Extinct peccary “Cynorca” occidentale (Tayassuidae, Tayassuinae) from the Miocene of Panama and correlations to North America

2010 ◽  
Vol 84 (2) ◽  
pp. 288-298 ◽  
Author(s):  
Bruce J. Macfadden ◽  
Michael X. Kirby ◽  
Aldo Rincon ◽  
Camilo Montes ◽  
Sara Moron ◽  
...  
Keyword(s):  
New World ◽  
Middle Miocene ◽  
Panama Canal ◽  
Local Fauna ◽  
Habitat Mosaics ◽  
Modern Ecology ◽  
Open Country ◽  
Land Mammal ◽  
Primitive Member

Recently collected specimens of the extinct tayassuine peccary “Cynorca” occidentale (and another indeterminant tayassuid) are described from new excavations along the southern reaches of the Panama Canal. Fossil peccaries were previously unknown from Panama, and these new tayassuid specimens therefore add to the extinct mammalian biodiversity in this region. “Cynorca” occidentale occurs in situ in the Centenario Fauna (new name) from both the upper part of the Culebra Formation and overlying Cucaracha Formation, thus encompassing a stratigraphic interval that includes both of these formations and the previously described and more restricted Gaillard Cut Local Fauna. “Cynorca” occidentale is a primitive member of the clade that gives rise to modern tayassuines in the New World. Diagnostic characters for “C.” occidentale include a retained primitive M1, reduced M3, and shallow mandible, and this species is small relative to most other extinct and modern tayassuine peccaries. Based on the closest biostratigraphic comparisions (Maryland, Florida, Texas, and California), the presence of “C.” occidentale indicates an interval of uncertain duration within the early Hemingfordian (He1) to early Barstovian (Ba 1) land mammal ages (early to middle Miocene) for the Centenario Fauna, between about 19 and 14.8 million years ago. Based on what is known of the modern ecology of tayassuines and previous paleoecological interpretations for Panama, “C.” occidentale likely occupied a variety of environments, ranging from forested to open country habitat mosaics and fed on the diverse array of available plants.

Three-toed browsing horse Anchitherium (Equidae) from the Miocene of Panama

2009 ◽  
Vol 83 (3) ◽  
pp. 489-492 ◽  
Author(s):  
Bruce J. MacFadden
Keyword(s):  
Twentieth Century ◽  
North America ◽  
New World ◽  
Middle Miocene ◽  
Ground Cover ◽  
Panama Canal ◽  
Local Fauna ◽  
Recent Addition ◽  
Current Report

During the Cenozoic, the New World tropics supported a rich biodiversity of mammals. However, because of the dense vegetative ground cover, today relatively little is known about extinct mammals from this region (MacFadden, 2006a). in an exception to this generalization, fossil vertebrates have been collected since the second half of the twentieth century from Neogene exposures along the Panama Canal. Whitmore and Stewart (1965) briefly reported on the extinct land mammals collected from the Miocene Cucaracha Formation that crops out in the Gaillard Cut along the southern reaches of the Canal. MacFadden (2006b) formally described this assemblage, referred to as the Gaillard Cut Local Fauna (L.F., e.g., Tedford et al., 2004), which consists of at least 10 species of carnivores, artiodactyls (also see recent addition of peccary in Kirby et al., 2008), perissodactyls, and as described by Slaughter (1981), rodents. Prior to the current report, the horses (Family Equidae) from the Gaillard Cut L.F. consisted of only four fragmentary specimens including: two isolated teeth, i.e., one each of Archaeohippus sp. Gidley, 1906 and Anchitherium clarencei Simpson, 1932; a heavily worn partial dentition with p2-p4 of A. clarenci; and a partial calcaneum of Archaeohippus. Although meager, these fossils appear to represent two distinct taxa of three-toed horses otherwise know from the middle Miocene of North America, i.e., the dwarf-horse Archaeohippus sp. and the larger Anchitherium clarencei.

scholarly journals VRTBY ICHNORODU GASTROCHAENOLITES JAKOŽTO ŽIVOTNÍ PROSTOR MLŽŮ Z LOKALITY BORAČ-PODOLÍ (KARPATSKÁ PŘEDHLUBEŇ, ČESKÁ REPUBLIKA)

2018 ◽  
Vol 25 (1-2) ◽  
Author(s):  
Jaroslav Šamánek ◽  
Radek Mikuláš ◽  
Nela Doláková ◽  
Šářka Hladilová
Keyword(s):  
Shallow Water ◽  
Water Transport ◽  
Middle Miocene ◽  
The State ◽  
Secondary User ◽  
Hiatella Arctica ◽  
Fossil Material ◽  
The Town ◽  
Hard Substrates

