* Astronomy

Giant Pterygotid Sea Scorpions: "Terror" Of The Paleozoic Seas

Experiments by a team of researchers in New York and New Jersey have generated evidence that questions the common belief that the pterygotid eurypterids ("sea scorpions") were high-level predators in the Paleozoic oceans.
This group, which ranged the seas from about 470 to 370 million years ago (long before the dinosaurs appeared), included the largest and, arguably, scariest-looking arthropods known to have evolved on planet Earth. Reaching lengths of 2 ½ meters with a body supported by well-developed legs, and armed with a pair of forward-facing claws laden with sharp projecting spines, they seem like the Tyrannosaurus rex among the invertebrates.
Read more

The Bird Spring Shelf in southeastern California and basins to the west reveal a complex history of late Palaeozoic sedimentation, sea-level changes, and deformation along the western North American continental margin. A new book published by the Geological Society of America captures insights into the tectonics and paleogeography of the region.
The Carboniferous (Pennsylvanian)-Early Permian Bird Spring Carbonate Shelf, Southeastern California: Fusulinid Biostratigraphy, Paleogeographic Evolution, and Tectonic Implications focuses on evidence from ancient seas across a considerable expanse of geologic time.

"Detailed correlations between fusulinid-bearing rocks of the Bird Spring Shelf and deep-water deposits to the northwest reveal the complex history of the area. They confirm the late Palaeozoic as a time of major tectonic instability on the continental margin" - author Calvin Stevens of San Jose State University in California.

Fusulinids, single-celled marine organisms with multiple chambers composed of calcite, typically resemble grains of wheat. They inhabited the world's seas 315 to 250 million years ago and disappeared during the end-Permian mass extinction. Today they are important guide fossils in understanding Carboniferous (Pennsylvanian) and Permian rocks and systems.
Stevens and co-author Paul Stone, U.S. Geological Survey, Menlo Park, recognised 69 fusulinid species which subsequently formed the basis of their correlations. They utilised recent data from the same area on conodonts, another extinct marine creature, to place their work in the context of standard Permian timescales.
According to Stevens a number of the fusulinid species were described as new while others allow comparison with those from other regions. The resulting reconstructions provide a more complete picture of the geology of western North America during the late Palaeozoic.

Source : Geological Society of America