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3 ` Teacher Edition 2 - 3 days ENSO Jigsaw [Key Science Knowledge Module] Activity Overview This module is the most important learning module in terms of the physical science aspects associated with the El Niño / Southern Oscillation (ENSO) and climate forecasting. Teachers have flexibility in how the material is covered in this learning module to meet the objectives of the Climate Unit. Learning Module 3 is designed using the jigsaw approach to learning. It will take at least two days to complete the jigsaw. Another option is to skip the ENSO jigsaw and have the students complete only the “Becoming an Expert” material. A third option is to skip the “Becoming an Expert Section” and go straight to students filling out the “ENSO Jigsaw.” These alternatives will shorten the time requirements. Finally, the teacher can use their own lessons and textbook concerning ENSO. Students need to understand how ENSO affects climate (precipitation) to fully appreciate Learning Module 4. Student Learning Objectives (Depends on material and activities covered in completing the learning module) The student 1. Learns scientific aspects of ENSO. 2. Learns how ENSO affects climate variability in the U.S. and worldwide. 3. Works cooperatively in groups. Teaching Summary Step 1 Journal / Bell Work- if appropriate Step 2 ENSO Jigsaw There is flexibility in this step as discussed in the activity overview and the three replacement steps, Steps 3-5. Step 3 - Replaces Step Two Becoming an Expert - only Step 4 - Replaces Step Two ENSO Jigsaw – only Step 5 - Replaces Step Two Teacher’s own material Step 6 Homework / Assessment Materials Needed For The Teacher Becoming an Expert Handouts ENSO Jigsaw Handouts Divide the students into “expert groups.” 2 Step 2 – ENSO Jigsaw For the Student Becoming an Expert Handouts – for each group member – better if printed in color ENSO Jigsaw Handouts – for each student – if printed in color Crossword puzzle – for each student or student group For teachers not familiar with the jigsaw approach to learning, a brief overview of this method is provided in Appendix A of this Learning Module. ENSO Jigsaw is composed of two parts the “Becoming an Expert on ___” reading material and the “ENSO Jigsaw Worksheet.” Teacher Activity – Jigsaw Approach National Standards Module provides address science, geography national Guide for specific grades 5-8. integrated approach to math, reading and standards. See Teacher standards addressed for Texas Essential Knowledge and Skills (TEKS) Module provides integrated approach to address science, math, reading, and geography standards. See Teacher Guide for specific standards addressed for grades sixth, seventh, and eighth. The jigsaw approach divides the class into groups. Each group goes through a selfdirected learning activity to become “experts” on a particular topic. Groups are then reassembled with one student from each expert group is now present in each new group. Each student teaches the material they had learned in their expert group to the members of the new group. The teacher may want to mention to the students that the material will make more sense once the jigsaw is completed, that is once all the individual components are brought together. Day One Teaching Suggestions Step 1 - Journal / Bell Work The goal is to review the ENSO Introduction from Learning Module 2. To achieve this goal, ask one or more of the following questions and have students either write in their journals or field answer from students. Suggested questions are: What is ENSO? What do you know about ENSO? What is one fact you learned yesterday from out discussion of ENSO? 1. Divide the students into eight “expert groups.” This will allow you to run two jigsaws (four groups each) with the information provided. One expert group is necessary for each ENSO topic. Each student in an expert group is given the appropriate “Becoming an Expert on ___” reading material and worksheet. The four “Becoming on Expert on ___” reading material and worksheets are (for eight expert groups, assign two groups per topic): Trade winds / Southern Oscillation / Walker Circulation – this is the longest topic, the teacher may consider 3 assigning this topic to their best students. El Niño – Warm Phase, La Niña – Cold Phase, and Impact of ENSO on Climate Variability. variability worldwide. To complete this section, all the expert reading material is necessary. Suggested use of this section is for enrichment or advanced classes. 5. The group completes the ENSO Jigsaw Worksheet using the four experts to teach the material. 2. Each expert group completes their worksheet on “Becoming an Expert on ___”. Students should compare answers within their groups and come to a consensus as to what is the correct answer. 6. Each group shares their completed ENSO Jigsaw Worksheet with the class – if time allows. 3. Expert groups should check their worksheet with the answer key to ensure correct answers for completing the jigsaw. Step 3 - Replaces Step 2 – Becoming an Expert – only Days Two and Three 4. New student groups are formed with each student being an expert on a different topic. The experts teach their particular topic to the other students in the reformed group using the “Becoming an Expert on ___” worksheet. In teaching the topic, the students answer the questions associated with each topic in the ENSO Jigsaw worksheet. The three sections on the “ENSO Jigsaw Worksheet” are 7. Check answer key to make sure each answer is correct. Using this option, each student completes all four “Becoming an Expert on ___” worksheets. The ENSO Jigsaw Worksheet is not completed. Teacher Activity Questions contained in the “Becoming an Expert on ___” are completed using either direct instruction, individually by each student, or in student groups. Each student is given a copy of the appropriate reading materials for “Becoming an Expert on ___.” If groups are used, the material can be shared between groups. This sharing reduces the amount of material that must be handed out to students. ENSO Jigsaw – Pacific Ocean Aspects, ENSO Jigsaw – U.S. Climate Variability Aspects, and ENSO Jigsaw – Worldwide Climate Variability Aspects – Optional. The first two sections are required. The third optional section looks at climate Step 4 - Replaces Step 2 – ENSO Jigsaw – only Using this option, each student completes the ENSO Jigsaw Worksheet. The “Becoming an Expert on ___” worksheets are not completed. 