2019년 고생물학
2019 in paleoichthyology
| |||
|---|---|---|---|
2019년에 기술된 이 화석 어류 목록은 2019년에 기술된 무턱 척추동물, 플라코다목, 아칸소다목, 화석 연골어, 골어류 및 기타 모든 종류의 물고기의 새로운 분류군 목록이며, 2019년에 발생한 고생물학과 관련된 기타 중요한 발견과 사건이다.
새로운 분류군
무턱척추동물
| 이름. | 참신성 | 상황 | 작가들 | 나이 | 유형 인접성 | 나라 | 메모들 | 이미지들 |
|---|---|---|---|---|---|---|---|---|
| 11월 1일 | 유효한 | 마루스 | 키아타스피드과(Cyathaspidididae. | |||||
| 11월 1일 | 유효한 | 마루스 | 타부스카 침대 | 키아타스피드과(Cyathaspidididae. | ||||
| 제너레이션 등 sp. nov. | 유효한 | 류 외 | 계통 발생학적 위치가 불확실한 갈레아스피다 구성원.모식종은 J. inflectus이다. | |||||
| 11월 1일 | 유효한 | 쿠이 등 | ||||||
| 11월 1일 | 유효한 | 쿠이 등 | ||||||
| 11월 1일 | 유효한 | 쿠이 등 | ||||||
| 제너레이션 등 sp. nov. | 유효한 | 미야시타 외 | 먹장어.모식종은 T. tapirostrum이다. | |||||
| 11월 1일 | 유효한 | 마루스 | 실루리아 후기 | 크라스나야 부흐타 층 |
| 키아타스피드과(Cyathaspidididae. | ||
| 일반 빗새출발 | 유효한 | 류 외 |
플래코더
| 이름. | 참신성 | 상황 | 작가들 | 나이 | 유형 인접성 | 나라 | 메모들 | 이미지들 |
|---|---|---|---|---|---|---|---|---|
| 11월 1일 | 유효한 | 다운스 등 | 아스테롤레피스의 안티아치 | |||||
| 제너레이션 등 sp. nov. | 유효한 | 올리브 등 | 후기 데본기 | Antiarchi의 일원인 Asterolepidoidei 슈퍼 패밀리.C. villaroeli는 새로운 종을 포함한다. | ||||
| 제너레이션 등 sp. nov. | 유효한 | 올리브 등 | 후기 데본기 | |||||
| 제너레이션 등 sp. nov. | 유효한 | 트리나이스틱 외 | 스네트냐 고라 침대 | Ptyctodontida의 일원입니다.모식종은 "Celyophorus" pskovensis Obruchev(1947년)이다. |
아칸소디아인
| 이름. | 참신성 | 상황 | 작가들 | 나이 | 유형 인접성 | 나라 | 메모들 | 이미지들 |
|---|---|---|---|---|---|---|---|---|
| 11월 1일 | 유효한 | Den Blaauwen, Newman & Burrow | 메이 플래그스톤 층 | |||||
| 제너레이션 등 sp. nov. | 뉴먼, 버로우 & 덴 블라우웬 | 이쉬나칸티폼과의 일원입니다.모식종은 S. 암스트롱이다. |
연골어류
| 이름. | 참신성 | 상황 | 작가들 | 나이 | 유형 인접성 | 나라 | 메모들 | 이미지들 |
|---|---|---|---|---|---|---|---|---|
| 제너레이션 등 sp. nov. | 유효한 | Stumpf & Kriwet | 계통 발생학적 위치가 불분명한 라지폼스(Rajiformes의 일원.모식종은 A. grimenensis이다. | |||||
| 제너레이션 등 sp. nov. | 유효한 | 빌라로보스-세구라 외 | ||||||
| 11월 1일 | 유효한 | 케이스 등 | 블라덴 포메이션 | 길링모스토마과의 일원입니다. | ||||
| 11월 1일 | 유효한 | Eversole, Cicimurri & Stringer | 카르카리누스의 일종입니다. | |||||
| 11월 1일 | 유효한 | Samonds 등 | 마하장가 분지 | 카르카리누스의 일종입니다. | ||||
| 11월 1일 | 유효한 | 카페타, 모리슨 & 애드넷 | 카르차리아 종입니다. | |||||
| 11월 1일 | 유효한 | 카페타, 모리슨 & 애드넷 | 백악기 후기(캄파니아) | 노섬벌랜드 포메이션 | 스쿼리과의 일원입니다. | |||
| 11월 1일 | 유효한 | 카페타, 모리슨 & 애드넷 | 백악기 후기(캄파니아) | 노섬벌랜드 포메이션 | 클라미도셀라쿠스의 일종입니다. | |||
| 11월 1일 | 유효한 | 호간슨, 에릭슨 & 홀랜드 | ||||||
| 11월 1일 | 유효한 | 시마다&에버하트 | ||||||
| 11월 1일 | 유효한 | 호간슨, 에릭슨 & 홀랜드 | 다시아티스의 한 종입니다. | |||||
| 제너레이션 등 sp. nov. | 유효한 | Stumpf, Sheer 및 Kriwet | 신과 Pseudoscyliorhinidae에 속하는 카르카린목의 일원입니다.모식종은 D. hilperti이다. | |||||
| 외 sp. nov. | 한 ★★★ | , | 후기( | 포메이션 |
| 클라미도셀라키아과의 일원입니다.모식종은 D. garethi이다. | ||
| 외 sp. nov. | 한 ★★★ | , | 후기( | 포메이션 |
| 새로운 플로렌소돈과(Florenceodontidae)에 속하는 카르카린목의 일원입니다.속은 새로운 종인 F. johnyi를 포함한다. | ||
| 외 sp. nov. | 한 ★★★ | & Gates, Gorscak mak Makovicky | 양탄자 상어.모식종은 G. nordquistae이다. | |||||
| 11월 | 한 ★★★ | & (긴터 & 스콤스키) | 계통 발생학적 위치가 불분명한 크테나칸스상과의 구성원.모식종은 "Ctenacanthus" 코스텔라투스 트라콰이어(1884년). | |||||
| 외 sp. nov. | 한 ★★★ | Maisey et al. | 뿌까팜펠라와 관련이 있으며 새로운 과에 속하는 계통 발생학적 위치가 불분명한 연골어류입니다.모식종은 G. oosthuizeni이다. | |||||
| 외 sp. nov. | 한 ★★★ | , | 후기( | 포메이션 |
| Dalatiidae과의 일원입니다.이 속은 새로운 종인 H. wardi를 포함한다. | ||
| 1일 | 한 ★★★ | 미리오바티폼의 일원입니다. | ||||||
| 1일 | 한 ★★★ | 단검코 상어의 친척입니다. | ||||||
| 외 sp. nov. | 한 ★★★ | & | ||||||
| 외 sp. nov. | 한 ★★★ | , | 후기( | 포메이션 |
| |||
| 외 sp. nov. | 한 ★★★ | 마라마 등 | ||||||
| 1일 | 한 ★★★ | |||||||
| 1일 | 한 ★★★ | &, Hoganson 및 Holland | 독수리 가오리. | |||||
| 1일 | 한 ★★★ | 계통학적 위치가 불분명한 Neoslachii의 구성원. | ||||||
| 외 sp. nov. | 한 ★★★ | & Popov, Delsate » Felten | 국경 | |||||
| 1일 | 한 ★★★ | , | 후기( | 포메이션 |
| |||
| 1일 | 한 ★★★ | Adnet 등 | 파스티나코스의 카우테일 가오리입니다.2018년 발표, 2019년 기사명 최종판 게재. | |||||
| 1일 | 한 ★★★ | 빌라파냐 외 | 마이오세 초기 | 프리스티오포러스의 일종입니다. | ||||
| 1일 | 한 ★★★ | , | 후기( | 포메이션 |
| 프리스티오포러스의 일종입니다. | ||
| 1일 | 한 ★★★ | , | 후기( | 포메이션 |
| 프리스티오포러스의 일종입니다. | ||
| 1일 | 한 ★★★ | , | 후기( | 포메이션 |
| 센트로포루스과의 일원입니다. | ||
| 외 sp. nov. | 한 ★★★ | , | 후기( | 포메이션 |
| 소상어.이 속은 새로운 종인 P. lowei를 포함한다. | ||
| 1일 | 한 ★★★ | , 카릴로브리체뇨, 파라&루케 | ||||||
| 11월 | 한 ★★★ | & Eversole, Cicimurri & Stringer | 레퀴엠 상어.모식종은 Galeocerdo recticonus Winkler(1874년)이다.속은 Galeorhinus recticonus claibornensis White(1956년)도 포함하고 있다. | |||||
| 1일 | 한 ★★★ | ) | ||||||
| 1일 | 한 ★★★ | , | 후기( | 포메이션 |
| 솜니오시스과의 일원입니다. | ||
| comb.et의 콤비입니다. 1일 | 한 ★★★ | , | 부터 마이오세까지 |
| 클라미도셀라키아과의 일원입니다.그 모식종은 R석입니다. ludvigseni, 속 또한"주름 상어 속"bracheri Pfeil(1983년),"주름 상어 속"fiedleri Pfeil(1983년),"주름 상어 속"thomsoni 리히터 및 포함하며, 워드(1990년),"주름 상어 속"골리앗 Antunes &, Cappetta(2002년),"주름 상어 속"keyesi Mannering&힐러(2008년),"주름 상어 속"tatere Consoli(2008년). 과``Chlamy도셀라쿠스' 란디니 카리요-브리체뇨, 아길레라 & 로드리게스(2014). | |||
| 1일 | 한 ★★★ | 중기 마이오세 | 그룹 | 스키노다라티아스의 일종입니다. | ||||
| 1일 | 한 ★★★ | , | 후기( | 포메이션 |
| Dalatiidae | ||
| 1일 | 한 ★★★ | , | 후기( | 포메이션 |
| 스퍼독. | ||
| 1일 | 한 ★★★ | , | 후기( | 포메이션 |
| 팔래오스피나시과의 일원입니다. | ||
| 11월 | 한 ★★★ | 마라마 등 | ||||||
| 외 sp. nov. | 한 ★★★ | 브리토, 비야로보스세구라, 알바라도오르테가 | ||||||
| 11월 | 한 ★★★ | , | 후기( | 포메이션 |
| 소상어."Notidanus" 덴타투스 우드워드(1886)를 포함하고 있다. |
지느러미
| 름 name 。 | ★★★★ | ★★ | ★★★★★ | ★★ | locality 라고 합니다. | ★★ | ★★★★★ | ★★★★ |
|---|---|---|---|---|---|---|---|---|
|
| 한 ★★★ | 계통 발생학적 위치가 불분명한 퍼코모르파세아 구성원.모식종은 A. eocaenicus이다. | ||||||
| 1일 | 한 ★★★ | 아크로포마의 일종입니다. | ||||||
| 1일 | 한 ★★★ | 앰배서디스의 일종입니다. | ||||||
| 1일 | 한 ★★★ | 오피디과의 일원입니다. | ||||||
| 1일 | 한 ★★★ | 안티고니아의 한 종입니다. | ||||||
| 11월 | 한 ★★★ | 연등어.모식종은 "Scopelus" 콩아나루엔시스 프로스트(1933년)이다. | ||||||
| 1일 | 한 ★★★ | Tasell & ★★★★★★★★★★★★★★★★★★★★★★★★★★★ | 새크라멘토 농어족의 친척이지 | |||||
| 외 sp. nov. | 한 ★★★ | 로마노 등 | 쐐기풀과의 일원입니다.속은 새로운 종인 A. occidentalis를 포함한다. | |||||
| 1일 | 한 ★★★ | 아가리프누스의 한 종류. | ||||||
| 1일 | 한 ★★★ | 아가리프누스의 한 종류. | ||||||
| 1일 | 한 ★★★ | 데친 생선. | ||||||
| 1일 | 한 ★★★ | 데친 생선. | ||||||
| 1일 | 한 ★★★ |
| 흑지느러미 후크 조각상의 친척입니다. | |||||
| 1일 | 한 ★★★ |
| 아르테디엘루스 종입니다. | |||||
| 1일 | 한 ★★★ | 아세라고데스의 일종입니다. | ||||||
| 1일 | 한 ★★★ | ahuru의 친척입니다. | ||||||
| 1일 | 한 ★★★ |
| 멸종된 튜베노스. | |||||
| 외 sp. nov. | 한 ★★★ | 카르네발 등 | 에오세 후기 | 도마뱀 물고기.알메라이속은 새로운 종을 포함한다. | ||||
| . nov. sp. nov.】 | 한 ★★★ | 남방산 황새치.모식종은 "렙토코푸스" 프로그레스 슈워한스(1980년)이며, 속은 "렙토코푸스" 이코수스 슈워한스(1980년)와 새로운 종인 A. 카와도 포함하고 있다. | ||||||
| 1일 | 한 ★★★ | 로페즈, & , 비놀라 로페즈, 카 & 로렌조 | 발리스테스의 일종입니다. | |||||
| 1일 | 한 ★★★ | 바라트로누스의 일종입니다. | ||||||
| 11월 | 한 ★★★ | 로, 로페스-아르바렐로, 로페스-아르바렐로, 로페스-아르바렐로 | ||||||
| 1일 | 한 ★★★ | 콩과(Congridae)의 일원입니다.원래는 Bathycongrus의 한 종으로 기술되었지만, 이후 Smithconger속으로 옮겨졌습니다.[45] | ||||||
| 1일 | 한 ★★★ | 바시가두스의 일종입니다. | ||||||
| 1일 | 한 ★★★ | 펨브롭스의 일종입니다. | ||||||
| 1일 | 한 ★★★ | 펨브롭스의 일종입니다. | ||||||
| 1일 | 한 ★★★ | 벤토세마의 한 종입니다. | ||||||
| 1일 | 한 ★★★ | 바이니치티스의 한 종입니다. | ||||||
| 1일 | 한 ★★★ | 블라체아의 일종입니다. | ||||||
| 1일 | 한 ★★★ | 고노스토마과의 일원입니다. | ||||||
| 1일 | 한 ★★★ | 브로스모피캅스의 일종입니다. | ||||||
| 1일 | 한 ★★★ | & | 가오리 지느러미 초기의 물고기., 2019년 . | |||||
| 외 sp. nov. | 한 ★★★ | Taverne 등 | 차돌박이과의 일원입니다.모식종은 C. dartevellei이다. | |||||
| 1일 | 한 ★★★ | 칼리오니무스의 일종입니다. | ||||||
| 1일 | 한 ★★★ | 칼리오니무스의 일종입니다. | ||||||
| 외 sp. nov. | 한 ★★★ | 로마노 등 | ||||||
| 외 sp. nov. | 한 ★★★ | 의 | ||||||
| 1일 | 한 ★★★ | 세팔로폴리스의 한 종류일 수 있습니다. | ||||||
| 1일 | 한 ★★★ | 세폴라의 일종입니다. | ||||||
| 1일 | 한 ★★★ | |||||||
| 1일 | 한 ★★★ | 샹소돈의 일종입니다. | ||||||
| 1일 | 한 ★★★ | 쇼낙스의 한 종입니다. | ||||||
| 외 sp. nov. | 한 ★★★ | 세베리아노,& | Pomacentridae과의 일원입니다.이 속은 새로운 종 C. 곤잘레조럼을 포함한다.2019년 발표, 2020년 기사명 최종판 게재. | |||||
| 1일 | 한 ★★★ | 크리오네마의 일종입니다. | ||||||
| 1일 | 한 ★★★ | 코엘로린추스의 일종입니다. | ||||||
| 1일 | 한 ★★★ | 코엘로린추스의 일종입니다. | ||||||
| 1일 | 한 ★★★ | 코엘로린추스의 일종입니다. | ||||||
| 1일 | 한 ★★★ | 리 등 | Perleidiformes의 일원입니다. | |||||
| 1일 | 한 ★★★ | 붕장어의 일종입니다. | ||||||
| 1일 | 한 ★★★ | 붕장어의 일종입니다. | ||||||
| 외 sp. nov. | 한 ★★★ | |||||||
| 11월 | 한 ★★★ | & 타 、 파 ta 、 파 ta 、 델 ta ta | ||||||
| 1일 | 한 ★★★ | 다나포의 일종입니다. | ||||||
| 1일 | 한 ★★★ | 디아푸스의 일종입니다. | ||||||
| 11월 1일 | 유효한 | 슈바르츠한스 & 오헤 | 디아푸스의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 & 오헤 | 디아푸스의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 디아푸스의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 & 오헤 | 아마 피아첸지안 | 디아푸스의 일종입니다. | ||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 디아푸스의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 디아푸스의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 & 오헤 | 디아푸스의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 디아푸스의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 디아푸스의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 & 오헤 | 디아푸스의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 & 오헤 | 디아푸스의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 디아푸스의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 디브란추스의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 디오게니히티스의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 쌍떡잎 식물의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 돌리콥테릭스의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 에키오돈의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | Electrona의 한 종류. | |||||
| 11월 1일 | 유효한 | 폴크 등 | 바라 벨하층 | 엘리미크티상아목 및 파라클루페과(Paraclupeidae)에 속하는 클루페오모르파.2019년 발표, 2020년 기사명 최종판 게재. | ||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 에멜리치스의 한 종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 엔켈리오피스의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 연등어. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 연등어. | |||||
| 11월 1일 | 유효한 | 로페스-아르바렐로 외 | 메리드 석회암 | Semionotiformes의 일원입니다. | ||||
| 11월 1일 | 유효한 | 로페스-아르바렐로 외 | 메리드 석회암 | Semionotiformes의 일원입니다. | ||||
| 11월 1일 | 유효한 | 로페스-아르바렐로 외 | 메리드 석회암 | Semionotiformes의 일원입니다. | ||||
| 제너레이션 등 sp. nov. | 유효한 | 알바라도오르테가브리토 | Elopiformes의 일원입니다.이 속은 새로운 종인 E. martinezi를 포함한다.2019년 발표, 2020년 기사명 최종판 게재. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 에피고누스의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 에피고누스의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 에트루메우스의 한 종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 스파리드과의 일원입니다. | |||||
| 제너레이션 등 sp. nov. | 유효한 | 코울리 & 크리웨 | 피크노돈과(Pycnodontide)에 속하는 피크노돈과(Pycnodontiformes)의 일원.모식종은 마름모꼴이다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 포스테리지온의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 가디쿨루스의 한 종류. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 가디쿨루스의 한 종류. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 갈레히티스의 한 종입니다. | |||||
| 제너레이션 등 sp. nov. | 유효한 | 카르네발레 반니코프 | Calionymoidei의 멤버입니다.모식종은 G. minuta입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | Gnathophis의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 고노스토마의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 살라슬레오트리드과(Thalasseleotrididae)의 일원입니다. | |||||
| 제너레이션 et comb. 11월. | 유효한 | 바니코프 | ||||||
| 11월 1일 | 유효한 | 구이리치카발리, 레미레스 & 크리웨트 | 백악기 전기(발랑기니아어-호테리비아어) | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 하파지퍼의 한 종류일 수도 있습니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 헤메로케의 일종. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 헤메로케의 일종. | |||||
| 제너레이션 등 sp. nov. | 유효한 | 킴 등 | Redfieldiiformes의 일원입니다.보령엔시스속은 새로운 종을 포함한다.2019년 발표, 2020년 기사명 최종판 게재. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 연등어. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 하웰라의 한 종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 히고폼의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 이크티스코푸스의 한 종류. | |||||
| 일반 빗sp. nov 등 | 유효한 | 브래디치 밀리노비치, 아넬트 & 슈바르한스 등. | 마이오세 초기 | 고비아과의 일원입니다.모식종은 Gobius serbiensis Gaudant(1998년)이다.속은 새로운 종인 K.와 젤코비카도 포함하고 있다. | ||||
| 제너레이션 등 sp. nov. | 유효한 | Veysey, Brito & 마틸 | 교잡목의 구성원입니다.이 속은 새로운 종인 K.asflaensis를 포함한다.2019년 발표, 2020년 기사명 최종판 게재. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 거짓된 세뇌의 친척입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 거짓된 세뇌의 친척입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 라엡스의 한 종류입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 연등어. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 람파니쿠스의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 람파니쿠스의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 람파니쿠스의 일종입니다. | |||||
| 일반 빗새출발 | 유효한 | 쉬 외 | 키포시크티폼목과 새로운 라샤니크티과로 분류되는 기링모디속.모식종은 "Sangiorgioichthys" sui Lopez-Arbarello et al.(2011년)이다.속은 "Sangiorgioichthys" 첸 외(2014년)도 포함한다. | |||||
| 제너레이션 et comb. 11월. | 유효한 | 바니코프 & 조르진 | 계통 발생학적 위치가 불확실한 Perciformes의 구성원.모식종은 'Psettopsis' 라텔라이 반니코프(2005년). | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 마크로루스과의 일원입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 남방산 황새치. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 레트리누스의 한 종류일 수도 있습니다. | |||||
| 제너레이션 등 sp. nov. | 유효한 | 머레이 등 | Percopsiformes의 일원입니다.이 속은 새로운 종인 L. albertensis를 포함한다.2019년 발표, 2020년 기사명 최종판 게재. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 아마도 Liparis의 한 종류일 것이다. | |||||
| 제너레이션 등 sp. nov. | 유효한 | 오테로 | 중기 에오세 | 황새치의 친척입니다.모식종은 L. catrillancai이다. | ||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 로피오드의 일종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 로피우스의 한 종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 로피우스의 한 종입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 로텔라의 한 종류. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 로텔라의 한 종류. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 로텔라의 한 종류. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 메를루치과의 일원입니다. | |||||
| 11월 1일 | 유효한 | 슈바르츠한스 | 메를루치과의 일원입니다. | |||||
| 일반 빗11월 2일 외 | 유효한 | 슈바르츠한스 | A member of the family Cottidae. The type species is "Cottidarum" impolitus Schwarzhans (1980); genus also includes new species M. calidophilus and M. ovatus. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Melamphaes. | |||||
| Gen. et sp. nov | Valid | Cartanyà et al. | A member of the family Perleididae. Genus includes new species M. vilasecae. | |||||
| Gen. et comb. et 2 sp. nov | Valid | Schwarzhans | A member of Anguilloidei of uncertain phylogenetic placement. The type species is Otolithus (Trachini)" thevenini Priem (1906); genus also includes new species M. balegemensis and M. lacinata. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Myctophum. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Myctophum. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Myctophum. | |||||
| Gen. et sp. nov | Valid | Van Tassell & Smith | A member of the family Cyprinidae. The type species is M. fresti. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Nemadactylus. | |||||
| Sp. nov | Valid | Schwarzhans | Otekaike Limestone | A species of Nemadactylus. | ||||
| Sp. nov | Valid | Schwarzhans | A species of Neobythites. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Nezumia. | |||||
| Gen. et 2 sp. nov | Valid | Schwarzhans | A member of the family Congridae. The type species is N. hesperis; genus also includes N. devexus. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Notoscopelus. | |||||
| Sp. nov | Valid | Schwarzhans & Ohe | A species of Notoscopelus. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Opistognathus. | |||||
