Results 161 to 170 of about 1,406 (191)

Water Retention Capacity in Root Segments Differing in the Degree of Exodermis Development [PDF]

open access: yesAnnals of Botany, 1999
Water loss from roots back into drying soil is a problem of practical importance in plants growing under conditions of very low substrate water potential, such as dry or saline areas. Root exodermis is relatively impermeable and has been suggested to play a protective role against water loss.
Edith Taleisnik
exaly   +2 more sources
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Root Endodermis and Exodermis: Structure, Function, and Responses to the Environment

Journal of Plant Growth Regulation, 2002
Roots of virtually all vascular plants have an endodermis with a Casparian band, and the majority of angiosperm roots tested also have an exodermis with a Casparian band. Both the endodermis and exodermis may develop suberin lamellae and thick, tertiary walls. Each of these wall modifications has its own function(s).
Daryl E. Enstone   +2 more
openaire   +1 more source

Analysis of aliphatic waxes associated with root periderm or exodermis from eleven plant species [PDF]

open access: yesPhytochemistry, 2015
Aliphatic waxes can be found in association with suberized tissues, including roots. Non-polar lipids were isolated by rapid solvent extraction of mature regions of intact roots from eleven angiosperms, including both monocots and dicots. The majority of roots analyzed were taproots or tuberous taproots that had undergone secondary growth and thus were
Dylan K Kosma, Mike Pollard
exaly   +4 more sources

Infection of barley roots by Chaetomium globosum: evidence for a protective role of the exodermis

Mycological Research, 2003
Plant pathogenesis by fungi is known to be dependent on the host genotype, the virulence of the pathogen and certain environmental conditions influencing fungal establishment. Previously, it has been shown that Chaetomium globosum, a fungus well-characterized for its biocontrol potential, causes necrosis on barley roots grown in Murashige and Skoog (MS)
Annette, Reissinger   +4 more
openaire   +2 more sources

Morphological Identity of the Velamen and Exodermis in Orchids

Botanical Gazette, 1944
1. Historical concepts of the velamen and exodermis are reviewed. 2. Twenty species and hybrids, representing thirteen genera of orchids, were investigated to determine the origins of the velamen and exodermis. 3. Fourteen orchid root tips belong to the category of histogens known as type I; the other six belong to Haberlandt's type VI. 4.
openaire   +1 more source

Current insights into the development, structure, and chemistry of the endodermis and exodermis of roots

Canadian Journal of Botany, 2003
The endodermis and exodermis are the inner- and outermost cortical layers, respectively, of a root. Both are characterized by the development of Casparian bands in their anticlinal walls. Endodermal Casparian bands normally appear within 10 mm of the root tip, while exodermal Casparian bands are typically deposited farther from the tip.
Fengshan Ma, Carol A Peterson
openaire   +1 more source

Effects of growing conditions and development of the underlying exodermis on the vitality of the onion root epidermis

Physiologia Plantarum, 1994
Bulbs of Allium cepa L., which had developed short, adventitious roots, were transferred to various conditions, i.e. vermiculite watered to saturation, vermiculite watered to half saturation, immersed in hydroculture, and immersed in hydroculture except for the proximal 20 mm which was continuously exposed to air.
Carol A Peterson
exaly   +2 more sources

The Effect of Lateral Root Outgrowth on the Structure and Permeability of the Onion Root Exodermis

Botanica Acta, 1993
AbstractLateral root development in onion is accompanied by a variety of anatomical and permeability changes in some cells of the adventitious root. The endodermal Casparian band of the parent root is disrupted early in the development of the lateral but later extends so as to be continuous with the developing Casparian band of the new root.
Carol A. Peterson, Greg J. Moon
openaire   +1 more source

Salinity accelerates endodermal development and induces an exodermis in cotton seedling roots

Environmental and Experimental Botany, 1995
The development of the endodermis was studied in 5- to 48-day-old cotton (Gossypium hirsutum L., cv. Acala SJ-2) seedling roots grown in vermiculite at different NaCl salinity levels. Sensitive fluorochromes (berberine-aniline blue for Casparian bands, and fluorol yellow-aniline blue for suberin lamellae) were used to detect cell wall modifications ...
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Deposition of Casparian bands and suberin lamellae in the exodermis and endodermis of young corn and onion roots

Canadian Journal of Botany, 1986
The Casparian band of the exodermis of corn and onion roots matures further from the root tip than its counterpart in the endodermis. A complete suberin lamella in the exodermal cells usually develops about 10 mm proximal to the exodermal Casparian band.
C. J. Perumalla, Carol A. Peterson
openaire   +1 more source

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