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Journal articles on the topic 'Corallinale'

Author: Grafiati
Published: 25 May 2024
Last updated: 29 July 2025

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1

MORCOM, N., and W. WOELKERLING. "A critical interpretation of coralline-coralline (Corallinales, Rhodophyta) and coralline-other plant interactions." Cryptogamie Algologie 21, no. 1 (2000): 1–31. http://dx.doi.org/10.1016/s0181-1568(00)00102-1.

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2

Pueschel, Curt M., Bret L. Judson, Jodi E. Esken, and Eric L. Beiter. "A developmental explanation for the Corallina- and Jania-types of surfaces in articulated coralline red algae (Corallinales, Rhodophyta)." Phycologia 41, no. 1 (2002): 79–86. http://dx.doi.org/10.2216/i0031-8884-41-1-79.1.

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3

Tâmega, Frederico T.S., Paula Spotorno-Oliveira, Ricardo Coutinho, and Davide Bassi. "Taxonomic assessment of fossil Holocene coralline red algae (Rhodophyta, Corallinales, Hapalidiales) from southwestern Atlantic." Phytotaxa 245, no. 4 (2016): 237–50. https://doi.org/10.11646/phytotaxa.245.4.1.

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Tâmega, Frederico T.S., Spotorno-Oliveira, Paula, Coutinho, Ricardo, Bassi, Davide (2016): Taxonomic assessment of fossil Holocene coralline red algae (Rhodophyta, Corallinales, Hapalidiales) from southwestern Atlantic. Phytotaxa 245 (4): 237-250, DOI: 10.11646/phytotaxa.245.4.1, URL: http://dx.doi.org/10.11646/phytotaxa.245.4.1
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4

Woelkerling, WJ, LM Irvine, and AS Harvey. "Growth-forms in Non-geniculate Coralline Red Algae (Coralliinales, Rhodophyta)." Australian Systematic Botany 6, no. 4 (1993): 277. http://dx.doi.org/10.1071/sb9930277.

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Although differences in growth-form have been widely used in delimiting taxa of non-geniculate coralline red algae (Corallinales, Rhodophyta), there has been no consistent application of the more than 100 terms employed to describe the growth-forms present, and considerable confusion has resulted. This study of over 5000 populations of non-geniculate corallines from all parts of the world has shown that an intergrading network of growth-forms with 10 focal points is present: unconsolidated, encrusting, warty, lumpy, fruticose, discoid, layered, foliose, ribbon-like and arborescent. This focal
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5

Tâmega, Frederico T.S., Rafael Riosmena-Rodriguez, Paula Spotorno-Oliveira Rodrigo Mariath, Samir Khader, and Marcia A.O. Figueiredo. "Taxonomy and distribution of non-geniculate coralline red algae (Corallinales, Rhodophyta) on rocky reefs from Ilha Grande Bay, Brazil." Phytotaxa 192, no. 4 (2015): 267–78. https://doi.org/10.11646/phytotaxa.192.4.4.

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Tâmega, Frederico T.S., Riosmena-Rodriguez, Rafael, Mariath, Paula Spotorno-Oliveira Rodrigo, Khader, Samir, Figueiredo, Marcia A.O. (2015): Taxonomy and distribution of non-geniculate coralline red algae (Corallinales, Rhodophyta) on rocky reefs from Ilha Grande Bay, Brazil. Phytotaxa 192 (4): 267-278, DOI: 10.11646/phytotaxa.192.4.4, URL: http://dx.doi.org/10.11646/phytotaxa.192.4.4
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6

Kjøsterud, Anne-Beth. "Epiphytic coralline crusts (Corallinales, Rhodophyta) from South Norway." Sarsia 82, no. 1 (1997): 23–37. http://dx.doi.org/10.1080/00364827.1997.10413635.

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7

Hind, Katharine R., Paul W. Gabrielson, Sandra C. Lindstrom, and Patrick T. Martone. "Misleading morphologies and the importance of sequencing type specimens for resolving coralline taxonomy (Corallinales, Rhodophyta): Pachyarthron cretaceum is Corallina officinalis." Journal of Phycology 50, no. 4 (2014): 760–64. http://dx.doi.org/10.1111/jpy.12205.