| Gen. et sp. nov | Penk et al. | A cichlid belonging to the tribe Oreochromini. The type species is O. kabchorensis. | ||||||
| Gen. et comb. nov | Valid | Murray | Probably Eocene | A member of the family Cyprinidae. Genus includes "Sardinioides" amblyostoma von der Marck (1876). | ||||
| Sp. nov | Valid | Schwarzhans | A species of Panturichthys. | |||||
| Gen. et sp. nov. | Valid | Bannikov & Zorzin | Monte Bolca locality | Possibly a wrasse. The type species is P. rossiae. | ||||
| Sp. nov | Valid | Schwarzhans | A species of Parapercis. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Parapercis. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Parapercis. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Parapercis. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Parapercis. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Parapercis. | |||||
| Sp. nov | Valid | Schwarzhans | A member of the family Acropomatidae. | |||||
| Sp. nov | Valid | Van Hinsbergh & Helwerda | Late Pliocene to early Pleistocene | A member of the family Acropomatidae. | ||||
| Sp. nov | Valid | Schwarzhans | A species of Paraulopus. | |||||
| Sp. nov | Wallaard et al. | A member of Aulopiformes belonging to the family Dercetidae. | ||||||
| Sp. nov | Valid | Schwarzhans | Hurupi Formation | A species of Pempheris. | ||||
| Sp. nov | Valid | Bogan & Agnolín | Late Miocene | A relative of the redtail catfish. | ||||
| Sp. nov | Valid | Schwarzhans | A species of Physiculus. | |||||
| Sp. nov | Valid | Schwarzhans | Possibly a species of Platycephalus. | |||||
| Sp. nov | Valid | Schwarzhans | Possibly a species of Platycephalus. | |||||
| Sp. nov | Valid | Wen et al. | ||||||
| Sp. nov | Valid | Schwarzhans | A species of Protomyctophum. | |||||
| Gen. et sp. et comb. nov | Valid | Schwarzhans | A member of the family Ophidiidae. The type species is P. biplex; genus also includes "Otolithus" hilgendorfi Koken (1891). | |||||
| Sp. nov | Valid | Schwarzhans | A species of Pseudanthias. | |||||
| Sp. nov | Valid | Schwarzhans | Possibly a species of Pseudocaranx. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Pseudophycis. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Pterygotrigla. | |||||
| Sp. nov | Valid | Romano et al. | Possibly a member of the family Turseoidae. | |||||
| Sp. nov | Valid | Vullo et al. | ||||||
| Gen. et sp. nov. | Valid | Bannikov & Zorzin | Monte Bolca locality | A member of Perciformes of uncertain phylogenetic placement. The type species is Q. durello. | ||||
| Gen. et 2 sp. nov | Valid | Kevrekidis, Valtl & Reichenbacher in Kevrekidis et al. | A cichlid belonging to the subfamily Pseudocrenilabrinae and the tribe Oreochromini.[78] The type species is R. ngororus; genus also includes R. kiptalami. | |||||
| Gen. et sp. et comb. nov | Valid | Bradić-Milinović, Ahnelt & Schwarzhans in Bradić-Milinović et al. | Early Miocene | A member of the family Gobiidae. The type species is R. varidens; genus also includes "Gobius" doppleri Reichenbacher (1993), "Gobius" gregori Reichenbacher (1993) and "Gobius" helvetiae Salis (1967). | ||||
| Sp. nov | Valid | Schwarzhans | A species of Rhynchoconger. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Saccogaster. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Sardinella. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Sardinella. | |||||
| Gen. et sp. nov | Valid | Ebert | A member of Halecomorphi. Genus includes new species S. uweelleri. | |||||
| Sp. nov | Valid | Zhang | Early Eocene | A species of Scleropages. Announced in 2019; the final version of the article naming it was published in 2020. | ||||
| Sp. nov | Valid | Grădianu et al. | Lower Dysodilic Shales Formation | A pearleye, a species of Scopelarchoides. | ||||
| Sp. nov | Valid | Schwarzhans | Possibly species of Scopelosaurus. | |||||
| Sp. nov | Valid | Schwarzhans | A member of the family Sillaginidae. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Sillago. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Sprattus. | |||||
| Gen. et comb. nov | Valid | Murray | Probably Eocene | A member of the family Cyprinidae. Genus includes "Barbus" megacephalus Günther (1876). | ||||
| Sp. nov | Valid | Schwarzhans & Ohe | Pliocene (Piacenzian) and Pleistocene (Gelasian) | A species of Symbolophorus. | ||||
| Sp. nov | Valid | Schwarzhans | A species of Symbolophorus. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Symbolophorus. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Symphysanodon. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Thalasseleotris. | |||||
| Sp. nov | Valid | Arratia, Schultze & Tischlinger | A teleost belonging to the family Ascalaboidae. | |||||
| Gen. et comb. nov | Valid | Ebert | A member of the family Pycnodontidae; a new genus for "Pycnodus wagneri Thiollière (1852). | |||||
| Sp. nov | Valid | Shimada | A member of the family Plethodidae. | |||||
| Sp. nov | Valid | Schwarzhans | A member of the family Congridae. | |||||
| Gen. et 2 sp. nov | Valid | Schwarzhans | A threefin blenny. The type species is T. waihaoensis; genus also includes T. clementsi. | |||||
| Gen. et sp. et comb. nov | Valid | Schwarzhans | An Old World silverside. The type species is T. toroa; genus also includes "Otolithus (Mugilidarum)" debilis Koken (1891). | |||||
| Gen. et sp. et comb. nov | Valid | Bradić-Milinović, Ahnelt & Schwarzhans in Bradić-Milinović et al. | Early Miocene | A member of the family Gobiidae. The type species is T. campylus; genus also includes "Gobius" longus Salis (1967). | ||||
| Sp. nov | Valid | Schwarzhans | A species of Trachyrincus. | |||||
| Gen. et comb. nov | Valid | Gouiric-Cavalli, Remírez & Kriwet | Early Cretaceous (Valanginian–early Hauterivian) | A member of Pycnodontiformes. Genus includes "Macromesodon" agrioensis. | ||||
| Gen. et comb. nov | Valid | Coates & Tietjen | An early ray-finned fish. The type species is "Rhadinichthys" planti Traquair (1888); genus also includes "Mesopoma" carricki Coates (1993) and "Mesopoma" pancheni Coates (1993). | |||||
| Gen. et sp. nov | Valid | Boukhalfa et al. | Chotts Basin | A member of Clupeomorpha belonging to the group Ellimmichthyiformes and to the family Paraclupeidae. Genus includes new species T. speratus. | ||||
| Sp. nov | Valid | Schwarzhans | Chatton Formation | A species of Uranoscopus. | ||||
| Sp. nov | Valid | Schwarzhans | A species of Uranoscopus. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Valenciennellus. | |||||
| Gen. et sp. nov | Valid | Díaz-Cruz, Alvarado-Ortega & Carbot-Chanona | A member of Aulopiformes belonging to the family Enchodontidae. Genus includes new species V. avendanoi. | |||||
| Sp. nov | Valid | Nam, Ko & Nazarkin | Middle Miocene | A species of Vinciguerria. | ||||
| Gen. et sp. nov | Valid | Schwarzhans | A member of the family Clupeidae. The type species is W. pinguis. | |||||
| Gen. et comb. nov | Valid | Schwarzhans | A southern sandfish. The type species is "Trachinoideorum" sagittiformis Schwarzhans (1980); genus also includes "Citharus" latisulcatus Frost (1924) and "Trachinoideorum" ultimus Schwarzhans (1980). | |||||
| Sp. nov | Valid | Schwarzhans | A member of the family Hemerocoetidae. | |||||
| Sp. nov | Valid | Schwarzhans | A member of the family Hemerocoetidae. | |||||
| Sp. nov | Valid | Schwarzhans | A member of the family Hemerocoetidae. | |||||
| Sp. nov | Valid | Schwarzhans | A species of Xenocephalus. | |||||
| Gen. et sp. nov | Valid | Xu et al. | A member of Ginglymodi assigned to the group Kyphosichthyiformes and to the new family Lashanichthyidae. The type species is Y. eximius. | |||||
| Gen. et sp. nov | Valid | Ebert | A member of Halecomorphi. Genus includes new species Z. tischlingeri. | |||||
| Sp. nov | Valid | Schwarzhans | A member of the family Ophidiidae. |
Lobe-finned fishes
| Name | Novelty | Status | Authors | Age | Type locality | Country | Notes | Images |
|---|---|---|---|---|---|---|---|---|
| Gen. et sp. nov | Valid | Krupina in Lebedev, Krupina & Linkevich | A lungfish. Genus includes new species A. dariae. | |||||
| Gen. et comb. nov | Valid | Smithson, Challands & Smithson | ||||||
| Sp. nov | Valid | Kemp | Ducabrook Formation | A lungfish. | ||||
| Gen. et sp. nov | Valid | Gess & Clement | Witpoort Formation | A lungfish. The type species is I. mlomomde. | ||||
| Gen. et sp. nov | Valid | Challands et al. | A lungfish. Genus includes new species L. fraseri. | |||||
| Gen. et sp. nov | Valid | Lebedev & Clément | Yam-Tesovo Formation | A member of Elpistostegalia. The type species is R. kuleshovi. | ||||
| Gen. et sp. nov | Valid | Mondéjar-Fernández | An onychodont sarcopterygian. Genus includes new species S. aquesbiae. | |||||
| Sp. nov | Valid | Yabumoto et al. | Middle Sakamena Group |
Other fishes
| Name | Novelty | Status | Authors | Age | Type locality | Country | Notes | Images |
|---|---|---|---|---|---|---|---|---|
| Gen. et sp. nov | Valid | Burrow in Burrow et al. | Hamelin Formation | A stem-gnathostome of uncertain phylogenetic placement. The type species is A. occidens. |
General research
- Revision of Early Devonian psammosteids described by Beverly Halstead from the so-called "Placoderm Sandstone" (Świętokrzyskie Mountains, Poland) is published by Dec (2019).[99]
- A study on the locomotion of psammosteids, focusing on the influence of the shape of the psammosteid body form on hydrodynamic performance, is published by Dec (2019).[100]
- A study on the anatomy of dermal plates of Astraspis is published by Lemierre & Germain (2019), who report possible evidence of presence of proliferative cartilage in this taxon.[101]
- A study on the anatomy of the circulatory system of the head of Shuyu is published by Gai, Zhu & Donoghue (2019).[102]
- Redescription of Sinogaleaspis shankouensis, based on data from 11 new specimens from the Silurian Xikeng Formation (Jiangxi, China), is published online by Gai et al. (2019).[103]
- A study on the anatomy of the dermal skeleton of Tremataspis mammillata is published by O'Shea, Keating & Donoghue (2019).[104]
- Redescription of Asterolepis orcadensis based on newly collected fossil material is published by Newman, den Blaauwen & Leather (2019).[105]
- A study on the morphology of the jaw elements of a buchanosteoid placoderm specimen ANU V244 from the Early Devonian limestones (~400 Ma) at Burrinjuck, near Canberra (Australia) is published by Hu et al. (2019).[106]
- A specimen of Dunkleosteus terrelli preserving vertebrae fused into a structure known as the synarcual is described from the Devonian Cleveland Shale Member of the Ohio Shale Formation (Ohio, United States) by Johanson et al. (2019).[107]
- A redescription and a study on the phylogenetic relationships of a putative antiarch Silurolepis platydorsalis is published by Zhu, Lu & Zhu (2019), who reinterpret this species as a maxillate placoderm close to Qilinyu.[108]
- New body fossils of Cheiracanthus intricatus, including the first known articulated specimen of this species, are described from the Givetian Tordalen Formation (Spitsbergen, Norway) by Newman, Burrow & den Blaauwen (2019).[109]
- A study on the anatomy of the skeletal elements of the pharynx of Ptomacanthus anglicus, and on its implications for the knowledge of the evolution of the pharynx of jawed vertebrates, is published by Dearden, Stockey & Brazeau (2019).[110]
- Description of fossils of Carboniferous (Mississippian) cartilaginous fishes from the area of Krzeszowice (Poland) is published by Ginter & Złotnik (2019).[111]
- A study on microwear on teeth of Edestus minor, and on its implications for the knowledge of function of teeth of this fish, is published by Itano (2019).[112]
- A revision of species belonging to the genus Edestus is published by Tapanila & Pruitt (2019).[113]
- Discovery of a cast of the holotype of Petalodus ohioensis in the collections of the Yale Peabody Museum of Natural History is reported by Carpenter & Itano (2019), who consider the species Petalodus alleghaniensis to be a junior synonym of P. ohioensis.[114]
- Restudy of a putative bill of an ibis-like bird from the Eocene La Meseta Formation (Antarctica) described by Jadwiszczak, Gaździcki & Tatur (2008)[115] is published by Agnolin, Bogan & Rozadilla (2019), who consider this specimen to be more likely to be a dorsal spine of a chimaeroid cartilaginous fish.[116]
- A study on the anatomy of the skull of Tristychius arcuatus, providing evidence of adaptations for suction feeding, is published by Coates et al. (2019).[117]
- Description of the first skeletal remains of Phoebodus from the Famennian of the Maïder region of Morocco, providing new information on the anatomy of this species, and a study on the phylogenetic affinities of Phoebodus is published by Frey et al. (2019).[118]
- Teeth of a hybodont shark belonging to the genus Asteracanthus, with anatomy indicative of a crushing feeding behaviour, are described from the Upper Jurassic deposits of the Monte Nerone Pelagic Carbonate Platform, in the Umbria‐Marche‐Sabina Palaeogeographic Domain (Italy) by Citton et al. (2019).[119]
- An association of 58 teeth of Ptychodus anonymus, representing the first occurrence of an associated dentition of this species, is described from the Cenomanian Jetmore Member of the Greenhorn Formation (Kansas, United States) by Hamm (2019).[120]
- Description of new associated skeletal remains of Ischyrhiza mira from the Upper Cretaceous of Tennessee and Alabama and a study on the paleobiology of this species is published by Sternes & Shimada (2019).[121]
- A study on the anatomy and phylogenetic relationships of Promyliobatis gazolai is published by Marramà et al. (2019).[122]
- Fossils of members of the genus Aetomylaeus are described from localities in Peru and Chile by Villafaña et al. (2019), representing the first unambiguous fossil record of this genus from the Neogene of the southeastern Pacific.[123]
- A specimen of the whiptail stingray species Tethytrygon muricatus preserving the uterus bearing four eggs is described from the Eocene of the Monte Bolca locality (Italy) by Fanti, Mazzuferi & Marramà (2019).[124]
- Description of Langhian ray fossils from the Lower Tagus Basin (Portugal) is published by Fialho, Balbino & Antues (2019).[125]
- A study on the taxonomic status and geological age of large shark remains from the Upper Cretaceous of the Castellavazzo locality (Italy) discovered in the 19th century is published by Conte et al. (2019).[126]
