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Root hair

February 16, 2024

Root hair, or absorbent hairs, are outgrowths of epidermal cells, specialized cells at the tip of a plant root. They are lateral extensions of a single cell and are only rarely branched. They are found in the region of maturation, of the root. Root hair cells improve plant water absorption by increasing root surface area to volume ratio which allows the root hair cell to take in more water. The large vacuole inside root hair cells makes this intake much more efficient. Root hairs are also important for nutrient uptake as they are main interface between plants and mycorrhizal fungi.

Root tip, showing young root hairs

Function edit

The function of all root hairs is to collect water and mineral nutrients in the soil to be sent throughout the plant. In roots, most water absorption happens through the root hairs. The length of root hairs allows them to penetrate between soil particles and prevents harmful bacterial organisms from entering the plant through the xylem vessels.[1] Increasing the surface area of these hairs makes plants more efficient in absorbing nutrients and interacting with microbes.[2] As root hair cells do not carry out photosynthesis, they do not contain chloroplasts.

Importance edit

Root hairs form an important surface as they are needed to absorb most of the water and nutrients needed for the plant. They are also directly involved in the formation of root nodules in legume plants. The root hairs curl around the bacteria, which allows for the formation of an infection thread into the dividing cortical cells to form the nodule.[3]

Having a large surface area, the active uptake of water and minerals through root hairs is highly efficient. Root hair cells also secrete acids (e.g., malic and citric acid), which solubilize minerals by changing their oxidation state, making the ions easier to absorb.[4]

Formation edit

Root hair cells vary between 15 and 17 micrometers in diameter, and 80 and 1,500 micrometers in length.[5] Root hairs are found only in the zone of maturation, also called the zone of differentiation.[6] They are not found in the zone of elongation, possibly because older root hairs are sheared off as the root elongates and moves through the soil.[7] Root hairs grow quickly, at least 1 μm/min, making them particularly useful for research on cell expansion.[8] Just prior to and during root hair cell development, there is elevated phosphorylase activity.[9]

Fungal interaction edit

Root hairs are essential for healthy plant nutrition, especially through their interactions with symbiotic fungi. Symbiotic fungi and root hairs produce mycorrhizal symbioses like arbuscular mycorrhiza, formed by AM fungi, and ectomycorrhiza, formed by EM fungi.[10] These are very common,[11] occurring in 90% of terrestrial plant species,[12] because of the benefits it brings to both the fungus and plant.

Formation of this relationship for EM fungi begins with the colonization of the root hairs. This process begins when the EM fungus adheres to the root hair from the soil.[13] The fungus then secretes diffusible factors, to which root hairs are highly sensitive, allowing the hyphae to penetrate into the epidermal cells and create a Hartig net in the first layers of the root cortex.[13] This highly branched structure serves as an interface between the two organisms as fungal cells adapt to the exchanges that occur between the plant and fungus.[14] This process is similar to how AM fungi colonize root hairs, but instead of diffusible factors, they secrete hydrolases to relax the cell wall, which allows hyphae to enter, and there is no Hartig net.[13]

Various effects of fungal colonization in root hairs show that this relationship is beneficial to both plant and fungal species, but the main effect is on root hair growth. Fungi actually affect the growth of root hairs if there is water or nutrient deficiency.[13] Since both of these organisms require nutrients and water, their cooperation is essential to their mutual survival. Upon detection of deficiency, the drought stress response of the plant is triggered, causing growth of the root hairs.[12] The mycorrhizae of the fungus then uses its extended system to help the plant find the correct area of nutrition, signaling the direction in which the roots should grow.[13] This makes root growth more efficient, preserving energy for other metabolic processes, which in turn benefits the fungus that feeds off those metabolic products.

