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Water and the Fitness of the Environment
Chapter 3 Water and the Fitness of the Environment
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Hydrogen bond H O H – + – + – + – + —— ——
Fig Why can the 4 outer water molecules bond with the center water molecule? – Hydrogen bond + H —— O – + —— H – + Figure 3.2 Hydrogen bonds between water molecules – +
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Adhesion Water-conducting cells Cohesion 150 µm
Fig Describe the role of adhesion and cohesion in the movement of water up a tree. Adhesion Water-conducting cells Direction of water movement Cohesion Figure 3.3 Water transport in plants 150 µm
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Fig. 3-4 What allows the water strider to walk on water?
Figure 3.4 Walking on water
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San Bernardino Burbank Santa Barbara 73° 100° 90° Riverside 96°
Fig How does a large body of water effect local climate? San Bernardino 100° Burbank 90° Santa Barbara 73° Riverside 96° Los Angeles (Airport) 75° Santa Ana 84° Palm Springs 106° 70s (°F) 80s Pacific Ocean 90s 100s Figure 3.5 The effect of a large body of water on climate San Diego 72° 40 miles
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Hydrogen bonds are stable Hydrogen bonds break and re-form
Fig If water did not form hydrogen bonds, what would happen to the shrimp’s environment? Hydrogen bond Ice Hydrogen bonds are stable Figure 3.6 Ice: crystalline structure and floating barrier Liquid water Hydrogen bonds break and re-form
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– – – – – – – – – – – + + + + + + + + + + Na Na Cl– Cl–
Fig What would happen if you heated this solution for a long time? – Na + + + – – + – – Na + – + + Cl– Cl– + – – + – + – Figure 3.7 Table salt dissolving in water –
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(b) Lysozyme molecule (purple) in an aqueous environment
Fig. 3-8bc What properties can make even large proteins dissolvable in water? Figure 3.8 A water-soluble protein (b) Lysozyme molecule (purple) in an aqueous environment (c) Ionic and polar regions on the protein’s surface attract water molecules.
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2H2O Hydronium ion (H3O+) Hydroxide ion (OH–)
Fig. 3-By convention, what is hydronium ion represents as? H H O O O H O H H H H H 2H2O Hydronium ion (H3O+) Hydroxide ion (OH–)
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Fig. 3-9 What is the change in [H+] when moving from pH 4 to pH 9?
pH Scale 1 Battery acid Gastric juice, lemon juice 2 H+ H+ H+ H+ OH– 3 Vinegar, beer, wine, cola OH– H+ H+ Increasingly Acidic [H+] > [OH–] H+ H+ 4 Acidic solution Tomato juice Black coffee 5 Rainwater 6 Urine OH– Saliva OH– Neutral [H+] = [OH–] H+ H+ OH– 7 Pure water OH– OH– H+ Human blood, tears H+ H+ 8 Seawater Neutral solution 9 Figure 3.9 The pH scale and pH values of some aqueous solutions 10 Increasingly Basic [H+] < [OH–] Milk of magnesia OH– OH– 11 OH– H+ OH– OH– Household ammonia OH– H+ OH– 12 Basic solution Household bleach 13 Oven cleaner 14
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More acidic 1 2 3 Acid rain Acid rain 4 5 Normal rain 6 7 8 9 10 11 12
Fig How can acid rain affect living systems? More acidic 1 2 3 Acid rain Acid rain 4 5 Normal rain 6 7 8 9 10 Figure 3.10 Acid precipitation and its effects on a forest 11 12 13 More basic 14
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[CO32–] (µmol/kg) 40 Calcification rate (mmol CaCO3 per m2 per day) 20
Fig. 3-11b Given that the following reaction represents calcification, predict how the calcium would affect the results and explain why. RESULTS 40 Calcification rate (mmol CaCO3 per m2 per day) 20 Figure 3.11 What is the effect of carbonate ion concentration on coral reef calcification? 150 200 250 300 [CO32–] (µmol/kg)
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