- 15 partial skeletons of lamniform sharks, including the largest specimen of Cretoxyrhina mantelli known to date, are described from the Upper Cretaceous Scaglia Rossa Formation (Italy) by Amalfitano et al. (2019), who also review the taxonomic history of C. mantelli.[127]
- A study on teeth histology and mineralization pattern in lamniform sharks, based on data from extant and fossil taxa (including enigmatic galeomorph shark Palaeocarcharias stromeri), is published by Jambura et al. (2019).[128]
- A study on changes of diversity of lamniform sharks throughout their evolutionary history, aiming to determine the causes of their decline in the last 20 million years, is published by Condamine, Romieu & Guinot (2019).[129]
- A study on changes in the presence or absence of lateral cusplets on teeth of members of the genus Carcharocles from the Calvert, Choptank, and St. Marys formations, and on their implications for the transition of shark populations from these formations from a Carcharocles chubutensis-dominated population to one dominated by C. megalodon, is published by Perez et al. (2019).[130]
- A revision and a reevaluation of the reliability of all post-Messinian occurrences of Otodus megalodon in marine strata from western North America, and a study on the timing of extinction of this species, is published by Boessenecker et al. (2019).[131]
- A study on the body size of Otodus megalodon, as inferred from the relationship between the ontogenetic development of teeth and total body length in the great white shark, is published by Shimada (2019).[132]
- Partial forelimb of a rorqual with several shark bite marks is described from the Pliocene Burica Formation (Panama) by Cortés et al. (2019).[133]
- A study on the anatomy of the holotype specimen of a putative Paleocene shark Platyacrodus unicus is published by Bogan, Agnolin & Ezcurra (2019), who reinterpret this specimen as a carapace of a small retroplumid crab belonging to the genus Costacopluma.[134]
- An assemblage of well-preserved isolated teeth of elasmobranchs is described from the late Oligocene of the North Alpine Foreland Basin (Austria) by Feichtinger et al. (2019).[135]
- Description of the deep-sea elasmobranch fauna from the Miocene Yatsuo Group in central Japan, including the first fossil occurrences of the genera Arhynchobatis and Pseudoraja, will be published by Nishimatsu & Ujihara (2019).[136]
- Description of the deep-sea elasmobranch fossils from the Miocene Makino Formation in southwest Japan, including the first fossil occurrences of the genera Springeria and Narke, is published by Nishimatsu (2019).[137]
- A study on Paleocene cartilaginous fish fossils from the Lower Clayton Limestone Unit of the Midway Group near Malvern, Arkansas, evaluating the implications of these fossils for the knowledge of cartilaginous fish diversity across the Cretaceous-Paleogene boundary in the Malvern region and Gulf Coastal Plain of southwestern Arkansas, is published online by Maisch, Becker & Griffiths (2019).[138]
- A study on the morphology of scales and squamation pattern in Guiyu oneiros is published by Cui, Qiao & Zhu (2019).[139]
- A study on the anatomy and phylogenetic relationships of Brazilichthys macrognathus is published by Figueroa, Friedman & Gallo (2019).[140]
- Permian species Palaeothrissum inaequilobum Blainville (1818) and P. parvum Blainville (1818) are found to be senior synonyms of the widely used species name Aeduella blainvillei (Agassiz, 1833) by Brignon (2019). Conditions exist for reversal of precedence and Aeduella blainvillei is declared nomen protectum.[141]
- A study on the anatomy of the jaws, palate and teeth of Eurynotus crenatus is published by Friedman et al. (2019).[142]
- New specimen of Birgeria liui, representing the most complete and articulated postcranial skeleton of an adult specimen of Birgeria reported so far, is described from the Ladinian of South China by Ni et al. (2019).[143]
- Fossil remains of a spiral valve are reported in a specimen of Peipiaosteus pani from the Lower Cretaceous Yixian Formation (China) by Capasso (2019).[144]
- Teeth of members of the genus Pycnodus are described from the Upper Cretaceous Cap de Naze marine formation (Senegal) by Capasso (2019).[145]
- Description of a partial skeleton of Micropycnodon kansasensis from the Smoky Hill Chalk Member of the Niobrara Chalk (Kansas, United States), providing new information on the anatomy of this species, is published by Cronin & Shimada (2019).[146]
- A study on the paleobiology of specimens of Nursallia gutturosum from the Cenomanian-Turonian platy limestone deposit of Vallecillo (north-eastern Mexico) is published by Stinnesbeck, Rust & Herder (2019).[147]
- A study on the anatomy and phylogenetic relationships of Robustichthys luopingensis is published by Xu (2019).[148]
- Fossil teeth representing the first evidence of Late Jurassic ginglymodians from Mt. Nerone in the Umbria-Marche-Sabina Domain (Italy) are described by Romano et al. (2019).[149]
- A study on the anatomy and phylogenetic relationships of "Lepidotes" bernissartensis is published online by Cavin, Deesri & Olive (2019), who transfer this species to the genus Scheenstia.[150]
- A study on the internal anatomy of a left jaw of a member of the genus Scheenstia from the Kimmeridgian Reuchenette Formation (Switzerland) is published online by Leuzinger et al. (2019), who describe a peculiar tooth replacement mode in this specimen.[151]
- A study on the stomach contents of two specimens of Lepidotes from the Lower Jurassic of Germany is published online by Thies, Stevens & Stumpf (2019).[152]
- Six new occurrences of Belonostomus, documenting the biogeographic and biostratigraphic range of this genus in North America, are reported from the Upper Cretaceous of Texas, Alabama and Mississippi by Van Vranken, Fielitz & Ebersole (2019).[153]
- A study on the diversity of pectoral fin shape amongst members of Pachycormiformes is published by Liston et al. (2019).[154]
- A study on the anatomy of the skull of Martillichthys renwickae is published online by Dobson et al. (2019).[155]
- Fossil remains of a member or a relative of the genus Asthenocormus are described from the Upper Jurassic of the Ameghino (= Nordenskjöld) Formation of the Antarctic Peninsula by Gouiric-Cavalli et al. (2019), representing the first record of a suspension-feeding pachycormid from the Upper Jurassic of the Antarctic Peninsula and the oldest pachycormid yet recovered from Antarctica.[156]
- New, three-dimensionally preserved specimens of Pachycormus are described from the Toarcian of Strawberry Bank at Ilminster (Somerset, United Kingdom) by Cawley et al. (2019).[157]
- A study on the anatomy of Pleuropholis decastroi from the Lower Cretaceous (Albian) limestones of Pietraroja (Province of Benevento, Italy) and on the phylogenetic relationships of the family Pleuropholidae is published by Taverne & Capasso (2019).[158]
- A study on the anatomy and phylogenetic relationships of the teleost species Majokia brasseuri from the Middle Jurassic Stanleyville Formation (Democratic Republic of the Congo) is published by Taverne (2019), who names a new order Majokiiformes.[159]
- A study on the anatomy, jaw mechanics and phylogenetic relationships of Dugaldia emmilta is published by Cavin & Berrell (2019).[160]
- A juvenile specimen of Xiphactinus audax, representing the smallest specimen of this species reported so far, will be described from the Cretaceous Niobrara Chalk (Kansas, United States) by King & Super (2019).[161]
- A study on the internal structure of a fossil specimen of Notelops brama, investigated by neutron tomography, is published by Pugliesi et al. (2019).[162]
- A study on the anatomy and phylogenetic relationships of Cavenderichthys talbragarensis and Waldmanichthys koonwarri is published online by Bean & Arratia (2019).[163]
- A study on fossils of members of the genus Capoeta from the Pliocene locality Çevirme (Turkey) and on the evolutionary history of this genus is published by Ayvazyan, Vasilyan & Böhme (2019).[164]
- Evidence of presence of managed aquaculture of the common carp by around 6000 BC is reported from the Early Neolithic Jiahu site (China) by Nakajima et al. (2019).[165]
- A study on the morphology of fossil catfish spines from the Upper Cretaceous Adamantina and Marilia formations (Brazil) is published by Alves, Bergqvist & Brito (2019).[166]
- A study on positions, heading directions and possible behavioural rules used in a group of fossil specimens of Erismatopterus levatus from the Eocene Green River Formation is published by Mizumoto, Miyata & Pratt (2019).[167]
- Description of gadiform fossils from the Eocene sediments of the Sverdlovsk and Tyumen regions (Ural and Western Siberia, Russia), including fossils of members of the family Merlucciidae, is published by Marramà et al. (2019).[168]
- Description of an incomplete percomorph specimen from the Miocene Ixtapa Formation (Mexico), representing the oldest primary freshwater percomorph fish from Mexico reported so far, is published by Cantalice & Alvarado-Ortega (2019).[169]
- A study on the evolutionary history of the fish clade Pelagiaria is published by Friedman et al. (2019).[170]
- A revision of the nomenclature of extant and fossil barracudas is published by Ballen (2019).[171]
- A review of the published fossil record of the family Labridae is published by Bellwood et al. (2019).[172]
- A study on the feeding habits of the percomorph fish Rhenanoperca minuta and other fishes from the Eocene Messel pit (Germany) is published by Micklich, Baranov & Wappler (2019).[173]
- A study on the phylogenetic relationships of "psarolepid" bony fishes, evaluating which characters cause their different placements in analyses utilizing different methods for reconstructing the tree of life, is published by King (2019).[174]
- A study on the ontogeny of the neurocranium and brain in the West Indian Ocean coelacanth, and on its implications for the knowledge of the evolution of the head of lobe-finned fishes, is published by Dutel et al. (2019).[175]
- Redescription of Axelrodichthys araripensis and a comparative study of several other members of Mawsoniidae is published by Fragoso, Brito & Yabumoto (2019), who transfer the species Mawsonia lavocati to the genus Axelrodichthys.[176]
- A study on the phylogenetic relationships and evolutionary history of mawsoniid coelacanths is published by Cavin et al. (2019).[177]
- A study on the skull anatomy of Arquatichthys porosus, focusing on a newly-discovered postparietal shield, is published by Lu & Zhu (2019).[178]
- Description of the posterior part of the skull of Tungsenia paradoxa is published by Lu et al. (2019).[179]
- New fossil material of "Holoptychius" radiatus Newberry (1889) from the Devonian (Famennian) Catskill Formation (Pennsylvania, United States), providing new information on the anatomy of this species, is described by Daeschler, Downs & Matzko (2019), who transfer this species to the tristichopterid genus Langlieria.[180]
- A study on the bone histology of the humerus of Hyneria lindae is published by Kamska et al. (2019).[181]
- Description of new fossil material of Edenopteron from the Devonian (Famennian) Worange Point Formation (Australia) and a study on the phylogenetic relationships of this taxon is published online by Young et al. (2019).[182]
- A study on the anatomy of the shoulder girdle and opercular series of Gogonasus andrewsae is published by Hu, Young & Lu (2019).[183]
- A historical review of the fossil record of Devonian tetrapods and basal tetrapodomorphs from East Gondwana (Australasia, Antarctica) is published by Long, Clement & Choo (2019), who also present preliminary findings on the anatomy of the canowindrid Koharalepis jarviki based on synchrotron scan data.[184]
- A study on the anatomy of fossil coelacanth lungs, on accessory air-breathing structures in fossil fishes and stem-tetrapods, and on the evolution of air breathing is published by Cupello, Clément & Brito (2019).[185]
- A study on patterns of tooth replacement in Onychodus jandemarrai, Eusthenopteron foordi, Tiktaalik roseae and in extant West Indian Ocean coelacanth is published by Doeland et al. (2019).[186]
- A study on changes of the skeletal anatomy of the pelvic and pectoral appendages during the transition from fins to limbs in vertebrate evolution, as indicated by data from fossil lobe-finned fishes and early tetrapods, is published by Esteve-Altava et al. (2019).[187]
- A study on the anatomy of dermal rays in pectoral fins of Sauripterus taylori, Eusthenopteron foordi and Tiktaalik roseae, evaluating its implications for the knowledge of the evolution of dermal rays in early members of Tetrapodomorpha prior to the origin of digits, is published online by Stewart et al. (2019).[188]
- A study on the evolution of the branchiostegal ray series in the skull of bony fishes, as indicated by data from extant and fossil taxa, is published by Ascarrunz et al. (2019).[189]
- A study on the origin and evolution of acellular bone (bone without osteocytes) in fossil and extant actinopterygian fishes is published by Davesne et al. (2019).[190]
- A diverse fish assemblage is reported from the Carboniferous (upper Pennsylvanian) Horquilla Formation (New Mexico, United States) by Ivanov & Lucas (2019).[191]
- A study on the diversity and ecology of Triassic fish assemblages from the Villány Hills (Hungary) is published by Szabó, Botfalvai & Osi (2019).[192]
- Cretaceous (probably Barremian–Aptian) fish fossils with strong affinities with Early Cretaceous faunas of Thailand are described from Pahang (Malaysia) by Teng et al. (2019).[193]
- Description of a freshwater fish assemblage from the Cretaceous (Albian-Cenomanian) Açu Formation (Brazil) is published by Veiga, Bergqvist & Brito (2019).[194]
- Description of Eocene (Bartonian) fish fauna from the Luna de Sus locality (Romania) is published by Trif, Codrea & Arghiuș (2019).[195]
- A study on the composition of the otolith assemblage from the Santa Barbara Basin near the coast of California over the preceding two millennia is published by Jones & Checkley (2019).[196]
- A study on the evolution of the herbivorous coral reef fishes, as indicated by data from extant and fossil species, is published by Siqueira, Bellwood & Cowman (2019).[197]
References
- ^ a b c Tiiu Märss (2019). "Silurian cyathaspidid heterostracans of Northern Eurasia". Estonian Journal of Earth Sciences. 68 (3): 113–146. doi:10.3176/earth.2019.11. S2CID 202181325.
