New insights into the affinities, autoecology, and habit of the Mesozoic fern Weichselia reticulata based on the revision of stems from Bernissart (Mons Basin, Belgium)

The Mesozoic is a key period in fern evolution, with the rise of most modern families. Weichselia reticulata is a widely distributed Jurassic–Cretaceous fern that has been suggested to belong to the Matoniaceae or possibly the Marattiaceae. The most accepted classic whole-plant reconstruction for this species is based on stem and foliage material from the Barremian–Aptian locality of Négresse (Bernissart, Mons Basin, Belgium). In this work, two of these stems are revised and analysed using computed tomography, providing new information on their internal anatomy and external morphology. Weichse... Mehr ...

Verfasser: Blanco Moreno, Candela
Decombeix, Anne Laure
Prestianni, Cyrille
Dokumenttyp: Artikel
Erscheinungsdatum: 2024
Verlag/Hrsg.: Wiley
Schlagwörter: autecology / Early Cretaceous / fern anatomy / plant reconstruction / Bernissart / Weichselia reticulata / Biología y Biomedicina / Biología
Sprache: Englisch
Permalink: https://search.fid-benelux.de/Record/base-28953538
Datenquelle: BASE; Originalkatalog
Powered By: BASE
Link(s) : http://hdl.handle.net/10486/714802

The Mesozoic is a key period in fern evolution, with the rise of most modern families. Weichselia reticulata is a widely distributed Jurassic–Cretaceous fern that has been suggested to belong to the Matoniaceae or possibly the Marattiaceae. The most accepted classic whole-plant reconstruction for this species is based on stem and foliage material from the Barremian–Aptian locality of Négresse (Bernissart, Mons Basin, Belgium). In this work, two of these stems are revised and analysed using computed tomography, providing new information on their internal anatomy and external morphology. Weichselia reticulata has a unique anatomy, distinct from all other extant or fossil ferns. Stem external morphology suggests adaptations to stressful environments, due to the scale insertions, and a thick cortex. Especially noteworthy is the presence of structures interpreted as aerophores or nectaries at the base of putative roots and petioles that could suggest a need for extra ventilation of the frond or interactions with animals. Although these new results do not settle the question of the systematic affinities of Weichselia, they provide new information about its autoecology and allow us to test the validity of previous whole-plant reconstructions ; CB-M is supported by an FPI-UAM 2015 grant from the Universidad Autónoma de Madrid, and benefitted from a grant from the same organization for the work in Montpellier. Collections in the Royal Belgian Institute of Natural Sciences, Brussels, were studied with the support of a grant from the SYNTHESYS Project (http://www.synthesys.info) financed by the European Community Research Infrastructure Action under the FP7 Integrating Activities Program. CP is funded by the BRAIN project BR/143/A3/COLDCASE in the framework of which this research has been done