The Mitridae (Gastropoda: Neogastropoda) of the Miocene Paratethys Sea

Zootaxa ◽  
2021 ◽  
Vol 4983 (1) ◽  
pp. 1-72
Author(s):  
MATHIAS HARZHAUSER ◽  
BERNARD LANDAU
Keyword(s):  
New Species ◽  
Mediterranean Sea ◽  
Middle Miocene ◽  
Carpathian Basin ◽  
The Other ◽  
New Genera ◽  
New Name ◽  
High Diversity

The gastropod family Mitridae in the Miocene Paratethys Sea is revised. In total, 35 species in eight genera are reported. 75% of the species are so far known only from the Paratethys Sea. Biogeographic relations with the adjacent Proto-Mediterranean Sea are moderate and are mainly documented within Cancilla, but nearly absent in the other genera. A slight South-North trend in diversity is observed within the Paratethyan basins, with an outstandingly high diversity of 22 species in the Romanian Făget Basin, but only nine species in the Polish and Ukrainian parts of the Fore-Carpathian Basin.                Fraudiziba nov. gen. and Wormsina nov. gen. are introduced as new genera. Twelve species are described as new: Episcomitra antibellardii nov. sp., Episcomitra leopoldiana nov. sp., Episcomitra pseudoincognita nov. sp., Episcomitra missile nov. sp., Episcomitra neubaueri nov. sp., Domiporta amoena nov. sp., Domiporta pulchra nov. sp., Domiporta turpis nov. sp., Nebularia soliphila nov. sp., Cancilla nanostriatula nov. sp., and Cancilla wagreichi nov. sp. Fraudiziba ottomanica nov. sp. is described as new species from the middle Miocene of the Karaman Basin in Turkey.                Lectotypes are designated for M. austriaca Csepreghy-Meznerics, 1950, Mitra brusinai Hoernes & Auinger, 1880, M. cochlearella Mayer-Eymar, 1890, M. friedbergi Cossmann, 1912, Mitra hoernesi Mayer, 1864, Mitra perangulata Peyrot, 1928, M. praenigra Mayer-Eymar, 1890, and Mitra transsylvanica Hoernes & Auinger, 1880. Fraudiziba paratethyca nov. nom. is proposed as new name for Mitra austriaca Csepreghy-Meznerics 1950 [non Mayer-Eymar, 1898]. 

The Columbellidae (Gastropoda, Buccinoidea) in the Miocene Paratethys Sea—striking diversity of a negelected group

Zootaxa ◽  
2021 ◽  
Vol 5025 (1) ◽  
pp. 1-75
Author(s):  
MATHIAS HARZHAUSER ◽  
BERNARD M. LANDAU
Keyword(s):  
New Species ◽  
West Africa ◽  
Mediterranean Sea ◽  
19Th Century ◽  
Middle Miocene ◽  
New Genera ◽  
Careful Revision ◽  
Climatic Transition ◽  
The 19Th Century ◽  
Distinct Increase

We document 37 Columbellidae species, placed in 15 genera, from the middle Miocene of the Paratethys Sea, adding about 20% of new species to the previously known Columbellidae fauna of the Paratethys. This distinct increase is based on a careful revision of museum material that was collected during the 19th century. A detailed revision revealed numerous misidentifications of published material, which greatly distorted the understanding of many species in the literature. The revised fauna reveals only minimal affinities with coeval faunas from the Proto-Mediterranean Sea and suggests a palaeogeographic subdivision within the Central Paratethys between northern and southern basins. A major drop in columbellid diversity occurred at the Langhian/Serravallian boundary, coinciding with the Miocene Climatic Transition. This event led to a severe diversity decline from a high Langhian level of 32 species, which was comparable in the number of columbellid species to that of the modern Red Sea and tropical West Africa (~23 species), down to a diversity level of nine species, equalling that of the modern Mediterranean Sea.                 Auingeria nov. gen., Bellacolumbella nov. gen., Martaia nov. gen. and Defensina nov. gen. are introduced as new genera. Mitrella dacica nov. sp., Mitrella demaintenonae nov. sp., Mitrella elongatissima nov. sp., Mitrella viennensis nov. sp. and Zafrona sphaerocorrugata nov. sp. are described as new species. Costoanachis venzoi is proposed as replacement name for Anachis (Costoanachis) subcorrugata Venzo & Pelosio, 1963 non Columbella (Anachis) subcorrugata Boettger, 1906.                 Lectotypes are designated for Columbella (Anachis) guembeli Hoernes & Auinger, 1880, Columbella januskiewiczi Friedberg, 1938, Columbella (Mitrella) fallax Hoernes & Auinger, 1880, Atilia (Macrurella) hilberi Cossmann, 1901, Columbella petersi Hilber, 1879, Columbella (Mitrella) complanata Sacco, 1890, Columbella (Mitrella) bittneri Hoernes & Auinger, 1880, Columbella (Orthurella) elongata var. convexula Sacco, 1890, Columbella (Anachis) moravica Hoernes & Auinger, 1880, Columbella (Mitrella) bucciniformis Hoernes & Auinger, 1880, Columbella (Anachis) haueri Hoernes & Auinger, 1880, Columbella (Anachis) austriaca Hoernes & Auinger, 1880, Pyrene (Anachis) bellardii grussbachensis Csepreghy-Meznerics, 1969, Columbella (Anachis) dujardini Hoernes & Auinger, 1880, Columbella (Anachis) zitteli Hoernes & Auinger, 1880, Columbella (Nitidella) karreri Hoernes & Auinger, 1880, and Columbella (Nitidella) katharinae Hoernes & Auinger, 1880.                 Scabrellana is introduced as replacement name for the trilobite genus Scabrella Wenndorf (1990) non Scabrella Sacco, 1890.

