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DO NOW: For life, what is the importance of…

DO NOW: For life, what is the importance of…. Carbon? Hydrogen? Nitrogen? Oxygen? Phosphorus? Sulfur?. VIDEO 1 – Water and Carbon. VIDEO 2 – N, P. For life, what is the importance of…. Carbon - is basis for ORGANIC materials. Hydrogen- water and energy transfer.

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DO NOW: For life, what is the importance of…

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  1. DO NOW:For life, what is the importance of… • Carbon? • Hydrogen? • Nitrogen? • Oxygen? • Phosphorus? • Sulfur? VIDEO 1 – Water and Carbon VIDEO 2 – N, P

  2. For life, what is the importance of… • Carbon - is basis for ORGANIC materials. • Hydrogen- water and energy transfer. • Nitrogen – amino acids / genetic material • Oxygen – water / cellular respiration • Phosphorus – ATP / energy transfer (adenosine triphosphate) • Sulfur – amino acids

  3. C.H.NOPS

  4. Nutrient Cycles • Cycling maintains homeostasis (balance) in the environment. • 4 cycles to investigate: • 1. Water cycle • 2. Carbon cycle • 3. Nitrogen cycle • 4. Phosphorus cycle

  5. BIO GEO CHEMICAL CYCLESCHEMICALS THAT CYCLE THROUGH LIFE AND EARTH.BOZEMAN VIDEO

  6. HW: ASSIGNMENT 1 KWL Vocab chart & Answer q’s on pages 23 & 27 – due tomorrow.

  7. RCC • What does CHNOPS stand for? What is the importance of each element? • What is homeostasis? • Chemical cycles that go through life and earth are called? • What are the 4 cycles we will be studying? Review 23-26

  8. WATER CYCLE • WHAT IS THE POINT OF THIS VIDEO?

  9. THE POINT IS WATER IS IMPORTANT TO CIVILIZATIONS • This is a review! • Write down the leading questions for each cycle. • Answer • Review the cycle • HW

  10. Leading Questions for each cycle… Since we are talking about nutrients moving from living to non living… for each cycle answer these questions: • Where are the nutrients stored? • How does it get into plants? • How does it get into animals? • How does it get back again?

  11. BIO GEO CHEMICAL CYCLESCHEMICALS THAT CYCLE THROUGH LIFE AND EARTH.

  12. Water cycle- • Evaporation, transpiration, condensation, precipitation, infiltration • Video 1

  13. Water cycle-

  14. Ogalalla Aquifer • Video

  15. WARM UP review of topics covered – use your notes to answer – • WHAT is the OGALLALA AQUIFER? • DESCRIBE what is it good for. • What is C.H. NOPS? • WHAT are each of the elements good for? • DRAW the hydrologic cycle. • LABEL the 5 parts. • What is the earth getting from space? • What is the earth sending to space? • Spell correctly the name of this class. • Is an AQUIFER a(n) : Pick one Exchange pool OR Reservoir?

  16. Warm Up 1. What type of COAL is found in SWPA? 2. What type of COAL is found in central PA? 3. What type of environment was here 350- 240 million years ago? 4. What is the main difference in the types of coal? 5. Limestone is calcium carbonate, where did it come from? 6. Crude Oil is carbon, where did it come from? 7. What is the equation for photosynthesis? 8. What is the equation for cellular respiration? 9. Explain what a carbon sink is. 10. Explain how coal and diamonds are related.

  17. Carbon Cycle • The SHORT TERM and LONG TERM carbon cycle transfer carbon through life and earth.

  18. RCC • What is the equation for photosynthesis? • What is the equation for cellular respiration?

  19. COMPREHENSION CHECK • What is the equation for PHOTOSYTHESIS? 6CO2 + 6H2O C6H12O6 + 6O2 • WHAT is the equation for Cellular Respiration? 6CO2 + 6H2O C6H12O6 + 6O2 • What is the connection between the two? Cellular respiration is photosynthesis BACKWARDS • What is the TYPE of Coal found in SWPA? BITUMINOUS • What SEAM is it from (name) Pittsburgh Seam

  20. PHOTOSYNTHESIS • Photosynthesis – Photosynthesis is the process used by plants containing green chlorophyll to utilize sunlight, carbon dioxide and water to form sugar (as glucose) and oxygen. • Sunlight Carbon + Water Glucose + Oxygen Dioxide (Sugar) 6CO2 + 6H2O C6H12O6 + 6O2 + Energy