- ^ a b Yu-Hai Liu; Min Zhu; Xiang-Hong Lin; Li-Wu Lu; Zhi-Kun Gai (2019). "A reappraisal of the Silurian galeaspids (stem-Gnathostomata) from Tarim Basin, Xinjiang". Vertebrata PalAsiatica. 57 (4): 253–273. doi:10.19615/j.cnki.1000-3118.190524.
- ^ a b c Xin-Dong Cui; Qiang Li; Tuo Qiao; Min Zhu (2020). "New material of thelodonts from Lochkovian (Lower Devonian) of Qujing, Yunnan, China". Vertebrata PalAsiatica. 58 (1): 1–15. doi:10.19615/j.cnki.1000-3118.190612.
- ^ Tetsuto Miyashita; Michael I. Coates; Robert Farrar; Peter Larson; Phillip L. Manning; Roy A. Wogelius; Nicholas P. Edwards; Jennifer Anné; Uwe Bergmann; A. Richard Palmer; Philip J. Currie (2019). "Hagfish from the Cretaceous Tethys Sea and a reconciliation of the morphological–molecular conflict in early vertebrate phylogeny". Proceedings of the National Academy of Sciences of the United States of America. 116 (6): 2146–2151. Bibcode:2019PNAS..116.2146M. doi:10.1073/pnas.1814794116. PMC 6369785. PMID 30670644.
- ^ Jason P. Downs; Edward B. Daeschler; Nathanael Lo; Emily N. Carey; Neil H. Shubin (2019). "Asterolepis alticristata n. sp. (Antiarchi) from the Upper Devonian (Frasnian) of Nunavut, Canada, and a report on the antiarch diversity of the Fram Formation". Geodiversitas. 41 (19): 679–698. doi:10.5252/geodiversitas2019v41a19. S2CID 210624573.
- ^ a b Sébastien Olive; Alan Pradel; Carlos Martinez-Pérez; Philippe Janvier; James C. Lamsdell; Pierre Gueriau; Nicolas Rabet; Philippe Duranleau-Gagnon; Andres L. Cardenas-Rozo; Paula A. Zapata Ramirez; Héctor Botella (2019). "New insights into Late Devonian vertebrates and associated fauna from the Cuche Formation (Floresta Massif, Colombia)". Journal of Vertebrate Paleontology. 39 (3): e1620247. doi:10.1080/02724634.2019.1620247. S2CID 198237241.
- ^ Kate Trinajstic; John A. Long; Alexander O. Ivanov; Elga Mark-Kurik (2019). "A new genus of ptyctodont (Placodermi) from the Late Devonian of Baltic area". Palaeontologia Electronica. 22 (2): Article number 22.2.23. doi:10.26879/890. S2CID 181769139.
- ^ Jan L. den Blaauwen; Michael J. Newman; Carole J. Burrow (2019). "A new cheiracanthid acanthodian from the Middle Devonian (Givetian) Orcadian Basin of Scotland and its biostratigraphic and biogeographical significance". Scottish Journal of Geology. 55 (2): 166–177. doi:10.1144/sjg2018-023. S2CID 189990496.
- ^ Michael J. Newman; Carole J. Burrow; Jan L. den Blaauwen (2019). "A new species of ischnacanthiform acanthodian from the Givetian of Mimerdalen, Svalbard". Norwegian Journal of Geology. 99 (4): 619–631. doi:10.17850/njg99-4-05. S2CID 214220714.
- ^ Sebastian Stumpf; Jürgen Kriwet (2019). "A new Pliensbachian elasmobranch (Vertebrata, Chondrichthyes) assemblage from Europe, and its contribution to the understanding of late Early Jurassic elasmobranch diversity and distributional patterns". PalZ. 93 (4): 637–658. doi:10.1007/s12542-019-00451-4. S2CID 181782998.
- ^ Eduardo Villalobos-Segura; Charlie J. Underwood; David J. Ward; Kerin M. Claeson (2019). "The first three-dimensional fossils of Cretaceous sclerorhynchid sawfish: Asflapristis cristadentis gen. et sp. nov., and implications for the phylogenetic relations of the Sclerorhynchoidei (Chondrichthyes)" (PDF). Journal of Systematic Palaeontology. 17 (21): 1847–1870. doi:10.1080/14772019.2019.1578832. S2CID 145940997.
- ^ Gerard R. Case; Todd D. Cook; Taylor Kightlinger; Paul D. Borodin (2019). "Middle Campanian euselachian diversity of the southern region of the Atlantic Coastal Plain of North America". Vertebrate Anatomy Morphology Palaeontology. 7: 69–82. doi:10.18435/vamp29345. S2CID 201576213.
- ^ a b Jun A. Ebersole; David J. Cicimurri; Gary L. Stringer (2019). "Taxonomy and biostratigraphy of the elasmobranchs and bony fishes (Chondrichthyes and Osteichthyes) of the lower-to-middle Eocene (Ypresian to Bartonian) Claiborne Group in Alabama, USA, including an analysis of otoliths". European Journal of Taxonomy (585): 1–274. doi:10.5852/ejt.2019.585. S2CID 213997330.
- ^ Karen E. Samonds; Tsiory H. Andrianavalona; Lane A. Wallett; Iyad S. Zalmout; David J. Ward (2019). "A middle - late Eocene neoselachian assemblage from nearshore marine deposits, Mahajanga Basin, northwestern Madagascar". PLOS ONE. 14 (2): e0211789. Bibcode:2019PLoSO..1411789S. doi:10.1371/journal.pone.0211789. PMC 6392239. PMID 30811516.
- ^ a b c d e f g h i j k l m n o p q r Henri Cappetta; Kurt Morrison; Sylvain Adnet (2019). "A shark fauna from the Campanian of Hornby Island, British Columbia, Canada: an insight into the diversity of Cretaceous deep-water assemblages". Historical Biology: An International Journal of Paleobiology. 33 (8): 1121–1182. doi:10.1080/08912963.2019.1681421. S2CID 212878837.
- ^ a b c John W. Hoganson; J. Mark Erickson; F. D. Holland, Jr. (2019). "Chondrichthyan and osteichthyan paleofaunas from the Cretaceous (Late Maastrichtian) Fox Hills Formation of North Dakota, USA: Paleoecology, paleogeography, and extinction" (PDF). Bulletins of American Paleontology. 398: 1–94. doi:10.32857/bap.2019.398.
- ^ Kenshu Shimada; Michael J. Everhart (2019). "A New Large Late Cretaceous Lamniform Shark from North America, with Comments on the Taxonomy, Paleoecology, and Evolution of the Genus Cretodus". Journal of Vertebrate Paleontology. 39 (4): e1673399. doi:10.1080/02724634.2019.1673399. S2CID 209439997.
- ^ Sebastian Stumpf; Udo Scheer; Jürgen Kriwet (2019). "A new genus and species of extinct ground shark, †Diprosopovenator hilperti, gen. et sp. nov. (Carcharhiniformes, †Pseudoscyliorhinidae, fam. nov.), from the Upper Cretaceous of Germany". Journal of Vertebrate Paleontology. 39 (2): e1593185. doi:10.1080/02724634.2019.1593185. S2CID 155785248.
- ^ Terry A. Gates; Eric Gorscak; Peter J. Makovicky (2019). "New sharks and other chondrichthyans from the latest Maastrichtian (Late Cretaceous) of North America". Journal of Paleontology. 93 (3): 512–530. doi:10.1017/jpa.2018.92. S2CID 198159821.
- ^ Michał Ginter; Stanisław Skompski (2019). "The squamation of "Ctenacanthus" costellatus (Chondrichthyes: Ctenacanthiformes) from the Carboniferous of Lublin area, south-eastern Poland". Acta Geologica Polonica. 69 (4): 571–582. doi:10.24425/agp.2019.126440.
- ^ John G. Maisey; Philippe Janvier; Alan Pradel; John S. S. Denton; Allison Bronson; Randall Miller; Carole J. Burrow (2019). "Doliodus and pucapampellids. Contrasting perspectives on stem chondrichthyan morphology". In Zerina Johanson; Charlie Underwood; Martha Richter (eds.). Evolution and development of fishes. Cambridge University Press. pp. 87–109. doi:10.1017/9781316832172.006. ISBN 978-1-107-17944-8. S2CID 92398530.
- ^ Harry M. Maisch (2019). "A new species of Hypolophites (Chondrichthyes, Myliobatiformes) from the Lower Clayton Limestone Unit of the Midway Group (Paleocene), near Malvern, Arkansas, USA". Journal of Paleontology. 94 (3): 548–556. doi:10.1017/jpa.2019.99. S2CID 214211012.
- ^ David J. Cicimurri; James L. Knight (2019). "Late Eocene (Priabonian) elasmobranchs from the Dry Branch Formation (Barnwell Group) of Aiken County, South Carolina, USA". PaleoBios. 36: ucmp_paleobios_43964.
- ^ Charlie J. Underwood; Kerin M. Claeson (2019). "The Late Jurassic ray Kimmerobatis etchesi gen. et sp. nov. and the Jurassic radiation of the Batoidea" (PDF). Proceedings of the Geologists' Association. 130 (3–4): 345–354. doi:10.1016/j.pgeola.2017.06.009. S2CID 90691006.
- ^ Giuseppe Marramà; Giorgio Carnevale; Luca Giusberti; Gavin J. P. Naylor; Jürgen Kriwet (2019). "A bizarre Eocene dasyatoid batomorph (Elasmobranchii, Myliobatiformes) from the Bolca Lagerstätte (Italy) reveals a new, extinct body plan for stingrays". Scientific Reports. 9 (1): Article number 14087. Bibcode:2019NatSR...914087M. doi:10.1038/s41598-019-50544-y. PMC 6773687. PMID 31575915.
- ^ Rodrigo A. Otero (2019). "Myledaphus araucanus sp. nov. (Batomorphi, Rajiformes incertae sedis), a new Late Cretaceous ray from the austral Pacific, and first occurrence of the genus in the Southern Hemisphere". Cretaceous Research. 100: 82–90. doi:10.1016/j.cretres.2019.03.025. S2CID 134755626.
- ^ Iman Salame; Anhar Asan (2019). "A new Odontorhytis species (Chondrichthyes) from the Middle Eocene of ElGedida mine, Bahariya oasis, Egypt". Egyptian Journal of Geology. 63: 407–415.
- ^ Evgeny V. Popov; Dominique Delsate; Roland Felten (2019). "A new callorhinchid genus (Holocephali, Chimaeroidei) from the early Bajocian of Ottange-Rumelange, on the Luxembourg-French border". Paleontological Research. 23 (3): 220–230. doi:10.2517/2018PR021. S2CID 198423356.
- ^ Sylvain Adnet; Medhi Mouana; Anne-Lise Charruault; El Mebrouk Essid; Hayet Khayati Ammar; Wissem Marzougui; Gilles Merzeraud; Rodolphe Tabuce; Monique Vianey-Liaud; Laurent Marivaux (2019). "Teeth, fossil record and evolutionary history of the cowtail stingray Pastinachus Rüppell, 1829" (PDF). Historical Biology: An International Journal of Paleobiology. 31 (9): 1213–1222. doi:10.1080/08912963.2018.1431779. S2CID 90521628.