Memoirs: On Some Remarkable New Monticellia-Like and Other Cestodes from Sudanese Siluroids

1925 ◽  
Vol s2-69 (276) ◽  
pp. 703-729
Author(s):  
W. N. F. WOODLAND
Keyword(s):  
New Species ◽  
Taenia Solium ◽  
Broad Band ◽  
The Other ◽  
Taenia Saginata ◽  
New Genera ◽  
The Third ◽  
New Family ◽  
Taxonomic Feature ◽  
A New Species

1. Those species of Proteocephalid Cestodes in which the testes are situated in the cortex may be described as of the Monticellia type. Of this type there are three conditions : (a) the Monticellia condition in which the testes, uterus, ovary, and vitellaria are all situated in the cortex; (b) the Rudolphiella condition in which the testes and vitellaria alone are in the cortex, the other organs being entirely or almost entirely in the medulla ; and (c) the Marsypocephalus condition in which the testes alone are in the cortex, all other organs being medullary. Fuhrmann's genus Goezeella is synonymous with Monticellia if we ignore the characters of the scolex as features of generic value. 2. The anatomy of two species of Marsypocephalus is described: Marsypocephalus rectangulus Wedl, 1862, and Marsypocephalus heterobranchus, n.sp., from Nile Siluroid fishes. 3. It is concluded that the cortical situation of the testes and other organs is a taxonomic feature of generic value only (as in Pseudophyllidea in the case of the vitellaria) and La Rue's new family of the Monticellidae, created to include Monticellia-like forms, is not accepted. Monticellia, Rudolphiella, and Marsypocephalus are thus regarded as new genera in the Proteocephalidae. 4. The facts that the ‘Corallobothrium’ type of scolex is found in all of the three genera Monticellia (as amended by me and including ‘Goezeella’ siluri, Fuhrmann), Rudolphiella, and Proteocephalus (as amended by me and including ‘Corallobothrium’ solidum, Fritsch), and that in the Caryophyllaeidae, Bothriocephalidae, and Cyclophyllidea (cf. e.g. Taenia solium and Taenia saginata) minor scolex characters are evidently only features of specific value, compel us to delete such genera as Corallobothrium, Choanoscolex, Acanthotaenia, and my own recent genus Gangesia and to regard them as synonyms of Proteocephalus (La Rue's genus ‘Ophiotaenia’, syn. ‘Crepidobothrium’, not being accepted). Fuhrmann's Goezeella siluri becomes Monticellia siluri, and Fritach's Corallobothrium solidum becomes Proteocephalus solidus. The genera of the Proteocephalidae are thus four in number: Proteocephalus , Monticellia, Rudolphiella , and Marsypocep, halus, and these are formally or informally redefined. The two species of Marsypocephalus are diagnosed. 5. The ‘Taenia malopteruri’ of Fritsch, 1886, is not of the Monticellia type, as suggested by La Rue. Its structure is of the usual Proteocephalid type, save that the scolex possesses a rostellum and a broad band of hooklets and is covered with spinelets. It is renamed Proteocephalus malopteruri. 6. A new species of Clestobothrium--Clestobothrium clarias, from Clarias anguillaris Günth-is described. It is of interest, not only as being the third (second ?) species known of the genus, but because it affords one more illustration of the fact that the characters of the scolex cannot be used for diagnoses of genera. For this reason also, Lönnberg's genus Ptychobothrium (1889) becomes synonymous with Diesing's genus Polyonchobothrium (1884).

