Colonization and growth of crustose coralline algae (Corallinales, Rhodophyta) on the Rocas Atoll

Villas Bôas, Alexandre Bigio; Figueiredo, Marcia A. de O.; Villaça, Roberto Campos

Abstracts

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 production experiments followed the clear and dark bottle method for dissolved oxygen reading. Porolithon pachydermum was confirmed as the dominant crustose coralline alga on the Rocas Atoll. The non-cryptic flat form of P. pachydermum showed a faster growth rate on the leeward than on the windward reef. This form also had a faster growth rate on the reef crest (0.05 mm.day-1) than on the reef flat (0.01 mm.day-1). The cryptic protuberant form showed a trend, though not significant, towards a faster growth rate on the reef crest and in tidal pools than on the reef flat. Colonization was, in general, very slow as compared to that presented by other reef studies. P. pachydermum was a productive crust both in non-cryptic and cryptic habitats.

Crustose coralline alga; Growth rates; Rocas Atoll

As algas calcárias incrustantes exercem um papel fundamental na construção de recifes ao redor do mundo. Neste trabalho os objetivos foram: identificar e estimar a abundância da alga calcária incrustante dominante nas partes rasas do recife, verificando suas taxas de colonização, crescimento e produtividade. Crostas de diferentes habitats foram estudadas em locais a barlavento e sotavento. Discos feitos com massa epóxi foram fixados na superfície do recife para acompanhar a colonização das algas calcárias e discos contendo a alga calcária dominante foram fixados em diferentes habitats para medir o crescimento de suas margens. Os experimentos de produtividade seguiram o método de frascos claros e escuros para leitura de oxigênio dissolvido. Porolithon pachydermum foi confirmado como a espécie de alga calcária incrustante dominante no recife do Atol das Rocas. O local abrigado apresentou maior crescimento da forma plana e típica de crista de P. pachydermum em relação ao exposto. Esta forma também teve um crescimento maior na crista recifal (0,05 mm.dia-1) do que no platô (0,01 mm.dia-1). A forma protuberante e típica de fendas de P. pachydermum apresentou tendência, não significativa, para maior crescimento na crista e poça em relação ao platô. A colonização apresentou baixas coberturas quando comparada a outros estudos recifais. P. pachydermum é uma planta produtiva tanto em ambientes ensolarados como sombreados.