- ^ Jaime A. Villafaña; Sven N. Nielsen; Stefanie Klug; Jürgen Kriwet (2019). "Early Miocene cartilaginous fishes (Chondrichthyes: Holocephali, Elasmobranchii) from Chile: Diversity and paleobiogeographic implications". Journal of South American Earth Sciences. 96: Article 102317. Bibcode:2019JSAES..9602317V. doi:10.1016/j.jsames.2019.102317. S2CID 202190340.
- ^ Jorge D. Carrillo-Briceño; Juan Parra; Javier Luque (2019). "A new lamniform shark Protolamna ricaurtensis sp. nov. from the Lower Cretaceous of Colombia" (PDF). Cretaceous Research. 95: 336–340. doi:10.1016/j.cretres.2018.12.007. S2CID 134390711.
- ^ Eduardo Villalobos‐Segura; Charlie J. Underwood; David J. Ward (2019). "The first skeletal record of the enigmatic Cretaceous sawfish genus Ptychotrygon (Chondrichthyes, Batoidea) from the Turonian of Morocco" (PDF). Papers in Palaeontology. 7 (1): 353–376. doi:10.1002/spp2.1287. S2CID 210302939.
- ^ Kouki Nishimatsu; Atsushi Ujihara (2019). "A new deep-sea shark Scymnodalatias kazenobon (Squaliformes, Somniosidae) from the Miocene Yatsuo Group in Central Japan". Paleontological Research. 23 (1): 23–29. doi:10.2517/2018PR006. S2CID 135131261.
- ^ Giuseppe Marramà; Giorgio Carnevale; Gavin J. P. Naylor; Jürgen Kriwet (2019). "Reappraisal of the Eocene whiptail stingrays (Myliobatiformes, Dasyatidae) of the Bolca Lagerstätte, Italy". Zoologica Scripta. 48 (2): 168–184. doi:10.1111/zsc.12330. PMC 6446806. PMID 30983683.
- ^ Paulo M. Brito; Eduardo Villalobos-Segura; Jésus Alvarado-Ortega (2019). "A new Early Cretaceous guitarfish (Chondrichthyes, Batoidea) from the Tlayúa Formation, Puebla, Mexico". Journal of South American Earth Sciences. 90: 155–161. Bibcode:2019JSAES..90..155B. doi:10.1016/j.jsames.2018.12.005. S2CID 135426155.
- ^ Alexandre F. Bannikov; Giorgio Carnevale; James C. Tyler (2019). "Acronuroides eocaenicus gen. et sp. nov., a new percomorph fish from the Eocene of Bolca, Italy" (PDF). Studi e Ricerche Sui Giacimenti Terziari di Bolca, XIX - Miscellanea Paleontologica. 16: 29–37.
- ^ a b c d e f g h i j k l m n o p q r s t u v w x 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 ba bb bc bd be bf bg bh bi bj bk bl bm bn bo bp bq br bs bt bu bv bw bx by bz ca cb cc cd ce cf cg ch ci cj ck cl cm cn co cp cq cr cs ct cu cv cw cx cy cz da db dc dd de df dg dh di dj dk dl dm dn do dp dq dr ds dt du dv dw dx dy dz ea eb ec ed ee ef eg eh ei ej ek el em en eo ep eq er Werner Schwarzhans (2019). "Reconstruction of the fossil marine bony fish fauna (Teleostei) from the Eocene to Pleistocene of New Zealand by means of otoliths". Memorie della Società Italiana di Scienze Naturali e del Museo Civico di Storia Naturale di Milano. 46: 3–326.
- ^ a b Gerald R. Smith; Jay Van Tassell (2019). "Fishes of the Mio-Pliocene Western Snake River Plain and vicinity. V. Keating, Always Welcome Inn, and Imbler Fish paleofaunas, NE Oregon: Tests of Miocene-Pliocene drainage connections". Miscellaneous Publications. Museum of Zoology, University of Michigan. 204 (5): 1–33. hdl:2027.42/150494.
- ^ a b c Carlo Romano; Adriana López-Arbarello; David Ware; James F. Jenks; Winand Brinkmann (2019). "Marine Early Triassic Actinopterygii from the Candelaria Hills (Esmeralda County, Nevada, USA)". Journal of Paleontology. 93 (5): 971–1000. doi:10.1017/jpa.2019.18. S2CID 155564297.
- ^ a b M. V. Nazarkin (2019). "Hooked-horn sculpins (Pisces: Cottidae, Artediellinae) from the Miocene of Sakhalin Island, Russia". Paleontological Journal. 53 (2): 172–182. doi:10.1134/S0031030119020084. S2CID 195302343.
- ^ M. V. Nazarkin (2019). "Tubesnout Aulichthys miocaenicus sp. nov. from the Miocene of Sakhalin Island (Russia): the first reliable fossil record for the family Aulorhynchidae". Paleontological Journal. 53 (5): 522–529. doi:10.1134/S0031030119040105. S2CID 203848519.
- ^ Giorgio Carnevale; Francesc Farrés; Zain Belaústegui; Patricia Cabello; Ferran Colombo; Albert Vidal; Jordi Martinell (2019). "Fish‐bearing deposits from the Upper Eocene Terminal Complex of the Plana de Vic (Catalonia, NE Spain): Sedimentary context and taphonomy". Geological Journal. 54 (3): 1638–1652. doi:10.1002/gj.3257. S2CID 134087904.
- ^ Lazaro W. Viñola Lopez; Richard Carr; Logel Lorenzo (2019). "First occurrence of fossil Balistes (Tetradontiformes: Balistidae) from the Miocene of Cuba with the description of a new species and a revision of fossil Balistes". Historical Biology: An International Journal of Paleobiology. 32 (9): 1290–1299. doi:10.1080/08912963.2019.1580278. S2CID 92003143.
- ^ Sebastien Olive; Louis Taverne; Adriana López-Arbarello (2019). "A new genus of coccolepidid actinopterygian from the Cretaceous Iguanodon-bearing locality of Bernissart, Belgium". Cretaceous Research. 95: 318–335. doi:10.1016/j.cretres.2018.11.020. S2CID 134207366.
- ^ Giorgio Carnevale; Werner Schwarzhans; Ane Elise Schrøder; Bent Erik Kramer Lindow (2022). "An Eocene conger eel (Teleostei, Anguilliformes) from the Lillebælt Clay Formation, Denmark". Bulletin of the Geological Society of Denmark. 70: 53–67. doi:10.37570/bgsd-2022-70-05.
- ^ Aleksandr Bakaev; Ilja Kogan (2019). "A new species of Burguklia (Pisces, Actinopterygii) from the Middle Permian of the Volga Region (European Russia)". PalZ. 94 (1): 93–106. doi:10.1007/s12542-019-00487-6. S2CID 201966465.
- ^ Louis Taverne; Thierry De Putter; Florias Mees; Thierry Smith (2019). "Cabindachanos dartevellei gen. and sp. nov., a new chanid fish (Ostariophysi, Gonorynchiformes) from the marine Paleocene of Cabinda (Central Africa)". Geologica Belgica. 22 (1–2): 1–6. doi:10.20341/gb.2018.011. S2CID 85442738.
- ^ Louis Taverne; Luigi Capasso (2019). "Osteology of Cavinichthys pachylepis gen. and sp. nov. (Teleostei, Crossognathiformes, Pachyrhizodontidae) from Pietraroja (Lower Cretaceous, Campania, south Italy)". Thalassia Salentina. 41: 53–70. doi:10.1285/i15910725v41p53.
- ^ Kleyton Magno Cantalice Severiano; Jesús Alvarado Ortega; David Bellwood (2019). "†Chaychanus gonzalezorum gen. et sp. nov.: A damselfish fossil (Pomacentridae; Percomorphaceae), from the Early Paleocene outcrop of Chiapas, Southeastern Mexico". Journal of South American Earth Sciences. 98: Article 102322. doi:10.1016/j.jsames.2019.102322. S2CID 202910177.
- ^ Ji Li; Yongming Luo; Yue Wang; Guangfu Xu; Zhiheng Ma (2019). "A new discovery of Colobodus Agassiz, 1844 (Colobodontidae) from the Carnian (Upper Triassic) of Guizhou, South China". Acta Geologica Sinica (English Edition). 93 (6): 1967–1968. doi:10.1111/1755-6724.13832. S2CID 134455082.
- ^ Louis Taverne (2019). "A horny pycnodont fish (Pycnodontiformes) in the continental Middle Jurassic (Stanleyville Formation) of the Democratic Republic of Congo" (PDF). Geo-Eco-Trop. 43 (1): 25–34.
- ^ Louis Taverne; Luigi Capasso; Maria Del Re (2019). "The pycnodont fishes from the Lower Cretaceous of the Capo d'Orlando, near Castellammare di Stabia (Naples, Campania, southern Italy), with the description of the new genus Costapycnodus" (PDF). Geo-Eco-Trop. 43 (1): 53–74.
- ^ a b c d e f g h Werner Schwarzhans; Fumio Ohe (2019). "Lanternfish otoliths (Teleostei, Myctophidae) from the Pliocene and Pleistocene of Japan". Rivista Italiana di Paleontologia e Stratigrafia. 125 (2): 355–400. doi:10.13130/2039-4942/11670.
- ^ Márcia Aparecida dos Reis Polck; Valéria Gallo; Francisco J. de Figueiredo; Samuel Magalhães Viana; Viviane Sampaio Santiago dos Santos; João Villar de Queiroz Neto; Ricardo Jorge Jahnert (2019). "†Ellimma longipectoralis sp. nov. (Teleostei: Clupeomorpha: †Ellimmichthyiformes) from the Aptian of the Santos Basin, southeastern Brazil". Journal of South American Earth Sciences. 98: Article 102318. doi:10.1016/j.jsames.2019.102318. S2CID 202181577.
- ^ a b c Adriana López-Arbarello; Toni Bürgin; Heinz Furrer; Rudolf Stockar (2019). "Taxonomy and phylogeny of Eosemionotus Stolley, 1920 (Neopterygii: Ginglymodi) from the Middle Triassic of Europe". Palaeontologia Electronica. 22 (1): Article number 22.1.10. doi:10.26879/904. S2CID 133627787.
- ^ Yuri Modesto Alves; Jesús Alvarado-Ortega; Paulo M. Brito (2019). "†Epaelops martinezi gen. and sp. nov. from the Albian limestone deposits of the Tlayúa quarry, Mexico – a new late Mesozoic record of Elopiformes of the western Tethys". Cretaceous Research. 110: Article 104260. doi:10.1016/j.cretres.2019.104260. S2CID 210779794.
- ^ John Joseph Cawley; Jürgen Kriwet (2019). "A new genus and species of pycnodontid fish Flagellipinna rhomboides, gen. et sp. nov. (Neopterygii, Pycnodontiformes), from the Upper Cretaceous (Cenomanian) of Lebanon, with notes on juvenile form and ecology". Journal of Vertebrate Paleontology. 39 (2): e1614012. doi:10.1080/02724634.2019.1614012. PMC 6817322. PMID 31709027.
- ^ Giorgio Carnevale; Alexandre F. Bannikov (2019). "A dragonet (Teleostei, Callionymoidei) from the Eocene of Monte Bolca, Italy". Bollettino della Società Paleontologica Italiana. 58 (3): 295–307. doi:10.4435/BSPI.2019.18.
- ^ Alexandre F. Bannikov (2019). "A revision of "Gobius" microcephalus Ag. (Teleostei) from the early Eocene locality of Monte Bolca (Pesciara site, northern Italy)" (PDF). Studi e Ricerche Sui Giacimenti Terziari di Bolca, XIX - Miscellanea Paleontologica. 16: 17–28.
- ^ a b Soledad Gouiric-Cavalli; Mariano Remírez; Jürgen Kriwet (2019). "New pycnodontiform fishes (Actinopterygii, Neopterygii) from the Early Cretaceous of the Argentinian Patagonia". Cretaceous Research. 94: 45–58. doi:10.1016/j.cretres.2018.10.003. PMC 6464094. PMID 30996506.
- ^ Su-Hwan Kim; Yuong-Nam Lee; Jin-Young Park; Sungjin Lee; Hang-Jae Lee (2019). "The first record of redfieldiiform fish (Actinopterygii) from the Upper Triassic of Korea: Implications for paleobiology and paleobiogeography of Redfieldiiformes". Gondwana Research. 80: 275–284. doi:10.1016/j.gr.2019.11.008. S2CID 213571269.
- ^ a b c Katarina Bradić-Milinović; Harald Ahnelt; Ljupko Rundić; Werner Schwarzhans (2019). "The lost freshwater goby fish fauna (Teleostei, Gobiidae) from the early Miocene of Klinci (Serbia)". Swiss Journal of Palaeontology. 138 (2): 285–315. doi:10.1007/s13358-019-00194-4. S2CID 190876134.
- ^ Alexander J. Veysey; Paulo M. Brito; David M. Martill (2019). "A new crossognathiform fish (Actinopterygii, Teleostei) from the Upper Cretaceous (Turonian) of Southern Morocco with hypertrophied fins". Cretaceous Research. 114: Article 104207. doi:10.1016/j.cretres.2019.104207. S2CID 202200253.
- ^ a b Guang-Hui Xu; Xin-Ying Ma; Fei-xiang Wu; Yi Ren (2019). "A Middle Triassic kyphosichthyiform from Yunnan, China, and phylogenetic reassessment of early ginglymodians". Vertebrata PalAsiatica. 57 (3): 181–204. doi:10.19615/j.cnki.1000-3118.190319.
- ^ a b Alexandre F. Bannikov; Roberto Zorzin (2019). "A new genus and species of incertae sedis percomorph fish (Perciformes) from the Eocene of Bolca in northern Italy, and a new genus for Psettopsis latellai Bannikov, 2005" (PDF). Studi e Ricerche Sui Giacimenti Terziari di Bolca, XIX - Miscellanea Paleontologica. 16: 5–15.
- ^ Alison M. Murray; Donald B. Brinkman; Michael G. Newbrey; Andrew G. Neuman (2019). "Earliest North American articulated freshwater acanthomorph fish (Teleostei: Percopsiformes) from Upper Cretaceous deposits of Alberta, Canada". Geological Magazine. 157 (7): 1087–1096. doi:10.1017/S0016756819001328. S2CID 212927875.
- ^ Rodrigo A. Otero (2019). "Loancorhynchus catrillancai gen. et sp. nov., a new swordfish (Xiphioidei, Blochiidae) from the Middle Eocene of central Chile". PeerJ. 7: e6671. doi:10.7717/peerj.6671. PMC 6440463. PMID 30941278.
- ^ Joan Cartanyà; Josep Fortuny; Arnau Bolet; Ruben Garcia-Artigas (2019). "Moradebrichthys vilasecae gen. et sp. nov., a new perleidid (Actinopterygii: Osteichthyes) from the Middle Triassic of Catalonia (NE Iberian Peninsula)". Neues Jahrbuch für Geologie und Paläontologie - Abhandlungen. 292 (2): 171–190. doi:10.1127/njgpa/2019/0816. hdl:2445/168813. S2CID 182534499.
- ^ Stefanie B. R. Penk; Melanie Altner; Alexander F. Cerwenka; Ulrich K. Schliewen; Bettina Reichenbacher (2019). "New fossil cichlid from the middle Miocene of East Africa revealed as oldest known member of the Oreochromini". Scientific Reports. 9 (1): Article number 10198. Bibcode:2019NatSR...910198P. doi:10.1038/s41598-019-46392-5. PMC 6629881. PMID 31308387.
- ^ a b Alison M. Murray (2019). "Redescription of Barbus megacephalus Günther, 1876 and Thynnichthys amblyostoma von der Marck, 1876 (Cypriniformes: Cyprinidae) from probable Eocene deposits of Southeast Asia, and an assessment of their taxonomic positions". Journal of Systematic Palaeontology. 17 (17): 1433–1455. doi:10.1080/14772019.2018.1533897. S2CID 91781094.