The genus Dolichopoda in Greece. A description of new species from the Ionian Regions and Peloponnisos (Orthoptera, Rhaphidophoridae)

Zootaxa ◽  
2008 ◽  
Vol 1923 (1) ◽  
pp. 1-17 ◽  
Author(s):  
MAURO RAMPINI ◽  
CLAUDIO DI RUSSO ◽  
FRANCESCA PAVESI ◽  
MARINA COBOLLI
Keyword(s):  
New Species ◽  
Central Area ◽  
The Other ◽  
The North ◽  
North Eastern ◽  
Western Greece ◽  
High Diversity

Description of five new Dolichopoda species from the Ionian area of Western Greece together with a description of the female for D. pavesii from Kefalonia island and the male of D. dalensi from North-eastern Peloponnisos are reported. Considering the other 6 species already documented in the area (including the North of the Peloponnisos), there is now a total of 11 recorded species of Dolichopoda which currently inhabit the underground areas of this zone. These new data, therefore, help better define the already high diversity of the genus in the Hellenic region (25 species in all) reinforcing the hypothesis that there was a central area of dispersion of the Dolichopoda in the ancient Aegean plate.

Tardigrades from Portugal: four new records and description of two new species

Zootaxa ◽  
2009 ◽  
Vol 2030 (1) ◽  
pp. 21-38 ◽  
Author(s):  
PAULO FONTOURA ◽  
GIOVANNI PILATO ◽  
OSCAR LISI ◽  
PAULO MORAIS
Keyword(s):  
New Species ◽  
Iberian Peninsula ◽  
New Records ◽  
First Record ◽  
The Other ◽  
New Name ◽  
Two New Species ◽  
First Time

Six species of Eutardigrada are recorded from Portugal; four of them, Macrobiotus crenulatus Richters, 1904, Hypsibius seychellensis Pilato, Binda & Lisi, 2006, Diphascon (Diphascon) pingue (Marcus, 1936) and D. (Diphascon) patanei Binda & Pilato, 1971 are recorded for the first time in Portugal. Two species, Minibiotus orthofasciatus sp. nov. and Bertolanius (new name of Amphibolus) portucalensis sp. nov. are new to science. Minibiotus orthofasciatus sp. nov. is one of the species of the genus with three macroplacoids, microplacoid and cuticular pores forming transverse bands. The new species differs from all existing species by one or more of the following characters: distribution of the pores, shape of the pores, absence of dots on the legs, level of insertion of the stylet supports on the buccal tube. To the new species is attributed an unembryonated egg similar to those of Minibiotus intermedius (Plate, 1888), M. poricinctus Claxton, 1998, M. floriparus Claxton, 1998, and M. weglarskae Michalczyk, Kaczmarek & Claxton, 2005 but different from them in some details. Bertolanius portucalensis sp. nov. is very similar to the other species of the genus, but it differs from them in having very small cuticular tubercles. From some of them it differs by characters of the buccopharyngeal apparatus and/or of the eggs. This is the first record of the genus and of the Eohypsibiidae family in the Iberian Peninsula.

New euophryine jumping spiders from Southeast Asia and Africa (Araneae: Salticidae: Euophryinae)

Zootaxa ◽  
2012 ◽  
Vol 3581 (1) ◽  
pp. 53 ◽  
Author(s):  
JUN-XIA ZHANG ◽  
WAYNE P. MADDISON
Keyword(s):  
New Species ◽  
Southeast Asia ◽  
Type Species ◽  
The Other ◽  
New Genera ◽  
Old World ◽  
Jumping Spiders

Sixteen new species and four new genera of euophryine jumping spiders from the Old World (China, Malaysia and SouthAfrica) are described. The new genera are Chinophrys gen. nov. (type species C. pengi sp. nov.), Foliabitus gen. nov.(type species F. longzhou sp. nov.), Parabathippus gen. nov. (type species Bathippus shelfordi Peckham & Peckham, andnew species P. cuspidatus sp. nov., P. kiabau sp. nov., P. magnus sp. nov.) and Parvattus gen. nov. (type species P. zhui sp.nov.). The other new species belong to the genera Colyttus Thorell, 1891 (C. robustus sp. nov.), Emathis Simon, 1899 (E.gombak sp. nov.), Lagnus L. Koch, 1879 (L. edwardsi sp. nov.), Laufeia Simon, 1889 (L. concava sp. nov. and L. eximiasp. nov.), Thiania C. L. Koch, 1846 (T. latibola sp. nov. and T. tenuis sp. nov.) and Thyenula Simon, 1902 (T. laxa sp. nov.,T. nelshoogte sp. nov. and T. wesolowskae sp. nov.). The following species from Southeast Asia once described as Bathip-pus Thorell, 1892 are transferred to Parabathippus gen. nov.: Bathippus birmanicus Thorell, B. digitalis Zhang, Song &Li, B. macilentus Thorell, B. petrae Prószyński & Deeleman-Reinhold, B. rectus Zhang, Song & Li, B. sedatus Peckham& Peckham and B. shelfordi Peckham & Peckham. Laufeia liujiapingensis Yang & Tang is transferred to Chinophrys gen.nov.. Laufeia scutigeraŻabka is transferred to Foliabitus gen. nov.. Diagnostic illustrations are provided for all of the described new species. Photographs of living spiders are also provided for some new species.