4 Teacher Activity Questions contained in the ENSO Jigsaw Worksheet are completed using either direct instruction, individually by each student, or in student groups. Each student is given a copy of the appropriate reading materials on ENSO topics. Depending on the method used, reading material is given to the individual student or a group of students. If groups are used, the material can be shared between groups. This sharing reduces the amount of material that must be handed out to students. Step 5 – Replaces Step 2 -Teacher’s Own Material The teacher can chose to use their textbook or own ENSO science concept materials. Step 6 - Assessment / Homework Assessment Options 1. ENSO Jigsaw Worksheet and / or becoming an expert questions. 2. Journal reflection: what information did you learn today? 3. Have students answer either verbally or written the following question, “How do we use the information we have learned to help Joe make a decision?” and be ready to teach this information to a new group on day two. 2. Complete the “Other Affects of ENSO” reading and worksheet. Students could complete the entire worksheet or different students could complete the different sections and report to the class. This worksheet can be used as homework / enrichment. Enrichment Options 1. Have students research ENSO by visiting one or more of the NOAA websites related to ENSO and then write a short paragraph on what they have learned from visiting the sites. 2. Have the students complete the ENSO Jigsaw – Worldwide Climate Variability Aspects – Optional worksheet; the students will need all the expert reading material. 3. Have the students complete the ENSO crossword puzzle; the students will need all the expert reading material. 4. Have the students provide a more in depth report on the effect of ENSO on climate variability for a particular area of the U.S. 5. Have the students complete the “Other Affects of ENSO” reading and worksheet. Homework Options 1. Day One - have students study their becoming expert questions, answers, and reading material on their ENSO topic. Students should reread their handouts Struggling Learners 1. If using the jigsaw approach, have the experts work in pairs instead of 5 individuals. Pair struggling learners with a peer tutor. 2. If completing the “ENSO Jigsaw” individually, provide a set of reading that highlights the most important aspects. 3. In completing the “ENSO Jigsaw,” use multiple-choice questions instead of the open ended set of questions. 6 Becoming an Expert on Trade Winds, Southern Oscillation, and the Walker Circulation To become an expert on trade winds, the Southern Oscillation, and the Walker Circulation, read the following information and complete the questions. Your teacher may require you to read other sources of information. Trade Winds The ocean and atmosphere are related or interact. This relationship is called coupled by scientists. Trade winds and the Walker Circulation in the tropical Pacific Ocean play important roles in understanding ENSO. and westward in the tropical Pacific Ocean. The trade winds are part of the coupled ocean-atmosphere interaction in the tropical Pacific. The trade winds determine the water temperature at the same time the water temperature determines the trade winds. This is the coupling of the ocean and atmosphere. They are linked to the point that they cannot be separated. The trade winds are so named as early sailing ships used the winds to sail from South America westward. The strength of the winds is such that the Pacific Ocean level is approximately half a meter higher in the western Pacific (Indonesian) than it is in the eastern Pacific (Peru, South America). Southern Oscillation Equator Differences in sea surface temperatures between the east and west equatorial Pacific Ocean cause the trade winds. The sun heats the sea surface to a higher temperature near the equator than the rest of the world. Heating the sea surface temperature causes the air to rise from the surface. The rising air is replaced by air inflows from the cooler subtropics. This is seen in the following trade wind patterns for the winds at the equator. As shown in the figure, the northern and southern trade winds turn in different directions. By turning in different directions, the trade-wind belts are made. The trade winds blow towards the equator Coupled with the sea surface temperature is air pressure. The Southern Oscillation is a seesaw of air pressure near the equator between the eastern and western Pacific Ocean. This oscillation is measured as changes in the differences in air pressure between Tahiti, French Polynesia and Darwin, Australia. In general, lower air pressure is found where the air is rising and higher pressure where the air is sinking. The Southern Oscillation is a measure of the strength of the trade winds, which flow from regions of high to low pressure. Walker Circulation The Walker Circulation associated with the trade winds is the vertical and horizontal circulation of air associated with the trade winds. The following figure (http://www.pmel.noaa.gov/tao/elnino/ninohome.html#) shows the coupling of sea surface temperatures and the Walker circulation. 