2025 in paleomalacology

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This list of fossil molluscs described in 2025 is a list of new taxa of fossil molluscs that were described during the year 2025, as well as other significant discoveries and events related to molluscan paleontology that occurred in 2025.

Ammonites

Name	Novelty	Status	Authors	Age	Type locality	Location	Notes
Bajocia paiardinii^[1]	Sp. nov		Chandler & Cresta	Middle Jurassic (Bajocian)		Italy	A member of the family Stephanoceratidae.
Goniatites amarensis^[2]	Sp. nov	Valid	Korn & Ebbighausen	Carboniferous (Viséan)		Morocco	A member of the family Goniatitidae.
Herbigites^[3]	Gen. et sp. nov		Becker	Devonian (Givetian)		Morocco	A member of Pharciceratoidea. The type species is H. mdourensis.
Hybopeltoceras olorizi^[4]	Sp. nov		Sarti et al.	Late Jurassic (Tithonian)	Bugarone Formation	Italy	A member of the family Aspidoceratidae.
Itierella^[5]	Gen. et sp. nov	Valid	Pictet, Hugon & Pierangelini	Early Cretaceous (Valanginian)	Grand Essert Formation	France	A member of the family Neocomitidae. The type species is I. melognensis.
Jurienella^[6]	Gen. et comb. nov	Valid	Pictet & Bulot	Early Cretaceous (Hauterivian)		France Switzerland	A member of the family Neocomitidae. The type species is "Breistrofferella" peyroulensis Atrops, Autran & Reboulet (1996).
Merocanites consequius^[7]	Sp. nov	Valid	Korn	Carboniferous (Viséan)	Zrigat Formation	Morocco	A member of the family Prolecanitidae.
Oufranoceras^[3]	Gen. et sp. nov		Becker	Devonian (Givetian)		Morocco	A member of the family Taouzitidae. The type species is O. perliratum.
Paradicostella^[5]	Gen. et sp. nov	Valid	Pictet, Hugon & Pierangelini	Early Cretaceous (Valanginian)	Grand Essert Formation	France	A member of the family Neocomitidae. The type species is P. hautevillelompnesensis.
Protopharciceras^[3]	Gen. et comb. nov		Becker	Devonian (Givetian)		Morocco	A member of Pharciceratoidea. The type species is "Pharciceras" bidentatum Petter (1959).
Xenoglyphioceras^[7]	Gen. et sp. nov	Valid	Korn	Carboniferous (Viséan)	Zrigat Formation	Morocco	A member of the family Ferganoceratidae. The type species is X. eidos.

Ammonite research

Đaković, Mrdak & Gawlick (2025) describe three assemblages of Anisian ammonoids from the Komarani and Bulog formations (Montenegro), including fossils of Ptychites rugifer, Megaphyllites obolus, Parakellnerites rothpletzi, Apleuroceras decrescens, Proteusites labiatus, Tropigastrites lahontanus, Proarcestes pannonicus, Proarcestes subtridentinus and Aristoptychites sp. extending known geographical ranges of these taxa.^[8]
Description and study on the biostratigraphy of the ammonite assemblage from the Jurassic strata from Sierra de Reyes (Mendoza Province, Argentina) is published by Riccardi, Gulisano & Gutierrez-Pleimling (2025).^[9]
A study on the composition of the Middle Jurassic ammonite fauna from the Shal Formation (Iran) is published by Majidifard & Wilmsen (2025).^[10]
A study on the morphology and growth of Rehmannia richei is published by Douas Bengoudira et al. (2025).^[11]
Jantschke et al. (2025) report the discovery of a diverse ammonite assemblage from the Oxfordian strata of the Sengenthal Formation (Germany).^[12]
Cadena, Bustos & Lehmann (2025) describe bochianitid fossils from the Valanginian and Hauterivian strata of the Rosablanca Formation (Colombia), extending known range of Bochianites neocomiensis and Janenschites oosteri to the northern part of South America.^[13]
Fosso Menkem et al. (2025) describe fossil material of Albian ammonites from the Kribi-Campo sub-Basin (Cameroon), assign the fossil-bearing deposits to the Mundeck Formation, and interpret the studied fossils as evidence of a full connection between the North and South Atlantic during the lower Albian.^[14]
A study on the ontogenetic shell development of Yabeiceras orientale, Y. cf. manasoaense, Forresteria yezoensis and F. muramotoi is published by Inose & Watanabe (2025).^[15]
A study on shell breakages in specimens of Hoploscaphites nicolletii from the Upper Cretaceous Fox Hills Formation (South Dakota, United States), interpreted as evidence of lethal attacks by durophagous predators, is published by Tajika et al. (2025).^[16]