Nassarius wesselinghi, new name for the homonymous N. reductus Vermeij and Wesselingh, 2002 (Gastropoda: Nassariidae)

2011 ◽  
Vol 85 (1) ◽  
pp. 178-178
Author(s):  
W. O. Cernohorsky ◽  
G. J. Vermeij
Keyword(s):  
Phylogenetic Analysis ◽  
New Species ◽  
Middle Miocene ◽  
Strict Sense ◽  
Pacific Region ◽  
West Pacific ◽  
New Name ◽  
Freshwater Gastropod ◽  
Peruvian Amazonia

Vermeij and Wesselingh (2002: 267, figs. 3 and 4) named a small freshwater gastropod from the Pebas Formation (middle Miocene) of Peruvian Amazonia as ?Nassarius reductus new species. This name turns out to be a secondary homonym of Nassa reticulata var. reducta Dollfus, 1926 (p. 103-106), a taxon from the Pliocene of Albania. The genus name Nassa as used by Dollfus is a misused variant on the correct genus name Nassarius Duméril, 1806. Although the Peruvian species is clearly not a Nassarius in the strict sense (restricted to the marine Indo-West Pacific region) a global phylogenetic analysis of Nassariidae is needed before its proper allocation can be determined, as already noted by Vermeij and Wesselingh (2002). We here rename the Peruvian fossil as Nassarius (s.l.) wesselinghi in honor of Frank P. Wesselingh who discovered the species. We thank Richard E. Petit for pointing out Dollfus's monograph to us.

scholarly journals Bird Survey of the Abobo-Etetak Hill (Yaounde, Cameroon) and a Glance on the Avifaunistic Diversity of this Hill (Abobo-Etetak)

2017 ◽  
Vol 10 (1) ◽  
pp. 31-41
Author(s):  
Billy Nguembock ◽  
Mahamat Sali ◽  
Kemtchouan William ◽  
Azang Esther Diane Olivia ◽  
Guehoada Yollande ◽  
...  
Keyword(s):  
New Species ◽  
Human Activities ◽  
Diversity Index ◽  
New Genera ◽  
Equal Distribution ◽  
Bird Survey ◽  
Centre Region ◽  
High Diversity

Introduction: We conducted a preliminary bird survey in the Abobo-Etetak hill (Yaounde, Cameroon). Methods: To carry out this survey, we used the mist-netting method and we captured birds over a period of six months. To study the distribution of this avifauna in their life environment, we performed several analyses to obtain various diversity indexes such as implemented in softwares SAS/STAT and PAST. Results: Three hundred and eleven individuals were captured belonging to 21 passerine and non-passerine families distributed into 39 genera and 51 species. We recorded new species for the area: Anthus brachyurus, Cinnyris reichenowi, Euplectes gierowii, Hirundo fuligula, Nicator vireo, Pogoniulus atroflavus and Pogoniulus subsulphureus, and Terpsiphone rufocinerea. Species documented were from the families Lybiidae, Motacillidae, Nectariniidae, Hirundinidae, Nicatoridae, Ploceidae and Monarchidae. Species from two new genera were recorded, Cinnyris (Sunbirds) and Terpsiphone (Monarchs). Estimated diversity index values show that the Abobo-Etetak hill exhibits high avifaunistic diversity. Conclusion: Our results found an absence of the supremacy of one species (H’=3.34) and the value of the Equitability index (J’=0.85) suggests an equal distribution of the individuals across species. With the obtained value of the index of Simpson diversity of 0.95, our result suggests high diversity within the Abobo-Etetak avifauna, which could be explained by luxuriant vegetation that is present all year round. Human activities have had an impact on the diversity of this avifauna with the presence of some genera sampled (Ploceus, Passer, Estrilda, Pycnonotus and Spermophaga) but the relic Centre Region of Cameroon which preserves its originality offers on the whole favourable conditions to birds.

