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Plant Physiology, Development and Metabolism pp 37–81Cite as

Plant Mineral Nutrition

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Abstract

Elements mainly derived from soil in inorganic form are known as mineral elements. The three main sources of nutrients for plants are air, water, and soil. Elements obtained from air are known as non-mineral elements, such as carbon, oxygen, and hydrogen. Irrigation water is also a source of mineral elements from dissolved salts, mainly NaCl, Na2SO4, NaHCO3, MgSO4, CaSO4, CaCl2, KCl, and K2SO4. The third environmental source of nutrition for autotrophic plants is soil. Figure 2.1 shows the relative distribution of various elements in the earth’s crust, most of which are required for plant growth. Of these, oxygen constitutes about 46.5%, copper being 0.01%, and zinc, nickel, and selenium are present in traces. The relative percentage of some of the well-known macronutrients required for plant growth (calcium, potassium, magnesium, and phosphorus) is in the range of 3.6–0.12%. Phosphorus is the least abundant among the four elements. Among macroelements, nitrogen is the most abundant (44%) followed by potassium, calcium, magnesium, phosphorus, and sulfur. Iron is the most abundant (51%) microelement followed by manganese, boron, zinc, and copper. Mineral elements are essentially used in the synthesis of a variety of important organic compounds. They also play a variety of roles as ions or as components of inorganic compounds (Table 2.1). Mineral nutrients continually cycle through all living organisms. However, they enter biosphere primarily through the roots. Elemental composition of plants reflects the composition of soil. In soil, more than 60 elements are present, but not all are absorbed by the plants. At the same time, many of the ions absorbed by the plants remain in ionic state inside the cells for an indefinite period. Many of these ions are incorporated either into the structure of more complex molecules, such as storage proteins, calcium oxalate, glycosides, etc., or into the protoplasm or cell walls. Some mineral elements are utilized in one organ of a plant and get subsequently released by disintegration of cellular constituents. These are further translocated to other organs of the plant for reutilization. Redistribution of minerals which have accumulated in cells but have not been actually utilized is also common in plants. Plants have the ability to accumulate essential elements and exclude nonessential elements. Some minerals are required in minute quantities, e.g., plant requires 60 million times less molybdenum than hydrogen (Box 2.1). Such minute quantities could not be detected by the crude methods which were used earlier. In addition to seven ash elements (the incombustible fraction of plant tissue), all elements which are required in large quantity (except for iron) are now known as macronutrients. There is another group of minerals, the micronutrients, needed in only minute quantities. It includes molybdenum, copper, zinc, manganese, boron, chlorine, and nickel.

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Suggested Further Readings

  • Delhaize E, Schachtman D, Kochian L, Ryan PR (2015) Mineral nutrient acquisition, transport and utilization. In: Buchanan BB, Gruissem W, Jones RL (eds) Biochemistry and molecular biology of plants. Wiley Blackwell, Chichester, pp 1101–1131

    Google Scholar 

  • Jones RL, Ougham H, Thomas H, Waaland S (2013) The molecular life of plants. Wiley-Blackwell, Chichester, pp 455–503

    Google Scholar 

  • Taiz L, Zeiger E (2010) Plant physiology, 5th edn. Sinauer Associates Inc, Sunderland, pp 107–126

    Google Scholar 

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Author information

Authors and Affiliations

  1. Department of Botany, University of Delhi, New Delhi, Delhi, India

    Renu Kathpalia & Satish C Bhatla

Authors
  1. Renu Kathpalia
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  2. Satish C Bhatla
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Multiple-Choice Questions

Multiple-Choice Questions

  1. 1.

    Which element plays an important role in pollen germination?

    1. (a)

      Potassium

    2. (b)

      Magnesium

    3. (c)

      Zinc

    4. (d)

      Boron

  2. 2.

    Which of the following elements is immobile in plants relative to all others listed below?

    1. (a)

      Magnesium

    2. (b)

      Potassium

    3. (c)

      Calcium

    4. (d)

      Nitrogen

  3. 3.

    Which of the following cannot be considered as a criterion for essentiality of an element for plants?

    1. (a)

      Element must be an essential for normal growth and reproduction.

    2. (b)

      Element must be easily absorbed by plant roots.

    3. (c)

      Specificity for element’s role in plant growth and development.

    4. (d)

      Element’s direct involvement in plant metabolism.

  4. 4.

    Senescing leaves export much of their mineral content to the younger, healthy leaves. Element most mobilized is:

    1. (a)

      Calcium

    2. (b)

      Sodium

    3. (c)

      Sulfur

    4. (d)

      Magnesium

  5. 5.

    The macronutrients potassium, calcium, and magnesium are the examples of:

    1. (a)

      Metallic essential elements

    2. (b)

      Nonmetallic essential elements

    3. (c)

      Nonmetallic nonessential elements

    4. (d)

      Metallic nonessential elements

  6. 6.

    Which of the following element is required in least quantity?

    1. (a)

      Zn

    2. (b)

      Mn

    3. (c)

      Mo

    4. (d)

      Co

  7. 7.

    Which of the following element is a constituent of biotin and coenzyme A?

    1. (a)

      Copper

    2. (b)

      Molybdenum

    3. (c)

      Sulfur

    4. (d)

      Iron

  8. 8.

    An element is considered essential if it:

    1. (a)

      Is found in plant ash

    2. (b)

      Induces flowering

    3. (c)

      Is present in the soil where the plant is growing

    4. (d)

      Is not replaceable and is indispensable for the growth of the plant

  9. 9.

    Which of the following mineral nutrients is not involved in redox reactions in plant cells?

    1. (a)

      Iron

    2. (b)

      Zinc

    3. (c)

      Copper

    4. (d)

      Sodium

  10. 10.

    The photosynthetic and mitochondrial transports are affected by which of the following three elements?

    1. (a)

      Cu, Mn, and Fe

    2. (b)

      Co, Mn, and Fe

    3. (c)

      Cu, Mg, and Cl

    4. (d)

      Zn, Cu, and Fe

Answers

1. d

2. c

3. b

4. c

5. b

6. c

7. c

8. d

9. d

10. a

    

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Kathpalia, R., Bhatla, S.C. (2018). Plant Mineral Nutrition. In: Plant Physiology, Development and Metabolism. Springer, Singapore. https://doi.org/10.1007/978-981-13-2023-1_2

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