Synorganisation without organ fusion in the flowers of Geranium robertianum (Geraniaceae) and its not so trivial obdiplostemony

BACKGROUND AND AIMS: Synorganisation of floral organs, an important means in angiosperm flower evolution, is mostly realized by congenital or post-genital organ fusion. Intimate synorganisation of many floral organs without fusion, as present in Geranium robertianum, is poorly known and needs to be...

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Published in	Annals of botany Vol. 106; no. 5; pp. 687 - 695
Main Author	Endress, Peter K
Format	Journal Article
Language	English
Published	England Oxford University Press 01.11.2010
Subjects	anatomy & histology Angiosperms Anthers Architecture Calyx Carpels diplostemony evolution floral architecture floral development floral morphology Flowering Flowers Flowers - anatomy & histology Flowers - growth & development Flowers - ultrastructure fusion Geraniaceae Geraniaceae - anatomy & histology Geraniaceae - growth & development Geraniaceae - ultrastructure Geranium Geranium robertianum growth & development light microscopy Microscopy Microscopy, Electron, Scanning Models, Biological nectar Nectaries obdiplostemony Original Petals Plants proboscis ribs scanning electron microscopy Stamens synorganisation ultrastructure
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Abstract	BACKGROUND AND AIMS: Synorganisation of floral organs, an important means in angiosperm flower evolution, is mostly realized by congenital or post-genital organ fusion. Intimate synorganisation of many floral organs without fusion, as present in Geranium robertianum, is poorly known and needs to be studied. Obdiplostemony, the seemingly reversed position of two stamen whorls, widely distributed in core eudicots, has been the subject of much attention, but there is confusion in the literature. Obdiplostemony occurs in Geranium and whether and how it is involved in this synorganisation is explored here. METHODS: Floral development and architecture were studied with light microscopy based on microtome section series and with scanning electron microscopy. KEY RESULTS: Intimate synorganisation of floral organs is effected by the formation of five separate nectar canals for the proboscis of pollinators. Each nectar canal is formed by six adjacent organs from four organ whorls. In addition, the sepals are hooked together by the formation of longitudinal ribs and grooves, and provide a firm scaffold for the canals. Obdiplostemony provides a guide rail within each canal formed by the flanks of the antepetalous stamen filaments. CONCLUSIONS: Intimate synorganisation in flowers can be realized without any fusion, and obdiplostemony may play a role in this synorganisation.
AbstractList	Background and Aims Synorganisation of floral organs, an important means in angiosperm flower evolution, is mostly realized by congenital or post-genital organ fusion. Intimate synorganisation of many floral organs without fusion, as present in Geranium robertianum, is poorly known and needs to be studied. Obdiplostemony, the seemingly reversed position of two stamen whorls, widely distributed in core eudicots, has been the subject of much attention, but there is confusion in the literature. Obdiplostemony occurs in Geranium and whether and how it is involved in this synorganisation is explored here. Methods Floral development and architecture were studied with light microscopy based on microtome section series and with scanning electron microscopy. Key Results Intimate synorganisation of floral organs is effected by the formation of five separate nectar canals for the proboscis of pollinators. Each nectar canal is formed by six adjacent organs from four organ whorls. In addition, the sepals are hooked together by the formation of longitudinal ribs and grooves, and provide a firm scaffold for the canals. Obdiplostemony provides a guide rail within each canal formed by the flanks of the antepetalous stamen filaments. Conclusions Intimate synorganisation in flowers can be realized without any fusion, and obdiplostemony may play a role in this synorganisation. Synorganisation of floral organs, an important means in angiosperm flower evolution, is mostly realized by congenital or post-genital organ fusion. Intimate synorganisation of many floral organs without fusion, as present in Geranium robertianum, is poorly known and needs to be studied. Obdiplostemony, the seemingly reversed position of two stamen whorls, widely distributed in core eudicots, has been the subject of much attention, but there is confusion in the literature. Obdiplostemony occurs in Geranium and whether and how it is involved in this synorganisation is explored here. Floral development and architecture were studied with light microscopy based on microtome section series and with scanning electron microscopy. Intimate synorganisation of floral organs is effected by the formation of five separate nectar canals for the proboscis of pollinators. Each nectar canal is formed by six adjacent organs from four organ whorls. In addition, the sepals are hooked together by the formation of longitudinal ribs and grooves, and provide a firm scaffold for the canals. Obdiplostemony provides a guide rail within each canal formed by the flanks of the antepetalous stamen filaments. Intimate synorganisation in flowers can be realized without any fusion, and obdiplostemony may play a role in this synorganisation. • Background and Aims Synorganisation of floral organs, an important means in angiosperm flower evolution, is mostly realized by congenital or post-genital organ fusion. Intimate synorganisation of many floral organs without fusion, as present in Geranium robertianum, is poorly known and needs to be