- ^ Alexandre F. Bannikov; Roberto Zorzin (2019). "Paralabrus rossiae, a new genus and species of putative labroid fish (Perciformes) from the Eocene of Bolca in northern Italy" (PDF). Studi e Ricerche Sui Giacimenti Terziari di Bolca, XIX - Miscellanea Paleontologica. 16: 39–47.
- ^ Victor W.M. van Hinsbergh; Renate A. Helwerda (2019). "Fish otoliths from the Cabarruyan Piacenzian-Gelasian fauna found in the Philippines". Zootaxa. 4563 (3): 401–443. doi:10.11646/zootaxa.4563.3.1. PMID 31716527. S2CID 92241298.
- ^ Jonathan J.W. Wallaard; René H.B. Fraaije; Henk J. Diependaal; John W.M. Jagt (2019). "A new species of dercetid (Teleostei, Aulopiformes) from the type Maastrichtian of southern Limburg, the Netherlands". Netherlands Journal of Geosciences. 98: e2. doi:10.1017/njg.2019.1. S2CID 197572637.
- ^ Sergio Bogan; Federico L. Agnolín (2019). "Phractocephaline catfishes from the late Miocene of Argentina, with the description of a new taxon". Journal of Vertebrate Paleontology. 39 (4): e1676254. doi:10.1080/02724634.2019.1676254. S2CID 209439992.
- ^ W. Wen; S. X. Hu; Q. Y. Zhang; M. J. Benton; J. Kriwet; Z. Q. Chen; C. Y. Zhou; T. Xie; J. Y. Huang (2019). "A new species of Platysiagum from the Luoping Biota (Anisian, Middle Triassic, Yunnan, South China) reveals the relationship between Platysiagidae and Neopterygii". Geological Magazine. 156 (4): 669–682. Bibcode:2019GeoM..156..669W. doi:10.1017/S0016756818000079. hdl:1983/67be3458-c375-4742-b7b0-22e52c7b5040. S2CID 134097409.
- ^ Romain Vullo; Nathalie Bardet; Emmanuel Gheerbrant; Nour-Eddine Jalil (2019). "Multicuspid tooth morphology in a gigantic Palaeocene pycnodont fish: evolutionary and palaeoecological significance". Geological Magazine. 156 (9): 1618–1622. Bibcode:2019GeoM..156.1618V. doi:10.1017/S0016756819000736. S2CID 199104847.
- ^ Charalampos Kevrekidis; Martina Valtl; Stefanie B. R. Penk; Melanie Altner; Bettina Reichenbacher (2019). "Rebekkachromis nov. gen. from the middle–upper Miocene (11 MYA) of Central Kenya: the oldest record of a haplotilapiine cichlid fish". Hydrobiologia. 832 (1): 39–64. doi:10.1007/s10750-018-3715-8. S2CID 51890176.
- ^ Charalampos Kevrekidis; Bernhard Ruthensteiner; Alexander F. Cerwenka; Stefanie B. R. Penk; Bettina Reichenbacher (2020). "New Cichlid Fossils from the Middle-Late Miocene Alkaline Lakes of Africa". Journal of Vertebrate Paleontology. 40 (4): e1805621. doi:10.1080/02724634.2020.1805621. S2CID 224855992.
- ^ a b Martin Ebert (2019). "Zandtfuro and Schernfeldfuro, new genera of Halecomorphi (Actinopterygii) from the Upper Jurassic Solnhofen-Archipelago". Journal of Vertebrate Paleontology. 39 (2): e1592759. doi:10.1080/02724634.2019.1592759. S2CID 181452064.
- ^ Jiang-Yong Zhang (2019). "A new species of Scleropages (Osteoglossidae, Osteoglossomorpha) from the Eocene of Guangdong, China". Vertebrata PalAsiatica. 58 (2): 100–119. doi:10.19615/j.cnki.1000-3118.191213.
- ^ Ionuţ Grădianu; Tomáš Přikryl; Dorin Sorin Baciu; Giorgio Carnevale (2019). "A new pearleye (Teleostei, Aulopiformes) species from the Oligocene of Romania". Annales de Paléontologie. 105 (1): 75–83. doi:10.1016/j.annpal.2019.01.001. S2CID 135287894.
- ^ Gloria Arratia; Hans-Peter Schultze; Helmut Tischlinger (2019). "On a remarkable new species of Tharsis, a Late Jurassic teleostean fish from southern Germany: its morphology and phylogenetic relationships". Fossil Record. 22 (1): 1–23. doi:10.5194/fr-22-1-2019. S2CID 91261566.
- ^ Martin Ebert (2020). "A new genus of Pycnodontidae (Actinopterygii) from the Upper Jurassic of France and Germany, included in a phylogeny of Pycnodontiformes". Zoological Journal of the Linnean Society. 188 (2): 434–454. doi:10.1093/zoolinnean/zlz087.
- ^ Kenshu Shimada (2019). "A new species and biology of the Late Cretaceous 'blunt-snouted' bony fish, Thryptodus (Actinopterygii: Tselfatiiformes), from the United States". Cretaceous Research. 101: 92–107. doi:10.1016/j.cretres.2019.04.011. S2CID 150291610.
- ^ Michael I. Coates; Kristen Tietjen (2019). "'This strange little palaeoniscid': a new early actinopterygian genus, and commentary on pectoral fin conditions and function". Earth and Environmental Science Transactions of the Royal Society of Edinburgh. 109 (1–2): 15–31. doi:10.1017/S1755691018000403. S2CID 135105137.
- ^ Kamel Boukhalfa; Feixiang Wu; Walid Ben Ali; Gengyu Fang (2019). "A new paraclupeid fish (Clupeomorpha: Ellimmichthyiformes) from the Lower Cretaceous Sidi Aich Formation of southern Tunisia: phylogenetic and paleobiogeographic implications". Journal of Vertebrate Paleontology. 38 (5): e1529675. doi:10.1080/02724634.2018.1529675. S2CID 91457179.
- ^ Jesús Alberto Díaz-Cruz; Jesús Alvarado-Ortega; Gerardo Carbot-Chanona (2019). "Dagon avendanoi gen. and sp. nov., an Early Cenomanian Enchodontidae (Aulopiformes) fish from the El Chango quarry, Chiapas, southeastern Mexico". Journal of South American Earth Sciences. 91: 272–284. Bibcode:2019JSAES..91..272D. doi:10.1016/j.jsames.2019.01.014. S2CID 135281435.
- ^ Jesús Alberto Díaz-Cruz; Jesús Alvarado-Ortega; Gerardo Carbot-Chanona (2019). "Corrigendum to "Dagon avendanoi gen. and sp. nov., an Early Cenomanian Enchodontidae (Aulopiformes) fish from the El Chango quarry, Chiapas, southeastern Mexico" [J. South Am. Earth Sci. 91 (2019) 272–284]". Journal of South American Earth Sciences. 95: Article 102314. Bibcode:2019JSAES..9502314D. doi:10.1016/j.jsames.2019.102314. S2CID 202178570.
- ^ Kye-Soo Nam; Ju-Yeong Ko; Mikhail V. Nazarkin (2019). "A new lightfish, †Vinciguerria orientalis, sp. nov. (Teleostei, Stomiiformes, Phosichthyidae), from the middle Miocene of South Korea". Journal of Vertebrate Paleontology. 39 (3): e1625911. doi:10.1080/02724634.2019.1625911. S2CID 199637854.
- ^ O.A. Lebedev; N.I. Krupina; V.V. Linkevich (2019). "The first find of a dipnoan fish (Sarcopterygii) in the Famennian (Upper Devonian) of the Tver' Region". Paleontological Journal. 53 (6): 636–646. doi:10.1134/S0031030119050058. S2CID 210926347.
- ^ Timothy R. Smithson; Thomas J. Challands; Ketura Z. Smithson (2019). "Traquair's lungfish from Loanhead: dipnoan diversity and tooth plate growth in the late Mississippian". Earth and Environmental Science Transactions of the Royal Society of Edinburgh. 109 (1–2): 49–59. doi:10.1017/S1755691018000853. S2CID 134974813.
- ^ Anne Kemp (2019). "Ctenodus boudariensis nov. sp., a ctenodont lungfish from the mid-Viséan Ducabrook Formation of Queensland, Australia". Alcheringa: An Australasian Journal of Palaeontology. 43 (3): 423–429. doi:10.1080/03115518.2019.1587786. S2CID 149997652.
- ^ Robert W. Gess; Alice M. Clement (2019). "A high latitude Devonian lungfish, from the Famennian of South Africa". PeerJ. 7: e8073. doi:10.7717/peerj.8073. PMC 6898985. PMID 31824758.
- ^ Tom J. Challands; Timothy R. Smithson; Jennifer A. Clack; Carys E. Bennett; John E. A. Marshall; Sarah M. Wallace-Johnson; Henrietta Hill (2019). "A lungfish survivor of the end-Devonian extinction and an Early Carboniferous dipnoan radiation". Journal of Systematic Palaeontology. 17 (21): 1825–1846. doi:10.1080/14772019.2019.1572234. S2CID 91623116.
- ^ Oleg A. Lebedev; Gaël Clément (2019). "New tetrapodomorph vertebrates from the Yam-Tesovo locality (Amata Regional Stage, Middle–Upper Devonian) of Leningrad Region, northwestern Russia". Earth and Environmental Science Transactions of the Royal Society of Edinburgh. 109 (1–2): 61–73. doi:10.1017/S1755691018000907. S2CID 181895602.
- ^ Jorge Mondéjar-Fernández (2019). "A new onychodont (Osteichthyes; Sarcopterygii) from the Middle Devonian of Morocco and its bearing on early osteichthyan evolution" (PDF). Journal of Systematic Palaeontology. 18 (7): 573–606. doi:10.1080/14772019.2019.1655495. S2CID 208586697.
- ^ Yoshitaka Yabumoto; Paulo M. Brito; Masamitsu Iwata; Yoshitaka Abe (2019). "A new Triassic coelacanth, Whiteia uyenoteruyai (Sarcopterygii, Actinistia) from Madagascar and paleobiogeography of the family Whiteiidae". Bulletin of the Kitakyushu Museum of Natural History and Human History Series A (Natural History). 17: 15–27.
- ^ Carole J. Burrow; Susan Turner; Kate Trinajstic; Gavin C. Young (2019). "Late Silurian vertebrate microfossils from the Carnarvon Basin, Western Australia". Alcheringa: An Australasian Journal of Palaeontology. 43 (2): 204–219. doi:10.1080/03115518.2019.1566496. S2CID 134883695.
- ^ Marek Dec (2019). "Revision of the Early Devonian psammosteids from the "Placoderm Sandstone": Implications for their body shape reconstruction". Palaeontologia Electronica. 22 (2): Article number 22.2.36. doi:10.26879/948. S2CID 198419981.
- ^ Marek Dec (2019). "Hydrodynamic performance of psammosteids: New insights from computational fluid dynamics simulations". Acta Palaeontologica Polonica. 64 (4): 679–684. doi:10.4202/app.00623.2019. S2CID 207822008.
- ^ Alfred Lemierre; Damien Germain (2019). "A new mineralized tissue in the early vertebrate Astraspis". Journal of Anatomy. 235 (6): 1105–1113. doi:10.1111/joa.13070. PMC 6875941. PMID 31355451.
- ^ Zhi-Kun Gai; Min Zhu; Philip C.J. Donoghue (2019). "The circulatory system of Galeaspida (Vertebrata; stem-Gnathostomata) revealed by synchrotron X-ray tomographic microscopy". Palaeoworld. 28 (4): 441–460. doi:10.1016/j.palwor.2019.04.005. S2CID 150178031.
- ^ Zhi-Kun Gai; Xian-Ren Shan; Zhi-Xin Sun; Wen-Jin Zhao; Zhao-Hui Pan; Min Zhu (2019). "A redescription of the Silurian Sinogaleaspis shankouensis (Galeaspida, stem-Gnathostomata) from Jiangxi, China". Vertebrata PalAsiatica. 58 (2): 85–99. doi:10.19615/j.cnki.1000-3118.191105.
- ^ James O'Shea; Joseph N. Keating; Philip C. J. Donoghue (2019). "The dermal skeleton of the jawless vertebrate Tremataspis mammillata (Osteostraci, stem‐Gnathostomata)". Journal of Morphology. 280 (7): 999–1025. doi:10.1002/jmor.20997. hdl:1983/f400ec4c-3588-49cb-8ac5-3fcb90eaa593. PMID 31066961. S2CID 147706213.
- ^ Michael Newman; Jan den Blaauwen; David Leather (2019). "The antiarch fish Asterolepis orcadensis from the Scottish Middle Devonian". Palaeontologia Electronica. 22 (2): Article number 22.2.37. doi:10.26879/970. S2CID 198420651.
- ^ Yu-Zhi Hu; G.C. Young; Carole Burrow; You-an Zhu; Jing Lu (2019). "High resolution XCT scanning reveals complex morphology of gnathal elements in an Early Devonian arthrodire". Palaeoworld. 28 (4): 525–534. doi:10.1016/j.palwor.2018.12.003. S2CID 135408881.
- ^ Zerina Johanson; Kate Trinajstic; Stephen Cumbaa; Michael J. Ryan (2019). "Fusion in the vertebral column of the pachyosteomorph arthrodire Dunkleosteus terrelli ('Placodermi')". Palaeontologia Electronica. 22 (2): Article number 22.2.20. doi:10.26879/872. S2CID 162173408.
- ^ You-an Zhu; Jing Lu; Min Zhu (2019). "Reappraisal of the Silurian placoderm Silurolepis and insights into the dermal neck joint evolution". Royal Society Open Science. 6 (9): Article ID 191181. Bibcode:2019RSOS....691181Z. doi:10.1098/rsos.191181. PMC 6774982. PMID 31598327.
- ^ Michael J. Newman; Carole J. Burrow; Jan L. den Blaauwen (2019). "The Givetian vertebrate fauna from the Fiskekløfta Member (Mimerdalen Subgroup), Svalbard. Part I. Stratigraphic and faunal review. Part II. Acanthodii". Norwegian Journal of Geology. 99 (1): 1–16. doi:10.17850/njg99-1-01. S2CID 221652064.
- ^ Richard P. Dearden; Christopher Stockey; Martin D. Brazeau (2019). "The pharynx of the stem-chondrichthyan Ptomacanthus and the early evolution of the gnathostome gill skeleton". Nature Communications. 10 (1): Article number 2050. Bibcode:2019NatCo..10.2050D. doi:10.1038/s41467-019-10032-3. PMC 6499890. PMID 31053719.
- ^ Michał Ginter; Michał Złotnik (2019). "Mississippian chondrichthyan fishes from the area of Krzeszowice, southern Poland". Acta Palaeontologica Polonica. 64 (3): 549–564. doi:10.4202/app.00619.2019. S2CID 213365272.
- ^ Wayne M. Itano (2019). "Oriented microwear on a tooth of Edestus minor (Chondrichthyes, Eugeneodontiformes): Implications for dental function". Palaeontologia Electronica. 22 (2): Article number 22.2.39. doi:10.26879/831. S2CID 198421092.
- ^ Leif Tapanila; Jesse Pruitt (2019). "Redefining species concepts for the Pennsylvanian scissor tooth shark, Edestus". PLOS ONE. 14 (9): e0220958. Bibcode:2019PLoSO..1420958T. doi:10.1371/journal.pone.0220958. PMC 6726245. PMID 31483800.
- ^ Kenneth Carpenter; Wayne M. Itano (2019). "Taxonomic validity of Petalodus ohioensis (Chondrichthyes, Petalodontidae) based on a cast of the lost holotype". Geology of the Intermountain West. 6: 55–60. doi:10.31711/giw.v6.pp55-60. S2CID 134168470. Archived from the original on 2019-02-17. Retrieved 2019-02-16.
