sameAs
Pempheris gasparinii, a new species of sweeper fish from Trindade Island, southwestern Atlantic (Teleostei, Pempheridae)Fish biodiversity of the Vitória-Trindade Seamount Chain, southwestern Atlantic: an updated databaseThe likelihood of extinction of iconic and dominant herbivores and detritivores of coral reefs: the parrotfishes and surgeonfishesGrammatonotus brianne, a new callanthiid fish from Philippine waters, with short accounts of two other Grammatonotus from the Coral TriangleEvolution of pygmy angelfishes: recent divergences, introgression, and the usefulness of color in taxonomy.Skipping across the tropics: the evolutionary history of sawtail surgeonfishes (Acanthuridae: Prionurus).Regal phylogeography: Range-wide survey of the marine angelfish Pygoplites diacanthus reveals evolutionary partitions between the Red Sea, Indian Ocean, and Pacific Ocean.Mesophotic fishes of the Abrolhos Shelf, the largest reef ecosystem in the South Atlantic.Fish biodiversity and conservation in South America.Introgression and selection shaped the evolutionary history of sympatric sister-species of coral reef fishes (genus: Haemulon).Response to Delrieu-Trottin et al.: Hybrids, Color Variants and the Consistently Devilish Taxonomy of Pygmy Angelfishes.Historical biogeography and speciation in the reef fish genus Haemulon (Teleostei: Haemulidae).Comparative phylogeography of Atlantic reef fishes indicates both origin and accumulation of diversity in the Caribbean.Expansion of an invasive coral species over Abrolhos Bank, Southwestern Atlantic.Phylogeography of the reef fish Cephalopholis argus (Epinephelidae) indicates Pleistocene isolation across the Indo-Pacific Barrier with contemporary overlap in The Coral TriangleLiving in the past: phylogeography and population histories of Indo-Pacific wrasses (genus Halichoeres) in shallow lagoons versus outer reef slopes.Genomic signatures of geographic isolation and natural selection in coral reef fishes.The origins of tropical marine biodiversity.First Record of Invasive Lionfish (Pterois volitans) for the Brazilian Coast.Surgeons and suture zones: Hybridization among four surgeonfish species in the Indo-Pacific with variable evolutionary outcomes.Island biogeography of marine organisms.The recent colonization of south Brazil by the Azores chromis Chromis limbata.Recent invasion of the tropical Atlantic by an Indo-Pacific coral reef fish.Adult habitat preferences, larval dispersal, and the comparative phylogeography of three Atlantic surgeonfishes (Teleostei: Acanthuridae).Roa rumsfeldi, a new butterflyfish (Teleostei, Chaetodontidae) from mesophotic coral ecosystems of the Philippines.Reply to Vitule et al. (2017): Comment on 'Fish biodiversity and conservation in South America by Reis et al. (2016)'.Cleaning service gaps in Bermuda, North Atlantic.Specimen collection: an essential tool.Angelfishes, Paper Tigers, and the Devilish Taxonomy of the Centropyge flavissima Complex.Brazilian aquatic biodiversity in peril.Shallow mtDNA coalescence in Atlantic pygmy angelfishes (genus Centropyge) indicates a recent invasion from the Indian Ocean.Phylogenetics and geography of speciation in New World Halichoeres wrasses.Whole-genome assembly of the coral reef Pearlscale Pygmy Angelfish (Centropyge vrolikii).Ecological traits influencing range expansion across large oceanic dispersal barriers: insights from tropical Atlantic reef fishes.Ecological speciation in tropical reef fishes.Phylogeography of two closely related Indo-Pacific butterflyfishes reveals divergent evolutionary histories and discordant results from mtDNA and microsatellites.Yellow tails in the Red Sea: phylogeography of the Indo-Pacific goatfishMulloidichthys flavolineatusreveals isolation in peripheral provinces and cryptic evolutionary lineagesTwisted sister species of pygmy angelfishes: discordance between taxonomy, coloration, and phylogeneticsPlectranthias ahiahiata, a new species of perchlet from a mesophotic ecosystem at Rapa Nui (Easter Island) (Teleostei, Serranidae, Anthiadinae).Large-scale invasion of western Atlantic mesophotic reefs by lionfish potentially undermines culling-based management