In 2015 the locality Borač-Podolí was newly examined. The locality is situated 8 km NW from the town of Tišnov. A large amount of shallow-water fossils of middle Miocene (Badenian) age was collected. The state of preservation of the material enabled us bivalve borings of ichnogenus Gastrochaenolites which were bored into colonies of hermatype corals and other calcareous hard substrates. In some of these borings, bivalves were found in situ. The borings were determined as Gastrochaenolites isp., Gastrochaenolites orbicularis, Gastrochaenolites lapidicus, Gastrochaenolites dijugus and Gastrochaenolites torpedo. The in situ bivalves were determined as Gastrochaena cf. intermedia, Rocellaria cf. dubia, Hiatella arctica and Cardita calyculata. The first three species probably represent primary borers while Cardita calyculata is probably a secondary user (squatter). Based on an analysis of fossil material, we can assume that borings were created aft er the death of corals during the repeated transport of these bioclasts. It led to colonizing of the whole surface of coral bioclasts. The bioclasts were then moved to deeper water. Transport to water with clay sedimentation enabled the preservation of the bivalves in situ in borings.

scholarly journals Herpetological phylogeographic analyses support a Miocene focal point of Himalayan uplift and biological diversification

2020 ◽  
Author(s):  
Wei Xu ◽  
Wen-Jie Dong ◽  
Ting-Ting Fu ◽  
Wei Gao ◽  
Chen-Qi Lu ◽  
...  
Keyword(s):  
Middle Miocene ◽  
Focal Point ◽  
Himalayan Region ◽  
The World ◽  
Early Paleocene ◽  
The Rich ◽  
Source Of Information ◽  
The Himalaya ◽  
Exact Timing

Abstract The Himalaya are among the youngest and highest mountains in the world, but the exact timing of their uplift and origins of their biodiversity are still in debate. The Himalayan region is a relatively small area but with exceptional diversity and endemism. One common hypothesis to explain the rich montane diversity is uplift-driven diversification–that orogeny creates conditions favoring rapid in situ speciation of resident lineages. We test this hypothesis in the Himalayan region using amphibians and reptiles, two environmental sensitive vertebrate groups. In addition, analysis of diversification of the herpetofauna provides an independent source of information to test competing geological hypotheses of Himalayan orogenesis. We conclude that the origins of the Himalayan herpetofauna date to the early Paleocene, but that diversification of most groups was concentrated in the Miocene. There was an increase in both rates and modes of diversification during the early to middle Miocene, together with regional interchange (dispersal) between the Himalaya and adjacent regions. Our analyses support a recently proposed stepwise geological model of Himalayan uplift beginning in the Paleocene, with a subsequent rapid increase of uplifting during the Miocene, finally give rise to the intensification of the modern South Asia Monsoon.

scholarly journals Muskrat (Ondatra zibethicus) interference with aquatic invertebrate traps

2014 ◽  
Vol 128 (2) ◽  
pp. 200 ◽  
Author(s):  
Michael C. Cavallaro ◽  
Anson R. Main ◽  
Christy A. Morrissey
Keyword(s):  
Aquatic Insect ◽  
Aquatic Invertebrate ◽  
Ondatra Zibethicus ◽  
Local Fauna ◽  
Insect Emergence ◽  
Litter Bags ◽  
Structural Modifications ◽  
Aquatic Insect Emergence ◽  
Emergence Traps

In field biology, interactions between wildlife and in situ equipment occur often. These interactions have the potential to induce a variety of behaviours in local fauna. Here, we note the destructive behaviour exhibited by the Muskrat (Ondatra zibethicus) following deployment of aquatic invertebrate traps for research purposes at 12 wetlands located in central Saskatchewan. Of 24 aquatic insect emergence traps used on seven wetlands in our study, 14 (58%) required recurring repairs. In addition, on several occasions, leaf litter bags and their anchoring stakes were torn or chewed. The recurring damage took place in wetlands with Muskrat lodges. We recommend structural modifications to aquatic invertebrate traps in wetland complexes densely inhabited by Muskrats and other semi-aquatic rodents.