Other cephalopods

Name	Novelty	Status	Authors	Age	Type locality	Location	Notes
Beloitoceras uuemoisense^[17]	Sp. nov	Valid	Kröger	Ordovician (Katian)	Adila Formation	Estonia	A member of the family Oncoceratidae.
Columenoceras kyushuense^[18]	Sp. nov	Valid	Niko	Silurian (Ludlow)	Gionyama Formation	Japan	A member of the family Geisonoceratidae.
Curtoceras meyeri^[19]	Sp. nov	Valid	Aubrechtová & Korn	Ordovician		Germany
Cycloceras ofunatoense^[20]	Sp. nov	Valid	Niko & Ehiro	Permian (Changhsingian)	Toyoma Formation	Japan
Cyrtorizoceras hariense^[17]	Sp. nov	Valid	Kröger	Ordovician (Katian)	Kõrgessaare Formation	Estonia	A member of the family Oncoceratidae.
Danoceras oviforme^[17]	Sp. nov	Valid	Kröger	Ordovician (Katian)	Kõrgessaare Formation	Estonia	A member of the family Diestoceratidae.
Danoceras piersalense^[17]	Comb. nov	Valid	(Teichert)	Ordovician	Moe Formation	Estonia	A member of the family Diestoceratidae; moved from "Dowlingoceras" piersalense Teichert (1930).
Danoceras vohilaidense^[17]	Sp. nov	Valid	Kröger	Ordovician (Katian)	Adila Formation	Estonia	A member of the family Diestoceratidae.
Deckeroceras balticum^[17]	Sp. nov	Valid	Kröger	Ordovician (Katian)	Adila Formation	Estonia	A member of the family Uranoceratidae.
Discoceras paopense^[17]	Sp. nov	Valid	Kröger	Ordovician (Katian)	Kõrgessaare Formation	Estonia	A member of the family Trocholitidae.
Dowlingoceras tornense^[17]	Sp. nov	Valid	Kröger	Ordovician (Katian)	Adila Formation	Estonia	A member of the family Diestoceratidae.
Ephippiorthoceras vormsiense^[17]	Sp. nov	Valid	Kröger	Ordovician (Katian)	Adila Formation	Estonia	A member of the family Proteoceratidae.
Gorbormoceras^[17]	Gen. et sp. nov	Valid	Kröger	Ordovician (Katian)	Adila Formation	Estonia	A member of Actinocerida belonging to the family Ormoceratidae. The type species is G. vohilaidense.
Gorbyoceras clathratoannulatum^[17]	Comb. nov	Valid	(Roemer)	Ordovician		Poland	A member of the family Proteoceratidae; moved from "Orthoceras" clathrato-annulatum Roemer (1861).
Hiiumoceras^[17]	Gen. et sp. nov	Valid	Kröger	Ordovician (Katian)	Kõrgessaare Formation	Estonia	A member of the family Graciloceratidae. The type species is H. hiiuense.
Hosholmoceras^[17]	Gen. et sp. nov	Valid	Kröger	Ordovician (Katian)	Adila Formation	Estonia	A member of the family Cyrtogomphoceratidae. The type species is H. ovalis.
Isorthoceras luhai^[17]	Comb. nov	Valid	(Stumbur)	Ordovician		Estonia	A member of the family Proteoceratidae; moved from "Orthoceras" luhai Stumbur (1956).
Isorthoceras saaremense^[17]	Comb. nov	Valid	(Balashov)	Ordovician		Estonia	A member of the family Proteoceratidae; moved from "Hedstroemoceras" saaremense Balashov (1959).
Kiaeroceras kaebliki^[17]	Sp. nov	Valid	Kröger	Ordovician (Katian)	Kõrgessaare Formation	Estonia	A member of the family Cyrtogomphoceratidae.
Kiaeroceras ormsoense^[17]	Sp. nov	Valid	Kröger	Ordovician (Katian)	Kõrgessaare Formation	Estonia	A member of the family Cyrtogomphoceratidae.
Kiaeroceras urgense^[17]	Sp. nov	Valid	Kröger	Ordovician (Katian)	Kõrgessaare Formation	Estonia	A member of the family Cyrtogomphoceratidae.
Redpathoceras saxbyense^[17]	Sp. nov	Valid	Kröger	Ordovician (Katian)	Kõrgessaare Formation	Estonia	A member of Ascocerida belonging to the family Probillingsitidae.
Richardsonoceras priscum^[17]	Comb. nov	Valid	(Eichwald)	Ordovician (Katian)	Kõrgessaare Formation	Estonia	A member of the family Oncoceratidae; moved from "Cyrtoceras" priscum Eichwald (1860).
Rizosceras teres^[17]	Sp. nov	Valid	Kröger	Ordovician (Katian)	Kõrgessaare Formation	Estonia	A member of the family Oncoceratidae.
Saxbyoceras^[17]	Gen. et sp. nov	Valid	Kröger	Ordovician (Katian)	Kõrgessaare Formation	Estonia	A member of the family Apsidoceratidae. The type species is S. kingpooli.
Schuchertoceras deformis^[17]	Comb. nov	Valid	(Eichwald)	Ordovician (Katian)	Kõrgessaare Formation	Estonia	A member of the family Ascoceratidae; moved from "Ascoceras" deforme Eichwald (1860).
Strandoceras kalevipoegi^[17]	Sp. nov	Valid	Kröger	Ordovician (Katian)	Kõrgessaare Formation	Estonia	A member of the family Cyrtogomphoceratidae.
Strandoceras kohilense^[17]	Sp. nov	Valid	Kröger	Ordovician (Katian)	Kõrgessaare Formation	Estonia	A member of the family Cyrtogomphoceratidae.
Strandoceras muhvi^[17]	Sp. nov	Valid	Kröger	Ordovician (Katian)	Kõrgessaare Formation	Estonia	A member of the family Cyrtogomphoceratidae.
Strandoceras sulevipoegi^[17]	Sp. nov	Valid	Kröger	Ordovician (Katian)		Estonia	A member of the family Cyrtogomphoceratidae.
Striatocycloceras hosholmense^[17]	Sp. nov	Valid	Kröger	Ordovician (Katian)	Adila Formation	Estonia	A member of the family Orthoceratidae.
Trocholites baldri^[19]	Sp. nov	Valid	Aubrechtová & Korn	Ordovician		Germany
Trocholites freyjae^[19]	Sp. nov	Valid	Aubrechtová & Korn	Ordovician		Estonia Germany Sweden
Trocholites glacialis^[19]	Sp. nov	Valid	Aubrechtová & Korn	Ordovician		Germany Poland
Trocholites kadakaensis^[19]	Sp. nov	Valid	Aubrechtová & Korn	Ordovician (Darriwilian)	Väo Formation	Estonia
Trocholites luna^[19]	Sp. nov	Valid	Aubrechtová & Korn	Ordovician		Germany
Trocholites splendor^[19]	Sp. nov	Valid	Aubrechtová & Korn	Ordovician		Poland
Trocholites triangulus^[19]	Sp. nov	Valid	Aubrechtová & Korn	Ordovician		Germany
Trocholites tureki^[19]	Sp. nov	Valid	Aubrechtová & Korn	Ordovician		Estonia Sweden
Trocholites vodickai^[19]	Sp. nov	Valid	Aubrechtová & Korn	Ordovician		Germany Poland
Trocholites vortex^[19]	Sp. nov	Valid	Aubrechtová & Korn	Ordovician		Germany
Trocholites zaryensis^[19]	Sp. nov	Valid	Aubrechtová & Korn	Ordovician (probably Darriwilian)		Poland
Wennanoceras remotum^[21]	Sp. nov		Song et al.	Ordovician		China
Wutinoceras multiseptum^[21]	Sp. nov		Song et al.	Ordovician		China	A member of Actinocerida belonging to the family Wutinoceratidae.
Xiaohenautilus chatelaini^[22]	Sp. nov	Valid	Jenks et al.	Early Triassic	Dinwoody Formation	United States ( Nevada)	A member of the family Grypoceratidae.

Bivalves

Name	Novelty	Status	Authors	Age	Type locality	Location	Notes
Anhapoa^[23]	Gen. et sp. nov		Baumann et al.	Early Cretaceous (Berriasian)	Salvador Formation	Brazil	A member of the family Iridinidae. Genus includes new species A. munizi.
Anomia vakram^[24]	Sp. nov		Venu Gopal & Chattopadhyay & Dutta	Oligocene		India	A species of Anomia.
Callista ramparensis^[24]	Sp. nov		Venu Gopal & Chattopadhyay & Dutta	Miocene		India	A species of Callista.
Duplexium^[23]	Gen. et sp. nov		Baumann et al.	Early Cretaceous (Berriasian)	Salvador Formation	Brazil	A member of the family Iridinidae. Genus includes new species D. jatobensis.
Monopteria heaneyi^[25]	Sp. nov	Valid	Yancey	Carboniferous (Gzhelian)	Holder Formation	United States ( New Mexico)	A member of Myalinida belonging to the family Monopteriidae.
Monopteria magna^[25]	Sp. nov	Valid	Yancey	Carboniferous (Gzhelian)	Graham Formation	United States ( Texas)	A member of Myalinida belonging to the family Monopteriidae.
Neovenericor camachoi^[26]	Sp. nov		Pérez, Cuitiño & Soto	Miocene	Gaiman Formation	Argentina	A member of the family Carditidae.
Peredmondia^[27]	Gen. et comb. nov	Valid	Hodges	Triassic		Italy	The type species is "Anomia" favrii Stoppani (1863).
Rhynchostreon cauveryensis^[28]	Sp. nov	Valid	Chattopadhyay et al.	Late Cretaceous (Maastrichtian)	Kallnakurichchi Formation	India	A member of the family Gryphaeidae.
Streblochondria dalianensis^[29]	Sp. nov		Han et al.		Taiyuan Formation	China	A member of Pectinida belonging to the family Streblochondriidae.
Tucetona bharati^[24]	Sp. nov		Venu Gopal & Chattopadhyay & Dutta	Oligocene		India	A species of Tucetona.
Willipteria^[30]	Gen. et sp. et comb. nov	Valid	Yancey	Carboniferous (Gzhelian) and Permian	Graham Formation	United States ( Texas)	Possibly a member of the family Pterineidae. The type species is W. nestelli; genus also includes "Leptodesma" falcata Boyd & Newell (2001).