  21. Cellular Respiration • Cellular Respiration is the process that most living organisms use to obtain energy from glucose (sugar), Oxygen. The wastes formed are carbon dioxide and water. • Photosynthesis BACKWARDS C6H12O6 + 6O2 6CO2 + 6H2O + (Energy) Glucose + Oxygen makes Carbon Dioxide+ Water + E

  22. adenosine triphosphate (ATP) • Many cells (including our own) are capable of generating adenosine triphosphate (ATP) using pathways that either rely upon oxygen (aerobic) or do not rely upon oxygen (anaerobic). • ATP is the form of energy which cells will use to synthesize those molecules needed to keep the cell alive

  23. SHORT TERM Carbon Cycle • producers convert CO2 into carbohydrates by photosynthesis • consumers get the carbon by eating the plants, during cellular respiration some goes back in to the atmosphere as CO2. • Carbon is stored in plants and animals and when they die get returned to the earth.

  24. COMPREHENSION CHECK • What is the equation for PHOTOSYTHESIS? 6CO2 + 6H2O C6H12O6 + 6O2 • WHAT is the equation for Cellular Respiration? C6H12O6 + 6O2 6CO2 + 6H2O • What is the connection between the two? Cellular respiration is photosynthesis BACKWARDS • What is the TYPE of Coal found in SWPA? BITUMINOUS • What SEAM is it from (name) Pittsburgh Seam

  25. Carbon cycle-

  26. RCC 1. What type of coal is found in SWPA? 2. What is the equation for photosynthesis? 3. What is the equation for respiration? 4. What type of environment was here 350- 240 million years ago? 5. _______ is the process used by_______ containing green chlorophyll to utilize sunlight, carbon dioxide and _____to form sugar (as glucose) and oxygen.

  27. Comprehension Check • What type of COAL is found in SWPA? • What type of COAL is found in central PA? • What type of environment was here 350- 240 million years ago? • What is the difference in the types of coal? • Limestone is calcium carbonate, where did it come from? • Crude Oil is carbon, where did it come from?

  28. Carbon Cycle • Long Term = fossil fuels are carbon, when they are burned (combustion) for energy CO2 is abyproduct that goes into the atmos. *Forests and oceans are main carbon sinks or carbon reservoirs that accumulate and store carbon. * Carbon is also in limestone CaCO3although this carbon is derived from shells and bone carbon.

  29. VIDEOs • 1 • Nat Geo 1Explained

  30. video

  31. HW • Complete Review page • Read pages 28-29 and do the review questions in the packets.

  32. Warm Up 1. What type of COAL is found in SWPA? 2. What type of COAL is found in central PA? 3. What type of environment was here 350- 240 million years ago? 4. What is the main difference in the types of coal? 5. Limestone is calcium carbonate, where did it come from? 6. Crude Oil is carbon, where did it come from? 7. What is the equation for photosynthesis? 8. What is the equation for cellular respiration? 9. Explain what a carbon sink is. 10. Explain how coal and diamonds are related.

  33. COAL in PA • BITUMINOUS • PITTSBURGH SEAM • ANTHRACITE FOUND IN CENTRAL PA • OTHER COAL TYPES INCLUDES PEAT AND LIGNITE

  34. VIDEOs • 1 • Nat Geo 1Explained

  35. Leading Questions for each cycle… Since we are talking about nutrients moving from living to non living… for each cycle answer these questions: • Where are the nutrients stored? • How does it get into plants? • How does it get into animals? • How does it get back again?

  36. Nitrogen cycle- Atmospheric nitrogen (N2) makes up nearly 78%-80% of air. Organisms can not use it in that form. Lightning and bacteria convert nitrogen into usable forms.

  37. Nitrogen fixation-convert atmospheric nitrogen (N2) into ammonium (NH4+) , N2 NH4+ and then more bacteria use NITRIFICATION to turn it to nitrates and nitrites which can be used to make organic compounds like amino acids.

  38. Nitrogen Cycle • 78% of the atmosphere is FREE N (NITROGEN ) an unusable form (N2). Plants and animals need N, but in useable compound form. • LEGUMES are plants that help convert the N.

  39. LEGUMES • Soybeans, peanuts, lillies, beans • Have NODULES on the roots that house N fixing bacteria. • The bacteria “fix” the N so that it can used (absorbed) by the plant. • What kind of relationship is between the bacteria and the legume?

  40. Nitrogen cycle- Nitrogen-fixing bacteria: Some live in a symbiotic relationship - MUTUALISM with plants of the legume family (e.g., soybeans, clover, peanuts).

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