Alga calcária incrustante; Taxas de crescimento; Atol das Rocas

Adey, W. H., 1970. The effects of light and temperature on growth rates in boreal-subarctic crustose coralline alga. J. Phycol., 6:269-76.
Adey, W. H., 1975. The algal ridges and coral reefs of St. Croix, their structure and Holocene development. Reef Reas. Bull., 187:1-66.
Adey, W. H. & Vassar, J. M. 1975. Colonization, succession and growth rates of tropical crustose coralline alga (Rhodophyta, Cryptonemiales). Phycologia, 14:55-69.
Adey, W. H. 1978. Algal ridges of the Caribbean sea and West Indies. Phycologia, 17:361-367.
Airoldi, L., Fabiano, M. & Cinelli, F. 1996. Sediment deposition and movement over a turf assemblage in shallow rocky coastal area of the Ligurian Sea. Mar. Ecol. Progr. Ser., 133:241-51.
Bosence, D. W. J. 1983. Coralline algal reef frameworks. J. Geol. Soc. London, 140:365-367.
Coleman, M. A. 2003. Effects of ephemeral algae on coralline recruits in intertidal and subtidal habitats. J. Exp. Mar. Biol. Ecol., 282:67-84.
Dethier, M. N., McDonald, K. & Strathmann, R. R. 2003. Colonization and connectivity of habitat patches for coastal marine species distant from source populations. Conserv. Biol., 17:1024-1035.
Fabricius, K. & De'ath, G. 2001. Enviromental factors associated with the spatial distribution of crustose coralline alga on the Great Barrier Reef. Coral Reefs, 19:303-309.
Figueiredo, M. A.de O., 1997. Colonization and growth of crustose coralline alga in Abrolhos, Brazil. Proc. 8th Int. Coral Reef Symp., 1:689-694
Figueiredo, M. A. O., Norton, T. A. & Kain (Jones), J. M. 1997. Settlement and survival of epiphytes on two intertidal crustose coralline alga. J. expl. Mar. Biol. Ecol., 213:247-260.
Figueiredo, M. A. O; Kain, J. M. (Jones) & Norton, T. A. 2000. Responses of crustose corallines to epiphyte and canopy cover. J. Phycol, 36:17-24.
Gherardi, D. F. M. and Bosence, D. W. 1999. Modeling of the ecological succession of encrusting organisms in recent coralline-algal frameworks from Atol das Rocas, Brazil. Palaios, 14:145-158.
Gherardi, D. F. M., & Bosence, D. W. J. 2001. Composition and community structure of the coralline algal reefs from Atol das Rocas, South Atlantic, Brazil. Coral Reefs, 19:205-19.
Irvine, L. M., & Chamberlain, Y. M. 1994. Seaweeds of the British Isles. London: The Natural History Museum. 276p.
Kain, J, M. 1987. Seasonal growth and photoinhibition in Plocamium cartilagineum (Rhodophyta) off the Isle of Mann. Phycologia, 26:88-99.
Keats, D. W., Mathews, I. & Maneveldt, G. 1994. Competitive relationships and coexistence in a guild of crustose algae in eullitoral zone, Cape Province, South Africa. S. Afr. J. Bot., 60:108-13.
Kikuchi, R. K. P., & Leão, Z. M. A. N. 1997. Rocas (southwestern equatorial Atlantic, Brazil): an atoll built primarily by coralline alga. Proc. 8th Int. Coral Reefs Symp., 1:731-36.
Leão, Z. M. A. N.; Kikuchi, R. K. P. de; Testa, V., 2003. Corals and coral reefs of Brazil. In: Cortés, J. ed. Latin American Coral Reefs. Amsterdam, Elsevier. p. 9-52.
Littler, M. M. & Doty, S. D. 1975. Ecological components structuring the seaward edges of tropical Pacific reefs: the distribution, communities and productivity of Porolithon J. Ecol, 63:117-129.
Littler, M. M. & Littler, D. 1984. Models of tropical reef biogenesis: The contribution of algae. In: Round F.E., Chapman D. J. eds. Progress in Phycological Research, Bristol, Biopress. 3:323-364.