Bivalve research

Yang et al. (2025) report the first discovery of alatoconchid fossil material from the middle Permian strata of the Maokou Formation (Hubei, China).^[31]
Miao et al. (2025) study the fossil record of Triassic marine bivalves, and report evidence of recovery of taxonomic richness after the Permian–Triassic extinction event during the Early Triassic, and of recovery of ecological diversity in the Middle Triassic.^[32]
Simões et al. (2025) describe a new mollusc-dominated assemblage from the uppermost Romualdo Formation (Brazil), including freshwater bivalves previously known only from the underlying Crato Formation.^[33]

Gastropods

Name	Novelty	Status	Authors	Age	Type locality	Location	Notes
Acirsa fusiformis^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Dej Formation	Austria Romania	A species of Acirsa.
Acirsa koskeridouae^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Austria	A species of Acirsa.
Acrilloscala austriaca^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Austria	A wentletrap belonging to the subfamily Epitoniinae.
Acrilloscala fortior^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Grund Formation	Austria	A wentletrap belonging to the subfamily Epitoniinae.
Acrilloscala propugnaculum^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Grund Formation	Austria Hungary Poland Romania	A wentletrap belonging to the subfamily Epitoniinae.
Adiscoacrilla anticoppii^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Grund Formation	Austria	A wentletrap belonging to the subfamily Epitoniinae.
Adiscoacrilla walaszczyki^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Austria Poland	A wentletrap belonging to the subfamily Epitoniinae.
Admete trigostomoides^[35]	Sp. nov	Valid	Bouchard et al.	Pleistocene (Gelasian)		France	A species of Admete.
Alvania selsoifensis^[35]	Sp. nov	Valid	Bouchard et al.	Pleistocene (Gelasian)		France	A species of Alvania.
Amaea grunerti^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Ottnang Formation	Austria Hungary	A species of Amaea.
Anguloacrilla^[34]	Gen. et comb. et 3 sp. nov	Valid	Harzhauser & Landau	Miocene		Austria Bulgaria Czech Republic Hungary Romania Turkey France?	A wentletrap belonging to the subfamily Epitoniinae. The type species is "Scalaria (Acrilla)" kimakowiczi Boettger (1896), genus also includes new species A. schwarzhansi, A. karamanensis and A. lima.
Aspella teter^[36]	Sp. nov	Valid	Harzhauser, Landau & Merle	Miocene	Baden Formation	Austria Hungary Poland	A species of Aspella.
Bittium amibouei^[37]	Sp. nov	Valid	Harzhauser, Guzhov & Landau	Miocene	Baden Formation	Austria Slovakia	A species of Bittium.
Bittium badzoshviliae^[37]	Sp. nov	Valid	Harzhauser, Guzhov & Landau	Miocene		Abkhazia Azerbaijan Georgia Russia ( Chechnya Krasnodar Krai Rostov Oblast)	A species of Bittium.
Bittium foedum^[37]	Sp. nov	Valid	Harzhauser, Guzhov & Landau	Miocene	Fels Formation	Austria	A species of Bittium.
Bittium grinzingense^[37]	Sp. nov	Valid	Harzhauser, Guzhov & Landau	Miocene	Baden Formation	Austria Czech Republic Hungary Romania Slovakia	A species of Bittium.
Bittium krenni^[37]	Sp. nov	Valid	Harzhauser, Guzhov & Landau	Miocene	Dej Formation	Czech Republic Hungary Romania Slovakia Ukraine	A species of Bittium.
Bittium merklini^[37]	Sp. nov	Valid	Harzhauser, Guzhov & Landau	Miocene		Ukraine	A species of Bittium.
Bittium nabokovorum^[37]	Nom. nov	Valid	Guzhov in Harzhauser, Guzhov & Landau	Miocene		Crimea Russia ( Adygea Krasnodar Krai) Turkey	A species of Bittium; a replacement name for Bittium binodulosum Guzhov.
Bittium praescabrum^[37]	Sp. nov	Valid	Harzhauser, Guzhov & Landau	Miocene	Baden Formation	Austria	A species of Bittium.
Bittium rossicum^[37]	Sp. nov	Valid	Harzhauser, Guzhov & Landau	Miocene		Georgia Kazakhstan Russia ( Adygea Karachay-Cherkessia Krasnodar Krai Stavropol Krai) Turkey Ukraine	A species of Bittium.
Bittium tani^[37]	Sp. nov	Valid	Harzhauser, Guzhov & Landau	Miocene	Baden Formation	Austria Bosnia and Herzegovina Hungary Poland Romania Slovakia Ukraine	A species of Bittium.
Bittium walaszczyki^[37]	Sp. nov	Valid	Harzhauser, Guzhov & Landau	Miocene	Korytnica Basin	Poland Romania	A species of Bittium.
Calliostoma normanensis^[35]	Sp. nov	Valid	Bouchard et al.	Pleistocene (Gelasian)		France	A species of Calliostoma.
Cathymorula exilissima^[36]	Sp. nov	Valid	Harzhauser, Landau & Merle	Miocene	Grund Formation	Austria Poland	A member of the family Muricidae.
Ceratostoma? steiningeri^[38]	Sp. nov	Valid	Harzhauser, Landau & Merle	Miocene	Gauderndorf Formation	Austria	Possibly a species of Ceratostoma.
Cerithidium iljinae^[37]	Sp. nov	Valid	Harzhauser, Guzhov & Landau	Miocene		Russia ( Krasnodar Krai)	A species of Cerithidium.
Cirsotrema microperforata^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Austria	A species of Cirsotrema.
Cirsotrema nudum^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Grund Formation	Austria	A species of Cirsotrema.
Cirsotrema pollerspoecki^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene		Austria Germany	A species of Cirsotrema.
Cirsotrema schneideri^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Ottnang Formation	Austria	A species of Cirsotrema.
Clathrus corrugatus^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Korneuburg Formation	Austria	A wentletrap belonging to the subfamily Epitoniinae.
Coffeacypraea^[39]	Gen. et comb. nov	Valid	Nützel & Schneider in Nützel et al.	Late Jurassic (Tithonian)	Crisanti Formation	Italy Czech Republic?	A member of the family Cypraeidae. The type species is "Cypraea" tithonica Di Stefano (1882); genus also includes "Cypraea" gemmellaroi Di Stefano (1882).
Coralliophila acuta^[36]	Sp. nov	Valid	Harzhauser, Landau & Merle	Miocene	Dej Formation	Hungary Romania	A species of Coralliophila.
Coralliophila badensis^[36]	Sp. nov	Valid	Harzhauser, Landau & Merle	Miocene	Baden Formation	Austria Romania	A species of Coralliophila.
Coralliophila elegantula^[36]	Sp. nov	Valid	Harzhauser, Landau & Merle	Miocene	Dej Formation	Romania	A species of Coralliophila.
Coralliophila hoplites^[36]	Sp. nov	Valid	Harzhauser, Landau & Merle	Miocene	Baden Formation	Czech Republic	A species of Coralliophila.
Coralliophila megaglobosa^[36]	Sp. nov	Valid	Harzhauser, Landau & Merle	Miocene	Dej Formation	Romania	A species of Coralliophila.
Coralliophila wegmuelleri^[36]	Sp. nov	Valid	Harzhauser, Landau & Merle	Miocene		Switzerland	A species of Coralliophila.
Crassimurex (Eopaziella) zoltani^[38]	Sp. nov	Valid	Harzhauser, Landau & Merle	Miocene	Dej Formation	Romania	A species of Crassimurex.
Cylindriscala bellissima^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Austria	A species of Cylindriscala.
Cylindriscala rugata^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Czech Republic	A species of Cylindriscala.
Eucypraedia hawkei^[40]	Sp. nov	Valid	Celzard	Miocene	Cadell Marl	Australia
Euthria galopimi^[41]	Sp. nov	Valid	Landau, da Silva & Harzhauser	Pliocene		Portugal	A species of Euthria.
Euthria lockleyi^[41]	Sp. nov	Valid	Landau, da Silva & Harzhauser	Pliocene		Portugal	A species of Euthria.
Favartia kovacsi^[36]	Sp. nov	Valid	Harzhauser, Landau & Merle	Miocene	Baden Formation	Austria	A species of Favartia.
Gregorioiscala ascialis^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene		Czech Republic	A species of Gregorioiscala.
Haliotis plioetrusca^[42]	Sp. nov	Valid	Dominici et al.	Pliocene		Italy	A species of Haliotis.
Hemiacirsa abiaeformis^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Austria Hungary	A wentletrap belonging to the subfamily Epitoniinae.
Hemiacirsa incusa^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Austria	A wentletrap belonging to the subfamily Epitoniinae.
Hemiacirsa superelongata^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Dej Formation	Romania	A wentletrap belonging to the subfamily Epitoniinae.
Hemicerithium caucasicum^[37]	Sp. nov	Valid	Harzhauser, Guzhov & Landau	Miocene		Crimea Georgia Russia ( Adygea Krasnodar Krai Stavropol Krai) Turkey
Hemicerithium kovacsi^[37]	Sp. nov	Valid	Harzhauser, Guzhov & Landau	Oligocene/Miocene		Hungary
Hirtoscala ceruchus^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Loibersdorf Formation	Austria	A wentletrap belonging to the subfamily Epitoniinae.
Hirtoscala cornucopiae^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Pińczów Formation	Austria Poland	A wentletrap belonging to the subfamily Epitoniinae.
Hirtoscala diplommatinaformis^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene		Czech Republic	A wentletrap belonging to the subfamily Epitoniinae.
Hirtoscala hastata^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Austria Poland	A wentletrap belonging to the subfamily Epitoniinae.
Hirtoscala holcovae^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Grund Formation	Austria Hungary	A wentletrap belonging to the subfamily Epitoniinae.
