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Australian Journal of Botany Australian Journal of Botany Society
Southern hemisphere botanical ecosystems
COMMENT AND RESPONSE

Hypocotyl hairs: an historical perspective

R. F. Parsons
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Department of Botany, La Trobe University, Bundoora, Vic. 3086, Australia. Email: r.parsons@latrobe.edu.au

Australian Journal of Botany 57(2) 106-108 https://doi.org/10.1071/BT08224
Submitted: 22 December 2008  Accepted: 12 February 2009   Published: 11 May 2009

Abstract

The presence of distinctive hypocotyl hairs on young seedlings of some species has been known for some time, although largely ignored. A recent paper (Robinson et al. 2008) suggests that they may be of great ecological significance in the Australian shrub Melaleuca ericifolia. There is a scattered and little-known literature on this topic going back at least as far as 1904. Here, I provide an overview of that literature. The 21 families and 55 genera of flowering plants in which hypocotyl hairs have been recorded are tabulated. The life forms involved range from annual herbs to shrubs and trees and the habitats from marine to freshwater wetlands to fully terrestrial habitats, including those in semiarid areas. The functions attributed to hypocotyl hairs include anchoring seedlings to the substrate, facilitating the development of geotropism and water uptake until the root hairs develop.


Acknowledgements

I thank Dr A. Gendall, Dr T. P. O’Brien and Dr I. A. Staff for helpful advice and discussion.


References


Baranov PA (1957) Coleorrhiza in Myrtaceae. Phytomorphology 7, 237–243. open url image1

Boland DJ , Brooker MIH , Turnbull JW (1980) ‘Eucalyptus seed.’ (CSIRO: Melbourne)

Briosi G (1882) Intorno un organo di alcuni vegetali. Memorie Accademia Lincei Series 3 [Cited in Baranov (1957); not seen.] 12, 215–219. open url image1

Busse JS, Evert RF (1999) Pattern of differentiation of the first vascular elements in the embryo and seedling of Arabidopsis thaliana. International Journal of Plant Sciences 160, 1–13.
Crossref | GoogleScholarGoogle Scholar | open url image1

Campbell MH, McGowen IJ, Milne BR, Vere DT (1990) The biology of Australian weeds. 22. Cassinia arcuata R.Br. Plant Protection Quarterly 5, 162–168. open url image1

Carr DJ (author, editor and compiler) (2005) ‘A book for Maisie: celebrating the life and work of SGM Carr nee Fawcett, pioneer Australian alpine ecologist, 1912–88.’ (DJ Carr: Canberra)

Carr DJ , Carr SGM (1964) Trends and convergence in the angiosperms. In ‘Tenth international botanical congress. Abstracts of papers. Vol. 2’. p. 142. (Tenth International Botanical Congress: Edinburgh)

Coolidge Churchill A (1983) Field studies on seed germination and seedling development in Zostera marina L. Aquatic Botany 16, 21–29.
Crossref | GoogleScholarGoogle Scholar | open url image1

Esau K (1965) ‘Plant anatomy.’ 2nd edn. (Wiley: New York)

Grierson C , Schiefelbein J (2002) Root hairs. In ‘The Arabidopsis book’. (Eds C Somerville, E Meyerowitz) pp. 1–22. (The American Society of Plant Biologists: Rockville, MD)

Irmisch T (1876) Einige Beobachtungen an Eucalyptus globulus. Zeitschrift fur die Gesamte Naturwissenschaft [Cited in Baranov (1957); not seen.] 14 , open url image1

Kaul RB (1978) Morphology of germination and establishment of aquatic seedlings in Alismataceae and Hydrocharitaceae. Aquatic Botany 5, 139–147.
Crossref | GoogleScholarGoogle Scholar | open url image1

Klebs G (1884) Beitrage zur Morphologie und Biologie der Keimung. Untersuchungen Botanische Institut Tubingen [Cited in Baranov (1957); not seen.] 1, 536–635. open url image1

Kuo J, Kirkman H (1992) Fruits, seeds and germination in the seagrass Halophila ovalis (Hydrocharitaceae). Botanica Marina 35, 197–204. open url image1

Lin Y, Schiefelbein J (2001) Embryonic control of epidermal cell patterning in the root and hypocotyl of Arabidopsis. Development 128, 3697–3705.
CAS | PubMed |
open url image1

Matsuo M, Shibayama H (2002) Morphological observation on development of juvenile seedlings of Monochoria vaginalis establishing on a flooded paddy soil surface. Weed Biology and Management 2, 148–152.
Crossref |
open url image1

Morita O, Ehara H, Goto M, Ikeda K, Tsunekawa H (1995) Role of hypocotyl hairs in seedling-establishment of wildflowers for landscaping. Grassland Science 41, 71–73. open url image1

Moro FV, Pinto ACR, Dos Santos JM, Damiao Filho CF (2001) A scanning electron microscopy study of the seed and post-seminal development in Angelonia salicariifolia Bonpl. (Scrophulariaceae). Annals of Botany 88, 499–506.
Crossref | GoogleScholarGoogle Scholar | open url image1

Moss EH (1938) Longevity of seed and establishment of seedlings in species of Populus. Botanical Gazette 99, 529–542.
Crossref | GoogleScholarGoogle Scholar | open url image1

Nishimura M (1922) Comparative morphology and development of Poa pratensis, Phleum pratense and Setaria italica. Japanese Journal of Botany 1, 55–85. open url image1

Noble MG (1979) The origin of Populus deltoides and Salix interior zones on Point Bars along the Minnesota River. American Midland Naturalist 102, 59–67.
Crossref | GoogleScholarGoogle Scholar | open url image1

Northam FE, Callihan RH, Puchalski MM (1996) Coleorhizal hairs in germinating medusahead (Taeniatherum caput-medusae). Weed Science 44, 884–889.
CAS |
open url image1

Robinson RW, Boon PI, Sawtell N, James EA, Cross R (2008) Effects of environmental conditions on the production of hypocotyl hairs in seedlings of Melaleuca ericifolia (swamp paperbark). Australian Journal of Botany 56, 564–573.
Crossref | GoogleScholarGoogle Scholar | open url image1

Rutishauser R, Novelo AR, Philbrick T (1999) Developmental morphology of new world Podostemaceae: Marathrum and Vanroyenella. International Journal of Plant Sciences 160, 29–43.
Crossref | GoogleScholarGoogle Scholar | open url image1

Salisbury E (1970) The pioneer vegetation of exposed muds and its biological features. Philosophical Transactions of the Royal Society of London 259, 207–255.
Crossref | GoogleScholarGoogle Scholar | open url image1

Yanchevsky K (1904) Peculiarities of the germination of seeds of aspen and some species of willow. Transactions of the Imperial Forestry Institute [Cited in Moss (1938); not seen.] 11, 269–274.
Crossref | GoogleScholarGoogle Scholar | open url image1

Young JA, Martens E (1991) Importance of hypocotyl hairs in germination of Artemisia seeds. Journal of Range Management 44, 438–442.
Crossref | GoogleScholarGoogle Scholar | open url image1