacier can vary from as small as a football field to hundreds of kilometers. A glacier forms when the amount of accumulating snow is greater than the amount that melts. This accumulation remains year-round and compresses the lower layers into ice. The extreme weight of the glacier deforms the lower layers of ice similar to putty. This characteristic, along with the pull of gravity, causes the ice to move through mountain valleys or across plains. It can change speed and at times retreat, altering the land beneath by a combination of forces. 3

As a glacier moves, it carves away land by erosion and also deposits and sculpts new landforms. Erosion creates u-shaped valleys, fjords, and horns. Sculpting and deposition can form moraines, kettles, drumlins, and eskers. These depositional features are formed with glacial drift that is made up of sand, gravel, rocks, and boulders created and transported by the forces of the moving ice. The portion of western Wisconsin that was not covered by glaciers and the resulting glacial drift is called The Driftless Area. The preserved land features in this area include deeply-cut, v-shaped river valleys and rugged bluffs that were not affected by glaciers. The Driftless Area is surrounded by land that was glaciated at different times in history. Scientists have discovered that the Driftless Area was formed in stages by glaciers advancing from different directions during four different periods ranging from 2.2 million to 12,000 years ago. The movement of the ice that missed the Driftless Area was affected by depressions in the Earth s surface, in particular the Lake Superior trench. The Driftless Area is rich with historic and geologic information free from glacial impact. There are fossils found here revealing the existence of Ice Age animals living in Wisconsin. Online Resources http://nsidc.org/cryosphere/glaciers/questions/what.html - glacial facts http://curiosity.discovery.com/question/how-are-glaciers-formed - glacial facts http://www.untamedscience.com glacial interactive and video source http://www.iceagetrail.org - background information www.nps.gov/iatr Vocabulary: 1. Glacial drift: material (sand, gravel, rocks, boulders) created by, transported, and left over after a glacier melts 2. Driftless Area: area without glacial drift deposits that reveals pre-glacial landscapes such as deep cut river valleys and sharp edged bluffs 3. Lobe: curved or rounded shape of glacial ice flow that is affected by topography 4. Great Lakes depressions: topographic low areas that exist under the Great Lakes that affected the flow of glacial ice 5. Lake Superior trench: a long, deep depression area in the Lake Superior region that affected the direction of glacial flow 4

III. Before Viewing this Video: Discuss the following questions using a topographic map of Wisconsin: 1. What are land features you know in this state? (Give clues if needed like Wisconsin Dells, Wildcat Mountain, Blue Mounds, Kettle Moraine.) Point them out on a map. Make a list on the board. 2. How do you think these land features were formed? (See if students are aware of the effect of glaciers.) 3. Point out the Driftless Area. What would happen (or not happen) to land not covered with glaciers? 4. How do scientists solve a mystery? What are their tools and strategies? (Students might know about carbon testing, ice cores, soil cores) IV. Viewing Guide: Provide the following questions for students to answer while watching: 1. What is the Driftless Area of Wisconsin? (Area where the Wisconsin glaciation didn t cover the land) 2. What is the mystery of the Driftless Area? Why did the glaciers surround but not cover it? 3. Describe two tools and how they are used to explain what happened here. (Maps of the land and study of the soil composition) 4. What animals lived in Wisconsin in prehistoric times? (Mammoth, mastodons, giant beaver, Dire wolf) V. Discussion Guide: 1. Review video questions in small groups. Using shared information from discussion, students may rewrite their answers to hand in. 2. Demonstrate (or in small groups) show how a thick slushy (coarsley ground ice cubes) moves via gravity down uneven surfaces (e.g. crumpled paper taped to trays). Describe the movement. (Moves slowly at different speeds and makes lobes) 3. Have students write up their observations from this experiment using a scientific format (See Evaluation section) 4. Discuss how a topographic map of the Driftless Area looks different from a topographic map of the rest of Wisconsin. (Contour lines closer together in river valleys) 5

VI. Evaluation: 1. Students hand in questions and participate in discussion. 2. Students write up lab report about slushy demonstration as follows: Problem: What forces or properties affect how a glacier moves? Hypothesis: Guess answer to above question Experiment: Steps to complete above slushy activity Observations: Describe what happened to the slushy in tray. Conclusions: How did the slushy/glacier actually move? Suggestions for extended learning: 1. Go online and find photos of: 1) glacial land features and 2) features from the Driftless Area. Put together a slide show. Explain one such feature from each. 2. Research the different ways fossils are formed. Explain why a glacier could impact fossils in different stages. Write a report. 3. Research some of the animals and plants that lived in Wisconsin in pre-glacial times. 4. Draw a picture showing the front end of a moving glacier and landforms that might affect its flow. 5. Take a hike in the Driftless Area and record your observations. 6

STUDENT PROFICIENCY STANDARDS THE DRIFTLESS AREA The following Wisconsin Student Proficiency Standards can be met by teaching The Driftless Area: SCIENCE 1. Connections: How evidence explains phenomena 2. Inquiry: Understanding how questions direct research 3. Earth Science: Earth history & structure of Earth 4. Physical Science: Motion & Forces SOCIAL STUDIES A. Geography: Students in Wisconsin will learn about geography through the study of the relationships of the land and resulting features. 8 th grade: A.8.1, A.8.2, A.8.4, A.8.6 B. History: Students in Wisconsin will learn about the history of Wisconsin through the study of geology. They will examine change and continuity over time in order to develop historical perspective, to explain historical relationships, and analyze issues that affect the present and the future. 8 th grade: B.8.8, B.8.12 D. Economics: Students in Wisconsin will learn about production, distribution, exchange, and consumption so that they can make informed economic decisions. 8 th grade: D. 8.7, D. 8.11 i

NATIONAL COMMON CORE STANDARDS THE DRIFTLESS AREA Language Arts Writing Research to Build and Present Knowledge 8.W.7, 8.W.8 Speaking and Listening Comprehension and Collaboration 8.Sl.1, 8.Sl.2 Presentation of Knowledge and Ideas 8.Sl.4, 8.Sl.6 Language Conventions of Standard English 8.L.1 Vocabulary Acquisition and Use 8.L.4, 8.L.6 Math Expressions and Equations Understand the connections between proportional relationships, lines and linear equations 8.EE.5 Functions Use functions to model relationships between quantities 8.F.5 ii

WISCONSIN TEACHER STANDARDS THE DRIFTLESS AREA Wisconsin Teacher Standards which can be met with this curriculum Standard 1: Subject matter This curriculum provides information not readily available in other forms. A teacher using this material will be well-informed about the subject matter. Standard 2: Broad range of ability This curriculum provides instruction that supports their intellectual, social, and personal development. Standard 3: Adapt instruction This curriculum provides suggestions for learners with a variety of intelligences and levels of ability. Standard 4: Instructional strategies This curriculum includes the use of technology to gain information and suggestions for using research in extending learning. Standard 5: Individual and group motivation Both prior knowledge and carefully designed group projects promote motivation for students to learn. Standard 6: Verbal and nonverbal communications Instructional media and technology that promotes active learning are key parts of this curriculum. Standard 7: Organizes and plans systematic instruction This curriculum is organized to support teacher knowledge, to draw on and motivate students to engage in active learning, and promotes active inquiry, collaboration, and supportive interaction in the classroom. iii

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