Hirtoscala pharos^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Dej Formation	Bosnia and Herzegovina Bulgaria Romania	A wentletrap belonging to the subfamily Epitoniinae.
Hirtoscala steiningeri^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Loibersdorf Formation	Austria	A wentletrap belonging to the subfamily Epitoniinae.
Hirtoscala uncinata^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Loibersdorf Formation	Austria	A wentletrap belonging to the subfamily Epitoniinae.
Hopeiella kuitunensis^[43]	Sp. nov	Valid	Zhu	Paleogene	Anjihaihe Formation	China	A member of the family Bulinidae.
Hyaloscala occidentalis^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Austria	A wentletrap belonging to the subfamily Epitoniinae.
Hyaloscala rainesi^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Austria	A wentletrap belonging to the subfamily Epitoniinae.
Hyaloscala rustica^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Austria	A wentletrap belonging to the subfamily Epitoniinae.
Islamia juliomarcosi^[44]	Sp. nov	Valid	Talaván-Serna	Neogene		Spain	A species of Islamia.
Kestocenebra vermeiji^[38]	Sp. nov	Valid	Harzhauser, Landau & Merle	Miocene	Grund Formation	Austria Czech Republic	A member of the family Muricidae.
Librariscala costatissima^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Austria Turkey	A wentletrap belonging to the subfamily Epitoniinae.
Mazescala alata^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Austria	A wentletrap belonging to the subfamily Epitoniinae.
Muricopsis hystrix^[36]	Sp. nov	Valid	Harzhauser, Landau & Merle	Miocene	Dej Formation	Bulgaria Hungary Romania	A species of Muricopsis.
Neoberingius minamichitaensis^[45]	Sp. nov	Valid	Kawase	Miocene	Yamami Formation	Japan	A member of the family Buccinidae.
Nitidiscala baluki^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Dej Formation	Romania	A wentletrap belonging to the subfamily Epitoniinae.
Nitidiscala bonfittoi^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Dej Formation	Poland Romania Slovakia	A wentletrap belonging to the subfamily Epitoniinae.
Nitidiscala browni^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Dej Formation	Romania	A wentletrap belonging to the subfamily Epitoniinae.
Nitidiscala connexicosta^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene		Czech Republic	A wentletrap belonging to the subfamily Epitoniinae.
Ocenebra breitenbergeri^[38]	Sp. nov	Valid	Harzhauser, Landau & Merle	Miocene	Tırtar Formation	Turkey	A species of Ocenebra.
Ocenebra littoralis^[38]	Nom. nov	Valid	Harzhauser, Landau & Merle	Miocene	Loibersdorf Formation	Austria	A species of Ocenebra; a replacement name for Murex (Ocinebrina) erinaceus sublaevis Schaffer (1912).
Ocenebra scorpio^[38]	Sp. nov	Valid	Harzhauser, Landau & Merle	Miocene	Grund Formation	Austria	A species of Ocenebra.
Ocinebrina bellissima^[38]	Sp. nov	Valid	Harzhauser, Landau & Merle	Miocene	Dej Formation	Romania	A species of Ocinebrina.
Ocinebrina s.l. praescalaris^[38]	Sp. nov	Valid	Harzhauser, Landau & Merle	Miocene	Baden Formation	Austria Czech Republic	A member of the family Muricidae.
Ocinebrinopsis^[38]	Gen. et comb. et 4 sp. nov	Valid	Harzhauser, Landau & Merle	Miocene		Austria Bosnia and Herzegovina Bulgaria Czech Republic France Hungary Italy Moldova Poland Romania Slovakia Turkey Ukraine	A member of the family Muricidae. The type species is "Ocenebra" orientalis Friedberg (1928); genus also includes "Ocinebrina" bertai Kovács (2020), "Murex" crassilabiatus Hilber (1879), "Murex (Occenebra)" credneri Hoernes & Auinger (1885), "Ocinebrina" deaki Kovács, Leél-Őssy & Vicián (2023), "Murex (Occenebra) sublavatus" var. grundensis Hoernes & Auinger (1885; raised to the rank of the species O. grundensis), "Tritonium" striatum Eichwald (1830), "Pollia" weinsteigensis Hoernes & Auinger (1890), "Fusus" coelatus (Dujardini, 1837) and "Murex" dertonensis Bellardi (1873), as well as new species O. aperta, O. dominicii, O. gregaria and O. subnuda.
Opaliopsis compacta^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Czech Republic	A wentletrap belonging to the subfamily Nystiellinae.
Papuliscala aquaensis^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Austria	A species of Papuliscala.
Papuliscala hoffmani^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Czech Republic	A species of Papuliscala.
Papuliscala maysi^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Czech Republic Poland	A species of Papuliscala.
Papuliscala parvicancellata^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Austria Poland	A species of Papuliscala.
Papuliscala praeelongata^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Czech Republic	A species of Papuliscala.
Parviscala abdita^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Austria	A wentletrap belonging to the subfamily Epitoniinae.
Parviscala badensis^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Austria	A wentletrap belonging to the subfamily Epitoniinae.
Parviscala lacinia^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Dej Formation	Austria Bosnia and Herzegovina Hungary Romania Ukraine	A wentletrap belonging to the subfamily Epitoniinae.
Parviscala paratethyca^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Austria	A wentletrap belonging to the subfamily Epitoniinae.
Pazinotus aster^[36]	Sp. nov	Valid	Harzhauser, Landau & Merle	Miocene	Baden Formation	Austria Czech Republic Hungary Poland	A species of Pazinotus.
Pazinotus pulcher^[36]	Sp. nov	Valid	Harzhauser, Landau & Merle	Miocene	Baden Formation	Austria	A species of Pazinotus.
Pithocerithium mediolanionense^[37]	Nom. nov	Valid	Harzhauser, Guzhov & Landau	Miocene		Austria Croatia	A replacement name for Cerithium imperfectum Sieber (1937).
Protorotella gigas^[46]	Sp. nov	Valid	Amano in Amano et al.	Miocene	Sazen Formation	Japan	A member of the family Trochidae.
Pterynopsis guzhovi^[38]	Nom. nov	Valid	Harzhauser, Landau & Merle	Miocene		Ukraine	A species of Pterynopsis; a replacement name for Murex affinis Eichwald (1830).
Punctiscala moravica^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Baden Formation	Czech Republic	A wentletrap belonging to the subfamily Epitoniinae.
Scala polonica^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Pińczów Formation	Poland	A wentletrap belonging to the subfamily Epitoniinae.
Seila quinquecarinata^[35]	Sp. nov	Valid	Bouchard et al.	Pleistocene (Gelasian)		France	A species of Seila.
Sinoplanorbis junggarensis^[43]	Sp. nov	Valid	Zhu	Paleogene	Anjihaihe Formation	China	A member of the family Bulinidae.
Sthenorytis simoni^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene		Germany	A wentletrap belonging to the subfamily Epitoniinae.
Subuliscala breitenbergeri^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Grund Formation	Austria Hungary	A wentletrap belonging to the subfamily Epitoniinae.
Subuliscala pseudobanoni^[34]	Sp. nov	Valid	Harzhauser & Landau	Miocene	Grund Formation	Austria	A wentletrap belonging to the subfamily Epitoniinae.
Theodiscella^[37]	Nom. nov	Valid	Harzhauser, Guzhov & Landau	Miocene to Pleistocene		Austria Azerbaijan Bulgaria Czech Republic Georgia Hungary Italy Moldova Poland Romania Russia ( Adygea Chechnya Karachay-Cherkessia Stavropol Krai) Slovakia Spain Turkey Ukraine	A member of the family Potamididae; a replacement name for Theodisca Harzhauser, Guzhov & Landau (2023).
Thericium basilicum^[37]	Sp. nov	Valid	Harzhauser, Guzhov & Landau	Miocene		Moldova
Thericium bursucense^[37]	Sp. nov	Valid	Harzhauser, Guzhov & Landau	Miocene		Moldova
Thericium chamaeleo^[37]	Sp. nov	Valid	Harzhauser, Guzhov & Landau	Miocene	Dej Formation	Romania
Thericium miodacicum^[37]	Sp. nov	Valid	Harzhauser, Guzhov & Landau	Miocene		Hungary Romania
Thericium posidoniaphilum^[37]	Sp. nov	Valid	Harzhauser, Guzhov & Landau	Miocene	Baden Formation	Austria Hungary Poland
Thericium putzgruberi^[37]	Nom. nov	Valid	Harzhauser, Guzhov & Landau	Miocene		Austria	A replacement name for Cerithium europaeum May. var. acuminata Schaffer (1912).
Thericium vovkotrubense^[37]	Sp. nov	Valid	Harzhauser, Guzhov & Landau	Miocene		Ukraine
Thericium zhizhchenkoi^[37]	Sp. nov	Valid	Harzhauser, Guzhov & Landau	Miocene		Russia ( Adygea Karachay-Cherkessia Krasnodar Krai Stavropol Krai)
Timbellus kovacsi^[38]	Sp. nov	Valid	Harzhauser, Landau & Merle	Miocene		Czech Republic Romania	A species of Timbellus.
Timbellus weinmannae^[38]	Sp. nov	Valid	Harzhauser, Landau & Merle	Miocene	Dej Formation	Austria Italy Romania	A species of Timbellus.
Trochocerithium oritatense^[46]	Sp. nov	Valid	Amano in Amano et al.	Miocene	Sazen Formation	Japan	A member of the family Plesiotrochidae.
Zoltania^[36]	Gen. et comb. nov	Valid	Harzhauser, Landau & Merle	Miocene		Austria France Hungary Romania	A member of the family Muricidae. The type species is "Purpura" styriaca Hilber (1879).

