Articles citing this paper
Growth-forms in Non-geniculate Coralline Red Algae (Coralliinales, Rhodophyta)
WJ Woelkerling, LM Irvine and AS Harvey
6(4) pp.277 - 293
235 articles found in Crossref database.
Facies and synsedimentary tectonics on a Badenian carbonate platform in the southern Vienna Basin (Austria, Central Paratethys)
Wiedl Thomas,
Harzhauser Mathias, Piller Werner E.
Facies. 2012 58(4). p.523
DNA sequencing resolves species ofSpongites(Corallinales, Rhodophyta) in the Northeast Pacific and South Africa, includingS. agulhensis sp. nov.
der Merwe Elizabeth van,
Miklasz Kevin,
Channing Alan,
Maneveldt Gavin W., Gabrielson Paul W.
Phycologia. 2015 54(5). p.471
RE‐ASSESSMENT OF THE TYPE COLLECTIONS OF FOURTEEN CORALLINALEAN SPECIES (CORALLINALES, RHODOPHYTA) DESCRIBED BY W. ISHIJIMA (1942–1960)
IRYU YASUFUMI,
BASSI DAVIDE, WOELKERLING WILLIAM J.
Palaeontology. 2009 52(2). p.401
Insights into the Migration Routes and Historical Dispersion of Species Surviving the Messinian Crisis: The Case of Patella ulyssiponensis and Epizoic Rhodolith Lithophyllum hibernicum
Gomes Nuno,
Antunes Carlos, Costa Dimítri de Araújo
Hydrobiology. 2021 1(1). p.10
MESOPHYLLUM SPHAERICUM SP. NOV. (CORALLINALES, RHODOPHYTA): A NEW MAËRL-FORMING SPECIES FROM THE NORTHEAST ATLANTIC1
Peña Viviana,
Adey Walter H.,
Riosmena-Rodríguez Rafael,
Jung Moon-Yung,
Afonso-Carrillo Julio,
Choi Han-Gu, Bárbara Ignacio
Journal of Phycology. 2011 47(4). p.911
Coralline algal nodules off Fraser Island, eastern Australia
Lund Michelle,
Davies Peter J., Braga Juan C.
Facies. 2000 42(1). p.25
Middle Miocene carbonate facies with rhodoliths from the NW Transylvanian Basin (Vălenii Șomcutei Cave, Romania)
Chelaru Ramona,
Săsăran Emanoil,
Tămaș Tudor,
Bălc Ramona,
Bucur Ioan I., Pleș George
Facies. 2019 65(1).
A Mediterranean population of Spongites fruticulosus (Rhodophyta, Corallinales), the type species of Spongites, and the taxonomic status of S. stalactitica and S. racemosa
Basso Daniela, Rodondi Graziella
Phycologia. 2006 45(4). p.403
Coralline red algae from the Silurian of Gotland indicate that the order Corallinales (Corallinophycidae, Rhodophyta) is much older than previously thought
Teichert Sebastian,
Woelkerling William,
Munnecke Axel, Sevastopulo George
Palaeontology. 2019 62(4). p.599
Hydrolithon farinosum and Lithophyllum epiphyticum sp. nov. (Corallinaceae, Corallinales, Rhodophyta), Two Epiphytic Crustose Coralline Algae from the Abrolhos Archipelago, Brazil, Southwestern Atlantic
Lyra Manoela B.,
Bahia Ricardo G.,
Jesionek Michel B.,
Carvalho Rodrigo T.,
Moraes Fernando C.,
Harvey Adele S.,
Pereira Renato C.,
Salgueiro Fabiano, Salgado Leonardo T.
Diversity. 2023 15(9). p.1013
Growth rates and ecology of coralline rhodoliths from the Ras Ghamila back reef lagoon, Red Sea
Caragnano Annalisa,
Basso Daniela, Rodondi Graziella
Marine Ecology. 2016 37(4). p.713
Living coralligenous as geo-historical structure built by coralline algae
Basso Daniela,
Bracchi Valentina Alice,
Bazzicalupo Pietro,
Martini Marco,
Maspero Francesco, Bavestrello Giorgio
Frontiers in Earth Science. 2022 10
Coralline algal assemblages record Miocene sea-level changes in the South China Sea
Li Yinqiang,
Yu Kefu,
Bian Lizeng,
Qin Yeman,
Liao Weihua,
Yang Yang, Ma Yifang
Palaeogeography, Palaeoclimatology, Palaeoecology. 2021 584 p.110673
Lithothamnion steneckii sp. nov. and Pneophyllum conicum: new coralline red algae (Corallinales, Rhodophyta) for coral reefs of Brazil
Mariath Rodrigo,
Riosmena-Rodriguez Rafael, Figueiredo Marcia
ALGAE. 2012 27(4). p.249
A series of ecostratigraphic events across the Langhian/Serravallian boundary in an epicontinental setting: the northern Pannonian Basin
Holcová Katarína,
Dašková Jiřina,
Fordinál Klement,
Hrabovský Juraj,
Milovský Rastislav,
Scheiner Filip, Vacek František
Facies. 2019 65(3).
Indirect consequences of fishing: reduction of coralline algae suppresses juvenile coral abundance
O’Leary J. K.,
Potts D. C.,
Braga J. C., McClanahan T. R.
Coral Reefs. 2012 31(2). p.547
A modern account of the South African non-geniculate Lithophylloideae (Corallinales, Corallinophycidae, Rhodophyta)
Van der Merwe E., Maneveldt G.W.
South African Journal of Botany. 2016 103 p.247
Quantifying maerl (rhodolith) habitat complexity along an environmental gradient at regional scale in the Northeast Atlantic
Jardim Victor L.,
Gauthier Olivier,
Toumi Chirine, Grall Jacques
Marine Environmental Research. 2022 181 p.105768
Age and significance of late Pleistocene Lithophyllum byssoides intertidal algal ridge, NW Sardinia, Italy
Sechi Daniele,
Andreucci Stefano,
Stevens Thomas, Pascucci Vincenzo
Sedimentary Geology. 2020 400 p.105618
An uneven rhodolith distribution controlled by sea-bottom conditions near Jeju Island, Korea
Jeong Joo Bong,
Lim Moon Soo,
Seo Young Kyo, Woo Kyung Sik
Marine Geology. 2022 448 p.106799
Lithophyllum nagaokaense sp. nov. (Corallinales, Corallinophycidae, Rhodophyta): A new rhodolith‐forming non‐geniculate coralline alga from Japan
Min‐Khant‐Kyaw ,
Kato Aki,
Kurashima Akira,
Liao Lawrence M., Baba Masasuke
Phycological Research. 2024
Coralline red algae from the Silurian of Gotland indicate that the order Corallinales (Corallinophycidae, Rhodophyta) is much older than previously thought
Teichert Sebastian,
Woelkerling William,
Munnecke Axel, Sevastopulo George
Angewandte Chemie. 1888 1(1). p.599
Phylogenetic relationships of corallinaceae (Corallinales, Rhodophyta): taxonomic implications for reef‐building corallines
Rösler Anja,
Perfectti Francisco,
Peña Viviana,
Braga Juan Carlos, Gabrielson P.
Journal of Phycology. 2016 52(3). p.412
Rhodolith/Maërl Beds: A Global Perspective (2017)
To Be or Not to Be a Fossil Rhodolith? Analytical Methods for Studying Fossil Rhodolith Deposits
Bassi Davide,
Iryu Yasufumi, Nebelsick James H.
Journal of Coastal Research. 2012 279 p.288
Tracking paleoenvironmental changes in coralline algal-dominated carbonates of the Lower Oligocene Calcareniti di Castelgomberto formation (Monti Berici, Italy)
Nebelsick James H.,
Bassi Davide, Lempp Julia
Facies. 2013 59(1). p.133
Reassessment of misapplied names, Phymatolithon ferox and P. repandum (Hapalidiales, Corallinophycidae, Rhodophyta) in South Africa, based on DNA sequencing of type and recently collected material
Maneveldt Gavin W.,
Jeong So Young,
Cho Tae Oh,
Hughey Jeffery R., Gabrielson Paul W.
Phycologia. 2020 59(5). p.449
Taxonomic contributions to Hapalidiales (Corallinophycidae, Rhodophyta): Boreolithothamnion gen. nov., Lithothamnion redefined and with three new species and Roseolithon with new combinations
Gabrielson Paul W.,
Maneveldt Gavin W.,
Hughey Jeffery R., Peña Viviana
Journal of Phycology. 2023 59(4). p.751
Rhodolith assemblages from the lower Tortonian carbonate ramp of Menorca (Spain): Environmental and paleoclimatic implications
Brandano Marco,
Vannucci Grazia,
Pomar Luis, Obrador Antonio
Palaeogeography, Palaeoclimatology, Palaeoecology. 2005 226(3-4). p.307
Multi‐gene phylogenetic analyses of New Zealand coralline algae: Corallinapetra Novaezelandiae gen. et sp. nov. and recognition of the Hapalidiales ord. nov.
