Plant nutrition

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    Created by
    Shanne Teh

    Cards (34)

    • Photosynthesis
      The process by which plants manufacture carbohydrates from raw materials using energy from light
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    • Photosynthesis
      Carbon dioxide + Water → Glucose + Oxygen
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    • Chlorophyll
      A green pigment found in chloroplasts within plant cells that absorbs light energy and transfers it into energy in chemicals for the synthesis of carbohydrates
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    • Uses of carbohydrates produced by photosynthesis
      • Converted into starch for energy storage
      • Converted into cellulose to build cell walls
      • Used in respiration to provide energy
      • Converted to sucrose for transport
      • Used as nectar to attract insects for pollination
      • Converted into lipids and amino acids
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    • Minerals in plants
      • Plants obtain mineral ions from the soil to make substances like proteins, lipids and nucleic acids that they cannot obtain by eating
      • Mineral deficiencies can prevent proper growth and photosynthesis
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    • Testing for chlorophyll, light and carbon dioxide
      1. Destarching plant
      2. Covering leaf with foil/chemical to block chlorophyll/light/CO2
      3. Exposing plant to light/CO2
      4. Testing leaf for starch with iodine
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    • Investigating rate of photosynthesis
      1. Using pondweed
      2. Counting oxygen bubbles released
      3. Measuring volume of oxygen collected
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    • Changing light intensity
      Affects rate of photosynthesis
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    • Changing temperature
      Affects rate of photosynthesis
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    • Changing carbon dioxide concentration
      Affects rate of photosynthesis
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    • Care must be taken to keep other variables constant when investigating one condition
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    • Investigating the effect of changing temperature on the rate of photosynthesis
      Dissolving different amounts of sodium hydrogen carbonate in the water in the beaker
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    • Investigating the effect of changing carbon dioxide concentration on the rate of photosynthesis
      Dissolving different amounts of sodium hydrogen carbonate in the water in the beaker
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    • Care must be taken when investigating a condition to keep all other variables constant in order to ensure a fair test
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    • Investigating changing light intensity
      Place a glass tank in between the lamp and the beaker to absorb heat from the lamp and so avoid changing the temperature of the water as well as the light intensity
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    • Alternative ways of measuring the gas (oxygen) given off in these experiments

      • Measure the volume of gas produced using an inverted measuring cylinder with graduations filled with water that readings can be taken from as the water is displaced by the gas
      • Use a syringe attached by a delivery tube to the funnel
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    • Plants are respiring all the time and so plant cells are taking in oxygen and releasing carbon dioxide as a result of aerobic respiration
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    • Plants also photosynthesise during daylight hours, for which they need to take in carbon dioxide and release the oxygen made in photosynthesis
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    • At night, plants do not photosynthesise but they continue to respire, meaning they take in oxygen and give out carbon dioxide
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    • During the day, especially when the sun is bright, plants are photosynthesising at a faster rate than they are respiring, so there is a net intake of carbon dioxide and a net output of oxygen
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    • Investigating the effect of light on the net gas exchange in an aquatic plant using a pH indicator such as hydrogencarbonate indicator
      1. Place several leaves from the same plant in stoppered boiling tubes containing some hydrogencarbonate indicator
      2. Investigate the effect of light over a period of a few hours
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    • Hydrogencarbonate indicator

      Shows the carbon dioxide concentration in solution
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    • The photosynthesis equation is the exact reverse of the aerobic respiration equation
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    • Limiting factor
      Something present in the environment in such short supply that it restricts life processes
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    • Main factors which limit the rate of photosynthesis
      • Temperature
      • Light intensity
      • Carbon dioxide concentration
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    • Water is not considered a limiting factor as the amount needed is relatively small compared to the amount of water transpired from a plant so there is hardly ever a situation where there is not enough water for photosynthesis
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    • As temperature increases
      The rate of photosynthesis increases as the reaction is controlled by enzymes
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    • As temperature increases beyond a certain point
      The rate of photosynthesis decreases as the enzymes begin to denature
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    • As light intensity increases
      The rate of photosynthesis increases
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    • As carbon dioxide concentration increases
      The rate of photosynthesis increases
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    • The factors which could be limiting the rate when the line on the graph is horizontal include temperature not being high enough or not enough carbon dioxide
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    • The factors which could be limiting the rate when the line on the graph is horizontal include temperature not being high enough or not enough light
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    • Leaf structures to be identified in a dicotyledonous plant
      • Chloroplasts
      • Cuticle
      • Guard cells
      • Stomata
      • Upper and lower epidermis
      • Palisade mesophyll
      • Spongy mesophyll
      • Air spaces
      • Vascular bundles (xylem and phloem)
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    • Pathway of carbon dioxide from the atmosphere to chloroplasts by diffusion: atmosphere → air spaces around spongy mesophyll tissue → leaf mesophyll cells → chloroplast
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