Gastropod research

A study on the evolution of the columellar folds in gastropods, based on data from extant and fossil taxa, is published by Vermeij (2025).^[47]
A study on the diversity of Permian and Triassic gastropods is published by Dominici (2025), who interprets increase of diversity of carnivorous gastropods during the Middle-Late Triassic transition as related to evolution of reef ecosystems at the same time.^[48]
Evidence from the study of fossil shells of Cathaica orithyia from the Chinese Loess Plateau, indicative of a link between shell morphology and changes in climatic and environmental conditions linked to changes of Asian summer monsoons over the past 470,000 years, is presented by Shen et al. (2025).^[49]

Other molluscs

Name	Novelty	Status	Authors	Age	Type locality	Location	Notes	Images
Emo^[50]	Gen. et sp. nov	Valid	Sutton et al.	Silurian	Coalbrookdale Formation	United Kingdom	An early aculiferan related to heloplacids. The type species is E. vorticaudum.
Punk^[50]	Gen. et sp. nov	Valid	Sutton et al.	Silurian	Coalbrookdale Formation	United Kingdom	An early aculiferan related to modern aplacophorans. The type species is P. ferox.

Other molluscan research

Redescription of the rostroconch species Hoarepora parrishi, based on data from new fossil material from the Moscovian Korobcheevo Formation (Ryazan Oblast, Russia) and Gzhelian Amerevo Formation (Moscow Oblast, Russia) that extends known geographical range of the species, is published by Mazaev (2025).^[51]

General research

Evidence from the study of the fossil record of marine bivalves and gastropods from the Permian-Triassic transition, interpreted as indicating that taxonomic homogenization of the studied molluscs in marine communities after the Permian–Triassic extinction event was related to environmental changes that resulted in expansion of the preferred habitat of the survivors of extinction, is presented by Al Aswad et al. (2025).^[52]
Evidence from the study of the fossil record of Early Jurassic gastropods and bivalves from the epicontinental seas of the north-western Tethys Ocean, indicative of a relationship between the thermal suitability of the studied animals and changes of their occupancy in response to climate changes during the Pliensbachian and Toarcian, is presented by Reddin et al. (2025).^[53]
Description of the assemblage of ammonites and inoceramid bivalves from the Albian strata from the Mangyshlak Anticlinorium (Kazakhstan) is published by Kennedy & Walaszczyk (2025).^[54]
Aiba & Mochizuki (2025) describe new fossil material of ammonites and inoceramid bivalves from the Taneichi Formation (Japan), and interpret the composition of the studied assemblage as indicating that the middle Member of the Taneichi Formation was deposited during the Santonian–early Campanian.^[55]
Fergusen, Reed & García-Bellido (2025) determine lost pigmentation patterns in molluscan specimens from the Miocene Cadell Formation (Australia), interpret the pigmentation patterns of Lophiotoma murrayana as supporting its reassignment from the genus Lucerapex to Lophiotoma, and interpret the pigmentation of Maoricolpus murrayanus as similar to the pigmentation of extant Maoricolpus roseus, strengthening the arguments that the two species are synonymous.^[56]