Survival edit

When a new root hair cell grows, it excretes a hormone that inhibits the growth of root hairs in nearby cells. This ensures equal and efficient distribution of the actual hairs on these cells.[citation needed]

Repotting or transplanting a plant can result in root hair cells being pulled off, perhaps to a significant extent, which can cause wilting.[citation needed]

See also edit

References edit

  1. ^ "Water Balance in Plants". The Wonder of Science. Retrieved 2021-11-16.
  2. ^ Grierson, C.; Schiefelbein, J. (2002). "Root Hairs". The Arabidopsis Book. 1: e0060. doi:10.1199/tab.0060. PMC 3243358. PMID 22303213.
  3. ^ Mergaert, Peter; Uchiumi, Toshiki; Alunni, Benoît; Evanno, Gwénaëlle; Cheron, Angélique; Catrice, Olivier; Mausset, Anne-Elisabeth; Barloy-Hubler, Frédérique; Galibert, Francis; Kondorosi, Adam; Kondorosi, Eva (28 March 2006). "Eukaryotic control on bacterial cell cycle and differentiation in the Rhizobium–legume symbiosis". Proceedings of the National Academy of Sciences. 103 (13): 5230–5235. Bibcode:2006PNAS..103.5230M. doi:10.1073/pnas.0600912103. PMC 1458823. PMID 16547129.
  4. ^ Gerke, Jörg; Römer, Wilhelm; Jungk, Albrecht (1994). "The excretion of citric and malic acid by proteoid roots of Lupinus albus L.; effects on soil solution concentrations of phosphate, iron, and aluminum in the proteoid rhizosphere in samples of an oxisol and a luvisol". Zeitschrift für Pflanzenernährung und Bodenkunde. 157 (4): 289–294. doi:10.1002/jpln.19941570408.
  5. ^ Dittmar, cited in Esau, 1965
  6. ^ https://www.colby.edu/biology/BI237/roots.pdf[bare URL PDF]
  7. ^ "Roots | Boundless Biology". courses.lumenlearning.com. Retrieved 2021-11-16.
  8. ^ Grierson, Claire; Schiefelbein, John (1 January 2002). "Root Hairs". The Arabidopsis Book. 1: e0060. doi:10.1199/tab.0060. PMC 3243358. PMID 22303213.
  9. ^ Dosier, Larry W.; Riopel, J. L. (1977). "Differential Enzyme Activity During Trichoblast Differentiation in Elodea Canadensis". American Journal of Botany. 64 (9): 1049–1056. doi:10.1002/j.1537-2197.1977.tb10794.x.
  10. ^ Ezawa, Tatsuhiro; Smith, Sally E.; Smith, F. Andrew (2002-07-01). "P metabolism and transport in AM fungi". Plant and Soil. 244 (1): 221–230. doi:10.1023/A:1020258325010. hdl:2115/637. ISSN 1573-5036. S2CID 25801972.
  11. ^ Parniske, Martin (October 2008). "Arbuscular mycorrhiza: the mother of plant root endosymbioses". Nature Reviews Microbiology. 6 (10): 763–775. doi:10.1038/nrmicro1987. PMID 18794914. S2CID 5432120.
  12. ^ a b Frary, Amy (2015). "Plant Physiology and DevelopmentPlant Physiology and Development edited by Lincoln Taiz, Eduardo Zeiger, Ian Max Moller, and Angus Murphy. 2014. . ISBN 978-1-60535-255-8 $123.96 (casebound); $80.58 (looseleaf). Sinauer Associates Inc., Sunderland, MA". Rhodora. 117 (971): 397–399. doi:10.3119/0035-4902-117.971.397. ISSN 0035-4902. S2CID 85738640.
  13. ^ a b c d e Zou, Ying-Ning; Zhang, De-Jian; Liu, Chun-Yan; Wu, Qiang-Sheng (2018-10-30). "Relationships between mycorrhizas and root hairs". Pakistan Journal of Botany. 51 (2). doi:10.30848/pjb2019-2(39). ISSN 0556-3321. S2CID 91581074.
  14. ^ Nehls, U. (2008-02-16). "Mastering ectomycorrhizal symbiosis: the impact of carbohydrates". Journal of Experimental Botany. 59 (5): 1097–1108. doi:10.1093/jxb/erm334. ISSN 0022-0957. PMID 18272925.