scholarly journals Revision of the South American genus Gaujonia Dognin (Noctuidae, Pantheinae) with descriptions of five new genera and twenty-one new species

ZooKeys ◽  
2020 ◽  
Vol 985 ◽  
pp. 71-126
Author(s):  
Jose I. Martinez
Keyword(s):  
Phylogenetic Analysis ◽  
New Species ◽  
Morphological Characters ◽  
The Other ◽  
South American ◽  
New Combinations ◽  
New Genera ◽  
The South ◽  
Molecular Analyses ◽  
One New Species

The endemic Neotropical genus Gaujonia Dognin is revised. Morphological characters and a phylogenetic analysis demonstrate paraphyletic relationships among the species. Four different groups are interpreted to represent four different genera. The G. arbosi group is the only remaining clade in the genus Gaujonia, and the other groups have been arranged into three new genera: Milleranagen. nov., Oculicattusgen. nov., and Cicadoformagen. nov. Additionally, two other genera Cicadomorphusgen. nov., and Gaujopteragen. nov. were found using morphological and molecular analyses based on some specimens that were misidentified as Gaujonia spp. A total of five new genera, three new combinations (Cicadoforma vau-nigrum Hampson, comb. nov., Oculicattus renifera Hampson, comb. nov., and Millerana arbosioides Dognin, comb. nov.) and 21 new species (Cicadoforma ocelotussp. nov., Cicadomorphus chicharrasp. nov., Cicadomorphus chuyasp. nov., Cicadomorphus falkasiskasp. nov., Cicadomorphus lilianaesp. nov., Gaujonia bichusp. nov., Gaujonia chiqyaqsp. nov., Gaujonia kanakusikasp. nov., Gaujonia sourakovisp. nov., Gaujoptera amsasp. nov., Millerana austinisp. nov., Millerana cajassp. nov., Millerana cundinamarquensissp. nov., Millerana matthewsaesp. nov., Millerana tigrinasp. nov., Oculicattus bolivianasp. nov., Oculicattus brehmisp. nov., Oculicattus incasp. nov., Oculicattus raizaesp. nov., Oculicattus schmidtisp. nov., and Oculicattus uturunkusp. nov.) are established.

New euophryine jumping spiders from Papua New Guinea (Araneae: Salticidae: Euophryinae)

Zootaxa ◽  
2012 ◽  
Vol 3491 (1) ◽  
pp. 1 ◽  
Author(s):  
JUN-XIA ZHANG ◽  
WAYNE P. MADDISON
Keyword(s):  
New Species ◽  
Papua New Guinea ◽  
Type Species ◽  
New Guinea ◽  
The Other ◽  
New Genera ◽  
Jumping Spiders ◽  
Genital Structure

Thirty-four new species and five new genera of euophryine jumping spiders from Papua New Guinea are described. Thenew genera are Chalcolemia (type species C. nakanai sp. nov.), Phasmolia (type species P. elegans sp. nov.), Variratina(type species V. minuta sp. nov.), Viribestus (type species V. suyanensis sp. nov.) and Zabkattus (type species Z. brevis sp.nov., plus new species Z. furcatus sp. nov., Z. richardsi sp. nov. and Z. trapeziformis sp. nov.). The other new species belong to the genera Bathippus (B. directus sp. nov., B. gahavisuka sp. nov., B. korei sp. nov., B. madang sp. nov.), Canama(C. extranea sp. nov., C. fimoi sp. nov., C. triramosa sp. nov.), Omoedus (O. brevis sp. nov., O. darleyorum sp. nov., O.meyeri sp. nov., O. omundseni sp. nov., O. papuanus sp. nov., O. swiftorum sp. nov., O. tortuosus sp. nov.), Paraharmochi-rus (P. tualapaensis sp. nov.), Sobasina (S. wanlessi sp. nov.), Thorelliola (T. aliena sp. nov., T. crebra sp. nov., T. joannaesp. nov., T. squamosa sp. nov., T. tamasi sp. nov., T. tualapa sp. nov., T. zabkai sp. nov.) and Xenocytaea (X. agnarssonisp. nov., X. albomaculata sp. nov., X. proszynskii sp. nov.). The genera Pystira and Zenodorus are both considered as juniorsynonyms of Omoedus because of their similar genital structure. Species of these two genera are therefore transferred toOmoedus. Diagnostic illustrations are provided for all new species, and photographs of living spiders are also provided when available.

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