References

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^ Simões, M. G.; Guerrini, V. B.; Silva, V. R.; Varejão, F. G.; Matos, S. A.; Rodrigues, M. G.; Warren, L. V.; Assine, M. L.; Fürsich, F. T. (2025). "Tides of rebirth: a stratigraphic perspective on the Lazarus effect in freshwater bivalves in the Aptian-Albian Romualdo Formation, Araripe Basin, Brazil". Cretaceous Research. 106165. doi:10.1016/j.cretres.2025.106165.
^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m ⁿ ^o ^p ^q ^r ^s ^t ^u ^v ^w ^x ^y ^z ^aa ^ab ^ac ^ad ^ae ^af ^ag ^ah ^ai ^aj ^ak ^al ^am ^an ^ao ^ap ^aq ^ar ^as ^at ^au ^av ^aw ^ax ^ay ^az Harzhauser, M.; Landau, B. M. (2025). "The Epitoniidae (Gastropoda, Epitonioidea) of the Miocene Central Paratethys Sea—an overwhelming diversity". Zootaxa. 5630 (1): 1–142. doi:10.11646/zootaxa.5630.1.1.
^ ^a ^b ^c ^d Bouchard, B.; Wesselingh, F. P.; Pouwer, R.; Landau, B. (2025). "The Gelasian gastropod fauna of Selsoif (Manche, France)". Geodiversitas. 47 (3): 39–91. doi:10.5252/geodiversitas2025v47a3.
^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m Harzhauser, M.; Landau, B. M.; Merle, D. (2025). "The Muricidae (Gastropoda, Muricoidea) of the Miocene Paratethys Sea (Aspellinae, Ergalataxinae, Coralliophilinae, Rapaninae)". Zootaxa. 5611 (1): 1–106. doi:10.11646/zootaxa.5611.1.1.
^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m ⁿ ^o ^p ^q ^r ^s ^t ^u ^v ^w ^x Harzhauser, M.; Guzhov, A.; Landau, B. (2025). "A revision of the Cainozoic Cerithiidae and Plesiotrochidae (Mollusca: Caenogastropoda) of the Paratethys Sea (Europe, Asia)". Zootaxa. 5625 (1): 1–180. doi:10.11646/zootaxa.5625.1.1.
^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l Harzhauser, M.; Landau, B. M.; Merle, D. (2025). "The Muricidae (Gastropoda, Muricoidea) of the Miocene Central Paratethys Sea (Haustrinae, Muricinae, Ocenebrinae, Pagodulinae, Typhinae, Muricidae incertae sedis)". Zootaxa. 5572 (1): 1–162. doi:10.11646/zootaxa.5572.1.1.
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^ ^a ^b Landau, B. M.; da Silva, C. M.; Harzhauser, M. (2025). "The genus Euthria (Gastropoda, Tudiclidae) in the Pliocene of the Atlantic Mondego Basin of Portugal: a glocal taxon in the Atlanto-Mediterranean Neogene". Journal of Paleontology: 1–13. doi:10.1017/jpa.2024.83.
^ Dominici, S.; Forli, M.; Brunetti, M. M.; Taviani, M. (2025). "Fossil abalones of Europe and their relationships with modern Haliotis (Haliotidae, Gastropoda): a multivariate analysis". Journal of Paleontology: 1–32. doi:10.1017/jpa.2024.50.
^ ^a ^b Zhu, X. (2025). "Bulinidae (Gastropoda) from the Paleogene Anjihaihe Formation on the southwest margin of the Junggar Basin, Xinjiang". Acta Palaeontologica Sinica. 64 (1): 74–83. doi:10.19800/j.cnki.aps.2024039.
^ Talaván-Serna, J. (2025). "Islamia juliomarcosi (Truncatelloidea: Hydrobiidae) new sp. from the Neogene of Spain". Malacologia Mostra Mondiale. 126: 10–11.
^ Kawase, M. (2025). "A new species of Neoberingius (Gastropoda: Buccinidae) from the Lower Miocene Morozaki Group in Aichi Prefecture, central Japan". Bulletin of the Mizunami Fossil Museum. 52 (1): 9–15. doi:10.50897/bmfm.52.1_9.
^ ^a ^b Amano, K.; Haga, T.; Sato, T.; Hamuro, T.; Hamuro, M. (2025). "Middle Miocene Climatic Transition in the Japan Sea borderland of Honshu –Middle Miocene molluscan fauna from Unazukimachi-Oritate in Kurobe City, Toyama Prefecture, Japan–". Bulletin of the Mizunami Fossil Museum. 52 (1): 17–43. doi:10.50897/bmfm.52.1_17.
^ Vermeij, G. J. (2025). "Repeated evolution: the case of columellar folds in gastropods". Zoological Journal of the Linnean Society. 203 (1). zlae164. doi:10.1093/zoolinnean/zlae164.
^ Dominici, S. (2025). "The Revolution of Small Snails and the Early Modern Evolutionary Fauna". Diversity. 17 (2). 120. doi:10.3390/d17020120.
^ Shen, H.; Bao, R.; Li, C.; Sheng, X.; Wu, M.; Xu, Y.; Tan, H.; Li, Y. (2025). "Land snail shell morphology as a new Paleomonsoon proxy". Scientific Reports. 15. 9749. doi:10.1038/s41598-025-91903-2. PMC 11928581.
^ ^a ^b Sutton, M. D.; Sigwart, J. D.; Briggs, D. E. G.; Gueriau, P.; King, A.; Siveter, D. J.; Siveter, D. J. (2025). "New Silurian aculiferan fossils reveal complex early history of Mollusca". Nature. 637 (8046): 631–636. doi:10.1038/s41586-024-08312-0. PMC 11735398. PMID 39779843.
^ Mazaev, A. V. (2025). "The first records of bransoniid rostroconchs (Bransoniidae, Rostroconchia, Mollusca) in the Pennsylvanian of the Russian Platform". Ruthenica, Russian Malacological Journal. 35 (1): 21–30. doi:10.35885/ruthenica.2025.35(1).2.
^ Al Aswad, J. A.; Penn, J. L.; Monarrez, P. M.; Bazzi, M.; Deutsch, C.; Payne, J. L. (2025). "Physiology and climate change explain unusually high similarity across marine communities after end-Permian mass extinction". Science Advances. 11 (13). eadr4199. doi:10.1126/sciadv.adr4199. PMC 11939053.
^ Reddin, C. J.; Landwehrs, J. P.; Mathes, G. H.; Ullmann, C. V.; Feulner, G.; Aberhan, M. (2025). "Marine species and assemblage change foreshadowed by their thermal bias over Early Jurassic warming". Nature Communications. 16 (1). 1370. doi:10.1038/s41467-025-56589-0. PMC 11799210. PMID 39910097.
^ Kennedy, W. J.; Walaszczyk, I. (2025). "Ammonites and inoceramids of the Middle–Upper Albian of Mangyshlak (western Kazakhstan); systematics, biostratigraphy and biogeography". Acta Geologica Polonica. 75 (1). e37. doi:10.24425/agp.2024.152654.
^ Aiba, D.; Mochizuki, T. (2025). "Ammonoids and inoceramid bivalves from the Upper Cretaceous shallow marine deposits of Taneichi Formation in Hirono Town, Iwate Prefecture, northeastern Japan: implication for biostratigraphy". Cretaceous Research. 106148. doi:10.1016/j.cretres.2025.106148.
^ Fergusen, M. A.; Reed, E. H.; García-Bellido, D. C. (2025). "Investigating colour in marine Miocene molluscs: UV fluorescence patterns and pigment EDX spectroscopy in shells from the Murbko Marl, Murray Basin (South Australia)". Palaeontologia Electronica. 28 (1). 28.1.a19. doi:10.26879/1394.

[1] Chandler, R.; Cresta, S. (2025). "New records of ammonites from the Lower Bajocian (Middle Jurassic) of England and Italy". Proceedings of the Geologists' Association. doi:10.1016/j.pgeola.2025.101117.

[2] Korn, D.; Ebbighausen, V. (2025). "Late Viséan (Mississippian) ammonoids (Cephalopoda) from the Central Moroccan Meseta". European Journal of Taxonomy. 989: 50–93. doi:10.5852/ejt.2025.989.2885.

[Herbigites-3] Becker, R. T. (2025). "New genera indicating the origin and early evolution of pharciceratoid ammonoids (Agoniatitida, Pharciceratoidea, Middle Devonian)". Zeitschrift der Deutschen Gesellschaft für Geowissenschaften. doi:10.1127/zdgg/2025/0468.

[4] Sarti, C.; Cascella, A.; Conti, C.; Cresta, S.; Agostinelli, G. (2025). "A new species of giant aspidoceratid Hybopeltoceras (Ammonitina) from the Lower Tithonian of the Monte Lacerone (Sabine Apennines, Central Italy)". Journal of Iberian Geology. doi:10.1007/s41513-025-00287-9.

[Itierella-5] Pictet, A.; Hugon, B.; Pierangelini, G. (2025). "Itierella melognensis n.gen., n.sp., and Paradicostella hautevillelompnesensis n.gen., n.sp. (Ammonoidea, Neocomitidae, Neocomitinae), two new upper Valanginian trituberculated ammonoids from the Jura Mountains, eastern France". Carnets Geol. 25 (3): 73–87. doi:10.2110/carnets.2025.2503.

[6] Pictet, A.; Bulot, L. C. (2025). "New or poorly known Neocomitidae (Ammonitina, Ammonoida) from the lower Hauterivian sedimentary series of the Jura platform and the Vocontian trough (France and Switzerland)". Swiss Journal of Palaeontology. 144. 7. doi:10.1186/s13358-024-00343-4.

[Xenoglyphioceras-7] Korn, D. (2025). "A new Late Viséan ammonoid assemblage from the Anti-Atlas (Early Carboniferous, Morocco)". European Journal of Taxonomy. 987: 249–263. doi:10.5852/ejt.2025.987.2873.

[8] Đaković, M.; Mrdak, M.; Gawlick, H.-J. (2025). "Pelsonian and Illyrian (Anisian, Middle Triassic) ammonoid faunas from the Bulog Group of Kovčezi, Durmitor Mountain, Dinarides (northern Montenegro)". Austrian Journal of Earth Sciences. 118 (1): 1–40. doi:10.17738/ajes.2025.0001.

[9] Riccardi, A. C.; Gulisano, C.; Gutierrez-Pleimling, A. (2025). "Ammonite fauna and biostratigraphy of the Jurassic in Sierra de Reyes (Mendoza, Argentina)". Revue de Paléobiologie, Genève. 44 (4): 1–32. doi:10.5281/zenodo.14793686.

[10] Majidifard, M. R.; Wilmsen, M. (2025). "Middle Jurassic ammonites from the Shal Formation of northwest Iran: taxonomy and biostratigraphic implications". Neues Jahrbuch für Geologie und Paläontologie - Abhandlungen. 314 (2): 129–157. doi:10.1127/njgpa/2025/1246.

