On Phenotypic Expression, Morphogenetic Pattern and Synangium Evolution in Psilotum

Rouffa, Albert S.

doi:10.1002/j.1537-2197.1978.tb06127.x

Cited by 5 publications

(3 citation statements)

References 14 publications

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“…Psilopsida-Because of the seemingly simple, inconspicuous nature of its leaves, the isotomous nature of its aerial shoot branching and lack of roots, and its isomorphic alternation of generations, Psilotum has been seen by many paleobotanists and plant morphologists as a living ''rhyniophyte'' (Rouffa, 1971(Rouffa, , 1978Stewart and Rothwell, 1993). Certainly, at a superficial level Psilotum would seem to simulate those ancient fossil plants (Fig.…”

Section: Shoot Organization In Principal Pteridophyte Groups-mentioning

confidence: 99%

The science of plant morphology: definition, history, and role in modern biology

Kaplan

2001

American J of Botany

149

102

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As a scientific discipline, plant morphology is 211 yr old, originated by Goethe in 1790. It is a discipline that has largely been Germanic in practice. Because it took its origins from the study of the natural history of plants and the United States is principally an engineering society, the discipline of plant morphology in its pure form has never been widely practiced in this country. What has been labeled "plant morphology" in the United States has served largely as a handmaiden for systematics, using morphological characteristics to carve up diversity into its systematic subunits. Because the heart of plant morphology as a science is a focus on the convergences rather than the homologies in a phylogenetic sense, the German tradition of plant morphology is a unifying science that focuses on fundamental themes that transcend systematic boundaries. This paper traces the history of the science of plant morphology through the lineage of its principal practitioners: Goethe, Hofmeister, von Goebel, and Troll. It also evaluates the principles of plant morphology by applying them to the phyletically diverse Pteridophytes, showing that contemporary members of that group exhibit levels of shoot organization comparable to that of seed plants and discusses the implications of these findings.

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Section: Shoot Organization In Principal Pteridophyte Groups-mentioning

confidence: 99%

The science of plant morphology: definition, history, and role in modern biology

Kaplan

2001

American J of Botany

149

102

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“…Morphological evaluation of this hypothesis is limited to the inclusion of general structural features of Psilotaceae in more comprehensive phylogenetic analyses (Stevenson and Loconte, 1996;Kenrick and Crane, 1997;Wolf et al, 1998;Rothwell, 1999). Since the 1970s and the works of Bierhorst (1971Bierhorst ( , 1977, Rouffa (1978) and Siegert (1973), few new developmental, anatomical, or ultrastructural studies have been undertaken that shed light on the position of this phylogenet- DEDICATION: We dedicate this manuscript to the memory of two inspirational botanists of the twentieth century: Warren Herb Wagner and David W. Bierhorst. May the interest they excited in Psilotum and basal pteridophytes be kept alive for the millennia to come.…”

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confidence: 99%

Architecture of the sperm cell of Psilotum

Renzaglia

Johnson

Gates

et al. 2001

American J of Botany

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In this correlated SEM (scanning electron microscope) and TEM (transmission electron microscope) investigation, we describe architectural details of the multiflagellated sperm cell of Psilotum nudum. Comparisons with other pteridophytes are made to (1) assess the placement of Psilotum among pteridophyte taxa and (2) evaluate structural modifications of sperm cells during land plant evolution. The released spermatozoid of Psilotum coils 2.0 revolutions and is outlined by a parallel band of up to 190 microtubules. The elongated nucleus is highly compacted and parallels the cellular coils with numerous mitochondria and starch-laden plastids distributed along its length. Along the anterior coil is an elaborate locomotory apparatus that includes ∼36 flagella that are inserted into the cell by basal bodies. Subtending the basal bodies is the multilayered structure, which consists of a long narrow lamellar strip and an overlying band of microtubules. An elongated anterior mitochondrion underlies the multilayered structure. Additional amyloplasts and mitochondria are aggregated along the anterior coil in association with the locomotory apparatus, while a fibrous band encircles the leading edge of the cell. Salient features of this cell, including details of the locomotory apparatus, structure and position of organelles, and arrangement of the spline, are shared by spermatozoids of Equisetum and ferns (including eusporangiate and leptosporangiate taxa). Thus, this study provides morphological support for the hypothesis that Psilotum nudum is a member of an assemblage that includes ferns and Equisetum. However, the less streamlined architecture of Psilotum gametes and the lack of architectural features shared with any specific taxon examined to date suggest that Psilotum is an early divergent fern, with relatively remote affinities to Ophioglossaceae and Equisetaceae.

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“…Cette technique a surtout ttC appliquee chez des Phantrogames pour mettre en tvidence la transformation de l'apex lors du passage de 1'Ctat vCgCtatif iI 1'Ctat floral (Einert et al 1970;Bartholomew 1977) et les effets de ces changements sur la phyllotaxie (Meicenheimer 1979); chez les PtCridophytes, seul Rouffa (1978), iI notre connaissance, l'a utiliste pour dCceler les synanges au sommet des axes atriens de Psilotum.…”

Section: Introductionunclassified

Étude au microscope électronique à balayage de la bulbille de Huperzia selago (L.) Bernh. (Lycopodium) : méristème apical, initiation foliaire et phyllotaxie

Vindt-Balguerie¹

1982

Can. J. Bot.

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R e~u le 17 juin 1981 VINDT-BALGUERIE, E. 1982. Etude au microscope Clectronique A balayage de la bulbille de Huperzia selago (L.) Bernh. (Lycopodium): mCristkme apical, initiation foliaire et phyllotaxie. Can. J. Bot. 60: 667-673. L'apex de la bulbille du Lycopode Huperzia selago (L.) Bernh. (Lycopodium) a Ct C CtudiC au microscope Clectronique A balayage. Du point de vue ontogCnique, des variations de la forme et de la taille du mCristkme apical ont CtC observkes: celui-ci, au cours du plastochrone, passe par des phases successives d'aires minimale et maximale. Grdce au microscope Clectronique A balayage, l'aspect quantitatif du problkme (surface et nombre de cellules) peut aussi Ctre abordC. I1 a CtC dCmontrC qu'au point vCgCtatif de la bulbille mGre les feuilles sont initiCes une A une et sont disposCes selon deux hClices. VINDT-BALGUERIE, E. 1982. Etude au microscope Clectronique A balayage de la bulbille de Huperzia selago (L.) Bernh. (Lycopodium): mCristkme apical, initiation foliaire et phyllotaxie. Can. J. Bot. 60: 667-673. The shoot apex of the bulbil of Huperzia selago (L.) Bernh.(Lycopodium) has been examined by scanning electron microscope. From an ontogenic point of view, changes in shape and size have been observed in the apical meristem. Successive minimal and maximal areas of this meristem are described during a plastochron. Area and cell number are also quantified with the scanning electron microscope. Only one leaf is initiated at the beginning of each plastochron, and the two contact parastichies observed in the shoot apex of the mature bulbil are two foliar helices.

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On Phenotypic Expression, Morphogenetic Pattern and Synangium Evolution in Psilotum

Cited by 5 publications

References 14 publications

The science of plant morphology: definition, history, and role in modern biology

The science of plant morphology: definition, history, and role in modern biology

Architecture of the sperm cell of Psilotum

Étude au microscope électronique à balayage de la bulbille de Huperzia selago (L.) Bernh. (Lycopodium) : méristème apical, initiation foliaire et phyllotaxie

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