7 Under normal conditions, the winds blowing westward cause a large pool of warm water in the western Pacific Ocean. Air rises over this warm pool. Rising air leaves the lower atmosphere and airflows in to fill the gap. The air filling the gap causes the winds to blow towards the warm water. The winds blowing in to fill the gap are the trade winds. The warm pool of water releases large amounts of heat and moisture into the atmosphere. Sea surface temperatures in the warm pool are up to 6 degrees Celsius warmer than in the cooler pools. This warm pool is an Western Pacific Eastern Pacific important force in determining world climate by altering the jet streams (storm tracks) that control weather in the temperateby phytoplankton, which support high fish zones. Changes in the position of the warm production. With a shallower thermocline, pool in the Pacific Ocean can affect much of nutrients necessary for life in the ocean are the world's weather. closer to the surface making for more abundant plant and animal life. Having the One other important aspect shown in the thermocline moving close to the surface is figure is the position of the thermocline. called upwelling. Wherever upwelling The thermocline is the boundary between occurs there is more abundant life than other the colder deep water and warmer upper areas of the ocean where upwelling does not water layer. By blowing westward, the trade occur. winds force the thermocline to be deep in the western Pacific Ocean and shallow in the These normal conditions provide the eastern Pacific Ocean. In the west, the starting point to understand La Niña and El thermocline is up to 150 meters deep. In the Niño events. east, the thermocline is around 30 meters deep. This difference in thermocline location has an affect on the biological make up of the Pacific Ocean. Colder deep water is usually richer in life-supporting nutrients than the warmer surface water. These nutrients support high primary production 8 Questions Concerning Trade Winds/Southern Oscillation/Walker Circulation 1. The ocean and atmosphere are related. Scientist call this relationship Coupled 2. Where are the sea surface temperatures the greatest? Near the Equator 3. What happens to the air when the sea surface temperature heats up? The air rises 4. What causes the trade winds? Air filling the gap left by rising air which causes winds to blow towards warm water. 5. How do the northern and southern trade winds different? They turn in different directions 6. How are the trade winds and the ocean coupled? Trade winds determine the water temperature at the same time water temperature determines the trade winds 7. What is the southern oscillation? A see saw of air pressure near the equator between the eastern and western Pacific Ocean. 8. What is air normally doing where the air pressure is low? The air is rising 9. What is air normally doing where the air pressure is high? The air is sinking 10. What is the Southern Oscillation a measure of? The strength of the trade winds, which flow to regions of high to low pressure 11. What is the Walker Circulation? The vertical and horizontal circulation of air associated with trade winds 12. Why is the warm pool so important? It alters the jet streams (storm tracks) that control weather around the world. 9 13. How does the thermocline affect the biological make up of the Pacific Ocean? With a shallower thermocline nutrients necessary for life in the ocean are closer to the surface making for more abundant plant and animal life. 14. What is upwelling? Having a thermocline moving close to the surface. 15. Understand the figure in the readings concerning the Pacific Ocean during normal ENSO conditions. After completing the questions above you are now an expert on trade winds, Southern Oscillation, and Walker Circulation. Your job is to share your knowledge with new partners tomorrow. You should study your information and answers for homework and be ready to explain these processes to your classmates. Be sure you explain the key terms. 10 Becoming an Expert on El Niño – Warm Phase To become an expert on El Niño read the following information and complete the questions. Your teacher may require you to read other sources of information. Recall from Learning Module 2, the three most common phases associated with ENSO are El Niño, La Niña, and neutral. El Niño is also referred to as the warm phase and La Niña the cold phase. The popular story of how El Niño got its name is as follows. El Niño originally referred to the warming of the Pacific Ocean off the coast of the South American country of Peru that appears around Christmas time. In Spanish, El Niño means small boy or child. If the word is capitalized, El Niño refers to Jesus as an infant. So, the anticipation of the celebration of the birth of Christ and the warming of the Pacific Ocean became known as El Niño. Exact origin and date of the use of the word El Niño is not known. Be prepared to give the story of the naming of El Niño in the jigsaw groups. when averaged over three consecutive months in the Niño 3.4 region. El Niño is sometimes referred to as the warm phase because of the warmer sea surface temperatures in the eastern Pacific. The eastward movement of the warm pool causes the thermocline to move down in the eastern Pacific Ocean and to become shallower in the western Pacific. The thermocline is the boundary between the colder deep water and warmer upper water layer. Opposite air pressure conditions than those that occur in an El Niño event are generally associated with La Niña events. Lower than normal air pressure in the eastern Pacific and higher air than normal air pressure in the western Pacific are associated with El Niño. Smaller pressure difference in the Southern