- ^ Piotr Jadwiszczak; Andrzej Gaździcki; Andrzej Tatur (2008). "An ibis-like bird from the Upper La Meseta Formation (Late Eocene) of Seymour Island, Antarctica". Antarctic Science. 20 (4): 413–414. doi:10.1017/S0954102008000977. S2CID 128551334.
- ^ Federico Lisandro Agnolin; Sergio Bogan; Sebastián Rozadilla (2019). "Were ibises (Aves, Threskiornithidae) present in Antarctica?". Antarctic Science. 31 (1): 35–36. doi:10.1017/S0954102018000512. S2CID 134545946.
- ^ Michael I. Coates; Kristen Tietjen; Aaron M. Olsen; John A. Finarelli (2019). "High-performance suction feeding in an early elasmobranch". Science Advances. 5 (9): eaax2742. Bibcode:2019SciA....5.2742C. doi:10.1126/sciadv.aax2742. PMC 6739094. PMID 31535026.
- ^ Linda Frey; Michael Coates; Michał Ginter; Vachik Hairapetian; Martin Rücklin; Iwan Jerjen; Christian Klug (2019). "The early elasmobranch Phoebodus: phylogenetic relationships, ecomorphology and a new time-scale for shark evolution". Proceedings of the Royal Society B: Biological Sciences. 286 (1912): Article ID 20191336. doi:10.1098/rspb.2019.1336. PMC 6790773. PMID 31575362.
- ^ Paolo Citton; Simone Fabbi; Angelo Cipriani; Maren Jansen; Marco Romano (2019). "Hybodont dentition from the Upper Jurassic of Monte Nerone Pelagic Carbonate Platform (Umbria‐Marche Apennine, Italy) and its ecological implications". Geological Journal. 54 (1): 278–290. doi:10.1002/gj.3174.
- ^ Shawn A. Hamm (2019). "First associated tooth set of Ptychodus anonymus (Elasmobranchii: Ptychodontidae) in North America from the Jetmore Chalk in Kansas". Transactions of the Kansas Academy of Science. 122 (1–2): 1–18. doi:10.1660/062.122.0101. S2CID 164524395.
- ^ Phillip C. Sternes; Kenshu Shimada (2019). "Paleobiology of the Late Cretaceous sclerorhynchid sawfish, Ischyrhiza mira (Elasmobranchii: Rajiformes), from North America based on new anatomical data". Historical Biology: An International Journal of Paleobiology. 31 (10): 1323–1340. doi:10.1080/08912963.2018.1452205. S2CID 90291295.
- ^ Giuseppe Marramà; Giorgio Carnevale; Gavin J. P. Naylor; Jürgen Kriwet (2019). "Mosaic of plesiomorphic and derived characters in an Eocene myliobatiform batomorph (Chondrichthyes, Elasmobranchii) from Italy defines a new, basal body plan in pelagic stingrays". Zoological Letters. 5: Article 13. doi:10.1186/s40851-019-0128-0. PMC 6485097. PMID 31057944.
- ^ Jaime A. Villafaña; Giuseppe Marramà; Sebastian Hernandez; Jorge D. Carrillo-Briceño; Dirk Hovestadt; Rene Kindlimann; Jürgen Kriwet (2019). "The Neogene fossil record of Aetomylaeus (Elasmobranchii, Myliobatidae) from the south-eastern Pacific". Journal of Vertebrate Paleontology. 39 (1): e1577251. doi:10.1080/02724634.2019.1577251. PMC 6817319. PMID 31709025.
- ^ Federico Fanti; Gabriele Mazzuferi; Giuseppe Marramà (2019). "Egg preservation in an Eocene stingray (Myliobatiformes, Dasyatidae) from Italy". Journal of Vertebrate Paleontology. 39 (2): e1578967. doi:10.1080/02724634.2019.1578967. PMC 6817316. PMID 31709026.
- ^ Pedro Fialho; Ausenda Balbino; Miguel Telles Antues (2019). "Langhian rays (Chondrichthyes, Batomorphii) from Brielas, Lower Tagus Basin, Portugal". Geologica Acta. 17 (7): 1–16. doi:10.1344/GeologicaActa2019.17.7. S2CID 214506546.
- ^ Gabriele Larocca Conte; Federico Fanti; Enrico Trevisani; Paolo Guaschi; Roberto Barbieri; Mohamad Bazzi (2019). "Reassessment of a large lamniform shark from the Upper Cretaceous (Santonian) of Italy". Cretaceous Research. 99: 156–168. doi:10.1016/j.cretres.2019.02.011. S2CID 135220712.
- ^ Jacopo Amalfitano; Luca Giusberti; Eliana Fornaciari; Fabio Marco Dalla Vecchia; Valeria Luciani; Jürgen Kriwet; Giorgio Carnevale (2019). "Large deadfalls of the ʻginsuʼ shark Cretoxyrhina mantelli (Agassiz, 1835) (Neoselachii, Lamniformes) from the Upper Cretaceous of northeastern Italy". Cretaceous Research. 98: 250–275. doi:10.1016/j.cretres.2019.02.003. S2CID 135196193.
- ^ Patrick L. Jambura; René Kindlimann; Faviel López-Romero; Giuseppe Marramà; Cathrin Pfaff; Sebastian Stumpf; Julia Türtscher; Charlie J. Underwood; David J. Ward; Jürgen Kriwet (2019). "Micro-computed tomography imaging reveals the development of a unique tooth mineralization pattern in mackerel sharks (Chondrichthyes; Lamniformes) in deep time". Scientific Reports. 9 (1): Article number 9652. Bibcode:2019NatSR...9.9652J. doi:10.1038/s41598-019-46081-3. PMC 6609643. PMID 31273249.
- ^ Fabien L. Condamine; Jules Romieu; Guillaume Guinot (2019). "Climate cooling and clade competition likely drove the decline of lamniform sharks". Proceedings of the National Academy of Sciences of the United States of America. 116 (41): 20584–20590. doi:10.1073/pnas.1902693116. PMC 6789557. PMID 31548392.
- ^ Victor J. Perez; Stephen J. Godfrey; Bretton W. Kent; Robert E. Weems; John R. Nance (2019). "The transition between Carcharocles chubutensis and Carcharocles megalodon (Otodontidae, Chondrichthyes): lateral cusplet loss through time". Journal of Vertebrate Paleontology. 38 (6): e1546732. doi:10.1080/02724634.2018.1546732. S2CID 92407449.
- ^ Robert W. Boessenecker; Dana J. Ehret; Douglas J. Long; Morgan Churchill; Evan Martin; Sarah J. Boessenecker (2019). "The Early Pliocene extinction of the mega-toothed shark Otodus megalodon: a view from the eastern North Pacific". PeerJ. 7: e6088. doi:10.7717/peerj.6088. PMC 6377595. PMID 30783558.
- ^ Kenshu Shimada (2019). "The size of the megatooth shark, Otodus megalodon (Lamniformes: Otodontidae), revisited". Historical Biology: An International Journal of Paleobiology. 33 (7): 904–911. doi:10.1080/08912963.2019.1666840. S2CID 208570844.
- ^ Dirley Cortés; Carlos De Gracia; Jorge D. Carrillo-Briceño; Gabriel Aguirre-Fernández; Carlos Jaramillo; Aldo Benites-Palomino; Joaquín Enrique Atencio-Araúz (2019). "Shark-cetacean trophic interactions during the late Pliocene in the Central Eastern Pacific (Panama)". Palaeontologia Electronica. 22 (2): Article number 22.2.49. doi:10.26879/953. S2CID 201304252.
- ^ Sergio Bogan; Federico Agnolin; Martín D. Ezcurra (2019). "Review of the enigmatic 'shark', Platyacrodus unicus Ameghino, 1935, from the Paleocene of Patagonia, Argentina: a history of palaeontologists, sharks and crabs". Zootaxa. 4646 (2): 293–300. doi:10.11646/zootaxa.4646.2.5. PMID 31717016. S2CID 199629925.
- ^ Iris Feichtinger; Matthias Kranner; Christian Rupp; Mathias Harzhauser (2019). "A new outer neritic elasmobranch assemblage from the Egerian (late Oligocene) of the North Alpine Foreland Basin (Austria)". Neues Jahrbuch für Geologie und Paläontologie - Abhandlungen. 293 (1): 19–35. doi:10.1127/njgpa/2019/0828. S2CID 199091907.
- ^ Kouki Nishimatsu; Atsushi Ujihara (2019). "Deep-sea elasmobranch fauna with the first descriptions of genera Arynchobatis and Pseudoraja from the Miocene Yatsuo group in Toyama, central Japan". Historical Biology: An International Journal of Paleobiology. 32 (8): 1120–1142. doi:10.1080/08912963.2019.1566325. S2CID 92429706.
- ^ Kouki Nishimatsu (2019). "Deep-sea elasmobranchs from the late early to middle Miocene (Burdigalian–Langhian) Makino Formation (Awa Group), Japan". Journal of Vertebrate Paleontology. 39 (2): e1597729. doi:10.1080/02724634.2019.1597729. S2CID 196688698.
- ^ Harry M. Maisch IV; Martin A. Becker; Michael L. Griffiths (2019). "Chondrichthyans from the Lower Clayton Limestone Unit of the Midway Group (Paleocene) near Malvern, Arkansas, USA, with comments on the K/Pg boundary". PalZ. 94 (3): 561–593. doi:10.1007/s12542-019-00494-7. S2CID 208302039.
- ^ Xindong Cui; Tuo Qiao; Min Zhu (2019). "Scale morphology and squamation pattern of Guiyu oneiros provide new insights into early osteichthyan body plan". Scientific Reports. 9 (1): Article number 4411. Bibcode:2019NatSR...9.4411C. doi:10.1038/s41598-019-40845-7. PMC 6416254. PMID 30867533.
- ^ Rodrigo T. Figueroa; Matt Friedman; Valéria Gallo (2019). "Cranial anatomy of the predatory actinopterygian Brazilichthys macrognathus from the Permian (Cisuralian) Pedra de Fogo Formation, Parnaíba Basin, Brazil". Journal of Vertebrate Paleontology. 39 (3): e1639722. doi:10.1080/02724634.2019.1639722. S2CID 202030046.
- ^ Arnaud Brignon (2019). "The nomenclatural status of Palaeothrissum inaequilobum Blainville, 1818, P. parvum Blainville, 1818, and Aeduella blainvillei (Agassiz, 1833) (Actinopterygii, Aeduellidae)". Carnets de Géologie. 19 (8): 141–148. doi:10.4267/2042/70290. hdl:2042/70290. S2CID 201081145. Archived from the original on 2019-08-10. Retrieved 2019-08-10.
- ^ Matt Friedman; Stephanie E. Pierce; Michael Coates; Sam Giles (2019). "Feeding structures in the ray-finned fish Eurynotus crenatus (Actinopterygii: Eurynotiformes): implications for trophic diversification among Carboniferous actinopterygians". Earth and Environmental Science Transactions of the Royal Society of Edinburgh. 109 (1–2): 33–47. doi:10.1017/S1755691018000816. S2CID 133954596.
- ^ Peigang Ni; Andrea Tintori; Zuoyu Sun; Cristina Lombardo; Dayong Jiang (2019). "Postcranial skeleton of Birgeria liui (Osteichthyes, Actinopterygii) from the Longobardian (Ladinian, Middle Triassic) of Xingyi, Guizhou, South China". Swiss Journal of Geosciences. 112 (2–3): 307–324. doi:10.1007/s00015-018-0329-0. S2CID 135305199.
- ^ Luigi Capasso (2019). "First direct evidence of the spiral valve intestine of sturgeons in an exceptionally well preserved early Cretaceous fossil" (PDF). Bollettino del Museo Civico di Storia Naturale di Verona. 43: 23–27.
- ^ Luigi Capasso (2019). "Presence of Pycnodontids (Pisces, Actinopterygii) in the Late Cretaceous Cap de Naze marine formation, at Popenguine Cliff, Senegal (Central Africa)" (PDF). Bollettino del Museo Civico di Storia Naturale di Verona. 43: 37–41.
- ^ Timothy J. Cronin; Kenshu Shimada (2019). "New anatomical information on the Late Cretaceous bony fish, Micropycnodon kansasensis (Actinopterygii: Pycnodontiformes), from the Niobrara Chalk of western Kansas, U.S.A.". Transactions of the Kansas Academy of Science. 122 (1–2): 19–28. doi:10.1660/062.122.0102. S2CID 164914313.
- ^ Eva Susanne Stinnesbeck; Jes Rust; Fabian Herder (2019). "Paleobiology and taphonomy of the pycnodont fish Nursallia gutturosum, based on material from the Latest-Cenomanian-middle Turonian Vallecillo platy limestone, Mexico". PalZ. 93 (4): 659–668. doi:10.1007/s12542-019-00461-2. S2CID 197575750.
- ^ Guang-Hui Xu (2019). "Osteology and phylogeny of Robustichthys luopingensis, the largest holostean fish in the Middle Triassic". PeerJ. 7: e7184. doi:10.7717/peerj.7184. PMC 6596411. PMID 31275762.
- ^ Marco Romano; Angelo Cipriani; Simone Fabbi; Paolo Citton (2019). "First remains of neoginglymodian actinopterygians from the Jurassic of Monte Nerone area (Umbria-Marche Apennine, Italy)". Italian Journal of Geosciences. 138 (1): 88–102. doi:10.3301/IJG.2018.28. hdl:11336/125811. S2CID 133831748.
- ^ Lionel Cavin; Uthumporn Deesri; Sébastien Olive (2019). "Scheenstia bernissartensis (Actinopterygii: Ginglymodi) from the Early Cretaceous of Bernissart, Belgium, with an appraisal of ginglymodian evolutionary history". Journal of Systematic Palaeontology. 18 (6): 513–527. doi:10.1080/14772019.2019.1634649. S2CID 199631685.
- ^ Léa Leuzinger; Lionel Cavin; Adriana López‐Arbarello; Jean‐Paul Billon‐Bruyat (2019). "Peculiar tooth renewal in a Jurassic ray‐finned fish (Lepisosteiformes, †Scheenstia sp.)". Palaeontology. 63 (1): 117–129. doi:10.1111/pala.12446. S2CID 204265568.
- ^ Detlev Thies; Kevin Stevens; Sebastian Stumpf (2019). "Stomach contents of the Early Jurassic fish †Lepidotes Agassiz, 1832 (Actinopterygii, Lepisosteiformes) and their palaeoecological implications". Historical Biology: An International Journal of Paleobiology. 33 (6): 868–879. doi:10.1080/08912963.2019.1665040. S2CID 203892069.
- ^ Nathan E. Van Vranken; Christopher Fielitz; Jun A. Ebersole (2019). "New occurrences of Belonostomus (Teleostomorpha: Aspidorhynchidae) from the Late Cretaceous of the North American Gulf Coastal Plain, USA". Palaeontologia Electronica. 22 (3): Article number 22.3.58. doi:10.26879/983. S2CID 204264731.
- ^ Jeff J. Liston; Anthony E. Maltese; Paul H. Lambers; Dominique Delsate; William E.H. Harcourt-Smith; Anneke H. van Heteren (2019). "Scythes, sickles and other blades: defining the diversity of pectoral fin morphotypes in Pachycormiformes". PeerJ. 7: e7675. doi:10.7717/peerj.7675. PMC 6842561. PMID 31720097.
- ^ Claire Dobson; Sam Giles; Zerina Johanson; Jeff Liston; Matt Friedman (2019). "Cranial osteology of the Middle Jurassic (Callovian) Martillichthys renwickae (Neopterygii, Pachycormiformes) with comments on the evolution and ecology of edentulous pachycormiforms". Papers in Palaeontology. 7 (1): 111–136. doi:10.1002/spp2.1276. S2CID 202919395.