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8

Tâmega, Frederico Tapajós de Souza, Rafael Riosmena-Rodriguez, Paula Spotorno-Oliveira, Rodrigo Mariath, Samir Khader, and Marcia Abreu de Oliveira Figueiredo. "Taxonomy and distribution of non-geniculate coralline red algae (Corallinales, Rhodophyta) on rocky reefs from Ilha Grande Bay, Brazil." Phytotaxa 192, no. 4 (2015): 267. http://dx.doi.org/10.11646/phytotaxa.192.4.4.

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Non-geniculate coralline red algae are very common along the Brazilian coast occurring in a wide variety of ecosystems. Ecological surveys of Ilha Grande Bay have shown the importance of these algae in structuring benthic rocky reef environments and in their structural processes. The aim of this research was to identify the species of non-geniculate coralline red algae commonly present in the shallow rocky areas of Ilha Grande Bay, Brazil. Based on morphological and anatomical observations, three species of non-geniculate coralline algae are commonly present in the area: Lithophyllum corallina
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9

Giorgi, Research Article Aurora, Matteo Monti, Davide Maggioni, et al. "DNA sequencing reveals higher taxonomic diversity of coralline algae (Corallinales and Hapalidiales, Rhodophyta) in the tropical western North Atlantic that complicates ecological studies." Botanica Marina 67, no. 6 (2024): 561–86. https://doi.org/10.1515/bot-2024-0021.

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Giorgi, Research Article Aurora, Monti, Matteo, Maggioni, Davide, Gabrielson, Paul W., Steneck, Robert S., Kocot, Kevin, Olson, Julie B. (2024): DNA sequencing reveals higher taxonomic diversity of coralline algae (Corallinales and Hapalidiales, Rhodophyta) in the tropical western North Atlantic that complicates ecological studies. Botanica Marina (Warsaw, Poland) 67 (6): 561-586, DOI: 10.1515/bot-2024-0021, URL: https://doi.org/10.1515/bot-2024-0021
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10

Williamson, Christopher James, Rupert Perkins, Matthew Voller, Marian Louise Yallop, and Juliet Brodie. "The regulation of coralline algal physiology, an in situ study of <i>Corallina officinalis</i> (Corallinales, Rhodophyta)." Biogeosciences 14, no. 19 (2017): 4485–98. http://dx.doi.org/10.5194/bg-14-4485-2017.

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Abstract. Calcified macroalgae are critical components of marine ecosystems worldwide, but face considerable threat both from climate change (increasing water temperatures) and ocean acidification (decreasing ocean pH and carbonate saturation). It is thus fundamental to constrain the relationships between key abiotic stressors and the physiological processes that govern coralline algal growth and survival. Here we characterize the complex relationships between the abiotic environment of rock pool habitats and the physiology of the geniculate red coralline alga, Corallina officinalis (Corallina
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11

Pondaag, Kristy Sofia, Grevo Soleman Gerung, Chatrien Annita Sinjal, Calvyn F. A. Sondak, Sandra O. Tilaar, and Reny L. Kreckhoff. "Identification of Coraline Algae In Meras Waters Bunaken District." Jurnal Ilmiah PLATAX 10, no. 2 (2022): 380. http://dx.doi.org/10.35800/jip.v10i2.42462.

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Marine algae are part of marine organisms, especially plants, and are included in lower plants that do not have different skeletal structures such as roots, stems, and leaves. Although it looks different, algae is actually just a form of the thallus. Coralline algae belong to the Rhodophyta Division, Class Florideophycidae, Order Corallinales. Coralline algae are divided into two parts based on their shape (morphology), namely non-geniculate and geniculate. This study aims to identify the types of coralline algae that are crustose (non-geniculate) and branched (geniculate) found in Meras, Buna
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12

Yesson, Chris, Xueni Bian, Christopher Williamson, Andrew G. Briscoe, and Juliet Brodie. "Mitochondrial and plastid genome variability of Corallina officinalis (Corallinales, Rhodophyta)." Applied Phycology 1, no. 1 (2020): 73–79. http://dx.doi.org/10.1080/26388081.2020.1827940.

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13

Bailey, J. C., and D. W. Freshwater. "PHYLOGENY AND CLASSIFICATION OF REEF‐BUILDING CORALLINE ALGAE (CORALLINALES, RHODOPHYTA)." Journal of Phycology 36, s3 (2000): 4. http://dx.doi.org/10.1046/j.1529-8817.1999.00001-10.x.

