Publikation: Pollen cones of Afrocarpus and Podocarpus (Podocarpaceae, Coniferales) in the light of conifer evolution and Zimmermann's telome theory
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Pollen cones from various species of Podocarpaceae were investigated and a new evolutionary model of coniferous male reproductive structures is proposed. The inflorescence-like groups of pollen cones are identified as dense pollen cone clusters. These clusters result from a significant reduction in the length of the internodes of the fertile shoot axis, coupled with a shift of the cones towards the distal end. There is strong evidence that the simple structure of each pollen cone originates from a markedly reduced pseudanthial structure. The lateral hyposporangiate microsporangiophores are dorsiventral synangia comprising numerous fused, stalked microsporangia. It is highly likely that the hyposporangiate structure evolved from an ancestral radial (= perisporangiate) condition. The distal, leaf-like scutellum is formed by one or more sterile microsporangia that are fused and compressed. Contrary to the widely held view, the scutellum is not the tip of a microsporophyll. Based on Zimmermann's telome theory it is demonstrated how microsporangia can be produced in the absence of a microsporophyll.
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DÖRKEN, Veit, Thomas STÜTZEL, 2026. Pollen cones of Afrocarpus and Podocarpus (Podocarpaceae, Coniferales) in the light of conifer evolution and Zimmermann's telome theory. In: Flora. Elsevier. 2026, 335, 152906. ISSN 0367-2530. eISSN 1618-0585. Verfügbar unter: doi: 10.1016/j.flora.2025.152906BibTex
@article{Dorken2026-02Polle-75659,
title={Pollen cones of Afrocarpus and Podocarpus (Podocarpaceae, Coniferales) in the light of conifer evolution and Zimmermann's telome theory},
year={2026},
doi={10.1016/j.flora.2025.152906},
volume={335},
issn={0367-2530},
journal={Flora},
author={Dörken, Veit and Stützel, Thomas},
note={Article Number: 152906}
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<dcterms:abstract>Pollen cones from various species of Podocarpaceae were investigated and a new evolutionary model of coniferous male reproductive structures is proposed. The inflorescence-like groups of pollen cones are identified as dense pollen cone clusters. These clusters result from a significant reduction in the length of the internodes of the fertile shoot axis, coupled with a shift of the cones towards the distal end. There is strong evidence that the simple structure of each pollen cone originates from a markedly reduced pseudanthial structure. The lateral hyposporangiate microsporangiophores are dorsiventral synangia comprising numerous fused, stalked microsporangia. It is highly likely that the hyposporangiate structure evolved from an ancestral radial (= perisporangiate) condition. The distal, leaf-like scutellum is formed by one or more sterile microsporangia that are fused and compressed. Contrary to the widely held view, the scutellum is not the tip of a microsporophyll. Based on Zimmermann's telome theory it is demonstrated how microsporangia can be produced in the absence of a microsporophyll.</dcterms:abstract>
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