February 16, 2024
root, hair, absorbent, hairs, outgrowths, epidermal, cells, specialized, cells, plant, root, they, lateral, extensions, single, cell, only, rarely, branched, they, found, region, maturation, root, cells, improve, plant, water, absorption, increasing, root, sur. Root hair or absorbent hairs are outgrowths of epidermal cells specialized cells at the tip of a plant root They are lateral extensions of a single cell and are only rarely branched They are found in the region of maturation of the root Root hair cells improve plant water absorption by increasing root surface area to volume ratio which allows the root hair cell to take in more water The large vacuole inside root hair cells makes this intake much more efficient Root hairs are also important for nutrient uptake as they are main interface between plants and mycorrhizal fungi Root tip showing young root hairsContents 1 Function 2 Importance 3 Formation 4 Fungal interaction 5 Survival 6 See also 7 ReferencesFunction editThe function of all root hairs is to collect water and mineral nutrients in the soil to be sent throughout the plant In roots most water absorption happens through the root hairs The length of root hairs allows them to penetrate between soil particles and prevents harmful bacterial organisms from entering the plant through the xylem vessels 1 Increasing the surface area of these hairs makes plants more efficient in absorbing nutrients and interacting with microbes 2 As root hair cells do not carry out photosynthesis they do not contain chloroplasts Importance editRoot hairs form an important surface as they are needed to absorb most of the water and nutrients needed for the plant They are also directly involved in the formation of root nodules in legume plants The root hairs curl around the bacteria which allows for the formation of an infection thread into the dividing cortical cells to form the nodule 3 Having a large surface area the active uptake of water and minerals through root hairs is highly efficient Root hair cells also secrete acids e g malic and citric acid which solubilize minerals by changing their oxidation state making the ions easier to absorb 4 Formation editRoot hair cells vary between 15 and 17 micrometers in diameter and 80 and 1 500 micrometers in length 5 Root hairs are found only in the zone of maturation also called the zone of differentiation 6 They are not found in the zone of elongation possibly because older root hairs are sheared off as the root elongates and moves through the soil 7 Root hairs grow quickly at least 1 mm min making them particularly useful for research on cell expansion 8 Just prior to and during root hair cell development there is elevated phosphorylase activity 9 Fungal interaction editRoot hairs are essential for healthy plant nutrition especially through their interactions with symbiotic fungi Symbiotic fungi and root hairs produce mycorrhizal symbioses like arbuscular mycorrhiza formed by AM fungi and ectomycorrhiza formed by EM fungi 10 These are very common 11 occurring in 90 of terrestrial plant species 12 because of the benefits it brings to both the fungus and plant Formation of this relationship for EM fungi begins with the colonization of the root hairs This process begins when the EM fungus adheres to the root hair from the soil 13 The fungus then secretes diffusible factors to which root hairs are highly sensitive allowing the hyphae to penetrate into the epidermal cells and create a Hartig net in the first layers of the root cortex 13 This highly branched structure serves as an interface between the two organisms as fungal cells adapt to the exchanges that occur between the plant and fungus 14 This process is similar to how AM fungi colonize root hairs but instead of diffusible factors they secrete hydrolases to relax the cell wall which allows hyphae to enter and there is no Hartig net 13 Various effects of fungal colonization in root