Nelson Wendy A.,
Sutherland Judith E.,
Farr Tracy J.,
Hart Darren R.,
Neill Kate F.,
Kim Hee Jeong,
Yoon Hwan Su, Gabrielson P.
Journal of Phycology. 2015 51(3). p.454
High growth resilience of subarctic rhodoliths (Lithothamnion glaciale) to ocean warming and chronic low irradiance
Bélanger D, Gagnon P
Marine Ecology Progress Series. 2021 663 p.77
Paleontology and paleoecology of coralline algal assemblages from the Early–Middle Miocene deposits in NW of the Zagros basin, Iran
Roozpeykar Asghar,
Maghfouri-Moghaddam Iraj,
Yazdi Mehdi, Yousefi-Yegane Bizhan
Carbonates and Evaporites. 2019 34(4). p.1595
Depositional processes of the mixed carbonate–siliciclastic rhodolith beds of the Miocene Saint-Florent Basin, northern Corsica
Brandano Marco, Ronca Sara
Facies. 2014 60(1). p.73
Heydrichia cerasina sp. nov. (Sporolithales, Corallinophycidae, Rhodophyta) from the southernmost tip of Africa
Maneveldt Gavin W., van der Merwe Elizabeth
Phycologia. 2012 51(1). p.11
Palaeoecological implications of corallinacean red algae and halimedacean green algae from the prang formation of south shillong plateau, meghalaya
Ghosh Amit K., Sarkar Suman
Journal of the Geological Society of India. 2013 81(4). p.531
Sporolithon molle(Heydrich) Heydrich (Sporolithales, Corallinophycidae, Rhodophyta): An Addition to the Atlantic Flora Found on a Remote Oceanic Island
Bahia Ricardo G.,
Filho Gilberto M. Amado, Maneveldt Gavin W.
Cryptogamie, Algologie. 2014 35(1). p.7
Lithophyllum frondosum(Dufour) comb. nov. (Corallinaceae, Rhodophyta): the species to which Mediterranean ‘Pseudolithophyllum expansum’ should be referred
Furnari Giovanni,
Cormaci Mario, Alongi Giuseppina
European Journal of Phycology. 1996 31(2). p.117
Rhodolith beds and their onshore transport in Fuerteventura Island (Canary Archipelago, Spain)
Rebelo Ana Cristina,
Martín-González Esther,
Melo Carlos S.,
Johnson Markes E.,
González-Rodríguez Alberto,
Galindo Inés,
Quartau Rui,
Baptista Lara,
Ávila Sérgio P., Rasser Michael W.
Frontiers in Marine Science. 2022 9
Reef‐building coralline algae from the Southwest Atlantic: filling gaps with the recognition of Harveylithon (Corallinaceae, Rhodophyta) on the Brazilian coast
Costa Iara Oliveira,
Jesus Priscila Barreto de,
de Jesus Tiana da Silva,
Souza Poline dos Santos,
Horta Paulo Antunes, Nunes José Marcos de Castro
Journal of Phycology. 2019 55(6). p.1370
Coralline algal assemblages in upper Neogene reef and temperate carbonates in Southern Spain
Braga Juan C, Aguirre Julio
Palaeogeography, Palaeoclimatology, Palaeoecology. 2001 175(1-4). p.27
Rhodolith-forming species ofLithophyllum(Corallinales; Rhodophyta) from Espírito Santo State, Brazil, including the description ofL. depressumsp. nov.
Villas-Boas Alexandre B.,
Riosmena-Rodriguez Rafael,
Amado-Filho Gilberto M.,
Maneveldt Gavin W., Figueiredo Marcia A. de O.
Phycologia. 2009 48(4). p.237
Coralline algae indicate Pleistocene evolution from deep, open platform to outer barrier reef environments in the northern Great Barrier Reef margin
Braga Juan C., Aguirre Julio
Coral Reefs. 2004
Characterization of rhodolith beds-related backscatter facies from the western Pontine Archipelago (Mediterranean Sea)
Sañé E.,
Ingrassia M.,
Chiocci F.L.,
Argenti L., Martorelli E.
Marine Environmental Research. 2021 169 p.105339
Coralline red algae from the Silurian of Gotland indicate that the order Corallinales (Corallinophycidae, Rhodophyta) is much older than previously thought
Teichert Sebastian,
Woelkerling William,
Munnecke Axel, Sevastopulo George
Journal of Microscopy. 1969 89(2). p.599
Biological affinity, phenotypic variation and palaeoecology ofTetradiumDana, 1846
Steele-Petrovich H. Miriam
Lethaia. 2009 42(4). p.383
Palaeoenvironmental and stratigraphic significance of Pliocene rhodolith beds and coralline algal bioconstructions from the Carboneras Basin (SE Spain)
Aguirre Julio,
Braga Juan C.,
Martín Jose M., Betzler Christian
Geodiversitas. 2012 34(1). p.115
Spatiotemporal Variability in Subarctic Lithothamnion glaciale Rhodolith Bed Structural Complexity and Macrofaunal Diversity
Bélanger David, Gagnon Patrick
Diversity. 2023 15(6). p.774
Heterozoan carbonate-enriched beach sand and coastal dunes—with particular reference to rhodoliths, Dirk Hartog Island, Shark Bay, Western Australia
Harvey Adela,
Johnson Markes E., Harvey Robert
Facies. 2018 64(3).
Coralline red algae from the Silurian of Gotland indicate that the order Corallinales (Corallinophycidae, Rhodophyta) is much older than previously thought
Teichert Sebastian,
Woelkerling William,
Munnecke Axel, Sevastopulo George
Art History. 1978 1(1). p.599
An Overview of Rhodoliths: Ecological Importance and Conservation Emergency
Costa Dimítri de Araújo,
Dolbeth Marina,
Christoffersen Martin Lindsey,
Zúñiga-Upegui Pamela Tatiana,
Venâncio Márcia, de Lucena Reinaldo Farias Paiva
Life. 2023 13(7). p.1556
Recent Advances in Micro and Macroalgal Processing (2021)
Epiphytic coralline crusts (Corallinales, Rhodophyta) from South Norway
Kjøsterud Anne-Beth
Sarsia. 1997 82(1). p.23
Evaluation of coralline algal diversity from the Serravallian carbonate sediments of Little Andaman Island (Hut Bay), India
Sarkar Suman, Ghosh Amit K.
Carbonates and Evaporites. 2015 30(1). p.13
Nuclear DNA content variation in the freshwater red algal orders Batrachospermales and Thoreales (Florideophyceae, Nemaliophycidae)
Kapraun Donald F.,
Braly Katherine S., Freshwater D. Wilson
Phycologia. 2007 46(1). p.54
Coralgal buildups associated with the Bolca Fossil-Lagerstätten: new evidence from the Ypresian of Monte Postale (NE Italy)
Vescogni Alessandro,
Bosellini Francesca R.,
Papazzoni Cesare Andrea,
Giusberti Luca,
Roghi Guido,
Fornaciari Eliana,
Dominici Stefano, Zorzin Roberto
Facies. 2016 62(3).
First record of Coralline Red Algae from the Kopili Formation (late Eocene) of Meghalaya, N-E India
Sarma Ajanta,
Ghosh Amit K., Sarkar Suman
National Academy Science Letters. 2014 37(6). p.503
Low growth resilience of subarctic rhodoliths (Lithothamnion glaciale) to coastal eutrophication
Bélanger D, Gagnon P
Marine Ecology Progress Series. 2020
Sedimentological and palaeoecological integrated analysis of a Miocene channelized carbonate margin, Matese Mountains, Southern Apennines, Italy
Bassi Davide,
Carannante Gabriele,
Checconi Alessio,
Simone Lucia, Vigorito Mario
Sedimentary Geology. 2010 230(3-4). p.105
Ecostratigraphic implications of a Late Palaeocene shallow-marine benthic community from the Jaintia Hills, Meghalaya, NE India
Sarkar Suman
Journal of Earth System Science. 2020 129(1).
DNA sequencing reveals three new species of Chamberlainium (Corallinales, Rhodophyta) from South Africa, all formerly passing under Spongites yendoi
Puckree-Padua Courtney A.,
Gabrielson Paul W., Maneveldt Gavin W.
