1.

    Certain halophytes can tolerate high salinity by accumulating ions like Na+Na^+ and Clβˆ’Cl^- in their vacuoles. Which membrane transport protein is MOST directly involved in this process?

    A

    Plasma membrane H+H^+-ATPase

    B

    Tonoplast Na+/H+Na^+/H^+ antiporter

    C

    Plasma membrane K+K^+ channel

    D

    Tonoplast aquaporin

    Question Tags
    πŸ“š Subject:Botany
    πŸ“‘ Chapter:Mineral Nutrition
    🎯Topic:Ion Uptake
    πŸŽ“ Ncert Level:Application
    🎯Difficulty :Hard
    ⚑ Time Required :2 mins
    πŸ”„Ncert Concepts :Halophytes, Ion uptake, Vacuole, Tonoplast, Antiporter

    Related Questions

    1.

    A plant exposed to high levels of aluminum in the soil exhibits stunted root growth. Which of the following mechanisms is the MOST likely cause of this effect?

    A

    Aluminum directly inhibits photosynthesis, reducing energy available for root growth.

    B

    Aluminum competes with potassium for uptake, leading to potassium deficiency in roots.

    C

    Aluminum interferes with the function of calcium channels and disrupts cell wall formation.

    D

    Aluminum stimulates excessive ethylene production, inhibiting root elongation.

    Question Tags
    πŸ“š Subject:Botany
    πŸ“‘ Chapter:Mineral Nutrition
    🎯Topic:Ion Uptake
    πŸŽ“ Ncert Level:Analyzing
    🎯Difficulty :Hard
    ⚑ Time Required :2 mins
    πŸ”„Ncert Concepts :Aluminum toxicity, Root growth, Calcium channels, Cell wall

    2.

    Iron deficiency in plants often leads to interveinal chlorosis. Considering the role of iron in electron transport and chlorophyll synthesis, which statement BEST explains this observation?

    A

    Iron is a key component of the electron transport chain, and its deficiency disrupts energy production needed for chlorophyll synthesis in the interveinal areas.

    B

    Iron is essential for chlorophyll synthesis, and its deficiency leads to reduced chlorophyll production, primarily in the interveinal areas.

    C

    Iron deficiency primarily affects the vascular tissue of the leaves, leading to reduced chlorophyll transport to the interveinal areas.

    D

    Iron deficiency enhances chlorophyll degradation in the interveinal areas, leading to chlorosis.

    Question Tags
    πŸ“š Subject:Botany
    πŸ“‘ Chapter:Mineral Nutrition
    🎯Topic:Ion Uptake
    πŸŽ“ Ncert Level:Analyzing
    🎯Difficulty :Hard
    ⚑ Time Required :2 mins
    πŸ”„Ncert Concepts :Iron deficiency, Chlorosis, Chlorophyll synthesis, Nutrient mobility

    3.

    A researcher is studying ion uptake in plant roots using radioactive tracers. They observe that metabolic inhibitors significantly reduce the uptake of potassium ions, but not the uptake of chloride ions. What can be inferred about the uptake mechanisms of these two ions?

    A

    Potassium uptake is primarily active, while chloride uptake may be passive or facilitated.

    B

    Both potassium and chloride uptake are primarily active processes.

    C

    Both potassium and chloride uptake are primarily passive processes.

    D

    Chloride uptake is primarily active, while potassium uptake may be passive or facilitated.

    Question Tags
    πŸ“š Subject:Botany
    πŸ“‘ Chapter:Mineral Nutrition
    🎯Topic:Ion Uptake
    πŸŽ“ Ncert Level:Analyzing
    🎯Difficulty :Hard
    ⚑ Time Required :2 mins
    πŸ”„Ncert Concepts :Ion uptake, Active transport, Passive transport, Facilitated diffusion, Metabolic inhibitors

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