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14

Bressan, Guido, Lorenza Babbini-Benussi, and S. Pignatti. "Phytoceanographical observations on coralline algae (Corallinales) in the Mediterranean sea." Rendiconti Lincei 7, no. 3 (1996): 179–207. http://dx.doi.org/10.1007/bf03001802.

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15

Cases, Marcelo R., Carlos A. Stortz, and Alberto S. Cerezo. "Structure of the ‘corallinans’ — sulfated xylogalactans from Corallina officinalis." International Journal of Biological Macromolecules 16, no. 2 (1994): 93–97. http://dx.doi.org/10.1016/0141-8130(94)90021-3.

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16

Riosmena-Rodríguez, R. "Morphology And Distribution Of Corallina Vancouverensis (Corallinales, Rhodophyta) In Northwest Mexico." Ciencias Marinas 21, no. 2 (1995): 187–99. http://dx.doi.org/10.7773/cm.v21i2.988.

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17

Harvey, AS. "A guide to nongeniculate coralline red algal (Corallinales, Rhodophyta) rhodolith identification." Ciencias Marinas 33, no. 4 (2007): 411–26. http://dx.doi.org/10.7773/cm.v33i4.1210.

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18

Akioka, Hidetsugu, Masasuke Baba, Tomitaro Masaki, and H. William Johansen. "Rocky shore turfs dominated by Corallina (Corallinales, Rhodophyta) in northern Japan+." Phycological Research 47, no. 3 (1999): 199–206. http://dx.doi.org/10.1046/j.1440-1835.1999.00164.x.

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19

Braga, Juan C., Alessandro Vescogni, Francesca R. Bosellini, and Julio Aguirre. "Coralline algae (Corallinales, Rhodophyta) in western and central Mediterranean Messinian reefs." Palaeogeography, Palaeoclimatology, Palaeoecology 275, no. 1-4 (2009): 113–28. http://dx.doi.org/10.1016/j.palaeo.2009.02.022.

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20

Kogame, K., S. Uwai, R. J. Anderson, H. G. Choi, and J. J. Bolton. "DNA barcoding of South African geniculate coralline red algae (Corallinales, Rhodophyta)." South African Journal of Botany 108 (January 2017): 337–41. http://dx.doi.org/10.1016/j.sajb.2016.08.013.

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21

Henriques, Maria Carolina, RAFAEL RIOSMENA-RODRÍGUEZ, LUANA MIRANDA COUTINHO, and MARCIA A. O. FIGUEIREDO. "Lithophylloideae and Mastophoroideae (Corallinales, Rhodophyta) from the Brazilian continental shelf." Phytotaxa 190, no. 1 (2014): 112. http://dx.doi.org/10.11646/phytotaxa.190.1.9.

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Brazilian continental shelf is rich in rhodolith beds and it has a relevant role as a critical ecosystem for conservation. However, we do not know the taxonomy of the rhodolith forming species and because of that we analysed samples from the REVIZEE project in which morpho-anatomical analysis was used to identify Lithophylloideae and Mastophoroideae species. We found Titanoderma pustulatum; Lithophyllum stictaeforme; Lithophyllum corallinae, Hydrolithon breviclavium, Hydrolithon onkodes and Spongites fruticulosus. This is the first detailed description of T. pustulatum from Brazil and S. fruti
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22

Rahiminejad, Amir Hossein, Mehdi Yazdi, and Amit Kumar Ghosh. "Paleoecology of Lower Miocene coralline red algae-rich grainstone facies in the Qom Formation (Vartun section, central Iran)." Boletín de la Sociedad Geológica Mexicana 74, no. 2 (2022): A020122. http://dx.doi.org/10.18268/bsgm2022v74n2a020122.

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In this paleoecological study we focused on coralline red algae-rich shoal grainstone facies in the Lower Miocene (Aquitanian) carbonates of the Qom Formation in the Vartun section in central Iran. The identified coralline red algae are mainly non-geniculate, although very rare geniculate forms of corallines were also recognized in thin section analysis. The identified algae are represented by Melobesioideae (Lithothamnion cf. valens, Lithothamnion cf. rovereoti, Lithothamnion cf. peleense, and Lithothamnion spp.), Mastophoroideae (Neogoniolithon sp., Spongites spp., and Spongites cf. fruticul
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23

Lugilde, Juan, Viviana Peña, and Ignacio Bárbara. "The order Corallinales sensu lato (Rhodophyta) in the Iberian Atlantic: current state of knowledge." Anales del Jardín Botánico de Madrid 73, no. 2 (2016): 038. http://dx.doi.org/10.3989/ajbm.2424.

