Morphological revision of Copemys loxodon, type species of the Miocene cricetid Copemys (Mammalia, Rodentia): a key to understanding the history of New World cricetids

We provide a new morphological description of the holotype and a previously undescribed large sample of the type species of the genus Copemys Wood, 1936, Copemys loxodon (Cope, 1874a), a Miocene North American cricetid rodent occasionally treated as the ancestor of the non-arvicoline cricetids (i.e., neotomines, sigmodontines, and tylomyines). Dental, mandibular, and skull morphology is described from material recovered in a quarry in the vicinity of the type locality in the Española Valley of New Mexico, U.S.A. Copemys loxodon is a small, brachydont cricetid characterized by a mandible with a large mental foramen lateral in position and an enlarged retromolar fossa; the skull having wide infraorbital foraminae and robust zygomatic arches; and the upper molars being pentalophodont, the lower molars tetralophodont. The procingulum of the M1 has two conules, an enamel atoll is present on the M2, and the procingulum of m1 is composed exclusively of the lingual conulid. Preliminary comparisons among representatives of the 11 species of Copemys suggest that some forms currently recognized as Copemys probably do not belong to that genus, as indicated both by our results and those of other recent studies. Understanding the limits of variation in the type species of Copemys provides a starting point for the development of a more detailed phylogenetic analysis of early North American cricetids and their possible descendants.Fil: Ronez, Christophe. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Centro Nacional Patagónico. Instituto de Diversidad y Evolución Austral; ArgentinaFil: Repetto Alcorta, Martin Roberto. Murray State University; Estados UnidosFil: Pardiñas, Ulises Francisco J.. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Centro Nacional Patagónico. Instituto de Diversidad y Evolución Austral; Argentina. Instituto Nacional de Biodiversidad; Ecuado

Parameterized Model Order Reduction

This Chapter introduces parameterized, or parametric, Model Order Reduction (pMOR). The Sections are offered in a prefered order for reading, but can be read independently. Section 5.1, written by Jorge Fernández Villena, L. Miguel Silveira, Wil H.A. Schilders, Gabriela Ciuprina, Daniel Ioan and Sebastian Kula, overviews the basic principles for pMOR. Due to higher integration and increasing frequency-based effects, large, full Electromagnetic Models (EM) are needed for accurate prediction of the real behavior of integrated passives and interconnects. Furthermore, these structures are subject to parametric effects due to small variations of the geometric and physical properties of the inherent materials and manufacturing process. Accuracy requirements lead to huge models, which are expensive to simulate and this cost is increased when parameters and their effects are taken into account. This Section introduces the framework of pMOR, which aims at generating reduced models for systems depending on a set of parameters