Botanica Marina. 2021 64(1). p.19
Reassessment of Lemoine's newly Discovered Types of Fossil Corallines (Corallinales, Rhodophyta) Preserved at the Muséum National D'histoire Naturelle, Paris
Aguirre Julio,
Braga Juan C.,
Reviers Bruno De, Woelkerling William J.
Cryptogamie, Algologie. 2012 33(3). p.289
Provenance analysis of Oligocene autochthonous and allochthonous coralline algae: a quantitative approach towards reconstructing transported assemblages
Rasser Michael W, Nebelsick James H
Palaeogeography, Palaeoclimatology, Palaeoecology. 2003 201(1-2). p.89
Reassessment of Palaeothamnium Conti, 1946 (Corallinales, Rhodophyta)
Aguirre Julio,
Braga Juan C., Piller Werner E.
Review of Palaeobotany and Palynology. 1996 94(1-2). p.1
The Eocene carbonate platform of the central-western Malaguides (Internal Betic Zone, S Spain) and its meaning for the Cenozoic paleogeography of the westermost Tethys
Tosquella Josep,
Martín-Martín Manuel,
Guerrera Francesco,
Serrano Francisco, Tramontana Mario
Palaeogeography, Palaeoclimatology, Palaeoecology. 2022 589 p.110840
Evolutionary history of the Corallinales (Corallinophycidae, Rhodophyta) inferred from nuclear, plastidial and mitochondrial genomes
Bittner Lucie,
Payri Claude E.,
Maneveldt Gavin W.,
Couloux Arnaud,
Cruaud Corinne,
de Reviers Bruno, Le Gall Line
Molecular Phylogenetics and Evolution. 2011 61(3). p.697
Lectotypifícation of Lithophyllum arcticum (Corallinales, Rhodophyta) and a study of its relationships within the Melobesioideae
Athanasiadis A.
Nordic Journal of Botany. 2001 21(1). p.93
Morphology of Lithothamnion japonicum (Hapalidiaceae, Rhodophyta): A New Record of Coralline Species from Korea
Jeong So Young,
Won Boo Yeon, Cho Tae Oh
Environmental Biology Research. 2018 36(3). p.319
Modern rhodoliths from the insular shelf of Pico in the Azores (Northeast Atlantic Ocean)
Rebelo Ana Cristina,
Johnson Markes E.,
Quartau Rui,
Rasser Michael W.,
Melo Carlos S.,
Neto Ana I.,
Tempera Fernando,
Madeira Patrícia, Ávila Sérgio P.
Estuarine, Coastal and Shelf Science. 2018 210 p.7
Early Priabonian Mesophyllum dominated coralline algal assemblage from coastal upwelling settings (Central Carpathian Paleogene Basin, Slovakia)
Hrabovský Juraj,
Starek Dušan,
Holcová Katarína, Zágoršek Kamil
Palaeobiodiversity and Palaeoenvironments. 2022 102(1). p.1
Episodes of seabed rise and rapid drowning controlling the development of regressive and transgressive rhodolithic limestones in a tectonically-active subduction setting (Early Miocene, Wairarapa region, New Zealand)
Caron Vincent,
Bailleul Julien,
Chanier Frank, Mahieux Geoffroy
New Zealand Journal of Geology and Geophysics. 2022 65(1). p.53
Morphology-Anatomy ofMesophyllum macroblastum(Hapalidiaceae, Corallinales, Rhodophyta) in the Northern Adriatic Sea and a Key to Mediterranean Species of the Genus
Kaleb Sara,
Falace Annalisa,
Sartoni Gianfranco, Woelkerling William
Cryptogamie, Algologie. 2011 32(3). p.223
Indirect paleo-seagrass indicators (IPSIs): A review
Reich S.,
Di Martino E.,
Todd J.A.,
Wesselingh F.P., Renema W.
Earth-Science Reviews. 2015 143 p.161
CONCEPTACLE STRUCTURE OF THE PARASITIC CORALLINE RED ALGA CHOREONEMA THURETII (CORALLINALES) AND ITS TAXONOMIC IMPLICATIONS1
Broadwater Sharon T.,
Harvey Adele S.,
Lapointe Elizabeth A., Woelkerling William J.
Journal of Phycology. 2002 38(6). p.1157
Recognising macrophyte-vegetated environments in the rock record: a new criterion using ‘hooked’ forms of crustose coralline red algae
Beavington-Penney Simon J.,
Paul Wright V., Woelkerling Wm.J.
Sedimentary Geology. 2004 166(1-2). p.1
Carbonate Systems during the Oligocene–Miocene Climatic Transition (2012)
Hooked and tubular coralline algae indicate seagrass beds associated to Mediterranean Messinian reefs (Poniente Basin, Almería, SE Spain)
Sola Fernando,
Braga Juan C., Aguirre Julio
Palaeogeography, Palaeoclimatology, Palaeoecology. 2013 374 p.218
Estimates of nuclear DNA content in red algal lineages
Kapraun Donald F., Freshwater D. Wilson
AoB PLANTS. 2012 2012
Modern Rhodolith-dominated carbonates at Punta Chivato, Mexico
Halfar Jochen,
Eisele Markus,
Riegl Bernhard,
Hetzinger Steffen, Godinez-Orta Lucio
Geodiversitas. 2012 34(1). p.99
Settlement of abalone larvae (Haliotis laevigata Donovan) in response to non-geniculate coralline red algae (Corallinales, Rhodophyta)
Daume Sabine,
Brand-Gardner Sascha, Woelkerling Wm.J
Journal of Experimental Marine Biology and Ecology. 1999 234(1). p.125
Coralline-algal assemblages of a Burdigalian platform slope: implications for carbonate platform reconstruction (northern Sardinia, western Mediterranean Sea)
Benisek Merle-Friederike,
Betzler Christian,
Marcano Gabriela, Mutti Maria
Facies. 2009 55(3). p.375
Revision of Corallinaceae (Corallinales, Rhodophyta): recognizing Dawsoniolithon gen. nov., Parvicellularium gen. nov. and Chamberlainoideae subfam. nov. containing Chamberlainium gen. nov. and Pneophyllum
Caragnano Annalisa,
Foetisch Alexandra,
Maneveldt Gavin W.,
Millet Laurent,
Liu Li‐Chia,
Lin Showe‐Mei,
Rodondi Graziella,
Payri Claude E., Gabrielson P.
Journal of Phycology. 2018 54(3). p.391
Revision of Phymatolithon purpureum (Hapalidiales, Rhodophyta) based on ultrastructural and molecular data
Jeong So Young,
Won Boo Yeon,
Hassel Kristian, Cho Tae Oh
European Journal of Phycology. 2019 54(3). p.326
Coralline red algae from the Silurian of Gotland indicate that the order Corallinales (Corallinophycidae, Rhodophyta) is much older than previously thought
Teichert Sebastian,
Woelkerling William,
Munnecke Axel, Sevastopulo George
Quarterly Journal of the Royal Meteorological Society. 2010 136(647). p.599
Cryptic diversity in non-geniculate coralline algae: a new genus Roseolithon (Hapalidiales, Rhodophyta) and seven new species from the Western Atlantic
Miranda Coutinho Luana,
Penelas Gomes Fernanda,
Nasri Sissini Marina,
Vieira-Pinto Talita,
Muller de Oliveira Henriques Maria Carolina,
Oliveira Mariana Cabral,
Antunes Horta Paulo, Barbosa de Barros Barreto Maria Beatriz
European Journal of Phycology. 2022 57(2). p.227
Diversity, growth forms and taphonomy: key factors controlling the fabric of coralline algae dominated shelf carbonates
Nebelsick James H., Bassi Davide
Geological Society, London, Special Publications. 2000 178(1). p.89
Borers and encrusters as indicators of the presence of hermit crabs in Antarctic Eocene gastropods shells
Casadio Silvio,
Parras Ana,
Griffin Miguel, Marenssi Sergio
Antarctic Science. 2007 19(3). p.297
Community structure of coralline algae and its relationship with environment in Sanya reefs, China
Lei Xinming,
Huang Hui,
Lian Jiansheng,
Zhou Guowei, Jiang Lei
Aquatic Ecosystem Health & Management. 2018 21(1). p.19
Paleoenvironmental analyses of coralline red algal assemblages in Lower Miocene carbonate deposits of Central Iran
Daneshian Jahanbakhsh, Kargar Fahim
Historical Biology. 2024 36(1). p.19
A critical interpretation of coralline-coralline (Corallinales, Rhodophyta) and coralline-other plant interactions
MORCOM N, WOELKERLING W
Cryptogamie Algologie. 2000 21(1). p.1
Updated keys to the non-geniculate coralline red algae (Corallinophycidae, Rhodophyta) of South Africa
Maneveldt G.W.,
Van der Merwe E., Keats D.W.