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A review of the order Corallinales sensu lato in the Atlantic Iberian Peninsula is presented with the aim of assessing its current state of knowledge in comparison with adjacent areas (British Isles-Atlantic France, Macaronesia and Iberian Mediterranean). According to the information compiled from more than 250 publications, herbarium data and manuscripts, we concluded that Atlantic Iberian coralline algae have been poorly studied, which resulted in only 49 species reported. By contrast, Macaronesia is the most species-rich region (91), followed by Spanish Mediterranean (67) and the British Is
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24

Maneveldt, G. W., Y. M. Chamberlain, and D. W. Keats. "Keys to the non-geniculate coralline algae (Corallinales, Rhodophyta) of South Africa." South African Journal of Botany 73, no. 2 (2007): 299. http://dx.doi.org/10.1016/j.sajb.2007.02.079.

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25

Pueschel, Curt M., Theresa J. Miller, and Barbara B. McCausland. "Development of epithallial cells in Corallina officinalis and Lithophyllum impressum (Corallinales, Rhodophyta)." Phycologia 35, no. 2 (1996): 161–69. http://dx.doi.org/10.2216/i0031-8884-35-2-161.1.

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26

Williamson, Christopher J., Rupert Perkins, Marian L. Yallop, et al. "Photoacclimation and photoregulation strategies of Corallina (Corallinales, Rhodophyta) across the NE Atlantic." European Journal of Phycology 53, no. 3 (2018): 290–306. http://dx.doi.org/10.1080/09670262.2018.1442586.

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27

VILLAS-BÔAS, ALEXANDRE BIGGIO, RAFAEL RIOSMENA-RODRIGUEZ, FREDERICO TAPAJÓS DE SOUZA TÂMEGA, GILBERTO AMADO-FILHO, GAVIN MANEVELDT, and MARCIA FIGUEIREDO. "Rhodolith-forming species of the subfamilies Neogoniolithoideae and Hydrolithoideae (Rhodophyta, Corallinales) from Espírito Santo State, Brazil." Phytotaxa 222, no. 3 (2015): 169. http://dx.doi.org/10.11646/phytotaxa.222.3.1.

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The taxonomy of the rhodolith-forming species of non-geniculate coralline algae from the subfamilies Neogoniolithoideae and Hydrolithoideae (Rhodophyta, Corallinales) found from Espírito Santo State, Brazil, was evaluated based on extensive subtidal sampling. A comparative analysis of the Brazilian material to other recently described species lead us to conclude that one relatively well-known species, namely Hydrolithon rupestre, a conferatum species Neogoniolithon cf. brassica-florida and a probably new species of the genus Hydrolithon, are present in the area. All three species can be distin
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Tâmega, Frederico Tapajós de Souza, and Marcia A. O. Figueiredo. "DISTRIBUITION OF CRUSTOSE CORALLINE ALGAE (CORALLINALES, RHODOPHYTA) IN THE ABROLHOS REEFS, BAHIA, BRAZIL." Rodriguésia 58, no. 4 (2007): 941–47. http://dx.doi.org/10.1590/2175-7860200758413.

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ABSTRACT The crustose coralline algae have an important structural role in coral reef crests, as observed for some Atlantic reefs. In this work the distribution and abundance of crustose coralline algae and their relation to other benthic reef organisms were described for the Abrolhos Archipelago. The quantification of sessile organisms was made by SCUBA diving along replicated transect lines in different habitats and sites. Anovas were performed to test differences on algae abundance among sites and habitats. Coralline crusts did not show significant differences on abundance among sites (Anov
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29

Villas Bôas, Alexandre Bigio, Marcia A. de O. Figueiredo, and Roberto Campos Villaça. "Colonization and growth of crustose coralline algae (Corallinales, Rhodophyta) on the Rocas Atoll." Brazilian Journal of Oceanography 53, no. 3-4 (2005): 147–56. http://dx.doi.org/10.1590/s1679-87592005000200005.