Littler, M. M. & Littler, D. S .2000. Caribbean reef plants. An identification guide to the reef plants of the Caribbean, Bahamas, Florida and Gulf of Mexico. Washington, Off Shore Graphics, Inc. 542p.
Matsuda, S. 1989. Succession and growth rates of incrusting crustose coralline alga (Rhodophyta, Cryptonemiales) in the upper fore-reef enviromental off Ishigaki Island, Ryukyu Islands. Coral Reefs, 7:185-95.
Morse, A. N. C. 1992. Role of algae in recruitment of invertebrate larvae. Plant-animal interactions in the marine benthos. Oxford, Clarendon Press. 46:385-403.
Moura, C. W. do N., J. E. Kraus & Cordeiro-Marino, M. 1997. Metodologia para obtenção de cortes histológicos com historesina e coloração com azul de toluidina O para algas calcárias (Rhodophyta, Coralinales). Hoehnea, 24 (2):17-27.
Norton, T. A. 1991. Conflicting constraints on the form of intertidal algae. Br. Phycol. J. 26:203-18.
Olson, A. M. & Lubchenco J. 1990. Competition in seaweeds: linking plant traits to competitive outcomes. J. Phycol., 26:1-6.
Penrose, D. & Woelkerling, W. J. 1988. A taxonomic reassessment of Hydrolithon Foslie, Porolithon Foslie and Pseudolithophyllum Lemoine (Coralinales, Rhodophyta) and their relationships to Spongites Kützing. Phycologia, 27:159-176.
Sokal, R. R. & Rohlf, F. J. 1980. Biometry. The principles and practice of statistics in biological research. New York, W. H. Freeman and Company (2^nd ed.). 859 p.
Steneck, R. S. 1986. The ecology of coralline algal crusts: convergent patterns and adaptative strategies. Ann. Rev. Ecol. Syst., 17:273-303.
Steneck, R. S., 1990. Herbivory and the evolution of nongeniculate coralline alga (Rhodophyta, Corallinales) in the North Atlantic and North Pacific. In: Garbary D. J. & South G. R. eds. Evolutionary biogeography of the marine algae of the North Atlantic. Berlin, Springer-Verlag. p. 107-29.
Steneck, R. S., et al 1991. Mechanisms of competitive dominance between crustose coralline algae: an herbivore-mediated competitive reversal. Ecology, 72(3): 938-950.
Steneck, R. S. & Dethier, M. N. 1994. A functional group approach to the structure of algal-dominated communities. Oikos, 69:476-98.
Steneck, R. S. 1997. Crustose corallines, other algal functional groups, herbivores and sediments: complex interactions along reef productivity gradients. Proc. 8th Int. Coral Reef Symp., 1:695-700.
Thomas, M. L. H. 1988. Photosynthesis and respiration of aquatic macro-flora using the light and dark bottle oxygen method and dissolved oxygen analyzer. In: Lobban, C. S.; Chapman, D. J. & Kremer, B. P. eds. Experimental Phycology: a laboratory manual. Cambridge, Cambridge University Press. p. 64-77.
Underwood, A. J. 1997. Experiments in ecology. Their logical design and interpretation using analysis of variance. Cambridge, Cambridge University Press. 504 p.
Valentin, J. L. 2000. Ecologia numérica. Uma introdução à análise multivariada de dados ecológicos. Rio de Janeiro, Editora Interciência. 117 p.
Villaça, R. & Pitombo, F. 1997. Benthic communities of shallow-water reefs of Abrolhos, Brazil. Rev. Bras. Oceanogr., 45(1/2):35-43.
Villas Bôas, A. B. & Figueiredo, M. A. de O, 2004. Are anti-fouling mechanisms in coralline alga species-specific? Rev. Bras. Oceanog., 52 (1):11-18
Woelkerling, W. J., 1988. The coralline red algae: an analysis of the genera and sub-families of nongeniculate Corallinaceae. London, British Museum Natural History and Oxford University Press. 268 p.
Womersley, H. B. S. 1996. The marine benthic flora of southern Australia. Rhodophyta. Part IIIB. Canberra, Union Offset. 392 p.