[11] Douas Bengoudira, F.; Touahria, A.; Bakhti, A.; Sebane, A. (2025). "New information on the ammonite Rehmannia (Loczyceras) richeï (Flamand, 1911) from the Middle Jurassic of Algeria (Saïda, North-West Algeria)". Revue de Paléobiologie, Genève. 44 (3): 1–9. doi:10.5281/zenodo.14793579.

[12] Jantschke, H.; Arp, G.; Hostettler, B.; Munnecke, A.; Dietze, V. (2025). "A Cordatum Zone ammonite assemblage from a condensed stromatolitic bed of the Sengenthal Formation (Lower Oxfordian) at Wolfsbach, Southern Germany". Palaeodiversity. 18 (1): 11–33. doi:10.18476/pale.v18.a2.

[13] Cadena, E.-A.; Bustos, J.; Lehmann, J. (2025). "Valanginian and Hauterivian bochianitid ammonoids from the Rosa Blanca Formation of Colombia: palaeobiogeographic implications". Cretaceous Research. 106094. doi:10.1016/j.cretres.2025.106094.

[14] Fosso Menkem, E.; Robert, E.; Fowe Kwetche, P. G.; Ntamak Nida, M.-J.; Martin, J. E. (2025). "The first definitive Albian ammonites from the Kribi-Campo Sub-Basin in Cameroon and biostratigraphic implications for the opening of the South Atlantic". Journal of African Earth Sciences. 105659. doi:10.1016/j.jafrearsci.2025.105659.

[15] Inose, H.; Watanabe, N. (2025). "Ontogeny and Variation of Four Species of Upper Cretaceous Barroisiceratine Ammonoids Yabeiceras and Forresteria by Means of X-ray Microcomputed Tomography". Paleontological Research. 29 (1): 24–43. doi:10.2517/prpsj.240003.

[16] Tajika, A.; Rashkova, A.; Landman, N. H.; Klompmaker, A. A. (2025). "Lethal injuries on the scaphitid ammonoid Hoploscaphites nicolletii (Morton, 1842) in the Upper Cretaceous Fox Hills Formation, South Dakota, USA". Swiss Journal of Palaeontology. 144. 1. doi:10.1186/s13358-024-00341-6.

[EJT978-17] ^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m ⁿ ^o ^p ^q ^r ^s ^t ^u ^v ^w ^x ^y ^z ^aa ^ab Kröger, B. (2025). "The Lyckholm acme of cephalopods – Review of the late Katian (Vormsi–Pirgu regional stages) Ordovician cephalopods of Estonia". European Journal of Taxonomy. 978: 1–169. doi:10.5852/ejt.2025.978.2801.

[18] Niko, S. (2025). "Columenoceras kyushuense, a new species of Silurian cephalopod from the Gionyama Formation in the Kuraoka area, Miyazaki Prefecture, Southwest Japan" (PDF). Bulletin of the Tohoku University Museum. 24: 5–8.

[EJT982-19] ^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l Aubrechtová, M.; Korn, D. (2025). "The coiled Middle Ordovician cephalopod genera Trocholites and Curtoceras (Tarphyceratida) from Baltoscandia and north-central Europe". European Journal of Taxonomy. 982: 1–78. doi:10.5852/ejt.2025.982.2843.

[20] Niko, S.; Ehiro, M. (2025). "Changhsingian (latest Permian) orthoconic cephalopods from the South Kitakami Belt, Northeast Japan" (PDF). Bulletin of the Tohoku University Museum. 24: 1–4.

[PPPSongetalcephalopods-21] Song, J.; Fang, X.; Li, W.; Wang, W.; Burrett, C.; Yu, S.; Qie, W.; Zhang, Y. (2025). "New cephalopod material of Middle to Upper Ordovician from southern Xizang (Tibet), China: Taxonomy, diversity and palaeobiogeography". Palaeogeography, Palaeoclimatology, Palaeoecology. 112744. doi:10.1016/j.palaeo.2025.112744.

[22] Jenks, J. F.; Maekawa, T.; Shigeta, Y.; Ware, D.; Brayard, A.; Bylund, K. G.; Stephen, D. A.; Kittrick, N. (2025). "Early Dienerian ammonoids and nautiloids and a new late Griesbachian ammonoid site from the Dinwoody Formation (Thaynes Group) at Crittenden Springs, Elko County, Nevada" (PDF). New Mexico Museum of Natural History and Science Bulletin. 97: 1–29.

[Anhapoa-23] Baumann, D. E.; Simone, L. R. L.; Silva, R. C.; Ghilardi, R. P. (2025). "The Oldest Record of the Family Iridinidae (Unionida): New Fossil Genera and Species of Bivalves from the Salvador Formation (Berriasian), Jatobá Basin, Northeastern Brazil". Journal of South American Earth Sciences. 105587. doi:10.1016/j.jsames.2025.105587.

[HBVenuGopaletal-24] Venu Gopal, K.; Chattopadhyay, D.; Dutta, S. (2025). "Oligo-Miocene marine bivalves from the Kutch Basin (western India) and their biogeographic implications in the context of Tethyan closure". Historical Biology: An International Journal of Paleobiology. doi:10.1080/08912963.2025.2463671.

[JPMonopteria-25] Yancey, T. E. (2025). "Revision of Monopteria (Monopteriidae), a late Paleozoic pteriomorphian bivalve". Journal of Paleontology: 1–17. doi:10.1017/jpa.2024.76.

[26] Pérez, F.; Cuitiño, J. I.; Soto, I. M. (2025). "A new species of Neovenericor (Bivalvia: Carditidae) from Patagonia (Gaiman Formation, Argentina) and an evaluation of the presence of Neovenericor in the Early Miocene". Historical Biology: An International Journal of Paleobiology. doi:10.1080/08912963.2025.2472452.

[27] Hodges, P. (2025). "The Bivalvia of the Penarth Group, Triassic-Jurassic, of south-west Britain". Monographs of the Palaeontographical Society. 178 (670): 1–127. doi:10.1080/02693445.2024.2429220.

[28] Chattopadhyay, D.; Mukhopadhyay, A.; Paul, S.; Poddar, A. (2025). "A Revision of the Maastrichtian Exogyrinae Subfamily from the Kallankurichchi Formation, Ariyalur Sub-basin, India — Taxonomy and Palaeobiogeographic Implications". Journal of the Geological Society of India. 101 (3): 300–315. doi:10.17491/jgsi/2025/174097.

[29] Han, Y.; Li, W.; Tang, M.; Li, Q.; Zhang, X.; Tian, Y. (2025). "The late Carboniferous to Permian bivalves from the Fuzhouwan area (Liaoning, Dalian), Taiyuan Formation: a redescription and a new species of Streblochondria (Mollusca, Bivalvia, Pectinida)". Historical Biology: An International Journal of Paleobiology. doi:10.1080/08912963.2025.2458133.

[30] Yancey, T. E. (2025). "Description of Willipteria, a new genus of late Paleozoic pterioid bivalves, and redescription of Leptodesma Hall". Journal of Paleontology: 1–12. doi:10.1017/jpa.2024.73.

[31] Yang, L.; Wu, K.; Wang, W.; Yang, B.; Yang, D.; Yuan, S.; Yu, H.; Cui, Y. (2025). "First record of alatoconchid bivalves from the Middle Permian Maokou Formation in central Hubei, South China". Frontiers in Earth Science. 13. 1601733. doi:10.3389/feart.2025.1601733.

[32] Miao, X.; Tong, J.; Huang, Y.; Zhang, S.; Li, P.; Cao, Y.; Chu, D.; Kiessling, W. (2025). "Taxonomic and ecologic transitions in Triassic marine bivalve communities". PeerJ. 13. e19237. doi:10.7717/peerj.19237. PMC 12068250.

[33] Simões, M. G.; Guerrini, V. B.; Silva, V. R.; Varejão, F. G.; Matos, S. A.; Rodrigues, M. G.; Warren, L. V.; Assine, M. L.; Fürsich, F. T. (2025). "Tides of rebirth: a stratigraphic perspective on the Lazarus effect in freshwater bivalves in the Aptian-Albian Romualdo Formation, Araripe Basin, Brazil". Cretaceous Research. 106165. doi:10.1016/j.cretres.2025.106165.

