5.4 Nutrient cycles

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Created by
Lillie

Cards (16)

  • Explain the role of saprobionts in recycling chemical elements
    Decompose (break down) organic compounds eg. proteins / urea / DNA in dead matter / organic waste
    ● By secreting enzymes for extracellular digestion (saprobiotic nutrition)
    ● Absorb soluble needed nutrients and release minerals ions eg. phosphate ions
  • Explain the role of mycorrhizae
    Mycorrhizae = symbiotic association between fungi and plant roots
    ● Fungi (hyphae) act as an extension of plant roots to increase surface area of root system
    ● To increase rate of uptake / absorption of water and inorganic ions
    ● In return, fungi receive organic compounds eg. carbohydrates
  • Give examples of biological molecules that contain nitrogen
    Amino acids / proteins or enzymes / urea / DNA or RNA / chlorophyll / ATP or ADP / NAD or NADP
  • Nitrogen cycle:
    A) nitrogen gas
    B) nitrogen fixation (nitrogen fixing bacteria)
    C) denitrification (denitrifying bacteria)
    D) nitrate
    E) nitrification (nitrifying bacteria)
    F) ammonia
    G) ammonium
    H) ammonification (saprobionts)
  • Describe the role of bacteria in nitrogen fixation
    Nitrogen gas (N2) converted into ammonia (NH3), which forms ammonium ions (NH4+) in soil
    ● By nitrogen-fixing bacteria (may be found in root nodules)
  • Describe the role of bacteria in ammonification
    Nitrogen-containing compounds eg. proteins / urea from dead
    organisms / waste are broken down / decomposed
    ● Converted to ammonia, which forms ammonium ions in soil
    ● By saprobionts - secrete enzymes for extracellular digestion
  • Describe the role of bacteria in nitrification
    Ammonium ions in soil converted into nitrites then nitrates, via a two-step oxidation reaction
    ○ For uptake by plant root hair cells by active transport
    ● By nitrifying bacteria in aerobic conditions (oxygen)
  • Describe the role of bacteria in denitrification
    Nitrates in soil converted into nitrogen gas (reduction)
    ● By denitrifying bacteria in anaerobic conditions (no oxygen, eg. waterlogged soil)
  • Suggest why ploughing (aerating) soil increases its fertility
    ● More ammonium converted into nitrite and nitrate / more nitrification / more (active) nitrifying bacteria
    ● Less nitrate converted to nitrogen gas / less denitrification / fewer (active) denitrifying bacteria
  • Give examples of biological molecules that contain phosphorus
    Phospholipids / DNA or RNA / ATP or ADP / NADP / TP or GP / RuBP
  • Describe the phosphorus cycle
    1. Phosphate ions in rocks released (into soils / oceans) by erosion / weathering
    2. Phosphate ions taken up by producers / plants / algae and incorporated into their biomass
    ○ Rate of absorption increased by mycorrhizae
    3. Phosphate ions transferred through food chain eg. as herbivores eat producers
    4. Some phosphate ions lost from animals in waste products (excretion)
    5. Saprobionts decompose organic compounds eg. DNA in dead matter / organic waste,
    releasing phosphate ions
  • Explain why fertilisers are used
    ● To replace nitrates / phosphates lost when plants are harvested and livestock are removed
    ○ Those removed from soil and incorporated into biomass can’t be released back into the
    soil through decomposition by saprobionts
    ● So improve efficiency of energy transfer → increase productivity / yield
  • Describe the difference between artificial and natural fertilisers
    Natural ● Organic, eg. manure, compost, sewage
    Ions released during decomposition by saprobionts
    Artificial Contain inorganic compounds of nitrogen, phosphorus and potassium
  • Explain the key environmental issue arising from use of fertilisers
    ● Phosphates / nitrates dissolve in water, leading to leaching of nutrients into lakes / rivers / oceans
    ● This leads to eutrophication
    1. Rapid growth of algae in pond / river (algal bloom) so light blocked
    2. So submerged plants die as they cannot photosynthesise
    3. So saprobionts decompose dead plant matter, using oxygen in aerobic respiration
    4. So less oxygen for fish to aerobically respire, leading to their death
  • Explain the key advantage of using natural fertiliser over artificial fertiliser
    Less water soluble so less leachingeutrophication less likely
    Organic molecules require breaking down by saprobiontsslow release of nitrate / phosphate etc.
  • loss of nutrients into lake malawi has resulted in a decrease in some fish populations
    • algae/surface plants block light
    • reduced photosynthesis so submerged plants die
    • saprobiotic aerobically respire
    • less oxygen for fish to respire