Oscillation is associated with weaker than normal trade winds during an El Niño. These changes are shown in the figure (http://www.pmel.noaa.gov/tao/elnino/ninohome.html#). Referring to El Niño as the warm phase is simply in reference to the warming of the Pacific off the South American coast. Scientists do not know what causes El Niño phases to develop. They do know, however, the affects of the phase. The following are changes from normal conditions. The trade wind experts will provide you with information on normal conditions. During El Niño phases, the trade winds weaken. The warm pool of water in the equatorial Pacific moves eastward. El Niño is defined by sea surface temperatures that are warmer than or equal to 0.5 degrees Celsius higher than normal Western Pacific Eastern Pacific 11 These changes in the coupled oceanatmosphere system can lead to changes in climate variability around the world. These changes in climate conditions are associated with the changes in location of the warm pool. The warm pool is a major source of heat and moisture to the atmosphere. Changes in the thermocline cause changes in upwelling in the Pacific Ocean. Biological aspects of the ocean change with the changes in upwelling. With the change in upwelling, there is less biological life near the ocean surface in the eastern Pacific Ocean than under neutral conditions. The following figure shows some the global affect of El Niño’s on climate variability. El Niño’s affect is stronger during the northern hemisphere winter season, December – February than during the summer season. This does not mean for the gulf region of the U.S. all El Niño years will have higher precipitation levels during the winter season, but there is an increased probability of higher precipitation. During an El Niño, the western Pacific tends to experience warmer and dryer climate conditions. The southern U.S. tends to experience wetter and cooler climate conditions. Western Canada and Northwestern U.S. experience warmer than normal temperatures. Other worldwide affects of El Niño are shown in the figure. 12 Questions on El Niño – Warm Phase 1. El Niño phase is also referred to as the ______warm________ phase. 2. Do scientists know what causes El Niño to develop? Yes No 3. What happens to the trade winds during an El Niño phase? They weaken 4. What happens to the southern oscillation pressure difference during an El Niño phase? The pressure difference is small or decreases 5. What happens to the pool of warm water during an El Niño phase? It moves eastward 6. What is the definition of an El Niño phase? El Niño is characterized by warmer sea surface temperatures change from normal in the Niño 3.4 region than greater than or equal to 0.5 degrees Celsius averaged over three consecutive months. 7. What happens to the thermocline during an El Niño phase? It becomes shallower in the western Pacific and deeper in the eastern Pacific 8. What happens to the air pressure during an El Niño phase? In the eastern Pacific there is lower than normal air pressure and in the western Pacific there is higher than normal air pressure 9. Analyze the maps of the global effects of El Niño. How could this possibly affect Joe Soccer’s decision? Remember Joe Soccer lives in the Southern U.S. Wet and cool conditions are expected during El Niño phase – may want to play in the indoor league 10. Are the effects of El Niño on precipitation the same worldwide? Yes No 11. Are the effects of El Niño on temperature the same worldwide? Yes No 12. Provide one example where the effects differ or are the same. Students may pick from the many examples in the reading. 13. Understand the figure in the readings concerning the Pacific Ocean during El Niño conditions. After completing the questions above you are an expert on El Niño. Your job is to explain this event to your new partners tomorrow. You should study your information and answers for homework and be ready to explain this process to your classmates tomorrow. 13 Becoming an Expert on La Niña – Cold Phase To become an expert on La Niña read the following information and complete the questions. Your teacher may require you to read other sources of information. Recall from Learning Module 2, the three most common phases associated with ENSO are El Niño, La Niña, and neutral. El Niño is also referred to as the warm phase and La Niña the cold phase. In Spanish, La Niña refers to the girl child. Once you come together in the jigsaw groups, ask your El Niño expert how El Niño got its name. generally associated with La Niña events. Air pressure is higher than normal in the eastern Pacific and lower than normal in the western Pacific. This large pressure difference in the Southern Oscillation is associated with stronger than normal trade Scientists do not know what causes La Niña phases to develop. They do know, however, the affects of the phase. The following are changes from normal conditions. The trade wind experts Western Pacific Eastern Pacific will provide you with information winds during a La Niña phase. These on normal conditions. During La Niña changes are shown in the figure phases, the trade winds strengthen. The (http://www.pmel.noaa.gov/tao/elnino/ninowarm pool of water in the equatorial Pacific home.html#). moves farther west. La Niña is sometimes referred to as the cold phase because of the These changes in the coupled oceancooler sea surface temperatures in the atmosphere system can lead to changes in eastern Pacific. La Niña is defined by sea climate variability globally. The warm pool surface temperatures in the Niño 3.4 region is a major source of heat and moisture to the that are 0.5 degrees Celsius or cooler than atmosphere. Changes in the thermocline normal temperatures when averaged over cause changes in upwelling in the Pacific three consecutive