South African Journal of Botany. 2016 106 p.158
Late Pleistocene and Holocene cool‐water carbonates of the Western Mediterranean Sea
BETZLER CHRISTIAN,
BRAGA JUAN C.,
JARAMILLO‐VOGEL DAVID,
RÖMER MIRIAM,
HÜBSCHER CHRISTIAN,
SCHMIEDL GERHARD, LINDHORST SEBASTIAN
Sedimentology. 2011 58(3). p.643
Displaced/re-worked rhodolith deposits infilling parts of a complex Miocene multistorey submarine channel: A case history from the Sassari area (Sardinia, Italy)
Murru Marco,
Bassi Davide, Simone Lucia
Sedimentary Geology. 2015 326 p.94
Biological importance of an Atlantic European maërl bed off Benencia Island (northwest Iberian Peninsula)
Peña Viviana, Bárbara Ignacio
botm. 2008 51(6). p.493
Effects of Holocene sea level changes on subtidal palaeoecosystems, southeastern Brazil
Spotorno-Oliveira Paula,
Tâmega Frederico Tapajós de Souza,
Oliveira Camila Areias de,
Castro João Wagner Alencar,
Coutinho Ricardo,
Iryu Yasufumi, Bassi Davide
Marine Geology. 2016 381 p.17
Rhodolith/Maërl Beds: A Global Perspective (2017)
Phymatolithon atlanticum sp. nov. (Hapalidiales, Rhodophyta) from the northeast Atlantic Ocean
Jeong So Young,
Diaz-Pulido Guillermo,
Won Boo Yeon, Cho Tae Oh
Phycologia. 2021 60(3). p.200
Recent macroids on the Kikai‐jima shelf, Central Ryukyu Islands, Japan
BASSI DAVIDE,
IRYU YASUFUMI,
HUMBLET MARC,
MATSUDA HIROKI,
MACHIYAMA HIDEAKI,
SASAKI KEIICHI,
MATSUDA SHINYA,
ARAI KOHSAKU, INOUE TAKAHIKO
Sedimentology. 2012 59(7). p.2024
Tomographic Analysis for Bioerosion Signatures in Shallow-Water Rhodoliths from the Abrolhos Bank, Brazil
Leal Rachel Nunes,
Bassi Davide,
Posenato Renato, Amado-Filho Gilberto M.
Journal of Coastal Research. 2012 279 p.306
Importance of rhodoliths as habitats for benthic communities in impacted environments
Costa Dimítri de Araújo,
de Lucena Reinaldo Farias Paiva,
da Silva Francisco de Assis,
da Silva Geuba Maria Bernardo,
Massei Karina,
Christoffersen Martin Lindsey, Dolbeth Marina
Regional Studies in Marine Science. 2021 48 p.102055
Seasonal upwelling conditions promote growth and calcification in reef‐building coralline algae
Pulecio‐Plaza Lauri,
Diaz‐Pulido Guillermo, García‐Urueña Rocío
Journal of Phycology. 2023 59(5). p.908
Pleistocene coralline algal buildups on a mid-ocean rocky shore – Insights into the MIS 5e record of the Azores
Rebelo A. Cristina,
Rasser Michael W.,
Ramalho Ricardo S.,
Johnson Markes E.,
Melo Carlos S.,
Uchman Alfred,
Quartau Rui,
Berning Björn,
Neto Ana I.,
Mendes Ana Rita,
Basso Daniela, Ávila Sérgio P.
Palaeogeography, Palaeoclimatology, Palaeoecology. 2021 579 p.110598
Diagnostic characters in fossil coralline algae (Corallinophycidae: Rhodophyta) from the Miocene of southern Moravia (Carpathian Foredeep, Czech Republic)
Hrabovský Juraj,
Basso Daniela, Doláková Nela
Journal of Systematic Palaeontology. 2016 14(6). p.499
Circumscription ofLithophyllum racemus(Corallinales, Rhodophyta) from the western Mediterranean Sea reveals the speciesLithophyllum pseudoracemus sp. nov.
Caragnano Annalisa,
Rodondi Graziella,
Basso Daniela,
Peña Viviana,
le Gall Line, Rindi Fabio
Phycologia. 2020 59(6). p.584
The genus Phymatolithon (Hapalidiaceae, Corallinales, Rhodophyta) in South Africa, including species previously ascribed to Leptophytum
Van der Merwe E., Maneveldt G.W.
South African Journal of Botany. 2014 90 p.170
The melobesioid alga Mesophyllum engelhartii (Rhodophyta, Corallinaceae) in South Africa
Chamberlain Y.M., Keats D.W.
South African Journal of Botany. 1995 61(3). p.134
Paleoenvironment and taphonomy of lower Miocene bivalve and macroid assemblages: the Lagos Biocalcarenite (Lagos-Portimão Formation, southern Portugal)
da Silva Carlos Marques,
Cachão Mário,
Rebelo Ana Cristina,
Johnson Markes E.,
Baarli B. Gudveig,
Santos Ana, Mayoral Eduardo J.
Facies. 2019 65(2).
Hydrolithon braganum sp. nov. (Corallinaceae, Rhodophyta), the first known exclusively fossil semi-endophytic coralline red alga
Woelkerling William J.,
Bassi Davide, Iryu Yasufumi
Phycologia. 2012 51(6). p.604
Trough cross-bedded rhodolith limestones in the Atlantic-linked Ronda Basin (Messinian, Southern Spain)
Braga Juan C., Aguirre Julio
Frontiers in Earth Science. 2022 10
Paleoecology and Taphonomy of Polystrata alba (Red Alga) from the Late Eocene Alpine Foreland: A New Tool for the Reconstruction of Sedimentary Environments
RASSER M. W.
PALAIOS. 2001 16(6). p.601
Molecular data confirm the existence of attached crustose tetrasporangial thalli in Phymatolithon calcareum (Melobesioideae, Hapalidiaceae, Rhodophyta) from the Mediterranean Sea
Wolf Marion A.,
Falace Annalisa,
Kaleb Sara, Moro Isabella
Aquatic Botany. 2016 134 p.75
Recovery of marine primary producers after the Cretaceous–Tertiary mass extinction: Paleocene calcareous red algae from the Iberian Peninsula
Aguirre Julio,
Baceta Juan I., Braga Juan C.
Palaeogeography, Palaeoclimatology, Palaeoecology. 2007 249(3-4). p.393
Application of neontological taxonomic concepts to Late Eocene coralline algae (Rhodophyta) of the Austrian Molasse Zone
Rasser Michael W., Piller Werner E.
Journal of Micropalaeontology. 1999 18(1). p.67
Effects of post-larval abalone (Haliotis rubra) grazing on the epiphytic diatom assemblage of coralline red algae
Daume Sabine,
Brand Sascha, Woelkerling J.
Molluscan Research. 1997 18(2). p.119
A catalogue with keys to the non-geniculate coralline algae (Corallinales, Rhodophyta) of South Africa
Maneveldt G.W.,
Chamberlain Y.M., Keats D.W.
South African Journal of Botany. 2008 74(4). p.555
Thanetian–Ilerdian coralline algae and benthic foraminifera from northeast India: microfacies analysis and new insights into the Tethyan perspective
Sarkar Suman
Lethaia. 2015 48(1). p.13
Coralline red algae from the Silurian of Gotland indicate that the order Corallinales (Corallinophycidae, Rhodophyta) is much older than previously thought
Teichert Sebastian,
Woelkerling William,
Munnecke Axel, Sevastopulo George
Quarterly Journal of the Royal Meteorological Society. 2010 136(647). p.599
Asia Pacific
Sporolithon
(Corallinophycidae, Rhodophyta) species revised based on DNA sequencing of type specimens and including
S. crypticum sp. nov., S. immotum sp. nov
. and
S. nodosum sp. nov.
Gabrielson Paul W.,
Hughey Jeffery R.,
Peña Viviana,
Richards Joseph L.,
Saunders Gary W.,
Twist Brenton,
Farr Tracy, Nelson Wendy A.
Phycologia. 2023 62(6). p.593
The Oyster Crassostrea? hatcheri (Ortmann, 1897), a Physical Ecosystem Engineer from the Upper Oligocene - Lower Miocene of Patagonia, Southern Argentina
PARRAS A., CASADIO S.