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Crustose coralline algae play a fundamental role in reef construction all over the world. The aims fo this study were to identify and estimate the abundance of the dominant crustose coralline algae in shallow reef habitats, measuring their colonization, growth rates and productivity. Crusts sampled from different habitats were collected on leeward and windward reefs. Discs made of epoxy putty were fixed on the reef surface to follow coralline colonization and discs containing the dominant coralline algae were fixed on different habitats to measure the crusts' marginal growth. The primary produ
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30

Couto, Ruben P., Edgar F. Rosas-Alquicira, Armindo S. Rodrigues, and Ana I. Neto. "Choreonema thuretiiandPneophyllum confervicola(Corallinales, Rhodophyta), New Records of Coralline Algae for the Azores." Cryptogamie, Algologie 32, no. 3 (2011): 293–99. http://dx.doi.org/10.7872/crya.v32.iss3.2011.293.

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31

Couto, Ruben P., Ana I. Neto, and Armindo S. Rodrigues. "Metal concentration and structural changes in Corallina elongata (Corallinales, Rhodophyta) from hydrothermal vents." Marine Pollution Bulletin 60, no. 4 (2010): 509–14. http://dx.doi.org/10.1016/j.marpolbul.2009.11.014.

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32

Torrano-Silva, Beatriz N., Bruno R. Vieira, Rafael Riosmena-Rodríguez, and Mariana C. Oliveira. "Guidelines for DNA barcoding of coralline algae, focusing on Lithophylloideae (Corallinales) from Brazil." Botanica Marina 61, no. 2 (2018): 127–40. http://dx.doi.org/10.1515/bot-2017-0040.

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AbstractMultiple-marker (COI-5P, UPA,psbA andrbcL-3P) and two algorithmic approaches [automatic barcode gap discovery (ABGD) and Poisson tree process (PTP)] were used for species delimitation of Lithophylloideae in Brazil. The integrative approach was mostly congruent between markers and algorithmic methods of species delimitation, suggesting the occurrence of 24 species. Based on morphology and molecular data,Amphiroa rigida,Amphiroa vanbosseae,Lithophyllum atlanticum,Lithophyllum kaiseri,Lithophyllum margaritae,Titanoderma pustulatum,Titanoderma prototypumandPaulsilvella huveorum, which were
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33

Williamson, Christopher, Christopher Yesson, Andrew G. Briscoe, and Juliet Brodie. "Complete mitochondrial genome of the geniculate calcified red alga, Corallina officinalis (Corallinales, Rhodophyta)." Mitochondrial DNA Part B 1, no. 1 (2016): 326–27. http://dx.doi.org/10.1080/23802359.2016.1172048.

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34

Martin, Sophie, Amélie Charnoz, and Jean-Pierre Gattuso. "Photosynthesis, respiration and calcification in the Mediterranean crustose coralline algaLithophyllum cabiochae(Corallinales, Rhodophyta)." European Journal of Phycology 48, no. 2 (2013): 163–72. http://dx.doi.org/10.1080/09670262.2013.786790.

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35

Martone, Patrick T., Sandra C. Lindstrom, Kathy Ann Miller, and Paul W. Gabrielson. "CHIHARAEA AND YAMADAIA (CORALLINALES, RHODOPHYTA) REPRESENT REDUCED AND RECENTLY DERIVED ARTICULATED CORALLINE MORPHOLOGIES1." Journal of Phycology 48, no. 4 (2012): 859–68. http://dx.doi.org/10.1111/j.1529-8817.2012.01190.x.

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36

Somers, J. A., M. I. Tait, W. F. Long, and F. B. Williamson. "Activities of Corallina (Corallinales) and other Rhodophyta polymers in the modulation of calcification." Hydrobiologia 204-205, no. 1 (1990): 491–97. http://dx.doi.org/10.1007/bf00040276.

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37

Aguirre, Julio, Francisco Perfectti, and Juan C. Braga. "Integrating phylogeny, molecular clocks, and the fossil record in the evolution of coralline algae (Corallinales and Sporolithales, Rhodophyta)." Paleobiology 36, no. 4 (2010): 519–33. http://dx.doi.org/10.1666/09041.1.