- ^ Soledad Gouiric-Cavalli; Luciano L. Rasia; Gonzalo J. Márquez; Vilma Rosato, Roberto A. Scasso & Marcelo Reguero (2019). "First pachycormiform (Actinopterygii, Pachycormiformes) remains from the Late Jurassic of the Antarctic Peninsula and remarks on bone alteration by recent bioeroders". Journal of Vertebrate Paleontology. 38 (5): e1524384. doi:10.1080/02724634.2018.1524384. S2CID 92170730.
- ^ John J. Cawley; Jürgen Kriwet; Stefanie Klug; Michael J. Benton (2019). "The stem group teleost Pachycormus (Pachycormiformes: Pachycormidae) from the Upper Lias (Lower Jurassic) of Strawberry Bank, UK". PalZ. 93 (2): 285–302. doi:10.1007/s12542-018-0431-7. S2CID 91258610.
- ^ Louis Taverne; Luigi Capasso (2019). "New data on Pleuropholis decastroi (Teleostei, Pleuropholidae), a "pholidophoriform" fish from the Lower Cretaceous of the Eurafrican Mesogea" (PDF). Geo-Eco-Trop. 43 (1): 35–51.
- ^ Louis Taverne (2019). "Osteology and phylogenetic relationships of Majokia brasseuri (Teleostei, Majokiiformes nov. ord.) from the continental Middle Jurassic (Stanleyville Formation) of Kisangani (Democratic Republic of Congo)" (PDF). Geo-Eco-Trop. 43 (1): 75–88.
- ^ Lionel Cavin; Rodney W. Berrell (2019). "Revision of Dugaldia emmilta (Teleostei, Ichthyodectiformes) from the Toolebuc Formation, Albian of Australia, with comments on the jaw mechanics". Journal of Vertebrate Paleontology. 39 (1): e1576049. doi:10.1080/02724634.2019.1576049. S2CID 190880286.
- ^ James L. King; Kristopher J. Super (2019). "The smallest recorded specimen of Xiphactinus audax from the Niobrara Chalk of Kansas and its implications for juvenile ichthyodectid ecology". Historical Biology: An International Journal of Paleobiology. 33 (4): 441–445. doi:10.1080/08912963.2019.1623212. S2CID 191146942.
- ^ Reynaldo Pugliesi; Marco A. Stanojev Pereira; Marcos L.G. Andrade; Juliana M.L. Basso; Cibele G. Voltani; Ivone C. Gonzales (2019). "Study of the fish fossil Notelops brama from Araripe-Basin Brazil by Neutron Tomography". Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment. 919: 68–72. Bibcode:2019NIMPA.919...68P. doi:10.1016/j.nima.2018.12.001. S2CID 125618029.
- ^ Lynne B. Bean; Gloria Arratia (2019). "Anatomical revision of the Australian teleosts Cavenderichthys talbragarensis and Waldmanichthys koonwarri impacting on previous phylogenetic interpretations of teleostean relationships". Alcheringa: An Australasian Journal of Palaeontology. 44 (1): 121–159. doi:10.1080/03115518.2019.1666921. S2CID 210298837.
- ^ Anna Ayvazyan; Davit Vasilyan; Madelaine Böhme (2019). "Possible species-flock scenario for the evolution of the cyprinid genus Capoeta (Cypriniformes: Cyprinidae) within late Neogene lake systems of the Armenian Highland". PLOS ONE. 14 (5): e0215543. Bibcode:2019PLoSO..1415543A. doi:10.1371/journal.pone.0215543. PMC 6505951. PMID 31067236.
- ^ Tsuneo Nakajima; Mark J. Hudson; Junzo Uchiyama; Keisuke Makibayashi; Juzhong Zhang (2019). "Common carp aquaculture in Neolithic China dates back 8,000 years". Nature Ecology & Evolution. 3 (10): 1415–1418. doi:10.1038/s41559-019-0974-3. PMID 31527727. S2CID 202579732.
- ^ Y.M. Alves; L.P. Bergqvist; P.M. Brito (2019). "The dorsal and pectoral fin spines of catfishes (Ostariophysi: Siluriformes) from the Bauru Group (Late Cretaceous), Brazil: A comparative and critical analysis". Journal of South American Earth Sciences. 92: 32–40. Bibcode:2019JSAES..92...32A. doi:10.1016/j.jsames.2019.02.016. S2CID 133688402.
- ^ Nobuaki Mizumoto; Shinya Miyata; Stephen C. Pratt (2019). "Inferring collective behaviour from a fossilized fish shoal". Proceedings of the Royal Society B: Biological Sciences. 286 (1903): Article ID 20190891. doi:10.1098/rspb.2019.0891. PMC 6545072. PMID 31138077.
- ^ Giuseppe Marramà; Giorgio Carnevale; Pavel V. Smirnov; Yaroslav S. Trubin; Jürgen Kriwet (2019). "First report of Eocene gadiform fishes from the Trans-Urals (Sverdlovsk and Tyumen regions, Russia)". Journal of Paleontology. 93 (5): 1001–1009. doi:10.1017/jpa.2019.15. S2CID 146234827.
- ^ Kleyton M. Cantalice; Jesús Alvarado-Ortega (2019). "The first occurrence of a fresh water percomorph fish (Actinopterygii: Teleostei) in the Ixtapa Formation (Miocene), Chiapas, southeastern Mexico". Boletín de la Sociedad Geológica Mexicana. 71 (3): 831–839. doi:10.18268/BSGM2019v71n3a12. S2CID 204749022.
- ^ Matt Friedman; Kara L. Feilich; Hermione T. Beckett; Michael E. Alfaro; Brant C. Faircloth; David Černý; Masaki Miya; Thomas J. Near; Richard C. Harrington (2019). "A phylogenomic framework for pelagiarian fishes (Acanthomorpha: Percomorpha) highlights mosaic radiation in the open ocean". Proceedings of the Royal Society B: Biological Sciences. 286 (1910): Article ID 20191502. doi:10.1098/rspb.2019.1502. PMC 6742994. PMID 31506051.
- ^ Gustavo A. Ballen (2019). "Nomenclature of the Sphyraenidae (Teleostei: Carangaria): A synthesis of fossil- and extant-based classification systems". Zootaxa. 4686 (3): 397–408. doi:10.11646/zootaxa.4686.3.5. PMID 31719480. S2CID 207936606.
- ^ David R. Bellwood; Ortwin Schultz; Alexandre C. Siqueira; Peter F. Cowman (2019). "A review of the fossil record of the Labridae" (PDF). Annalen des Naturhistorischen Museums in Wien, Serie A. 121: 125–193. JSTOR 26595690.
- ^ Norbert Micklich; Viktor Baranov; Torsten Wappler (2019). "New information on the feeding habits of the percomorph Rhenanoperca minuta, together with a short look at other fish species from the Eocene Messel Formation of Germany". Bulletin of Geosciences. 94 (3): 315–336. doi:10.3140/bull.geosci.1722. S2CID 219151500.
- ^ Benedict King (2019). "Which morphological characters are influential in a Bayesian phylogenetic analysis? Examples from the earliest osteichthyans". Biology Letters. 15 (7): Article ID 20190288. doi:10.1098/rsbl.2019.0288. PMC 6684994. PMID 31311486.
- ^ Hugo Dutel; Manon Galland; Paul Tafforeau; John A. Long; Michael J. Fagan; Philippe Janvier; Anthony Herrel; Mathieu D. Santin; Gaël Clément; Marc Herbin (2019). "Neurocranial development of the coelacanth and the evolution of the sarcopterygian head". Nature. 569 (7757): 556–569. Bibcode:2019Natur.569..556D. doi:10.1038/s41586-019-1117-3. PMID 30996349. S2CID 119539477.
- ^ Léo Galvão Carnier Fragoso; Paulo Brito; Yoshitaka Yabumoto (2019). "Axelrodichthys araripensis Maisey, 1986 revisited". Historical Biology: An International Journal of Paleobiology. 31 (10): 1350–1372. doi:10.1080/08912963.2018.1454443. S2CID 89795160.
- ^ Lionel Cavin; Camila Cupello; Yoshitaka Yabumoto; Léo Fragoso; Uthumporn Deesri; Paulo M. Brito (2019). "Phylogeny and evolutionary history of mawsoniid coelacanths". Bulletin of the Kitakyushu Museum of Natural History and Human History Series A (Natural History). 17: 3–13.
- ^ Jing Lu; Min Zhu (2019). "The postparietal shield of the Pragian dipnomorph Arquatichthys and its implications for the rhipidistian cranial anatomy". Palaeoworld. 28 (4): 543–549. doi:10.1016/j.palwor.2019.07.004. S2CID 199108003.
- ^ Jing Lu; Gavin Young; Yu-Zhi Hu; Tuo Qiao; Min Zhu (2019). "The posterior cranial portion of the earliest known Tetrapodomorph Tungsenia paradoxa and the early evolution of tetrapodomorph endocrania". Vertebrata PalAsiatica. 57 (2): 93–104. doi:10.19615/j.cnki.1000-3118.181031.
- ^ Edward B. Daeschler; Jason P. Downs; Chelsea Matzko (2019). "New material supports a description and taxonomic revision of Holoptychius ? radiatus (Sarcopterygii, Tristichopteridae) from the Upper Devonian Catskill Formation in Pennsylvania, USA". Proceedings of the Academy of Natural Sciences of Philadelphia. 167 (1): 11–25. doi:10.1635/053.167.0102. S2CID 164596190.
- ^ Viktoriia Kamska; Edward B. Daeschler; Jason P. Downs; Per E. Ahlberg; Paul Tafforeau; Sophie Sanchez (2019). "Long-bone development and life-history traits of the Devonian tristichopterid Hyneria lindae". Earth and Environmental Science Transactions of the Royal Society of Edinburgh. 109 (1–2): 75–86. doi:10.1017/S175569101800083X. S2CID 134090370.
- ^ G. C. Young; R. L. Dunstone; P. J. Ollerenshaw; J. Lu; B. Crook (2019). "New information on the giant Devonian lobe-finned fish Edenopteron from the New South Wales south coast". Australian Journal of Earth Sciences. 67 (2): 221–242. doi:10.1080/08120099.2019.1651769. S2CID 204251345.
- ^ Yuzhi Hu; Gavin C. Young; Jing Lu (2019). "The Upper Devonian tetrapodomorph Gogonasus andrewsae from Western Australia: reconstruction of the shoulder girdle and opercular series using X-ray Micro-Computed Tomography". Palaeoworld. 28 (4): 535–542. doi:10.1016/j.palwor.2019.07.008. S2CID 200076100.
- ^ John A. Long; Alice M. Clement; Brian Choo (2019). "New insights into the origins and radiation of the mid-Palaeozoic Gondwanan stem tetrapods". Earth and Environmental Science Transactions of the Royal Society of Edinburgh. 109 (1–2): 139–155. doi:10.1017/S1755691018000750. S2CID 135325133.
- ^ Camilla Cupello; Gäel Clément; Paulo M. Brito (2019). "Evolution of air breathing and lung distribution among fossil fishes". In Zerina Johanson; Charlie Underwood; Martha Richter (eds.). Evolution and development of fishes. Cambridge University Press. pp. 252–262. doi:10.1017/9781316832172.016. ISBN 978-1-107-17944-8. S2CID 91583226.
- ^ Mark Doeland; Aidan M. C. Couzens; Philip C. J. Donoghue; Martin Rücklin (2019). "Tooth replacement in early sarcopterygians". Royal Society Open Science. 6 (11): Article ID 191173. Bibcode:2019RSOS....691173D. doi:10.1098/rsos.191173. PMC 6894600. PMID 31827852.
- ^ Borja Esteve-Altava; Stephanie E. Pierce; Julia L. Molnar; Peter Johnston; Rui Diogo; John R. Hutchinson (2019). "Evolutionary parallelisms of pectoral and pelvic network-anatomy from fins to limbs". Science Advances. 5 (5): eaau7459. Bibcode:2019SciA....5.7459E. doi:10.1126/sciadv.aau7459. PMC 6506248. PMID 31086814.
- ^ Thomas A. Stewart; Justin B. Lemberg; Natalia K. Taft; Ihna Yoo; Edward B. Daeschler; Neil H. Shubin (2019). "Fin ray patterns at the fin-to-limb transition". Proceedings of the National Academy of Sciences of the United States of America. 117 (3): 1612–1620. doi:10.1073/pnas.1915983117. PMC 6983361. PMID 31888998.
- ^ Eduardo Ascarrunz; Marcelo R. Sánchez-Villagra; Ricardo Betancur-R; Michel Laurin (2019). "On trends and patterns in macroevolution: Williston's law and the branchiostegal series of extant and extinct osteichthyans". BMC Evolutionary Biology. 19 (1): Article 117. doi:10.1186/s12862-019-1436-x. PMC 6558815. PMID 31182024.
- ^ Donald Davesne; François J. Meunier; Armin D. Schmitt; Matt Friedman; Olga Otero; Roger B. J. Benson (2019). "The phylogenetic origin and evolution of acellular bone in teleost fishes: insights into osteocyte function in bone metabolism". Biological Reviews. 94 (4): 1338–1363. doi:10.1111/brv.12505. hdl:2027.42/150563. PMID 30924235. S2CID 85565690.
- ^ Alexander O. Ivanov; Spencer G. Lucas (2019). "Late Pennsylvanian fish assemblage from the Robledo Mountains and new records of Paleozoic chondrichthyans in New Mexico, USA". Bulletin of Geosciences. 94 (2): 235–255. doi:10.3140/bull.geosci.1741. S2CID 219272559.
- ^ Márton Szabó; Gábor Botfalvai; Attila Osi (2019). "Taxonomical and palaeoecological investigations of the chondrichthyan and osteichthyan fish remains from the Middle-Late Triassic deposits of the Villány Hills (Southern Hungary)" (PDF). Geobios. 57: 111–126. doi:10.1016/j.geobios.2019.10.006. S2CID 213563873.
- ^ Yu He Teng; Masatoshi Sone; Ren Hirayama; Masataka Yoshida; Toshifumi Komatsu; Suchada Khamha; Gilles Cuny (2019). "First Cretaceous fish fauna from Malaysia". Journal of Vertebrate Paleontology. 39 (1): e1573735. doi:10.1080/02724634.2019.1573735. S2CID 155143419.
- ^ Ingrid Martins Machado Garcia Veiga; Lilian Paglarelli Bergqvist; Paulo M. Brito (2019). "The fish assemblage of the Cretaceous (?Albian-Cenomanian) Açu formation, Potiguar basin, northeastern Brazil". Journal of South American Earth Sciences. 93: 162–173. Bibcode:2019JSAES..93..162V. doi:10.1016/j.jsames.2019.04.015. S2CID 150301906.
- ^ Nicolae Trif; Vlad Codrea; Viorel Arghiuș (2019). "A fish fauna from the lowermost Bartonian of the Transylvanian Basin, Romania". Palaeontologia Electronica. 22 (3): Article number 22.3.56. doi:10.26879/909. S2CID 204269140.
- ^ William A. Jones; David M. Checkley Jr. (2019). "Mesopelagic fishes dominate otolith record of past two millennia in the Santa Barbara Basin". Nature Communications. 10 (1): Article number 4564. Bibcode:2019NatCo..10.4564J. doi:10.1038/s41467-019-12600-z. PMC 6783546. PMID 31594950.
- ^ Alexandre C. Siqueira; David R. Bellwood; Peter F. Cowman (2019). "The evolution of traits and functions in herbivorous coral reef fishes through space and time". Proceedings of the Royal Society B: Biological Sciences. 286 (1897): Article ID 20182672. doi:10.1098/rspb.2018.2672. PMC 6408896. PMID 30963846.