P50
Q22683965-C746BBFB-8C1D-4C5B-8CDB-595ECC41F3D7Q47457320-7260CFFE-57D4-423A-87A4-F51BB0E12284Q54580081-49fa2728-4042-4e64-6565-a074e245686dQ56880641-39BE4E3B-EF17-404C-9451-B0C6F8879F1DQ63475069-213d0585-4b82-cbd8-2589-45638c54871bQ63475123-8328e7dd-43a9-b8f2-771f-9abe46fceb30Q63475156-7ad846c0-442f-d13e-593b-130f14c3a01eQ65591197-6ff61425-48ca-fdeb-2019-b0553ac61f6bQ86452404-1c572363-40db-8483-9f9a-60ed0dabc1fe
P405
Q22677338-ed554428-4561-a5ce-a587-1379a2db0e8fQ27314695-5D2ACE69-D511-4FAB-88B8-51C80785CD43Q28727256-1B06BC2A-FE6A-4A2E-83CF-446D1C44AD72Q28940346-4D029E24-A489-46FD-8E98-0A837EC45480Q30560554-432215BD-E3BE-4329-AA3C-8D21F3DB896DQ30564811-BFC6D258-CE73-4B3D-BBC7-168097AC9927Q30570917-F8738343-33D2-4325-9DB4-5CB1B1ED1F88Q30570984-D9D1565F-305E-4CF2-A109-F9EFFB6DDE0CQ30571279-2A32227B-BCEA-4055-B280-4BFB675C252CQ30571973-76063FA3-3856-4DB8-8EB8-763457DFFFB3Q30572549-50B5F17A-F8F1-41FD-A0D2-89F14BB873A4Q30844765-42302A83-1716-4A1A-98DD-92713DF2A4BAQ33336890-D6E9FF53-19F3-4C9E-BBDE-1CC6A6B13B25Q33456673-6C96F1F3-C5F9-45BF-A3EC-2954BD1A17DBQ33948762-178DEE6F-69C4-4B2C-BC96-17009A54EE85Q34305276-A1CB7080-4CFB-4A20-92B2-C75032D77BFBQ34466319-5068BAE9-6779-427B-88A6-548B1E412FEFQ34604742-2FA13338-3552-42D8-B098-3106572BF2D1Q35527057-DE97BB76-A445-4049-AB0E-08B730450CA4Q36008197-0B6F976A-B4B6-46C6-8AB1-2056A985C0B0Q38602235-759D9AD6-C1BB-4A22-B02A-BF09BBB6ABCCQ38681346-F3150819-99BE-4B7B-A7DA-EAB3BDC352CCQ39403221-DECD09D1-3055-4991-B153-AD1C60761CB7Q39403231-815A72EC-42DB-497B-BC72-2904421F5C08Q42255450-A3D19ADC-A69C-4F96-8339-39A2AFCF0CA6Q46073967-462C70AF-210D-45BB-AB65-B914FA0270A9Q46099033-A6E7D08C-7826-4F25-A3A5-08FD3F219370Q46309783-6CDD5481-5FBD-4659-9F65-D5A9FCEE740DQ46487271-67C8210A-2317-4EF4-806E-ABEAAF92EBA0Q46621194-A8113AF5-8287-4F12-8D4C-76DE70214150Q46774537-3BAD9F23-EF50-4669-A400-A08572CABBF8Q47230312-2664A3C4-4C40-4FC7-AB08-94C8C71E932CQ47556852-BE0C19D3-8D87-46B0-BDDC-F409940F2775Q51171450-AFF19A41-89F8-4813-A335-3FCB79D1F27EQ51192024-6B822FCA-B46E-41DC-ABF6-7ABBBB81D7B5Q51333939-3AF48E1B-83C1-4DDE-ABF6-C82A8A7BD990Q54571977-28045A3F-A516-46DA-B277-ECE702D9D998Q54572148-4F1F75F8-D96F-42D7-8CDF-92A3CB5A2B5DQ55618727-DD83D06D-E695-40ED-9BC3-18DE2DF76A51Q56002272-A4EA7432-1573-487C-8D40-B30255783C6D
P50
description
Ichthyologe
@de
U.S ichthyologist
@en
amerikansk iktyolog
@sv
ichtyologiste
@fr
ichtyoloog
@nl
ictiòleg
@ca
ictiólogo estadounidense
@es
ictiólogu estauxunidense
@ast
ihtiolog
@sl
ittiologo
@it
name
Luiz A. Rocha
@ast
Luiz A. Rocha
@ca
Luiz A. Rocha
@de
Luiz A. Rocha
@en
Luiz A. Rocha
@es
Luiz A. Rocha
@fr
Luiz A. Rocha
@it
Luiz A. Rocha
@nl
Luiz A. Rocha
@sl
Luiz A. Rocha
@sv
type
label
Luiz A. Rocha
@ast
Luiz A. Rocha
@ca
Luiz A. Rocha
@de
Luiz A. Rocha
@en
Luiz A. Rocha
@es
Luiz A. Rocha
@fr
Luiz A. Rocha
@it
Luiz A. Rocha
@nl
Luiz A. Rocha
@sl
Luiz A. Rocha
@sv
altLabel
Rocha
@de
Rocha
@en
Rocha
@la
Rocha
@nl
Rocha
@sv
prefLabel
Luiz A. Rocha
@ast
Luiz A. Rocha
@ca
Luiz A. Rocha
@de
Luiz A. Rocha
@en
Luiz A. Rocha
@es
Luiz A. Rocha
@fr
Luiz A. Rocha
@it
Luiz A. Rocha
@nl
Luiz A. Rocha
@sl
Luiz A. Rocha
@sv
P101
P106
P2006
A3D77362-F6EC-417E-8528-1B5492642C98
P21
P2381
P31
P496
0000-0003-4011-569X