PALAIOS. 2006 21(2). p.168
To be allochthonous or autochthonous? The late Paleocene–late Eocene slope sedimentary succession of the Latium–Abruzzi carbonate platform (Central Apennines, Italy)
Tomassetti Laura, Benedetti Andrea
Facies. 2020 66(1).
Coralline red algae from the Silurian of Gotland indicate that the order Corallinales (Corallinophycidae, Rhodophyta) is much older than previously thought
Teichert Sebastian,
Woelkerling William,
Munnecke Axel, Sevastopulo George
Art History. 1978 1(1). p.599
Chamberlainium (Corallinales, Rhodophyta) in South Africa, an exemplar for the study of coralline algae, description of C. tenue sp. nov., biogeography of the genus, and species keys
Puckree-Padua Courtney A.,
Gabrielson Paul W., Maneveldt Gavin W.
South African Journal of Botany. 2022 150 p.178
Re-deposited rhodoliths in the Middle Miocene hemipelagic deposits of Vitulano (Southern Apennines, Italy): Coralline assemblage characterization and related trace fossils
Checconi Alessio,
Bassi Davide,
Carannante Gabriele, Monaco Paolo
Sedimentary Geology. 2010 225(1-2). p.50
Comunidades Demersais e Bioconstrutores, Vol 4 (2017)
Petroleum Geosciences: Indian Contexts (2015)
Community structure of a rhodolith bed from cold-temperate waters (southern Australia)
Harvey A. S., Bird F. L.
Australian Journal of Botany. 2008 56(5). p.437
Coralline algae (Corallinales, Rhodophyta) in western and central Mediterranean Messinian reefs
Braga Juan C.,
Vescogni Alessandro,
Bosellini Francesca R., Aguirre Julio
Palaeogeography, Palaeoclimatology, Palaeoecology. 2009 275(1-4). p.113
Distribution, population structure and settlement preference of Tubastraea spp. (Cnidaria: Scleractinia) on rocky shores of the Cagarras Islands Natural Monument and surroundings, Rio de Janeiro, Brazil
Silva Munique dos Santos,
de Moraes Fernando Coreixas,
Batista Daniela,
Bahia Ricardo da Gama,
Bertoncini Áthila Andrade,
Machado Augusto Alves,
Muricy Guilherme,
Karez Claudia Santiago,
Pereira-Filho Guilherme Henrique,
Salgado Leonardo Tavares, Pereira Renato Crespo
Regional Studies in Marine Science. 2022 52 p.102245
Tethysphytum antarcticum gen. et sp. nov. (Hapalidiales, Rhodophyta), a new non-geniculate coralline alga from Terra Nova Bay (Ross Sea, Antarctica): morpho-anatomical characterization and molecular phylogeny
Sciuto Katia,
Moschin Emanuela,
Alongi Giuseppina,
Cecchetto Matteo,
Schiaparelli Stefano,
Caragnano Annalisa,
Rindi Fabio, Moro Isabella
European Journal of Phycology. 2021 56(4). p.416
Rhodalgal/bryomol assemblages in temperate-type carbonate, channelized depositional systems: the Early Miocene of the Sarcidano area (Sardinia, Italy)
Bassi Davide,
Carannante Gabriele,
Murru Marco,
Simone Lucia, Toscano Francesco
Geological Society, London, Special Publications. 2006 255(1). p.35
Components, facies and ramps: Redefining Upper Oligocene shallow water carbonates using coralline red algae and larger foraminifera (Venetian area, northeast Italy)
Bassi Davide, Nebelsick James H.
Palaeogeography, Palaeoclimatology, Palaeoecology. 2010 295(1-2). p.258
Facies analysis and paleoenvironmental interpretation of Piacenzian carbonate deposits from the Guitar Formation of Car Nicobar Island, India
Ghosh Amit K., Sarkar Suman
Geoscience Frontiers. 2013 4(6). p.755
Rhodolith/Maërl Beds: A Global Perspective (2017)
The Corallinaceae, subfamily Mastophoroideae (Corallinales, Rhodophyta) in south-eastern Australia
Harvey A. S.,
Phillips L. E.,
Woelkerling W. J., Millar A. J. K.
Australian Systematic Botany. 2006 19(5). p.387
The Eocene carbonate platforms of the Ghomaride Domain (Internal Rif Zone, N Morocco): a segment of the westernmost Tethys
Martín-Martín Manuel,
Tosquella Josep,
Guerrera Francesco,
Maaté Alí,
Hlila Rachid,
Maaté Soufian,
Tramontana Mario, Le Breton Eline
Sedimentary Geology. 2023 452 p.106423
Origin and resedimentation of rhodoliths in the Late Paleocene flysch of the Polish Outer Carpathians
Leszczyński Stanisław,
Kołodziej Bogusław,
Bassi Davide,
Malata Ewa, Gasiński M. Adam
Facies. 2012 58(3). p.367
Oceanographic controls on shallow‐water temperate carbonate sedimentation: Spencer Gulf, South Australia
O'Connell Laura G.,
James Noel P.,
Doubell Mark,
Middleton John F.,
Luick John,
Currie David R.,
Bone Yvonne, Della Porta Giovanna
Sedimentology. 2016 63(1). p.105
GENETIC DIFFERENCES BETWEEN TWO GROWTH‐FORMS OF LITHOPHYLLUM MARGARITAE (RHODOPHYTA) IN BAJA CALIFORNIA SUR, MEXICO1
Schaeffer Timothy N.,
Smith G. Jason,
Foster Michael S., DeTomaso Anthony
Journal of Phycology. 2002 38(6). p.1090
Morphology and occurrence of rhodoliths in siliciclastic, intertidal environments from a high latitude reef setting, southern Mozambique
Perry Christopher T.
Coral Reefs. 2005 24(2). p.201
Rhodoliths in Brazil: Current knowledge and potential impacts of climate change
Horta Paulo Antunes,
Riul Pablo,
Amado Filho Gilberto M.,
Gurgel Carlos Frederico D.,
Berchez Flávio,
Nunes José Marcos de Castro,
Scherner Fernando,
Pereira Sonia,
Lotufo Tito,
Peres Letícia,
Sissini Marina,
Bastos Eduardo de Oliveira,
Rosa João,
Munoz Pamela,
Martins Cintia,
Gouvêa Lidiane,
Carvalho Vanessa,
Bergstrom Ellie,
Schubert Nadine,
Bahia Ricardo G.,
Rodrigues Ana Claudia,
Rörig Leonardo,
Barufi José Bonomi, Figueiredo Marcia
Brazilian Journal of Oceanography. 2016 64(spe2). p.117
Diverse Macroids and Rhodoliths from the Upper Pleistocene of Baja California Sur, Mexico
Baarli B. Gudveig,
Santos Ana,
da Silva Carlos M.,
Ledesma-Vázquez Jorge,
Mayoral Eduardo,
Cachão Mário, Johnson Markes E.
Journal of Coastal Research. 2012 279 p.296
Coralline red algae from the Silurian of Gotland indicate that the order Corallinales (Corallinophycidae, Rhodophyta) is much older than previously thought
Teichert Sebastian,
Woelkerling William,
Munnecke Axel, Sevastopulo George
Journal of Microscopy. 1969 89(2). p.599
Upper Pliocene heterozoan assemblage from the Guitar Formation of Car Nicobar Island, India: palaeoecological implications and taphonomic signatures
Sarkar Suman
Palaeobiodiversity and Palaeoenvironments. 2016 96(2). p.221
Coralline red algae from the Silurian of Gotland indicate that the order Corallinales (Corallinophycidae, Rhodophyta) is much older than previously thought
Teichert Sebastian,
Woelkerling William,
Munnecke Axel, Sevastopulo George
Angewandte Chemie. 1888 1(1). p.599
Genetic and morphological variation in an ecosystem engineer, Lithophyllum byssoides (Corallinales, Rhodophyta)
Pezzolesi Laura,
Falace Annalisa,
Kaleb Sara,
Hernandez‐Kantun Jazmin J.,
Cerrano Carlo,
Rindi Fabio, Gabrielson P.
Journal of Phycology. 2017 53(1). p.146
Non-Geniculate Coralline Algae (Corallinales, Rhodophyta) on Heron Reef, Great Barrier Reef (Australia)
Ringeltaube P., Harvey A.
Botanica Marina. 2000 43(5).
Biotic changes and their control on Oligocene-Miocene reefs: A case study from the Apulia Platform margin (southern Italy)
Bosellini Francesca R.