months. The westward Ocean. Biological aspects of the ocean movement of the warm pool causes the change with the changes in upwelling. With thermocline to become shallower in the additional upwelling, there is more eastern Pacific Ocean and deeper in the biological life near the ocean surface in the western Pacific Ocean. The thermocline is eastern Pacific Ocean than under neutral the boundary between the colder deep water conditions. and warmer upper water layer. Opposite air pressure conditions than those that occur in an El Niño event are General changes in climate variability associated with La Niña are shown in the figure below. La Niña’s affect is stronger 14 during the northern hemisphere winter season, December – February than during the summer season. This does not mean for the gulf region of the U.S. all La Niña years will have lower than normal precipitation levels during the winter season, but there is an increased probability of less rain. During a La Niña phase, the western Pacific tends to experience cooler and wetter climate conditions. The southern U.S. tends to experience dryer and warmer climate conditions. Western Canada and Northwestern U.S. experience cooler than normal temperatures. Other worldwide affects of La Niña are shown in the figure. 15 Questions on La Niña – Cold Phase 1. La Niña phase is also referred to as the ______cold________ phase. 2. Do scientists know what causes El Niño to develop? Yes No 3. What happens to the trade winds during a La Niña event? They strengthen 4. What happens to the southern oscillation pressure difference during a La Niña event? Pressure difference is large or increased 5. What happens to the warm pool of water during a La Niña phase? It moves westward 6. What is the definition of a La Niña phase? La Niña is characterized by cooler sea surface temperatures than normal in the Niño 3.4 region greater than or equal to 0.5 degrees Celsius averaged over three consecutive months. 7. What happens to the thermocline during a La Niña phase? It becomes deeper in the western Pacific and shallower in the eastern Pacific 8. What happens to the air pressure during a La Niña phase? In the eastern Pacific there is higher than normal air pressure and in the western Pacific there is lower than normal air pressure 9. Analyze the maps of the global effects of La Niña. How could this possibly affect Joe Soccer’s decision? Remember Joe Soccer lives in the Southern U.S. Dryer and warmer conditions are expected during La Nina phases – may want to play in the outdoor league 10. Are the effects of La Niña on precipitation the same worldwide? Yes No 11. Are the effects of La Niña on temperature the same worldwide? Yes No 12. Provide one example where the effects differ or are the same. Students may pick from the many examples in the reading 11. Understand the figure in the readings concerning the Pacific Ocean during La Niña conditions. After completing the questions above you are an expert on La Niña. Your job is to explain this event to your new partners tomorrow. You should study your information and answers for homework and be ready to explain this process to your classmates tomorrow. 16 Becoming an Expert on Impact of ENSO on Climate Variability To become an expert on climate variability related to ENSO read the following information and complete the questions. Your teacher may require you to read other sources of information. The coupling of the ocean and atmosphere laid the foundation for explaining teleconnections between ENSO and climate variability in regions outside the Pacific Ocean. A teleconnection is a linkage between a physical process in one region and climate anomalies in other regions. Teleconnections between ENSO and climate conditions have been made for parts of Australia, North and South America, southern Africa, India, northern Africa, and, Southeast Asia. The strength of the teleconnection depends on the strength of the ENSO event. The affect of ENSO on climate variability also depends on the time of the season. The strongest ENSO impacts are found close to the equator. Two important points associated with ENSO’s affect on climate variability must be explained. First, the affect of ENSO on climate variability is a change in the probability of increase or decrease in precipitation amounts and temperatures. Second, no one storm can be attributed to an ENSO. Often in the popular media, nonscientific writers attribute a single storm to the ENSO event. For example, a snowstorm is attributed to a La Niña phase during the winter. This is incorrect. Snowstorms occur every year. Rather, the ENSO event is associated with an increase in the probability of higher or lower precipitation amounts or temperatures. Pacific / North American Jet stream Changes Scientists do not know what causes ENSO phases to develop. They do know, however, the affects of the different phases. Teleconnections partially depend on the Walker circulation. Shifts in the Walker Circulation change airflows east and west over the tropical Pacific. These shifts affect the jet stream that, in turn, modifies storm patterns. Jet streams are a relatively narrow band of strong winds in the upper levels of the atmosphere. Jet streams are usually found approximately 6-9 miles above the earth's surface. Changes in the jet stream causes changes in the storm patterns for North America are illustrated in the following figure. During an El Niño event, cooler, wetter weather occurs in the southern U.S. because the Pacific jet stream tends to stay on a southern track. This jet stream pattern brings in storms from the Pacific Ocean to the southern U.S. The Polar jet stream is pushed to the east, which is associated with warmer weather in Northern U.S. and parts of Canada. La Niña conditions tend to push the Pacific jet stream northward. This is associated with fewer storms in the southern U.S. The northern track of the Pacific jet stream is associated with wetter weather in northwest U.S. The polar jet stream tends to be pushed westerly. The western position of the polar jet stream is associated with cooler temperatures in the northern U.S. and parts of Canada. 