[Anguloacrilla-34] ^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m ⁿ ^o ^p ^q ^r ^s ^t ^u ^v ^w ^x ^y ^z ^aa ^ab ^ac ^ad ^ae ^af ^ag ^ah ^ai ^aj ^ak ^al ^am ^an ^ao ^ap ^aq ^ar ^as ^at ^au ^av ^aw ^ax ^ay ^az Harzhauser, M.; Landau, B. M. (2025). "The Epitoniidae (Gastropoda, Epitonioidea) of the Miocene Central Paratethys Sea—an overwhelming diversity". Zootaxa. 5630 (1): 1–142. doi:10.11646/zootaxa.5630.1.1.

[Geodiversitas473-35] Bouchard, B.; Wesselingh, F. P.; Pouwer, R.; Landau, B. (2025). "The Gelasian gastropod fauna of Selsoif (Manche, France)". Geodiversitas. 47 (3): 39–91. doi:10.5252/geodiversitas2025v47a3.

[Zoltania-36] ^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m Harzhauser, M.; Landau, B. M.; Merle, D. (2025). "The Muricidae (Gastropoda, Muricoidea) of the Miocene Paratethys Sea (Aspellinae, Ergalataxinae, Coralliophilinae, Rapaninae)". Zootaxa. 5611 (1): 1–106. doi:10.11646/zootaxa.5611.1.1.

[Theodiscella-37] ^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m ⁿ ^o ^p ^q ^r ^s ^t ^u ^v ^w ^x Harzhauser, M.; Guzhov, A.; Landau, B. (2025). "A revision of the Cainozoic Cerithiidae and Plesiotrochidae (Mollusca: Caenogastropoda) of the Paratethys Sea (Europe, Asia)". Zootaxa. 5625 (1): 1–180. doi:10.11646/zootaxa.5625.1.1.

[Ocinebrinopsis-38] ^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l Harzhauser, M.; Landau, B. M.; Merle, D. (2025). "The Muricidae (Gastropoda, Muricoidea) of the Miocene Central Paratethys Sea (Haustrinae, Muricinae, Ocenebrinae, Pagodulinae, Typhinae, Muricidae incertae sedis)". Zootaxa. 5572 (1): 1–162. doi:10.11646/zootaxa.5572.1.1.

[39] Nützel, A.; Schneider, S.; Bakayeva, S.; Kaim, A. (2025). "The earliest cowries: the origin of cypraeoid gastropods". Acta Palaeontologica Polonica. 70 (2): 213–223. doi:10.4202/app.01245.2025.

[40] Celzard, A. (2025). "Major range extension of the genus Eucypraedia Schilder, 1939 with the discovery of a new species from the middle Miocene of South Australia". The Festivus. 57 (1): 14–22. doi:10.54173/F57114.

[JPEuthria-41] Landau, B. M.; da Silva, C. M.; Harzhauser, M. (2025). "The genus Euthria (Gastropoda, Tudiclidae) in the Pliocene of the Atlantic Mondego Basin of Portugal: a glocal taxon in the Atlanto-Mediterranean Neogene". Journal of Paleontology: 1–13. doi:10.1017/jpa.2024.83.

[42] Dominici, S.; Forli, M.; Brunetti, M. M.; Taviani, M. (2025). "Fossil abalones of Europe and their relationships with modern Haliotis (Haliotidae, Gastropoda): a multivariate analysis". Journal of Paleontology: 1–32. doi:10.1017/jpa.2024.50.

[APS641Zhu-43] Zhu, X. (2025). "Bulinidae (Gastropoda) from the Paleogene Anjihaihe Formation on the southwest margin of the Junggar Basin, Xinjiang". Acta Palaeontologica Sinica. 64 (1): 74–83. doi:10.19800/j.cnki.aps.2024039.

[44] Talaván-Serna, J. (2025). "Islamia juliomarcosi (Truncatelloidea: Hydrobiidae) new sp. from the Neogene of Spain". Malacologia Mostra Mondiale. 126: 10–11.

[45] Kawase, M. (2025). "A new species of Neoberingius (Gastropoda: Buccinidae) from the Lower Miocene Morozaki Group in Aichi Prefecture, central Japan". Bulletin of the Mizunami Fossil Museum. 52 (1): 9–15. doi:10.50897/bmfm.52.1_9.

[BMFM52Amanoetal-46] Amano, K.; Haga, T.; Sato, T.; Hamuro, T.; Hamuro, M. (2025). "Middle Miocene Climatic Transition in the Japan Sea borderland of Honshu –Middle Miocene molluscan fauna from Unazukimachi-Oritate in Kurobe City, Toyama Prefecture, Japan–". Bulletin of the Mizunami Fossil Museum. 52 (1): 17–43. doi:10.50897/bmfm.52.1_17.

[47] Vermeij, G. J. (2025). "Repeated evolution: the case of columellar folds in gastropods". Zoological Journal of the Linnean Society. 203 (1). zlae164. doi:10.1093/zoolinnean/zlae164.

[48] Dominici, S. (2025). "The Revolution of Small Snails and the Early Modern Evolutionary Fauna". Diversity. 17 (2). 120. doi:10.3390/d17020120.

[49] Shen, H.; Bao, R.; Li, C.; Sheng, X.; Wu, M.; Xu, Y.; Tan, H.; Li, Y. (2025). "Land snail shell morphology as a new Paleomonsoon proxy". Scientific Reports. 15. 9749. doi:10.1038/s41598-025-91903-2. PMC 11928581.

[EmoPunk-50] Sutton, M. D.; Sigwart, J. D.; Briggs, D. E. G.; Gueriau, P.; King, A.; Siveter, D. J.; Siveter, D. J. (2025). "New Silurian aculiferan fossils reveal complex early history of Mollusca". Nature. 637 (8046): 631–636. doi:10.1038/s41586-024-08312-0. PMC 11735398. PMID 39779843.

[51] Mazaev, A. V. (2025). "The first records of bransoniid rostroconchs (Bransoniidae, Rostroconchia, Mollusca) in the Pennsylvanian of the Russian Platform". Ruthenica, Russian Malacological Journal. 35 (1): 21–30. doi:10.35885/ruthenica.2025.35(1).2.

[52] Al Aswad, J. A.; Penn, J. L.; Monarrez, P. M.; Bazzi, M.; Deutsch, C.; Payne, J. L. (2025). "Physiology and climate change explain unusually high similarity across marine communities after end-Permian mass extinction". Science Advances. 11 (13). eadr4199. doi:10.1126/sciadv.adr4199. PMC 11939053.

[53] Reddin, C. J.; Landwehrs, J. P.; Mathes, G. H.; Ullmann, C. V.; Feulner, G.; Aberhan, M. (2025). "Marine species and assemblage change foreshadowed by their thermal bias over Early Jurassic warming". Nature Communications. 16 (1). 1370. doi:10.1038/s41467-025-56589-0. PMC 11799210. PMID 39910097.

[54] Kennedy, W. J.; Walaszczyk, I. (2025). "Ammonites and inoceramids of the Middle–Upper Albian of Mangyshlak (western Kazakhstan); systematics, biostratigraphy and biogeography". Acta Geologica Polonica. 75 (1). e37. doi:10.24425/agp.2024.152654.

[55] Aiba, D.; Mochizuki, T. (2025). "Ammonoids and inoceramid bivalves from the Upper Cretaceous shallow marine deposits of Taneichi Formation in Hirono Town, Iwate Prefecture, northeastern Japan: implication for biostratigraphy". Cretaceous Research. 106148. doi:10.1016/j.cretres.2025.106148.

[56] Fergusen, M. A.; Reed, E. H.; García-Bellido, D. C. (2025). "Investigating colour in marine Miocene molluscs: UV fluorescence patterns and pigment EDX spectroscopy in shells from the Murbko Marl, Murray Basin (South Australia)". Palaeontologia Electronica. 28 (1). 28.1.a19. doi:10.26879/1394.

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