Publication Dates

Publication in this collection
08 July 2009
Date of issue
Dec 2005

History

Received
15 June 2005
Reviewed
19 Sept 2005
Accepted
16 Nov 2005

This work is licensed under a Creative Commons Attribution 4.0 International License.

[1] Adey, W. H., 1970. The effects of light and temperature on growth rates in boreal-subarctic crustose coralline alga. J. Phycol., 6:269-76.

[2] Adey, W. H., 1975. The algal ridges and coral reefs of St. Croix, their structure and Holocene development. Reef Reas. Bull., 187:1-66.

[3] Adey, W. H. & Vassar, J. M. 1975. Colonization, succession and growth rates of tropical crustose coralline alga (Rhodophyta, Cryptonemiales). Phycologia, 14:55-69.

[4] Adey, W. H. 1978. Algal ridges of the Caribbean sea and West Indies. Phycologia, 17:361-367.

[5] Airoldi, L., Fabiano, M. & Cinelli, F. 1996. Sediment deposition and movement over a turf assemblage in shallow rocky coastal area of the Ligurian Sea. Mar. Ecol. Progr. Ser., 133:241-51.

[6] Bosence, D. W. J. 1983. Coralline algal reef frameworks. J. Geol. Soc. London, 140:365-367.

[7] Coleman, M. A. 2003. Effects of ephemeral algae on coralline recruits in intertidal and subtidal habitats. J. Exp. Mar. Biol. Ecol., 282:67-84.

[8] Dethier, M. N., McDonald, K. & Strathmann, R. R. 2003. Colonization and connectivity of habitat patches for coastal marine species distant from source populations. Conserv. Biol., 17:1024-1035.

[9] Fabricius, K. & De'ath, G. 2001. Enviromental factors associated with the spatial distribution of crustose coralline alga on the Great Barrier Reef. Coral Reefs, 19:303-309.

[10] Figueiredo, M. A.de O., 1997. Colonization and growth of crustose coralline alga in Abrolhos, Brazil. Proc. 8th Int. Coral Reef Symp., 1:689-694

[11] Figueiredo, M. A. O., Norton, T. A. & Kain (Jones), J. M. 1997. Settlement and survival of epiphytes on two intertidal crustose coralline alga. J. expl. Mar. Biol. Ecol., 213:247-260.

[12] Figueiredo, M. A. O; Kain, J. M. (Jones) & Norton, T. A. 2000. Responses of crustose corallines to epiphyte and canopy cover. J. Phycol, 36:17-24.

[13] Gherardi, D. F. M. and Bosence, D. W. 1999. Modeling of the ecological succession of encrusting organisms in recent coralline-algal frameworks from Atol das Rocas, Brazil. Palaios, 14:145-158.

[14] Gherardi, D. F. M., & Bosence, D. W. J. 2001. Composition and community structure of the coralline algal reefs from Atol das Rocas, South Atlantic, Brazil. Coral Reefs, 19:205-19.

[15] Irvine, L. M., & Chamberlain, Y. M. 1994. Seaweeds of the British Isles. London: The Natural History Museum. 276p.

[16] Kain, J, M. 1987. Seasonal growth and photoinhibition in Plocamium cartilagineum (Rhodophyta) off the Isle of Mann. Phycologia, 26:88-99.

[17] Keats, D. W., Mathews, I. & Maneveldt, G. 1994. Competitive relationships and coexistence in a guild of crustose algae in eullitoral zone, Cape Province, South Africa. S. Afr. J. Bot., 60:108-13.

[18] Kikuchi, R. K. P., & Leão, Z. M. A. N. 1997. Rocas (southwestern equatorial Atlantic, Brazil): an atoll built primarily by coralline alga. Proc. 8th Int. Coral Reefs Symp., 1:731-36.

[19] Leão, Z. M. A. N.; Kikuchi, R. K. P. de; Testa, V., 2003. Corals and coral reefs of Brazil. In: Cortés, J. ed. Latin American Coral Reefs. Amsterdam, Elsevier. p. 9-52.

[20] Littler, M. M. & Doty, S. D. 1975. Ecological components structuring the seaward edges of tropical Pacific reefs: the distribution, communities and productivity of Porolithon J. Ecol, 63:117-129.

[21] Littler, M. M. & Littler, D. 1984. Models of tropical reef biogenesis: The contribution of algae. In: Round F.E., Chapman D. J. eds. Progress in Phycological Research, Bristol, Biopress. 3:323-364.

[22] Littler, M. M. & Littler, D. S .2000. Caribbean reef plants. An identification guide to the reef plants of the Caribbean, Bahamas, Florida and Gulf of Mexico. Washington, Off Shore Graphics, Inc. 542p.

[23] Matsuda, S. 1989. Succession and growth rates of incrusting crustose coralline alga (Rhodophyta, Cryptonemiales) in the upper fore-reef enviromental off Ishigaki Island, Ryukyu Islands. Coral Reefs, 7:185-95.