17 18 Questions on ENSO’s Impact on Climate Variability 1. What is a teleconnection? A linkage between ENSO and climate variability in regions outside the Pacific Ocean. 2. What parts of the world have teleconnections been made between ENSO and climate conditions? Australia, North and South America, Southern Africa, India, Northern Africa, and South East Asia 3. Where are the strongest ENSO impacts found? Close to the equator 4. Two important points are discussed in the information regarding ENSO’s affect on climate variability. Explain those two points in your own words. ENSO can increase or decrease amounts of precipitation, no one storm can be because of an ENSO. Others 5. Why is a change in the jet stream important in determining climate variability for the U.S.? A change modifies storm patterns 6. What happens to the Pacific jet stream during an El Niño phase during January to March? It is persistent and stays on a southern track. 7. What general affect does the change of the jet stream during an El Niño phase have on climate conditions in the southern U.S. during January to March? Southern U.S. tends to be wetter and cooler than normal 8. What general affect does the change of the jet stream during an El Niño phase have on climate conditions in the northern U.S. during the January to March.? Northern U.S. tends to be dryer and warmer than normal 9. What happens to the Pacific jet stream during a La Niña phase during January to March? Pushes north and is more variable 19 10. What general affect does the change of the jet stream during a La Niña phase have on climate conditions in the southern U.S. during January to March? Southern U.S. tends to be dryer and warmer than normal 11. What general affect does the change of the jet stream during a La Niña phase have on climate conditions in the northern U.S. during January to March? Northern U.S. tends to be wetter and cooler than normal 12. Understand the figure in the readings concerning the jet stream and climate variability across the U.S. Sketch the figure. El Nino Conditions La Nina Conditions After completing the questions above you are an expert on U.S. climate variability associated with ENSO. Your job is to explain this event to your new partners tomorrow. You should study your information and answers for homework and be ready to explain this process to your classmates tomorrow. 20 ENSO Jigsaw Worksheet - Pacific Ocean Aspects Under the normal conditions provide a definition of the physical aspect, whereas under El Nino and La Nina note the Pacific Ocean anomaly (difference from normal) for the phase. Be sure you understand the pictures and are able to sketch them. Hint: conditions are usually opposite between the two conditions. Anomaly from Normal Physical Aspect Definition / Importance Anomaly from Normal Moves East Warm Pool of Water - importance Important in determining climate variability Moves West Shallower in the west and deeper in the east Thermocline The thermocline is the boundary between the colder deep water and warmer upper water layer. Deeper in the west and shallower in the east Weakens Trade Winds / Walker Circulation The Walker Circulation associated with the trade winds is the vertical and horizontal circulation of air associated with the trade winds. Jet Stream Jet streams are a relatively narrow band of strong wind in the upper levels of the atmosphere. Another Phase Name No Definition Southern Oscillation Strengthens Stays on a southern track Warm Pressure difference is small Pushes north and are more variable Cold Large pressure difference A see saw of air pressure near the equator between the eastern and western Pacific Ocean. Less upwelling in the eastern Pacific leads to less plant and animal production in the eastern Pacific Upwelling - Biological The thermocline is close to the surface is called “upwelling.” Where upwelling occurs there is more abundant life than areas of the ocean where upwelling does not occur. More upwelling in eastern Pacific leads to more plant and animal production in the eastern Pacific 21 ENSO Jigsaw Worksheet – U.S. Climate Variability Aspects 1. This page pertains to ENSO affects on climate, especially during January to March period. For the two different phases, mark (a circle would work) with a red pencil the areas of the U.S. that have warmer than normal temperatures. With a blue pencil, mark areas that have cooler than normal temperatures. In green, mark the areas that have higher than normal precipitation. Finally, in brown mark the areas that have lower than normal precipitation. Draw in the changes in the jet stream between the two phases. Be Neat! La Nina – Cold Phase See readings for correct conditions and jet stream. El Nino – Warm Phase 2. What is a teleconnection? A linkage between ENSO and climate variability in regions outside the Pacific Ocean. 3. Recall, Joe Soccer lives in Southern U.S. What is the typical anomaly associated with El Niño phase for precipitation and temperature in Texas? Rain – wet Temperature cool 4. What is the typical anomaly associated with La Niña phase for precipitation and temperature in Texas? Rain – dry Temperature warm 5. Do these anomalies always occur as you answered in questions 2 and 3 for El Niña and La Niña phases? Yes No 6. Discuss in your group how Joe might use the above information. 