Palaeogeography, Palaeoclimatology, Palaeoecology. 2006 241(3-4). p.393
Coralline algal facies and their palaeoenvironments in the Late Eocene of Northern Italy (Calcare di Nago, Trento)
Bassi Davide
Facies. 1998 39(1). p.179
Lithothamnion superpositum (Corallinales; Rhodophyta): First description for the Western Atlantic or rediscovery of a species?
Da Nóbrega Farias Julyana,
Riosmena-Rodriguez Rafael,
Bouzon Zenilda,
Oliveira Eurico C., Horta Paulo A.
Phycological Research. 2010 58(3). p.210
Microfacies analysis and palaeoenvironmental interpretation of Lower Oligocene, shallow-water carbonates (Gornji Grad Beds, Slovenia)
Nebelsick James H.,
Bassi Davide, Drobne Katica
Facies. 2000 43(1). p.157
First report of the melobesioid alga (Corallinales, Rhodophyta) Mesophyllum incisum (Foslie) Adey in South Africa
Keats D.W., Maneveldt G.
South African Journal of Botany. 1997 63(4). p.201
Multi-gene phylogeny reveals a new genus and species of Hapalidiales (Rhodophyta) from Antarctica: Thalassolithon adeliense gen. & sp. nov.
Trentin Riccardo,
Moschin Emanuela,
Grapputo Alessandro,
Rindi Fabio,
Schiaparelli Stefano, Moro Isabella
Phycologia. 2023 62(1). p.83
Rhodoliths from deep fore-reef to shelf areas around Okinawa-jima, Ryukyu Islands, Japan
Matsuda Shinya, Iryu Yasufumi
Marine Geology. 2011 282(3-4). p.215
DNA Sequencing of Type Material Reveals Pneophyllum marlothii comb. nov. from South Africa and P. discoideum comb. nov. (Chamberlainoideae, Corallinales, Rhodophyta) from Argentina
Puckree‐Padua Courtney A.,
Gabrielson Paul W.,
Hughey Jeffery R.,
Maneveldt Gavin W., Oliveira M. C.
Journal of Phycology. 2020 56(6). p.1625
Paleoecology and dynamics of coralline dominated facies during a Pleistocene transgressive–regressive cycle (Capo Colonna marine terrace, Southern Italy)
Bracchi Valentina Alice,
Nalin R., Basso D.
Palaeogeography, Palaeoclimatology, Palaeoecology. 2014 414 p.296
Rhodolith Morphology and the Diversity of Polychaetes Off the Southeastern Brazilian Coast
Berlandi Raquel Meihoub,
de O. Figueiredo Marcia A., Paiva Paulo Cesar
Journal of Coastal Research. 2012 279 p.280
Coralline algae as depth indicators in the Miocene carbonates of the Eratosthenes Seamount (ODP Leg 160, Hole 966F)
Coletti Giovanni, Basso Daniela
Geobios. 2020 60 p.29
Present-day and fossil rhodolith pavements compared: Their potential for analysing shallow-water carbonate deposits
Bassi Davide,
Nebelsick James H.,
Checconi Alessio,
Hohenegger Johann, Iryu Yasufumi
Sedimentary Geology. 2009 214(1-4). p.74
Range extension and morphological characterization of rhodolith-forming species (Corallinales, Rhodophyta) from shallow water in the Mexican South Pacific
Peralta-García Edith Concepción, Rosas-Alquicira Edgar Francisco
Helgoland Marine Research. 2014 68(4). p.503
Synarthrophyton papillatum sp. nov.: A new species of non-geniculate coralline algae (Rhodophyta, Corallinales, Hapalidiaceae) from South Africa and Namibia
Maneveldt G.W.,
Keats D.W., Chamberlain Y.M.
South African Journal of Botany. 2007 73(4). p.570
Morphological and molecular assessment of Lithophyllum okamurae with the description of L. neo-okamurae sp. nov. (Corallinales, Rhodophyta)
Kato Aki,
Basso Daniela,
Caragnano Annalisa,
Rodondi Graziella,
Le Gall Line,
Peña Viviana,
Hall-Spencer Jason M., Baba Masasuke
Phycologia. 2022 61(2). p.117
Marine facies differentiation along complex paleotopography: an example from the Middle Miocene (Serravallian) of Lower Austria
Piller Werner E.,
Auer Gerald,
Graber Hugo, Gross Martin
Swiss Journal of Geosciences. 2022 115(1).
Distribution ofLithophyllum kuroshioense sp. nov., Lithophyllum subtileandL. kaiseri(Corallinales, Rhodophyta), but notL. kotschyanum, in the northwestern Pacific Ocean
Kato Aki, Baba Masasuke
Phycologia. 2019 58(6). p.648
Larger foraminiferal and coralline algal facies in an Upper Eocene storm-influenced, shallow-water carbonate platform (Colli Berici, north-eastern Italy)
Bassi Davide
Palaeogeography, Palaeoclimatology, Palaeoecology. 2005 226(1-2). p.17
Deep-water rhodolith bed from central Brazilian continental shelf, Campos Basin: coralline algal and faunal taxonomic composition
TÂMEGA Frederico Tapajós de Souza,
BASSI Davide,
FIGUEIREDO Marcia Abreu de Oliveira, CHERKINSKY Alexander
Galaxea, Journal of Coral Reef Studies. 2014 16(1). p.21
NEW QUANTITATIVE DESCRIPTORS (SHAPE AND MACROBORING) OF BIOGENIC NODULES: EXAMPLES FROM THE LESSER ANTILLES AND NEW ZEALAND
CARON VINCENT,
DESCHAMPS BRICE,
ROBERT-DUARTE ALEXANDRE, BAILLEUL JULIEN
Palaios. 2023 38(12). p.491
Lithothamnion superpositum Foslie: a common crustose red alga (Corallinaceae) in South Africa
KEATS D,
MANEVELDT G, CHAMBERLAIN Y
Cryptogamie Algologie. 2000 21(4). p.381
Rhodolith beds along the southeastern Mediterranean inner shelf: Implications for past depositional environments
Dulin Tuvia,
Avnaim-Katav Simona,
Sisma-Ventura Guy,
Bialik Or M., Angel Dror L.
Journal of Marine Systems. 2020 201 p.103241
Detail description of Lithophyllum okamurae (Lithophylloideae, Corallinales), a widely distributed crustose coralline alga in marine ecosystems
Hu Qunju,
Yang Fangfang,
Wei Zhangliang,
Mo Jiahao,
Long Chao,
Tian Xinpeng, Long Lijuan
Acta Oceanologica Sinica. 2020 39(6). p.96
Generic distinguishing characteristics and stratigraphic ranges of fossil corallines: An update
Kundal P.
Journal of the Geological Society of India. 2011 78(6). p.571
Environmental factors controlling the distribution of rhodoliths: An integrated study based on seafloor sampling, ROV and side scan sonar data, offshore the W-Pontine Archipelago
Sañé E.,
Chiocci F.L.,
Basso D., Martorelli E.
Continental Shelf Research. 2016 129 p.10
Predation by polychaete worms on larval and post-settlement abalone Haliotis iris (Mollusca:Gastropoda)
Naylor J.Reyn., McShane Paul E.
Journal of Experimental Marine Biology and Ecology. 1997 214(1-2). p.283
The Dağpazarı carbonate platform (Mut Basin, Southern Turkey): Facies and environmental reconstruction of a coral reef system during the Middle Miocene Climatic Optimum
Vescogni Alessandro,
Bosellini Francesca R.,
Cipriani Anna,
Gürler Gonca,
Ilgar Ayhan, Paganelli Emanuele
Palaeogeography, Palaeoclimatology, Palaeoecology. 2014 410 p.213
From biologically to hydrodynamically controlled carbonate production by tectonically induced paleogeographic rearrangement (Middle Miocene, Pannonian Basin)
Wiedl Thomas,
Harzhauser Mathias,
Kroh Andreas,
Ćorić Stjepan, Piller Werner E.
Facies. 2014 60(4). p.865
Structure and Composition of Rhodolith Beds from the Sergipe-Alagoas Basin (NE Brazil, Southwestern Atlantic)
Vale Nicholas F. L.,
Braga Juan C.,
Bastos Alex C.,
Moraes Fernando C.,
Karez Claudia S.,
Bahia Ricardo G.,
Leão Luis A.,
Pereira Renato C.,
Amado-Filho Gilberto M., Salgado Leonardo T.
Diversity. 2022 14(4). p.282
Coralgal composition of drowned carbonate platforms in the Huon Gulf, Papua New Guinea; implications for lowstand reef development and drowning
Webster Jody M,
Wallace Laura,
Silver Eli,
Potts Donald,
Braga Juan Carlos,
Renema Willem,
Riker-Coleman Kristin, Gallup Christina
Marine Geology. 2004 204(1-2). p.59
Limestones as a paleobathymeter for reconstructing past seismic activities: Muroto-misaki, Shikoku, southwestern Japan
Iryu Y.,
Maemoku H.,
Yamada T., Maeda Y.