[24] Morse, A. N. C. 1992. Role of algae in recruitment of invertebrate larvae. Plant-animal interactions in the marine benthos. Oxford, Clarendon Press. 46:385-403.

[25] Moura, C. W. do N., J. E. Kraus & Cordeiro-Marino, M. 1997. Metodologia para obtenção de cortes histológicos com historesina e coloração com azul de toluidina O para algas calcárias (Rhodophyta, Coralinales). Hoehnea, 24 (2):17-27.

[26] Norton, T. A. 1991. Conflicting constraints on the form of intertidal algae. Br. Phycol. J. 26:203-18.

[27] Olson, A. M. & Lubchenco J. 1990. Competition in seaweeds: linking plant traits to competitive outcomes. J. Phycol., 26:1-6.

[28] Penrose, D. & Woelkerling, W. J. 1988. A taxonomic reassessment of Hydrolithon Foslie, Porolithon Foslie and Pseudolithophyllum Lemoine (Coralinales, Rhodophyta) and their relationships to Spongites Kützing. Phycologia, 27:159-176.

[29] Sokal, R. R. & Rohlf, F. J. 1980. Biometry. The principles and practice of statistics in biological research. New York, W. H. Freeman and Company (2^nd ed.). 859 p.

[30] Steneck, R. S. 1986. The ecology of coralline algal crusts: convergent patterns and adaptative strategies. Ann. Rev. Ecol. Syst., 17:273-303.

[31] Steneck, R. S., 1990. Herbivory and the evolution of nongeniculate coralline alga (Rhodophyta, Corallinales) in the North Atlantic and North Pacific. In: Garbary D. J. & South G. R. eds. Evolutionary biogeography of the marine algae of the North Atlantic. Berlin, Springer-Verlag. p. 107-29.

[32] Steneck, R. S., et al 1991. Mechanisms of competitive dominance between crustose coralline algae: an herbivore-mediated competitive reversal. Ecology, 72(3): 938-950.

[33] Steneck, R. S. & Dethier, M. N. 1994. A functional group approach to the structure of algal-dominated communities. Oikos, 69:476-98.

[34] Steneck, R. S. 1997. Crustose corallines, other algal functional groups, herbivores and sediments: complex interactions along reef productivity gradients. Proc. 8th Int. Coral Reef Symp., 1:695-700.

[35] Thomas, M. L. H. 1988. Photosynthesis and respiration of aquatic macro-flora using the light and dark bottle oxygen method and dissolved oxygen analyzer. In: Lobban, C. S.; Chapman, D. J. & Kremer, B. P. eds. Experimental Phycology: a laboratory manual. Cambridge, Cambridge University Press. p. 64-77.

[36] Underwood, A. J. 1997. Experiments in ecology. Their logical design and interpretation using analysis of variance. Cambridge, Cambridge University Press. 504 p.

[37] Valentin, J. L. 2000. Ecologia numérica. Uma introdução à análise multivariada de dados ecológicos. Rio de Janeiro, Editora Interciência. 117 p.

[38] Villaça, R. & Pitombo, F. 1997. Benthic communities of shallow-water reefs of Abrolhos, Brazil. Rev. Bras. Oceanogr., 45(1/2):35-43.

[39] Villas Bôas, A. B. & Figueiredo, M. A. de O, 2004. Are anti-fouling mechanisms in coralline alga species-specific? Rev. Bras. Oceanog., 52 (1):11-18

[40] Woelkerling, W. J., 1988. The coralline red algae: an analysis of the genera and sub-families of nongeniculate Corallinaceae. London, British Museum Natural History and Oxford University Press. 268 p.

[41] Womersley, H. B. S. 1996. The marine benthic flora of southern Australia. Rhodophyta. Part IIIB. Canberra, Union Offset. 392 p.

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Colonization and growth of crustose coralline algae (Corallinales, Rhodophyta) on the Rocas Atoll

Abstracts

Publication Dates

History