22 ENSO Jigsaw Worksheet – Worldwide Climate Variability Aspects - Optional This page pertains to ENSO affects on climate. For the two different phases, mark (a circle would work) with a red pencil the areas that have warmer than normal temperatures. With a blue pencil, mark areas that have cooler than normal temperatures. In green, mark the areas that have higher than normal precipitation. Finally, in brown mark the areas that have lower than normal precipitation. On one of the maps, mark the location of the Niño 3.4 region. Be Neat! One may need to refer back to the “Becoming an Expert on ___” reading materials. See reading materials for correct answers. La Nina – Cold Phase El Nino – Warm Phase 1. Do these anomalies you colored put in the maps always occur as you answered for El Niña and La Niña phases? 2. Why do you think the anomalies are stronger in the equator region of the world than in the rest of the world? ENSO is located in the equator region and other phenomen located elsewhere also impact climate 3. Why do you think much of the research into ENSO has originated in Australia? Australia is one of the countries most impacted by ENSO Yes No 23 ENSO Crossword Puzzle - Optional 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Constructed using Crossword Weaver Across 2 4 5 7 8 11 12 14 Upper level winds that create storm tracks. First scientist to rigorous study ENSO precipitation and temperature over a period longer than two weeks El Nino phase is sometimes know as this because of hotter than normal sea surface temperatures Relationship between the ocean and atmosphere The boundary between cold deep water and warmer upper layer of water in an body of water. precipitation and temperature over a period of two weeks or less Linkage between physical process in one region and climate variability in another region. 15 Walker _____ is the vertical and horizontal movement of the trade winds, which form a circular pattern Down 1 3 6 9 10 13 Changes in climate between years is an example of this changes from the normal or a base Imaginary line around the middle of the world. ____ Oscillation refers to the seesaw pattern of air pressure between the western and eastern Pacific Ocean. ____ winds cause the sea level to be higher in the western Pacific Ocean La Nina phase is sometimes known as this because of cooler than normal sea surface temperatures 24 ENSO Cross Word Puzzle Solution V WA L K E R R C L I M A T E A Q B C O U P L I A L T T H E I R O T A R W Y D T E L E C O J E T S T R E A M N O WA R M O E D L S I R M O C L I N E U S E A T H E R H C N N E C T I O N S R L C I R C U L A T I O N D 25 Other Effects of ENSO - Optional There is evidence of ENSO having an effect on the occurrence of forest fires, floods, and hurricanes, along with impacts on human health. But, what are these effects? As with ENSO, scientists are still learning about links between climate and other physical, biological, and human aspects. The following paragraphs provide brief explanations to how ENSO may affect these different aspects. Answer the following questions after reading the associated paragraphs. Forest Fires / Floods As you learned in the science module, ENSO impacts precipitation in various areas of the world. Changes in precipitation can lead to other changes in the environment. One such change is a change in the number of wildfires, both brush and forest fires. As you have learned previously, the different ENSO phases may cause some areas to be drier than normal. Decreased precipitation may lead to an increase in wildfires. For example, during some El Niño years, increased number and severity of forest fires have been reported in Indonesia (country northwest of Australia) and Australia. The most predominant year for forest fires in Indonesia was the El Nino of 1982 and 1983. The 1997- 1998 year also saw an increased number of forest fires. These years saw particularly strong El Niño phases. Similarly, increased precipitation associated with an ENSO phase in a particular area may cause an increase in flooding. But, not all years see an increase in fires or floods. 1. Why is there a greater risk of increased forest fires during an El Niño year in Australia? Australia has a higher chance of being dryer than normal 2. During what El Niño season were forest fires most predominant? 1982-1983 3. What country has suffered the most recently from the effects of forest fires associated with the El Niño phase? Indonesia 4. Why do some areas see an increased probability of flooding during an El Niño year? Increased probability of higher precipitation levels 26 Hurricanes Hurricanes (also known as tropical cyclones or typhoons depending on the area of the world they occur) need warm ocean water to develop. Hurricanes occur during all ENSO phases. However, changes in the warm pool of water cause by the different ENSO phase have implications for location and development of hurricanes. In the western Pacific Ocean, El Niño phases decreases tropical cyclone activity. This is expected as the warm pool of water moves eastward. Activity in the central and eastern Pacific increases during El Niño phase. Hurricane activity in the Atlantic basin is affected by ENSO through changes in the Atlantic atmospheric circulation. El Niño phases contribute to a decreased numbers of Atlantic tropical storms and hurricanes. La Niña phases generally have opposite conditions, increased storms in the western Pacific and Atlantic Oceans and decreased storms in the central and eastern Pacific Ocean. Bove et al. (http://www.aoml.noaa.gov/hrd/Landsea/elnino/) give the average number of U.S. Atlantic hurricanes during El Niño years is 1.04, 1.61 during neutral years, and 2.23 during La Niña. 5. Why does a La Niña event increase the risk for of a hurricane in Australia? The warm pool has moved closer to Australia, and warm water is needed for hurricanes to forms. 