Journal ArticleDOI
The root cortex of the Nymphaeaceae, Cabombaceae and Nelumbonaceae
TLDR
The roots of selected water lilies, Nymphaeaceae and Cabombaceae, and water lotuses, Nelumbonaceae, were examined using epifluorescence, brightfield, and modified darkfield microscopy to determine the characteristics of root cortical structure.Abstract:
SEAGO, JR., J. L. (Department of Biology, State University of New York, College at Oswego, New York 13126) The Root Cortex of the Nymphaeaceae, Cabombaceae, and Nelumbonaceae. J. Torrey Bot. Soc. 129: 19. 2002.-The roots of selected water lilies, Nymphaeaceae and Cabombaceae, and water lotuses, Nelumbonaceae, were examined using epifluorescence, brightfield, and modified darkfield microscopy to determine the characteristics of root cortical structure. The members of the Nymphaeaceae have an endodermis usually with Casparian bands only, many astrosclereids and some transverse diaphragms scattered throughout the aerenchyma, and a hypodermis with a uniseriate exodermis with Casparian bands and suberin lamellae, although there may be some secondary, cellulosic thickening. The Cabombaceae are characterized by small roots with an endodermis with Casparian bands and uneven suberin lamellae, aerenchyma without sclereids or diaphragms, and an exodermis with Casparian bands and distinctive suberin lamellae. The Nelumbonaceae are distinctly different: Nelumbo has an endodermis of Casparian bands, suberin lamellae, and secondarily lignified walls, an aerenchyma without sclereids or diaphragms, and a multiseriate hypodermis with a uniseriate exodermis of Casparian bands and suberin lamellae, and an inner hypodermis with distinctly lignified walls.read more
Citations
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Journal ArticleDOI
Root responses to cadmium in the rhizosphere: a review
TL;DR: The development of apoplastic barriers to Cd movement to the xylem is described and recent experiments indicating that their maturation is accelerated by high Cd concentrations in their immediate locality are highlighted.
Journal ArticleDOI
Root Endodermis and Exodermis: Structure, Function, and Responses to the Environment
TL;DR: In roots with a mature exodermis, the barrier to apoplastic inflow of ions occurs near the root surface, but prevention of backflow of ions from the stele remains a function of the endoderm is.
Journal ArticleDOI
An improved method for clearing and staining free-hand sections and whole-mount samples.
TL;DR: The clearing procedure using lactic acid improves the quality of images from free-hand sections and clearings and enhances the study of plant root anatomy, in particular the histological development and changes of cell walls, when used in combination with fluorescence microscopy.
Journal ArticleDOI
A re-examination of the root cortex in wetland flowering plants with respect to aerenchyma.
TL;DR: It is concluded that expansigeny is the basic type of aerenchyma development in roots of flowering plants and that the presence of expansigenous honeycomb aerenchema in root cortices was fundamental to the success of the earliest flowering plants found in wetland environments.
Journal ArticleDOI
Anatomical Patterns of Aerenchyma in Aquatic and Wetland Plants
TL;DR: It is confirmed that, although a well-developed aerenchyma is more common in most organs of aquatic plants than in wetland plants, this presence cannot be used as strict evidence for the aquatic quality of vascular plants.
References
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TL;DR: The results of parsimony analyses of DNA sequences of the plastid genes rbcL and atpB and the nuclear 18S rDNA for 560 species of angiosperms and seven non-flowering seed plants are reported and show a well-resolved and well-supported phylogenetic tree for the angios perms for use in comparative biology.
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TL;DR: This study demonstrates that Amboreella, Nymphaeales and Illiciales-Trimeniaceae-Austrobaileya represent the first stage of angiosperm evolution, with Amborella being sister to all other angiosperms, and shows that Gnetales are related to the conifers and are not sister to the angios perms, thus refuting the Anthophyte Hypothesis.
Journal ArticleDOI
The origin and early diversification of angiosperms
TL;DR: New palaeobotanical discoveries and phylogenetic analyses of morphological and molecular data have clarified the initial phases of this radiation and changed the perspective on early angiosperm evolution, though important issues remain unresolved.