This article is about the classification based on leaf vasculature. For the terms "Microphyll" and "Megaphyll" as classifications of leaf size, see Leaf size.
In plant anatomy and evolution a microphyll (or lycophyll) is a type of plantleaf with one single, unbranched leaf vein.[1] Plants with microphyll leaves occur early in the fossil record, and few such plants exist today. In the classical concept of a microphyll, the leaf vein emerges from the protostele without leaving a leaf gap. Leaf gaps are small areas above the node of some leaves where there is no vascular tissue, as it has all been diverted to the leaf. Megaphylls, in contrast, have multiple veins within the leaf and leaf gaps above them in the stem.
The clubmosses and horsetails have microphylls, as in all extant species there is only a single vascular trace in each leaf.[2] These leaves are narrow because the width of the blade is limited by the distance water can efficiently diffuse cell-to-cell from the central vascular strand to the margin of the leaf.[3] Despite their name, microphylls are not always small: those of Isoëtes can reach 25 centimetres in length, and the extinct Lepidodendron bore microphylls up to 78 cm long.[2]
Evolutionedit
The enation theory of microphyll evolution posits that small outgrowths, or enations, developed from the side of early stems (such as those found in the Zosterophylls).[4] Outgrowths of the protostele (the central vasculature) later emerged towards the enations (as in Asteroxylon),[4] and eventually continued to grow fully into the leaf to form the mid-vein (such as in Baragwanathia[4]).[1] The fossil record appears to display these traits in this order,[4] but this may be a coincidence, as the record is incomplete. The telome theory proposes instead that both microphylls and megaphylls originated by the reduction; microphylls by reduction of a single telome branch, and megaphylls by evolution from branched portions of a telome.[4]
The simplistic evolutionary models, however, do not correspond well to evolutionary relationships. Some genera of ferns display complex leaves that are attached to the pseudostele by an outgrowth of the vascular bundle, leaving no leaf gap.[1] Horsetails (Equisetum) bear only a single vein, and appear to be microphyllous; however, the fossil record suggests that their forebears had leaves with complex venation, and their current state is a result of secondary simplification.[5] Some gymnosperms bear needles with only one vein, but these evolved later from plants with complex leaves.[1]
An interesting case is that of Psilotum, which has a (simple) protostele, and enations devoid of vascular tissue. Some species of Psilotum have a single vascular trace that terminates at the base of the enations.[2] Consequently, Psilotum was long thought to be a "living fossil" closely related to early land plants (rhyniophytes). However, genetic analysis has shown Psilotum to be a reduced fern.[6]
It is not clear whether leaf gaps are a homologous trait of megaphyllous organisms or have evolved more than once.[1]
While the simple definitions (microphylls: one vein, macrophylls: more than one) can still be used in modern botany, the evolutionary history is harder to decipher.
Megaphylls have a complex network of veins.
Psilotum has secondarily lost leaves, and bears enations resembling the microphylls of early land plants.
^ abcdeKaplan, D.R. (2001). "The Science of Plant Morphology: Definition, History, and Role in Modern Biology". American Journal of Botany. 88 (10): 1711–1741. doi:10.2307/3558347. JSTOR 3558347. PMID 21669604.
^ abcGifford E.M. & Foster, A.S. (1989). Morphology and evolution of vascular plants. WH Freeman, New York, USA.
^How the Earth Turned Green: A Brief 3.8-Billion-Year History of Plants
^ abcdeWN Stewart & GW Rothwell (1993) Palaeobotany and the evolution of plants. 2nd edition. Cambridge University Press.
^Taylor, T.N.; Taylor, E.L. (1993). "The biology and evolution of fossil plants". {{cite journal}}: Cite journal requires |journal= (help)
^Qiu, Y.L.; Palmer, J.D. (1999). "Phylogeny of early land plants: insights from genes and genomes". Trends in Plant Science. 4 (1): 26–30. doi:10.1016/S1360-1385(98)01361-2. PMID 10234267.