Global and Planetary Change. 2009 66(1-2). p.52
Ecospace variability along a carbonate platform at the northern boundary of the Miocene reef belt (Upper Langhian, Austria)
Wiedl Thomas,
Harzhauser Mathias,
Kroh Andreas,
Ćorić Stjepan, Piller Werner E.
Palaeogeography, Palaeoclimatology, Palaeoecology. 2013 370 p.232
Post-settlement survival of abalone (Haliotis iris, H. australis) in turbulent flows
Naylor J. Reyn, McShane Paul E.
Molluscan Research. 1997 18(2). p.227
Timing of the evolutionary history of Corallinaceae (Corallinales, Rhodophyta)
Rösler Anja,
Perfectti Francisco,
Peña Viviana,
Aguirre Julio,
Braga Juan Carlos, Gabrielson P.
Journal of Phycology. 2017 53(3). p.567
Coralline red algae from the Silurian of Gotland indicate that the order Corallinales (Corallinophycidae, Rhodophyta) is much older than previously thought
Teichert Sebastian,
Woelkerling William,
Munnecke Axel, Sevastopulo George
Palaeontology. 2019 62(4). p.599
MECO and Alpine orogenesis: Constraints for facies evolution of the Bartonian nummulitic and Solenomeris limestone in the Argentina Valley (Ligurian Alps)
Brandano Marco,
Tomassetti Laura, Mateu‐Vicens Guillem
Sedimentology. 2022 69(1). p.24
Spatial and temporal dynamics of the abundance of crustose calcareous algae on the southernmost coral reefs of the western Atlantic (Abrolhos Bank, Brazil)
Amado-Filho Gilberto M.,
Bahia Ricardo G.,
Mariath Rodrigo,
Jesionek Michel B.,
Moura Rodrigo Leão,
Bastos Alex C.,
Pereira-Filho Guilherme Henrique, Francini-Filho Ronaldo Bastos
ALGAE. 2018 33(1). p.85
Species diversity and molecular phylogeny of
Crustaphytum
and
Mesophyllum
(Hapalidiales, Rhodophyta) from the Asian Pacific, including three new species of
Crustaphytum
Liu Li-Chia,
Lin Showe-Mei, Lim Phaik-Eem
Phycologia. 2023 62(6). p.608
Fossil semi-endophytic species of Lithophyllum (Corallinaceae, Rhodophyta) from Tahiti, including L. kenjikonishii sp. nov., and their taphonomic signatures
Woelkerling William J.,
Iryu Yasufumi, Bassi Davide
Phycologia. 2013 52(5). p.387
A “cool-water”, non-tropical, mixed volcaniclastic–carbonate ramp from the Early Cretaceous of southern Chile (45°40’S)
Rivas Hermann,
Salazar Christian, Stinnesbeck Wolfgang
Facies. 2023 69(3).
A taxonomic and distributional study of the rhodolith-forming species Lithothamnion muelleri (Corallinales, Rhodophyta) in the Eastern Pacific Ocean
Robinson Nestor M.,
Hansen G.I.,
Fernandez-Garcia C., Riosmena-Rodriguez R.
ALGAE. 2013 28(1). p.63
Demise and recovery of Antillean shallow marine carbonate factories adjacent to active submarine volcanoes (Lutetian-Bartonian limestones, St. Bartholomew, French West Indies)
Caron Vincent,
Bailleul Julien,
Chanier Frank, Mahieux Geoffroy
Sedimentary Geology. 2019 387 p.104
Coralline algae as depth indicators in the Sommières Basin (early Miocene, Southern France)
Coletti Giovanni,
Basso Daniela, Corselli Cesare
Geobios. 2018 51(1). p.15
Carbonate Systems during the Oligocene–Miocene Climatic Transition (2012)
Holocene Deep Water Algal Buildups on the Eastern Australian Shelf
DAVIES P. J.,
BRAGA J. C.,
LUND M., WEBSTER J. M.
PALAIOS. 2004 19(6). p.598
New records of rhodolith-forming species (Corallinales, Rhodophyta) from deep water in Espírito Santo State, Brazil
Henriques Maria Carolina,
Villas-Boas Alexandre,
Rodriguez Rafael Riosmena, Figueiredo Marcia A. O.
Helgoland Marine Research. 2012 66(2). p.219
REEVALUATION OF THE INFERRED RELATIONSHIP BETWEEN LIVING RHODOLITH MORPHOLOGIES, THEIR MOVEMENT, AND WATER ENERGY: IMPLICATIONS FOR INTERPRETING PALEOCEANOGRAPHIC CONDITIONS
O'CONNELL LAURA G.,
JAMES NOEL P.,
HARVEY ADELA S.,
LUICK JOHN,
BONE YVONNE, SHEPHERD SCORESBY A.
PALAIOS. 2020 35(12). p.543
Sporolithon franciscanum sp. nov. (Sporolithales, Rhodophyta), a New Rhodolith-Forming Species from Northeast Brazil
Leão Luis Alfredo S.,
Bahia Ricardo G.,
Jesionek Michel B.,
Adey Walter H.,
Johnson Gabriel,
Salgado Leonardo T., Pereira Renato C.
Diversity. 2020 12(5). p.199
Calcified macroalgae - critical to coastal ecosystems and vulnerable to change: a review
Nelson W. A.
Marine and Freshwater Research. 2009 60(8). p.787
Three species ofMastophora(Rhodophyta: Corallinales, Corallinaceae) in the tropical Indo-Pacific Ocean:M. rosea(C. Agardh) Setchell,M. pacifica(Heydrich) Foslie, andM. multistratasp. nov.
Keats Derek W.,
Maneveldt Gavin W.,
Baba Masasuke,
Chamberlain Yvonne M., Lewis Jane E.
Phycologia. 2009 48(5). p.404
The genus Lithophyllum (Lithophylloideae, Corallinaceae, Rhodophyta) in south-eastern Australia, with the description of L. riosmenae, sp. nov.
Harvey A. S.,
Woelkerling Wm J., Millar A. J. K.
Australian Systematic Botany. 2009 22(4). p.296
Community assessment of crustose calcifying red algae as coral recruitment substrates
Deinhart Mari,
Mills Matthew S.,
Schils Tom, Chenette Emily
PLOS ONE. 2022 17(7). p.e0271438
Coralline red algal assemblage from the Middle Pliocene shallow-water temperate carbonates of the Monte Cetona (Northern Apennines, Italy)
Checconi Alessio,
Bassi Davide,
Passeri Leonsevero, Rettori Roberto
Facies. 2007 53(1). p.57
Coralline Algae at the Paleocene/Eocene Thermal Maximum in the Southern Pyrenees (N Spain)
Aguirre Julio,
Baceta Juan I., Braga Juan C.
Frontiers in Marine Science. 2022 9
Sporolithon tenue sp. nov. (Sporolithales, Corallinophycidae, Rhodophyta): A new rhodolith‐forming species from the tropical southwestern Atlantic
Bahia Ricardo G.,
Amado‐Filho Gilberto M.,
Maneveldt Gavin W.,
Adey Walter H.,
Johnson Gabriel,
Marins Bianca V., Longo Leila L.
Phycological Research. 2014 62(1). p.44
Shell Fouling and Behavior of the Caribbean Predatory GastropodCassis tuberosa
Grun Tobias B., Nebelsick James H.
American Malacological Bulletin. 2017 35(1). p.55
Rhodolith facies evolution and burial as a response to Holocene transgression at the Pontian Islands shelf break
Basso Daniela,
Morbioli Claudia, Corselli Cesare
Geological Society, London, Special Publications. 2006 255(1). p.23
A NEW ANALYTICAL PROCEDURE TO GRAPHICALLY CHARACTERIZE THE TAPHONOMIC PROPERTIES OF SKELETAL CARBONATES. AN EXAMPLE FROM MIOCENE LIMESTONES OF NEW ZEALAND
CARON VINCENT,
BAILLEUL JULIEN,
CHANIER FRANK,
MAHIEUX GEOFFROY, JOANNY FRANÇOIS-XAVIER
PALAIOS. 2019 34(8). p.364
First Record ofSporolithon ptychoidesHeydrich (Sporolithales, Corallinophycidae, Rhodophyta) from Thailand
Kaewsuralikhit Chatcharee,
Maneekat Sinchai,
Noiraksa Thidarat,
Patarajinda Sunan, Baba Masasuke
Cryptogamie, Algologie. 2012 33(3). p.265
Nongeniculate coralline algae from early middle Miocene offshore sequence of Kachchh basin, Western India: Paleoenvironmental significance
Kundal P.,
Kundal Milind P., Humane S. K.