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When assessing the timing of branching events in a phylogeny, the most important tools currently recognized are a reliable molecular phylogeny and a continuous, relatively complete fossil record. Coralline algae (Rhodophyta, Corallinales, and Sporolithales) constitute an ideal group for this endeavor because of their excellent fossil record and their consistent phylogenetic reconstructions. We present the evolutionary history of the corallines following a novel, combined approach using their fossil record, molecular phylogeny (based on the 18S rDNA gene sequences of 39 coralline species), and
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38

Tâmega, Frederico Tapajós de Souza, Paula Spotorno De Oliveira, Ricardo Coutinho, and Davide Bassi. "Taxonomic assessment of fossil Holocene coralline red algae (Rhodophyta, Corallinales, Hapalidiales) from southwestern Atlantic." Phytotaxa 245, no. 4 (2016): 237. http://dx.doi.org/10.11646/phytotaxa.245.4.1.

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Holocene shallow-water carbonate and mixed siliciclastic-carbonate deposits from the Arraial do Cabo Bay, Brazil, southwestern Atlantic, contain well-preserved coralline red algae. These comprise four species of three genera representing the subfamilies Lithophylloideae, Mastophoroideae and Melobesioideae: Lithophyllum pustulatum, Spongites fruticulosus, Spongites yendoi, Mesophyllum engelharti. Geniculate corallines are present as algal debris. This study represents the first fossil record of these species in southwestern Atlantic Ocean. They inhabited the studied area since at least 13.000 y
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Morcom, N. F., S. A. Ward, and W. J. Woelkerling. "Cover estimates of epiphytic coralline algae (Corallinales, Rhodophyta) : Braun-Blanquet vs computer image analysis." Cryptogamie. Algologie 19, no. 4 (1998): 303–9. http://dx.doi.org/10.5962/p.309521.

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40

Keats, D. W., A. Groener, and Y. M. Chamberlain. "Cell sloughing in the littoral zone coralline alga, Spongites yendoi (Foslie) Chamberlain (Corallinales, Rhodophyta)." Phycologia 32, no. 2 (1993): 143–50. http://dx.doi.org/10.2216/i0031-8884-32-2-143.1.

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41

Baek, Ju-Wook, Jae Seong Lee, Sung-Han Kim, et al. "Effects of Irradiance and Temperature on the Photosynthesis of the Crustose Coralline Algae Pneophyllum fragile (Corallinales, Rhodophyta) in the Coastal Waters of Korea." Journal of Marine Science and Engineering 10, no. 7 (2022): 851. http://dx.doi.org/10.3390/jmse10070851.

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We investigated the photosynthetic characteristics of the crustose coralline alga Pneophyllum fragile (Corallinales, Rhodophyta) according to elevated water temperature and irradiance on the coast of Jeju in 2018. P. fragile was cultured under different temperature (11 °C, 21 °C, 26 °C, and 31 °C) and irradiance (0–1250 μmol photon m−2 s−1) conditions. Oxygen (O2) concentrations at the P. fragile mat–water interface (MWI) were measured using an O2 microsensor. At the MWI, the diffusive boundary layer thicknesses ranged from 200 to 400 μm. The O2 concentrations at the mat surface increased in r
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42

Kang, Ji-Young, Yong-Ki Hong, Ianthe Marie P. Benliro, et al. "VIABILITY, FATTY ACID COMPOSITION, AND STRUCTURE OF THE CORALLINE ALGA CORALLINA PILULIFERA." Botanical Sciences 92, no. 1 (2014): 103. http://dx.doi.org/10.17129/botsci.24.

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43

Aguirre, Julio, Juan C. Braga, Victoriano Pujalte, et al. "Middle Eocene Rhodoliths from Tropical and Mid-Latitude Regions." Diversity 12, no. 3 (2020): 117. http://dx.doi.org/10.3390/d12030117.

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During the greenhouse conditions prevailing in the early–middle Eocene, larger benthic foraminifers (LBF) spread out on carbonate platforms worldwide while rhodolith beds were scarcely represented. This reduction in rhodolith beds coincided with a relative decrease in coralline algal diversity and with a drastic decline of coral reef abundance. Middle Eocene rhodoliths from two tropical (San Jacinto Fold Belt in northern Colombia and Bahoruco Peninsula in the Dominican Republic) and two mid-latitude (Salinas Menores Ravine and Sierra del Zacatín in Southern Spain) localities were studied. Rhod
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Liversage, Kiran. "The influence of boulder shape on the spatial distribution of crustose coralline algae (Corallinales, Rhodophyta)." Marine Ecology 37, no. 2 (2015): 459–62. http://dx.doi.org/10.1111/maec.12299.