6. How does an El Niño event affect the number of hurricanes affecting the U.S.? Hint: consider both Atlantic and Pacific Oceans. El Niño warms the eastern tropical Pacific Ocean, which aids in the growth of hurricanes in the eastern Pacific, but it is associated with a lower number of hurricanes in the Atlantic Ocean. 7. How does a La Niña event affect the number of hurricanes affecting the U.S.? Hint: consider both Atlantic and Pacific Oceans. La Niña warms the western tropical Pacific Ocean, which lowers the growth of hurricanes in the eastern Pacific, but it is associated with a higher number of hurricanes in the Atlantic Ocean. 8. During an El Niño phase 1.04 hurricanes always hit the U.S. True or false and why? False. This is the average number and not the number for any given year 27 Human Health The World Health Association notes a pattern between the different ENSO events and outbreak of diseases. However, generalizing the relationship between disease outbreaks and ENSO events is not easy. Local health delivery systems affect the incident of diseases. In addition, local ecological conditions, along with humidity, timing of precipitation, and temperature changes, affect the transmission of diseases. To illustrate the complex relationship between ENSO and diseases consider the case of malaria. Malaria is a mosquito borne disease. In countries that are normally relatively warm with low precipitation levels (such as countries in southern Africa), an ENSO phase that increases precipitation may be associated with increased cases of malaria. This occurs because increased precipitation causes increases in standing water necessary for mosquitoes to reproduce. More mosquitoes mean a higher chance for disease outbreak. Increased precipitation leads to increased cases of malaria. In countries that are normally warm and have high precipitation levels (such as Venezuela, Columbia, and Sri Lanka), an ENSO phase that decreases precipitation may lead to an outbreak of malaria. Decreased precipitation may turn normal flowing rivers into stagnant ponds. These stagnant ponds provide the breeding grounds for the mosquitoes which flowing rivers could not provide. Here, decreased precipitation leads to increased cases of malaria. In addition to malaria, researchers have found approximately 21 infectious diseases that may have a relationship with ENSO. Other diseases that may have a relationship with ENSO events include Dengue, Australian Encephalitis, Rift Valley Fever, and valley fever. Much more research is necessary to understand the relationship between health and ENSO events. http://www.who.int/mediacentre/factsheets/fs192/en/ 9. Malaria is transmitted by what insect? Mosquito 10. Besides ENSO what other factors are important in determining if a disease outbreak occurs. Local ecological conditions, local health system, local humidity, precipitation and temperatures. 11. Countries that normally have high precipitation levels may see an increase in malaria during ENSO phases that bring decreased precipitation. Why? Decreased precipitation may cause rivers to run slower, thus creating pools that mosquitoes can live in. Increased mosquitoes mean a better chance for a disease outbreak. 12. Countries that normally have low precipitation levels may see an increase in malaria during ENSO phases that bring increased precipitation. Why? Increased precipitation may stagnant pools of water to form that mosquitoes can live in. Increased mosquitoes mean a better chance for a disease outbreak. 28 13. Optional Question: ENSO impacts other physical and biological phenomenon in addition to the ones discussed here. Write a short paragraph on other potential ENSO impacts by conducting web-based research. Suggested topics, but not limited to, are fish production in the eastern Pacific, western U.S. snow pack, tornados in the U.S., droughts in Australia, and salmon production in the U.S. and British Columbia. For additional information see Forest Fires http://ess.geology.ufl.edu/usra_esse/ENSO_Impacts.html http://iri.columbia.edu/climate/ENSO/societal/impact/methods/BasicQuestions.html Human Health http://image.thelancet.com/extras/02art5336web.pdf http://www.who.int/mediacentre/factsheets/fs192/en/ http://www.ispe.arizona.edu/climas/research/vf/background.html Hurricanes http://www.aoml.noaa.gov/hrd/Landsea/lanina/ http://www.aoml.noaa.gov/hrd/Landsea/elnino/ http://www.aoml.noaa.gov/hrd/tcfaq/G2.html Tornados http://www.spc.noaa.gov/publications/schaefer/el_nino.htm 29 Appendix A ENSO - Jigsaw Approach One method of teaching is the jigsaw approach. In this approach, students are placed into groups. Each group becomes the “expert” in a particular topic. After the groups have completed the expert materials, new groups are formed with an expert from each topic in the new group. An example for three topics is given in the figure below. Each box represents a group. In this setup, Claudia, Jose, and Fred become experts on trade winds, Seth, Cindy, and Lebron become experts on El Niño, and Ivan, Megan, and LeAnn are the La Niña experts. Each expert member then teaches their topic to students in the new group. For example, in new group 1, Claudia would teach trade winds, Seth El Niño, and Ivan La Niña. New groups 2 and 3 would be similar. In teaching the material in the new groups, each student in the class, finishes their ENSO Jigsaw Worksheet. Each expert material contains questions designed to provide the student the necessary knowledge to help fellow students complete the ENSO Jigsaw. The Jigsaw worksheet provides questions that summarize important concepts; as such the worksheet provides a review sheet for testing purposes. The jigsaw idea can be modified to fit your textbook. Trade Winds Claudia Jose Fred El Niño Seth Cindy Lebron La Niña Ivan Megan LeAnn New Group 1 Claudia Seth Ivan New Group 2 Jose Cindy Megan New Group 3 Fred Lebron LeAnn