Journal of the Geological Society of India. 2016 88(1). p.39
Pleistocene coralline algal build-ups (
coralligène de plateau
) and associated bioclastic deposits in the sedimentary cover of Cutro marine terrace (Calabria, southern Italy)
Nalin R.,
Basso D., Massari F.
Geological Society, London, Special Publications. 2006 255(1). p.11
An Upper Miocene siliciclastic-carbonate ramp: depositional architecture, facies distribution, and diagenetic history (Capo Vaticano area, southern Italy)
Gramigna Pierparide,
Bassi Davide, Russo Franco
Facies. 2012 58(2). p.191
A taxonomic account of non-geniculate coralline algae (Corallinophycidae, Rhodophyta) from shallow reefs of the Abrolhos Bank, Brazil
Jesionek Michel B.,
Bahia Ricardo G.,
Hernández-Kantún Jazmín J.,
Adey Walter H.,
Yoneshigue-Valentin Yocie,
Longo Leila L., Amado-Filho Gilberto M.
ALGAE. 2016 31(4). p.317
The taxonomy ofLithothamnium ramosissimum (Gümbel nonReuss)Conti andLithothamnium operculatum (Conti)Conti (Rhodophyta, Corallinaceae)
Basso Daniela,
Fravega Patrizia, Vannuci Grazia
Facies. 1997 37(1). p.167
Rhodolith beds at the easternmost extreme of South America: Community structure of an endangered environment
Riul Pablo,
Lacouth Patricia,
Pagliosa Paulo Roberto,
Christoffersen Martin Lindsey, Horta Paulo Antunes
Aquatic Botany. 2009 90(4). p.315
Coralline red algae from late Palaeocene–earliest Eocene carbonates of Meghalaya, N–E India: palaeocommunity and trophic-level implications
Sarkar Suman, Narasimha Rao G. M.
Carbonates and Evaporites. 2018 33(4). p.767
Morphostructural Characterization of the Heterogeneous Rhodolith Bed at the Marine Protected Area “Capo Carbonara” (Italy) and Hydrodynamics
Bracchi Valentina A.,
Caronni Sarah,
Meroni Agostino N.,
Burguett Esteban Gottfried,
Atzori Fabrizio,
Cadoni Nicoletta,
Marchese Fabio, Basso Daniela
Diversity. 2022 14(1). p.51
Morpho-structural heterogeneity of shallow-water coralligenous in a Pleistocene marine terrace (Le Castella, Italy)
Bracchi Valentina Alice,
Nalin R., Basso D.
Palaeogeography, Palaeoclimatology, Palaeoecology. 2016 454 p.101
The enigmatic Palaeocene-Eocene coralline Distichoplax: Approaching the structural complexities, ecological affinities and extinction hypotheses
Sarkar Suman
Marine Micropaleontology. 2018 139 p.72
Facies analysis of Pleistocene limestones from Neil West Coast Formation, Neil Island, Ritchie’s archipelago of South Andaman, India
Chakraborty Arindam,
Ghosh Amit K., Mazumder Abhijit
Journal of the Geological Society of India. 2017 90(4). p.428
Reassignment of some South African species to Chamberlainium, with a comment about the recognition of families of Corallinales (Rhodophyta)
Puckree-Padua Courtney A.,
Haywood Allison,
Gabrielson Paul W., Maneveldt Gavin W.
Phycologia. 2020 59(6). p.464
Rhodolith bed structure along a depth gradient on the northern coast of bahia state, brazil
Bahia Ricardo G.,
Abrantes Douglas P.,
Brasileiro Poliana S.,
Pereira Filho Guilherme H., Amado Filho Gilberto M.
Brazilian Journal of Oceanography. 2010 58(4). p.323
Middle Eocene Nummulites and their offshore re-deposition: A case study from the Middle Eocene of the Venetian area, northeastern Italy
Bassi Davide,
Nebelsick James H.,
Puga-Bernabéu Ángel, Luciani Valeria
Sedimentary Geology. 2013 297 p.1
Upper Eocene larger foraminiferal–coralline algal facies from the Klokova Mountain (southern continental Greece)
Barattolo Filippo,
Bassi Davide, Romano Roberta
Facies. 2007 53(3). p.361
3-D distribution of nongeniculate corallinales: a case study from a reef crest of South Sinai (Red Sea, Egypt)
Caragnano A.,
Colombo F.,
Rodondi G., Basso D.
Coral Reefs. 2009 28(4). p.881
Carbonate production by calcareous red algae and global change
Basso Daniela
Geodiversitas. 2012 34(1). p.13
Environmental factors influencing distribution and morphology of rhodoliths in Bahía Concepción, B.C.S., México
Steller Diana L., Foster Michael S.
Journal of Experimental Marine Biology and Ecology. 1995 194(2). p.201
Ninth International Symposium “Monitoring of Mediterranean Coastal Areas: Problems and Measurement Techniques” (2022)
Crustose algal frameworks from the Eocene Alpine Foreland
Rasser Michael W, Piller Werner E
Palaeogeography, Palaeoclimatology, Palaeoecology. 2004 206(1-2). p.21
Onset of temperate carbonate sedimentation during transgression in a low-energy siliciclastic embayment (Pliocene of the Val d’Orcia Basin, Tuscany, Italy)
Nalin Ronald,
Ghinassi Massimiliano, Basso Daniela
Facies. 2010 56(3). p.353
Structure and composition of rhodoliths from the Amazon River mouth, Brazil
Vale Nicholas F.,
Amado-Filho Gilberto M.,
Braga Juan C.,
Brasileiro Poliana S.,
Karez Cláudia S.,
Moraes Fernando C.,
Bahia Ricardo G.,
Bastos Alex C., Moura Rodrigo L.
Journal of South American Earth Sciences. 2018 84 p.149
Typification and reassessment of seventeen species of coralline red algae (Corallinales and Sporolithales, Rhodophyta) described by W. Ishijima during 1954–1978
Iryu Yasufumi,
Bassi Davide, Woelkerling William J.
Journal of Systematic Palaeontology. 2012 10(1). p.171
Crustose red algae in deep time environments: Palaeoecological insights from northeastern India and Turkey
Sarkar Suman,
Sinanoglu Derya, Özgen-Erdem Nazire
Palaeoworld. 2024
The need to employ reliable and reproducible species identifications in coralline algal research
Twist BA,
Cornwall CE,
McCoy SJ,
Gabrielson PW,
Martone PT, Nelson WA
Marine Ecology Progress Series. 2020 654 p.225
A re-description of Lithothamnion crispatum and the status of Lithothamnion superpositum (Rhodophyta, Corallinales)
Basso Daniela,
Rodondi Graziella, Bressan Guido
Phycologia. 2011 50(2). p.144
Confirmation of Lithophyllum trincomaliense comb. & stat. nov. and of L. validum (Corallinales, Rhodophyta) as distinct species based on genetic and morpho-anatomical analyses of type material
Kato Aki,
Muangmai Narongrit, Baba Masasuke
Phycologia. 2022 61(6). p.669
RHODOLITHS: BETWEEN ROCKS AND SOFT PLACES
Foster Michael S.
Journal of Phycology. 2001 37(5). p.659
Late Hauterivian coralline algae (Rhodophyta, Corallinales) from the Iberian Chain (E Spain). Taxonomy and the evolution of multisporangial reproductive structures
Tomás Sara,
Aguirre Julio,
Braga Juan C., Martín-Closas Carles
Facies. 2007 53(1). p.79
Coralline red algae from the Silurian of Gotland indicate that the order Corallinales (Corallinophycidae, Rhodophyta) is much older than previously thought
Teichert Sebastian,
Woelkerling William,
Munnecke Axel, Sevastopulo George
Palaeontology. 2019 62(4). p.599
Rocking around a volcanic island shelf: Pliocene Rhodolith beds from Malbusca, Santa Maria Island (Azores, NE Atlantic)
Rebelo Ana Cristina,
Rasser Michael W.,
Kroh Andreas,
Johnson Markes E.,
Ramalho Ricardo S.,
Melo Carlos,
Uchman Alfred,
Berning Björn,
Silva Luís,
Zanon Vittorio,
Neto Ana I.,
Cachão Mário, Ávila Sérgio P.
Facies. 2016 62(3).