Evaluation of an In-Situ Neonatal Resuscitation Simulation Program Using the New World Kirkpatrick Model

2021 ◽  
Vol 50 ◽  
pp. 27-37
Author(s):  
Manini Bhatia ◽  
Alice E. Stewart ◽  
Andrea Wallace ◽  
Arunaz Kumar ◽  
Atul Malhotra
Keyword(s):  
New World ◽  
Neonatal Resuscitation ◽  
Simulation Program ◽  
Kirkpatrick Model

An early heron (Aves, Ardeidae, Ardea) from the Middle Miocene of Nebraska

1986 ◽  
Vol 60 (4) ◽  
pp. 968-970 ◽  
Author(s):  
Jonathan J. Becker
Keyword(s):  
Brown Coal ◽  
Middle Miocene ◽  
Mining District ◽  
Large Species ◽  
Local Fauna ◽  
Fossil Species ◽  
Specific Identification ◽  
Upper Miocene ◽  
Living Species

The genus Ardea includes all living species of large herons. Brodkorb (1963) listed five fossil species of Ardea, and only one fossil species has since been described. Of these six, only two are unquestionably members of the genus Ardea. Ardea brunhuberi von Ammon, 1918, from the Upper Miocene Brown Coal Formation, Württemburg, Germany, was moved by Brodkorb (1980) to the Phalacrocoracidae as Phalacrocorax brunhuberi. Brodkorb (1980) considered A. lignitum Giebel, 1860, from the Sarmatian Brown Coal of Rippersroda, Thuringia, Germany, to be a large owl in the genus Bubo. Olson (1985) similarly regards A. perplexa from the Astaracian of Sansan, France, to be a large owl, possibly in the genus Bubo. The type of Ardea aureliensis Milne-Edwards, 1871, from the Oreleanian of Suevres, France, has never been illustrated or restudied and its affinities need to be confirmed (Olson, 1985). The valid fossil species are Ardea polkensis Brodkorb, 1955, from the late Hemphillian Bone Valley Mining District, Florida, and A. howardae Brodkorb, 1980, from the Plio/Pleistocene Shungura Formation, Omo Basin, Ethiopia. A large species of Ardea is also known from the late Clarendonian Love Bone Bed local fauna, Florida, but is based on material too fragmentary for specific identification (Becker, 1985). This note reports the earliest certain occurrence of Ardea now known.

Redescription of two ghost shrimps (Decapoda: Axiidea: Callianassidae) from the Middle Miocene of the Central Paratethys: systematics, intraspecific variation, and in situ preservation

Zootaxa ◽  
2012 ◽  
Vol 3210 (1) ◽  
pp. 1 ◽  
Author(s):  
MATÚŠ HYŽNÝ ◽  
NATÁLIA HUDÁČKOVÁ
Keyword(s):  
Intraspecific Variation ◽  
Middle Miocene ◽  
Type Material ◽  
Central Paratethys ◽  
In Situ Preservation ◽  
Major Cheliped ◽  
Material Form

A redescription of two Middle Miocene burrowing ghost shrimps of the Central Paratethys, Callianassa brocchiiLőrenthey, 1897 and Callianassa pseudorakosensis Lőrenthey in Lőrenthey & Beurlen, 1929, is provided. Material form-ing the basis of this study comes from the Studienka Formation (lower 'Sarmatian', Serravallian) of the Slovak part of theVienna Basin and exhibits preservation allowing reassignment of the studied taxa to the genera Neocallichirus Sakai, 1988and Eucalliax Manning & Felder, 1991 respectively. The major cheliped of both species exhibits two distinct morphotypesinterpreted herein as possible sexual dimorpism. Several specimens of both taxa are preserved within the tube structuresand are interpreted as in situ preservation within the burrows. Type material of both studied taxa and additional collections from the roughly coeval strata of Hungary and Austria were also studied.

A Note on Jadeite from Manzanal, Guatemala

1957 ◽  
Vol 22 (4) ◽  
pp. 411-412 ◽  
Author(s):  
George B. Barbour
Keyword(s):  
New World ◽  
The Other ◽  
Raw Material

As far as can be learned from a study of the scientific contributions of Yoder (1950), Foshag (1945), and others who have dealt with the jade-jadeite problem, it appears that, although the presence of one or the other mineral has been reported from a considerable list of widely separated localities in both the Old and the New World, the exact conditions leading to their development have been subject to controversy, partly because occurrence in situ is extremely rare. The passing references to places from which the Mayans secured their supplies of raw material are in general vague, based on hearsay or traditional accounts, combined with inferences relating to the abundant artifacts unearthed at classical sites.

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