hairs show that this relationship is beneficial to both plant and fungal species but the main effect is on root hair growth Fungi actually affect the growth of root hairs if there is water or nutrient deficiency 13 Since both of these organisms require nutrients and water their cooperation is essential to their mutual survival Upon detection of deficiency the drought stress response of the plant is triggered causing growth of the root hairs 12 The mycorrhizae of the fungus then uses its extended system to help the plant find the correct area of nutrition signaling the direction in which the roots should grow 13 This makes root growth more efficient preserving energy for other metabolic processes which in turn benefits the fungus that feeds off those metabolic products Survival editWhen a new root hair cell grows it excretes a hormone that inhibits the growth of root hairs in nearby cells This ensures equal and efficient distribution of the actual hairs on these cells citation needed Repotting or transplanting a plant can result in root hair cells being pulled off perhaps to a significant extent which can cause wilting citation needed See also editTrichomeReferences edit Water Balance in Plants The Wonder of Science Retrieved 2021 11 16 Grierson C Schiefelbein J 2002 Root Hairs The Arabidopsis Book 1 e0060 doi 10 1199 tab 0060 PMC 3243358 PMID 22303213 Mergaert Peter Uchiumi Toshiki Alunni Benoit Evanno Gwenaelle Cheron Angelique Catrice Olivier Mausset Anne Elisabeth Barloy Hubler Frederique Galibert Francis Kondorosi Adam Kondorosi Eva 28 March 2006 Eukaryotic control on bacterial cell cycle and differentiation in the Rhizobium legume symbiosis Proceedings of the National Academy of Sciences 103 13 5230 5235 Bibcode 2006PNAS 103 5230M doi 10 1073 pnas 0600912103 PMC 1458823 PMID 16547129 Gerke Jorg Romer Wilhelm Jungk Albrecht 1994 The excretion of citric and malic acid by proteoid roots of Lupinus albus L effects on soil solution concentrations of phosphate iron and aluminum in the proteoid rhizosphere in samples of an oxisol and a luvisol Zeitschrift fur Pflanzenernahrung und Bodenkunde 157 4 289 294 doi 10 1002 jpln 19941570408 Dittmar cited in Esau 1965 https www colby edu biology BI237 roots pdf bare URL PDF Roots Boundless Biology courses lumenlearning com Retrieved 2021 11 16 Grierson Claire Schiefelbein John 1 January 2002 Root Hairs The Arabidopsis Book 1 e0060 doi 10 1199 tab 0060 PMC 3243358 PMID 22303213 Dosier Larry W Riopel J L 1977 Differential Enzyme Activity During Trichoblast Differentiation in Elodea Canadensis American Journal of Botany 64 9 1049 1056 doi 10 1002 j 1537 2197 1977 tb10794 x Ezawa Tatsuhiro Smith Sally E Smith F Andrew 2002 07 01 P metabolism and transport in AM fungi Plant and Soil 244 1 221 230 doi 10 1023 A 1020258325010 hdl 2115 637 ISSN 1573 5036 S2CID 25801972 Parniske Martin October 2008 Arbuscular mycorrhiza the mother of plant root endosymbioses Nature Reviews Microbiology 6 10 763 775 doi 10 1038 nrmicro1987 PMID 18794914 S2CID 5432120 a b Frary Amy 2015 Plant Physiology and DevelopmentPlant Physiology and Development edited by Lincoln Taiz Eduardo Zeiger Ian Max Moller and Angus Murphy 2014 ISBN 978 1 60535 255 8 123 96 casebound 80 58 looseleaf Sinauer Associates Inc Sunderland MA Rhodora 117 971 397 399 doi 10 3119 0035 4902 117 971 397 ISSN 0035 4902 S2CID 85738640 a b c d e Zou Ying Ning Zhang De Jian Liu Chun Yan Wu Qiang Sheng 2018 10 30 Relationships between mycorrhizas and root hairs Pakistan Journal of Botany 51 2 doi 10 30848 pjb2019 2 39 ISSN 0556 3321 S2CID 91581074 Nehls U 2008 02 16 Mastering ectomycorrhizal symbiosis the impact of carbohydrates Journal of Experimental Botany 59 5 1097 1108 doi 10 1093 jxb erm334 ISSN 0022 0957 PMID 18272925 Retrieved from https en wikipedia org w index php title Root hair amp oldid 1207093622, wikipedia, wiki, book, books, library,

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