CARBONIFEROUS PALEOECOLOGICAL SCENARIOS

Early Carboniferous floras (Mississippian) are poorly known because of limited outcrop exposure and study.

In general:

Lepidodendropsis forest in 
Virginia
  • Arborescent lycopsids found in the Late Devonian (Lepidodendropsis) persist into the Early Carboniferous. They are maintained in coastal lowland wetland settings. The photograph on the left illustrates a Lepidodendropsis forest from the Mississippian of Virginia described by Scheckler and Beeler.

Late Carboniferous floras are ecologically diverse and probably best known pre-Neogene vegetation. Individual plant groups have established characteristic biologies & ecologies, and at no other time in earth history do we see this systematic-specific condition. The Late Carboniferous forests had the highest ecological guild structure known in the history of terrestrial vegetation, because five major groups of plants coexisted as equals within the forest structure.

Phillips Reconstruction

These groups are:

LYCOPHYTES - Predominantly in coastal lowland peat and clastic swamps, and exhibiting a pole-tree architecture. Diverse autecological behavior, and different taxa are edaphically controlled. Support of the plant was derived from extensive bark tissues.

SPHENOPHYTES - Calamites are clonal trees, forming dense stands probably in wetland soils including lake margins. Another order of sphenopsids, the Sphenophyllales, were ground creepers or lianas.

PTERIDOPHYTES - Diversify throughout the Late Carboniferous and Permian, and tree ferns dominate the latter part of the Paleophytic. Potential for colonizing due to reproductive strategy of homospory. Some forms are small and probably represent ground scramblers or lianas. Tree ferns are entirely primary tissues, supported by aerenchymatous adventitious roots.

PTERIDOSPERMS - Large diversity in growth forms, occupying coastal lowland floodplains and probably extrabasinal areas. Tree forms may develop to 10 meters in height, forming an understory component. Some forms with leaves up to 7 m in length, whereas other forms are small and liana-like. Seed diversity in size & morphology suggests a variety of ecological roles and pollination syndromes. Plants constructed of some wood and sclerenchyma-rich cortical tissues, and probably had high growth rates.

CORDAITES - Ecologically diverse. Plays a number of roles in several sites including ground cover, ?mangrove-type habits, and significance in extrabasinal coastal lowlands where they may have developed gallery forestation. Large, woody trees with slow growth rates and K-selected.

OTHER GYMNOSPERMS - Few extrabasinal "windows" exist, and where data is available, the floras suggest that there is a broad-leaved flora. Extrabasinal forms include conifers (Westphalian B).

The end of the Pennsylvanian witnessed major perturbations in terrestrial communities, with the demise of the arborescent lycopsids and the rise of tree ferns. This turnover has been discussed by Gastaldo, DiMichele and Pfefferkorn and Kerp.

Several Late Pennsylvanian-aged sites have yielded exquisitely preserved soft-bodied organisms in a variety of Fossil Lagerstätten. Take a virtual tour of these at the Illinois State Museum's Mazon Creek site and the West Lancashire coalfield in Great Britain.


LATE PALEOPHYTIC FLORAL COMMUNITIES

The climate in the Permian of the northern hemisphere changed dramatically and this is reflected in the floral assemblages. Pre-Permian drying trends eliminated the swamp-centered lycophytes and increased the presence of Marattialan tree ferns. The drying trend at the end of the Carboniferous is reflected in the proliferation of coniferalean plants along with the "seed ferns" and true ferns.

Greg Retallack has provided reconstructions of Past Soilscapes from both the Carboniferous (310 Ma) paleosols of Lochinvar, New South Wales (Retallack, 1998), and Late Permian (251 Ma) paleosols from the Sydney Basin, Australia (Retallack, 1998).

CORDAITEAN CONIFERS

    • Walchiaceae: These trees are typified by Walchia, Ernestiodendron and Ortiseia known from Upper Carboniferous and Permian localities. The trees had branching patterns similar to living Norfolk Island Pine (Araucaria), and bore unisexual fructifications in cones. The female cones differ dramatically from modern coniferous plants with a terminal ovule(s) on a dwarf shoot that adaxial to a bifurcate bract. Pollen-producing cones are similar to modern conifers.
Walchian conifer branch

PTERIDOSPERMS:

This group continues in the Late Paleophytic and evolves new community components that include the genus Callipteris, a peltasperm "seed fern." These plants were probably small trees or shrubs with bifurcate leaves. The reproductive structures are unique with 10-20 ovules attached in a ring on the underside of a peltate, disc-like organ. These were helically arranged on a central stalk.

Once again, terrestrial perturbation in the Late Paleozoic resulted in a dramatic change in community structure. This Permian Floral Break has been investigated by several European workers including Hans Kerp.


LATE PALEOPHYTIC FLORAL COMMUNITY DISTRIBUTION

Three (3) or four (4) major paleofloristic provinces existed in the Late Paleozoic: Gondwana, Angara/Subangara, Cathaysian, Euramerican (the latter combined by some authors as the Circumtethys unit). The floral diversification is due to global climate patterns reflecting the proximity glacial terrains, equatorial positions, and temperate.

Mapes & Gastaldo Flora Distribution Map
Paleogeographic restoration of Late Paleozoic floras depicting the distribution of the Euramerican, Angaran/Subangaran, Cathyasian and Gondwanan provinces. Base map adatped from Scotese et al. (1979).

© Copyright 1997-1998 by Robert A. Gastaldo. All rights reserved. No part of these lecture notes may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopy, recording, or any information storage and retrieval system, without permission from the author.