*** Welcome to piglix ***

Petrified palmwood

Palmoxylon
Temporal range: Late Cretaceous to Early Miocene 84.9–11.6 Ma
Petrified-Forest-Chemnitz4.JPG
Palmoxylon sp. wood round
Scientific classification
Kingdom: Plantae
(unranked): Angiosperms
(unranked): Monocots
(unranked): Commelinids
Order: Arecales
Family: Arecaceae
Subfamily: Coryphoideae
Genus: Palmoxylon
Schenk, 1882
Species

See text


See text

Palmoxylon (Petrified palmwood) is an extinct genus of palm named from petrified wood found around the world.

This genus is known in the fossil record from the Cretaceous to the Miocene (from about 84.9 to 11.6 million years ago). Fossils of species within this genus have been found in Germany, United States, Egypt, Libya and Argentina.

A number of species from the Cretaceous and Cenozoic have been described from the Patagonia region of South America. There have been a number of species reported from Egypt which are dated to the Late Eocene and Early Miocene.

Specimens from the Oligocene epoch (34 - 23 mya) can be collected from many scattered sites in east Texas and western Louisiana. Fossils found near fossil palmwood include corals, sponges, and mollusks, indicating that the palms grew along prehistoric beaches. For millions of years, the Gulf Coast shoreline has been moving farther south.

In Texas and Louisiana, petrified palmwood is most common in the Toledo Bend area, which is shared by both states. It was left by trees that grew when the Gulf of Mexico's shoreline was much farther north from its present-day position. In Louisiana, petrified palmwood is found in the parishes of Rapides, Natchitoches, Grant, and Sabine.

Petrified palmwood includes a group of fossil woods that contain prominent rod-like structures within the regular grain of the silicified wood. Depending upon the angle at which they are cut by fracture, these rod-like structures show up as spots, tapering rods, or continuous lines. The rod-like structures are sclerenchyma bundles that comprise part of the woody tissues that gave the wood its vertical strength.


...
Wikipedia

...