Micronutrient deficiency or dietary deficiency is not enough of one or more of the micronutrients required for optimal plant or animal health. In humans and other animals they include both vitamin deficiencies and mineral deficiencies, whereas in plants the term refers to deficiencies of essential trace minerals.
|The skin rash of pellagra, due to not enough niacin.|
Micronutrient deficiencies affect more than two billion people of all ages in both developing and industrialized countries. They are the cause of some diseases, exacerbate others and are recognized as having an important impact on worldwide health. Important micronutrients include iodine, iron, zinc, calcium, selenium, fluorine, and vitamins A, B6, B12, B1, B2, B3, and C.
Micronutrient deficiencies are associated with 10% of all children's deaths, and are therefore of special concern to those involved with child welfare. Deficiencies of essential vitamins or minerals such as Vitamin A, iron, and zinc may be caused by long-term shortages of nutritious food or by infections such as intestinal worms. They may also be caused or exacerbated when illnesses (such as diarrhoea or malaria) cause rapid loss of nutrients through feces or vomit.
In plants a micronutrient deficiency (or trace mineral deficiency) is a physiological plant disorder which occurs when a micronutrient is deficient in the soil in which a plant grows. Micronutrients are distinguished from macronutrients (nitrogen, phosphorus, sulfur, potassium, calcium and magnesium) by the relatively low quantities needed by the plant.
A number of elements are known to be needed in these small amounts for proper plant growth and development. Nutrient deficiencies in these areas can adversely affect plant growth and development. Some of the best known trace mineral deficiencies include: zinc deficiency, boron deficiency, iron deficiency, and manganese deficiency.
- Boron is believed to be involved in carbohydrate transport in plants; it also assists in metabolic regulation. Boron deficiency will often result in bud dieback.
- Chlorine is necessary for osmosis and ionic balance; it also plays a role in photosynthesis.
- Copper is a component of some enzymes and of vitamin A. Symptoms of copper deficiency include browning of leaf tips and chlorosis.
- Iron is essential for chlorophyll synthesis, which is why an iron deficiency results in chlorosis.
- Manganese activates some important enzymes involved in chlorophyll formation. Manganese deficient plants will develop chlorosis between the veins of its leaves. The availability of manganese is partially dependent on soil pH.
- Molybdenum is essential to plant health. Molybdenum is used by plants to reduce nitrates into usable forms. Some plants use it for nitrogen fixation, thus it may need to be added to some soils before seeding legumes.
- Nickel is essential for activation of urease, an enzyme involved with nitrogen metabolism that is required to process urea.
- Zinc participates in chlorophyll formation, and also activates many enzymes. Symptoms of zinc deficiency include chlorosis and stunted growth.
- Young, E.M. (2012). Food and development. Abingdon, Oxon: Routledge. p. 38. ISBN 9781135999414.
- Theodore H Tulchinsky (2010). "Micronutrient Defi ciency Conditions: Global Health Issues". BioMed Central (Springer). Archived from the original on 28 April 2019. Retrieved 12 August 2019.
- Nutrition in the first 1,000 days: State of the world's mothers 2012 (PDF). Westport, CT: Save the Children. 2012. p. 16. ISBN 1-888393-24-6. Archived from the original (PDF) on 23 May 2012. Retrieved 23 June 2016.
- "Archived copy" (PDF). Archived from the original (PDF) on 2012-05-23. Retrieved 2013-04-05.CS1 maint: Archived copy as title (link)
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- *Mortvedt, John J. (31 August 1999). "Chapter 2: Bioavailability of Micronutrients". In Malcolm E. Sumner (ed.). Handbook of Soil Science. CRC Press. ISBN 978-0-8493-3136-7.
- A Companion to Plant Physiology, Fourth Edition. Wade Berry, UCLA. Topic 5.1 Symptoms of Deficiency In Essential Minerals. Sinauer Publishing.
- Marschner, Petra, ed. (2012). Marschner's mineral nutrition of higher plants (3rd ed.). Amsterdam: Elsevier/Academic Press. p. 191. ISBN 9780123849052.