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Mendoza González, A. Catalina, Luz Elena Mateo-Cid, Deisy Yazmin García López, and Julio Adulfo Acosta-Calderón. "Diversity and Distribution of articulated Coralline algae (Rhodophyta, Corallinales) of the Atlantic coast of Mexico." Phytotaxa 190, no. 1 (2014): 45. http://dx.doi.org/10.11646/phytotaxa.190.1.6.

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This paper provides the first critical revision of the articulated coralline algae Amphiroa and Jania along the Atlantic coast of Mexico and Mexican Caribbean, based on morphological and anatomical characters of numerous specimens both genera. We found six species of Amphiroa, including one new record for this region: Amphiroa valonioides. In the other hand, Amphiroa fragilissima and A. rigida have the wider distribution along the Atlantic coast of Mexico. Jania to encompass six species, J. capillacea and J. cubensis are the best represented along the Atlantic coast of Mexico. Male and female
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Maneveldt, G. W., Y. M. Chamberlain, and D. W. Keats. "A catalogue with keys to the non-geniculate coralline algae (Corallinales, Rhodophyta) of South Africa." South African Journal of Botany 74, no. 4 (2008): 555–66. http://dx.doi.org/10.1016/j.sajb.2008.02.002.

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Broadwater, Sharon T., Adele S. Harvey, Elizabeth A. Lapointe, and William J. Woelkerling. "CONCEPTACLE STRUCTURE OF THE PARASITIC CORALLINE RED ALGA CHOREONEMA THURETII (CORALLINALES) AND ITS TAXONOMIC IMPLICATIONS1." Journal of Phycology 38, no. 6 (2002): 1157–68. http://dx.doi.org/10.1046/j.1529-8817.2002.02058.x.

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BASSI, DAVIDE, JUAN C. BRAGA, ELENA ZAKREVSKAYA, and ELEONORA P. RADIONOVA. "RE-ASSESSMENT OF THE TYPE COLLECTIONS OF CORALLINALEAN GENERA (CORALLINALES, RHODOPHYTA) DESCRIBED BY V. P. MASLOV." Palaeontology 48, no. 5 (2005): 929–45. http://dx.doi.org/10.1111/j.1475-4983.2005.00503.x.

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Rikee, DEY, BASSO Daniela, CHAKRABORTY Arindam, ROY Lopamudra, Kumar BHAUMIK Ajoy, and K. GHOSH Amit. "Rhodolith-forming coralline red algae in the CaCO3 biofactory — A case study from the Serravallian of tropical northeastern Indian Ocean." Comptes Rendus Palevol 22, no. 26 (2023): 541–67. https://doi.org/10.5852/cr-palevol2023v22a26.

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Rhodolith-forming non-geniculate coralline red algae have been recorded from the Long Formation, exposed in four different outcrops at Little Andaman Island (Hut Bay) in the northeastern Indian Ocean. The non-geniculate corallines are represented by species of <em>Sporolithon </em>Heydrich, 1897, <em>Mesophyllum</em> Lemoine, 1928, <em>Lithothamnion </em>Heydrich, 1897, <em>Phymatolithon </em>Foslie, 1898,<em> Lithoporella </em>(Foslie) Foslie, 1909,<em> Spongites </em>K&uuml;tzing, 1841,<em> Neogoniolithon </em>Setchell &amp; Mason, 1943<em> </em>and<em> Lithophyllum </em>Philippi, 1837. The
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TÂMEGA, FREDERICO T. S., Rafael Riosmena-Rodriguez, RODRIGO MARIATH, and Marcia Figueiredo. "Nongeniculate coralline red algae (Rhodophyta: Corallinales) in coral reefs from Northeastern Brazil and a description of Neogoniolithon atlanticum sp. nov." Phytotaxa 190, no. 1 (2014): 277. http://dx.doi.org/10.11646/phytotaxa.190.1.17.

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A taxonomic reassessment of coralline algae (Corallinales, Rhodophyta) associated with reef environments in the Abrolhos Bank, northeastern Brazil, was developed based on extensive historical samples dating from 1999–2009 and a critical evaluation of type material. Our goal was to update the taxonomic status of the main nongeniculate coral reef-forming species. Our results show that four species are the main contributors to the living cover of coral reefs in the Abrolhos Bank: Lithophyllum stictaeforme, Neogoniolithon atlanticum sp. nov., Porolithon pachydermum and Spongites fructiculosus. Com
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