February 16, 2024
microphylls, megaphylls, this, article, about, classification, based, leaf, vasculature, terms, microphyll, megaphyll, classifications, leaf, size, leaf, size, plant, anatomy, evolution, microphyll, lycophyll, type, plant, leaf, with, single, unbranched, leaf,. This article is about the classification based on leaf vasculature For the terms Microphyll and Megaphyll as classifications of leaf size see Leaf size In plant anatomy and evolution a microphyll or lycophyll is a type of plant leaf with one single unbranched leaf vein 1 Plants with microphyll leaves occur early in the fossil record and few such plants exist today In the classical concept of a microphyll the leaf vein emerges from the protostele without leaving a leaf gap Leaf gaps are small areas above the node of some leaves where there is no vascular tissue as it has all been diverted to the leaf Megaphylls in contrast have multiple veins within the leaf and leaf gaps above them in the stem Contents 1 Leaf vasculature 1 1 Evolution 2 See also 3 ReferencesLeaf vasculature edit nbsp Microphylls contain a single vascular trace The clubmosses and horsetails have microphylls as in all extant species there is only a single vascular trace in each leaf 2 These leaves are narrow because the width of the blade is limited by the distance water can efficiently diffuse cell to cell from the central vascular strand to the margin of the leaf 3 Despite their name microphylls are not always small those of Isoetes can reach 25 centimetres in length and the extinct Lepidodendron bore microphylls up to 78 cm long 2 Evolution edit The enation theory of microphyll evolution posits that small outgrowths or enations developed from the side of early stems such as those found in the Zosterophylls 4 Outgrowths of the protostele the central vasculature later emerged towards the enations as in Asteroxylon 4 and eventually continued to grow fully into the leaf to form the mid vein such as in Baragwanathia 4 1 The fossil record appears to display these traits in this order 4 but this may be a coincidence as the record is incomplete The telome theory proposes instead that both microphylls and megaphylls originated by the reduction microphylls by reduction of a single telome branch and megaphylls by evolution from branched portions of a telome 4 The simplistic evolutionary models however do not correspond well to evolutionary relationships Some genera of ferns display complex leaves that are attached to the pseudostele by an outgrowth of the vascular bundle leaving no leaf gap 1 Horsetails Equisetum bear only a single vein and appear to be microphyllous however the fossil record suggests that their forebears had leaves with complex venation and their current state is a result of secondary simplification 5 Some gymnosperms bear needles with only one vein but these evolved later from plants with complex leaves 1 An interesting case is that of Psilotum which has a simple protostele and enations devoid of vascular tissue Some species of Psilotum have a single vascular trace that terminates at the base of the enations 2 Consequently Psilotum was long thought to be a living fossil closely related to early land plants rhyniophytes However genetic analysis has shown Psilotum to be a reduced fern 6 It is not clear whether leaf gaps are a homologous trait of megaphyllous organisms or have evolved more than once 1 While the simple definitions microphylls one vein macrophylls more than one can still be used in modern botany the evolutionary history is harder to decipher nbsp Megaphylls have a complex network of veins nbsp Psilotum has secondarily lost leaves and bears enations resembling the microphylls of early land plants See also editVegetation classificationReferences edit a b c d e Kaplan D R 2001 The Science of Plant Morphology Definition History and Role in Modern Biology American Journal of Botany 88 10 1711 1741 doi 10 2307 3558347 JSTOR 3558347 PMID 21669604 a b c Gifford E M amp Foster A S 1989 Morphology and evolution of vascular plants WH Freeman New York USA How the Earth Turned Green A Brief 3 8 Billion Year History of Plants a b c d e WN Stewart amp GW Rothwell 1993 Palaeobotany and the evolution of plants 2nd edition Cambridge University Press Taylor T N Taylor E L 1993 The biology and evolution of fossil plants a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help Qiu Y L Palmer J D 1999 Phylogeny of early land plants insights from genes and genomes Trends in Plant Science 4 1 26 30 doi 10 1016 S1360 1385 98 01361 2 PMID 10234267 Retrieved from https en wikipedia org w index php title Microphylls and megaphylls amp oldid 1187104734, wikipedia, wiki, book, books, library,