studied. Obdiplostemony, the seemingly reversed position of two stamen whorls, widely distributed in core eudicots, has been the subject of much attention, but there is confusion in the literature. Obdiplostemony occurs in Geranium and whether and how it is involved in this synorganisation is explored here. • Methods Floral development and architecture were studied with light microscopy based on microtome section series and with scanning electron microscopy. • Key Results Intimate synorganisation of floral organs is effected by the formation of five separate nectar canals for the proboscis of pollinators. Each nectar canal is formed by six adjacent organs from four organ whorls. In addition, the sepals are hooked together by the formation of longitudinal ribs and grooves, and provide a firm scaffold for the canals. Obdiplostemony provides a guide rail within each canal formed by the flanks of the antepetalous stamen filaments. • Conclusions Intimate synorganisation in flowers can be realized without any fusion, and obdiplostemony may play a role in this synorganisation. Synorganisation of floral organs, an important means in angiosperm flower evolution, is mostly realized by congenital or post-genital organ fusion. Intimate synorganisation of many floral organs without fusion, as present in Geranium robertianum, is poorly known and needs to be studied. Obdiplostemony, the seemingly reversed position of two stamen whorls, widely distributed in core eudicots, has been the subject of much attention, but there is confusion in the literature. Obdiplostemony occurs in Geranium and whether and how it is involved in this synorganisation is explored here.BACKGROUND AND AIMSSynorganisation of floral organs, an important means in angiosperm flower evolution, is mostly realized by congenital or post-genital organ fusion. Intimate synorganisation of many floral organs without fusion, as present in Geranium robertianum, is poorly known and needs to be studied. Obdiplostemony, the seemingly reversed position of two stamen whorls, widely distributed in core eudicots, has been the subject of much attention, but there is confusion in the literature. Obdiplostemony occurs in Geranium and whether and how it is involved in this synorganisation is explored here.Floral development and architecture were studied with light microscopy based on microtome section series and with scanning electron microscopy.METHODSFloral development and architecture were studied with light microscopy based on microtome section series and with scanning electron microscopy.Intimate synorganisation of floral organs is effected by the formation of five separate nectar canals for the proboscis of pollinators. Each nectar canal is formed by six adjacent organs from four organ whorls. In addition, the sepals are hooked together by the formation of longitudinal ribs and grooves, and provide a firm scaffold for the canals. Obdiplostemony provides a guide rail within each canal formed by the flanks of the antepetalous stamen filaments.KEY RESULTSIntimate synorganisation of floral organs is effected by the formation of five separate nectar canals for the proboscis of pollinators. Each nectar canal is formed by six adjacent organs from four organ whorls. In addition, the sepals are hooked together by the formation of longitudinal ribs and grooves, and provide a firm scaffold for the canals. Obdiplostemony provides a guide rail within each canal formed by the flanks of the antepetalous stamen filaments.Intimate synorganisation in flowers can be realized without any fusion, and obdiplostemony may play a role in this synorganisation.CONCLUSIONSIntimate synorganisation in flowers can be realized without any fusion, and obdiplostemony may play a role in this synorganisation.
Author	Endress, Peter K
AuthorAffiliation	Institute of Systematic Botany, University of Zurich, Zollikerstrasse 107, 8008 Zurich, Switzerland
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Snippet	BACKGROUND AND AIMS: Synorganisation of floral organs, an important means in angiosperm flower evolution, is mostly realized by congenital or post-genital... Background and Aims Synorganisation of floral organs, an important means in angiosperm flower evolution, is mostly realized by congenital or post-genital organ... • Background and Aims Synorganisation of floral organs, an important means in angiosperm flower evolution, is mostly realized by congenital or post-genital... Synorganisation of floral organs, an important means in angiosperm flower evolution, is mostly realized by congenital or post-genital organ fusion. Intimate...
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SubjectTerms	anatomy & histology Angiosperms Anthers Architecture Calyx Carpels diplostemony evolution floral architecture floral development floral morphology Flowering Flowers Flowers - anatomy & histology Flowers - growth & development Flowers - ultrastructure fusion Geraniaceae Geraniaceae - anatomy & histology Geraniaceae - growth & development Geraniaceae - ultrastructure Geranium Geranium robertianum growth & development light microscopy Microscopy Microscopy, Electron, Scanning Models, Biological nectar Nectaries obdiplostemony Original Petals Plants proboscis ribs scanning electron microscopy Stamens synorganisation ultrastructure
Title	Synorganisation without organ fusion in the flowers of Geranium robertianum (Geraniaceae) and its not so trivial obdiplostemony
URI	https://api.istex.fr/ark:/67375/HXZ-25MSG57Q-G/fulltext.pdf https://www.jstor.org/stable/43578322 https://www.ncbi.nlm.nih.gov/pubmed/20802050 https://www.proquest.com/docview/1420118294 https://www.proquest.com/docview/759878823 https://pubmed.ncbi.nlm.nih.gov/PMC2958787
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