يعرض 1 - 12 نتائج من 12 نتيجة بحث عن '"Céspedes algales"', وقت الاستعلام: 0.36s تنقيح النتائج
  1. 1
    Dissertation/ Thesis

    Thesis Advisors: Bárbara Criado, Ignacio, Universidade da Coruña. Departamento de Bioloxía Animal, Bioloxía Vexetal e Ecoloxía

  2. 2
    Dissertation/ Thesis

    المؤلفون: Díaz Tapìa, Pilar

    Thesis Advisors: Bárbara Criado, Ignacio, Universidade da Coruña. Departamento de Bioloxía Animal, Bioloxía Vexetal e Ecoloxía

  3. 3
    Dissertation/ Thesis

    المؤلفون: Ceballos-Gutierrez, Valentina

    المساهمون: Sanjuan-Muñoz, Adolfo, Gómez Cubillos, Martha Catalina, Zeas Joberg, Sven Eloy

    وصف الملف: 35 páginas; application/pdf

    Relation: Abelson, A y Y. Loya. 1999. Interspecific aggression among stony corals in Eilat, Red Sea: a hierarchy of aggression capacity and related parameters. Mar. Sci. Bull. 65: 851-860.; Aerts, L. A. M. 1998. Sponge/coral interactions on Caribbean reefs: analysis of overgrowth patterns in relation to species identity and cover. Mar. Ecol. Prog. Ser. 175: 241-249.; Aerts, L. A. M y R. W. M. Van Soest. 1997. Quantification of sponge/coral interactions in a physically stressed reef community, NE Colombia. Mar. Ecol. Prog. Ser. 148: 125-134.; Airoldi, L. 1998. Roles of disturbance, sediment stress, and substratum retention on spatial dominance in algal turf. Ecology. 79: 2759-2770.; Arnold, S. N., R. S. Steneck y P. J. Mumby. 2010. Running the gauntlet: inhibitory effects of algal turfs on the processes of coral recruitment. Mar. Ecol. Prog. Ser. 414: 91-105.; Baarli, B. G., A. Mørk y H. Høie. 2018. Early Silurian encrusting communities from the Vestbrønnen section, west-central Norway: palaeoecology and sequence stratigraphy. Palaeobio. Palaeoenv. 98: 391-407.; Bak, R. P. M., R. M. Termaat y R. Dekker. 1982. Complexity of coral interactions: influence of time, location of interaction and epifauna. Mar. Biol. 69: 215-222.; Balthasar, U., L. A. Benjamin y R. Wood. 2021. Environmental change and evolutionary turnover in Palaeozoic and early Mesozoic brachiopods. Palaeontology, 64: 327-347.; Barnes, D. K. 2002. Polarization of competition increases with latitude. Proc. R. Soc. 269: 2061-2069.; Barnes, D. K. A y A. M. Neutel. 2016. Severity of seabed spatial competition decreases towards the poles. Curr. Biol. 26: R317-R318.; Barott, K. L., G. J. Williams., M. J. Vermeij., J. Harris., J. E. Smith., F. L. Rohwerand y S. A. Sandin. 2012. Natural history of coral− algae competition across a gradient of human activity in the Line Islands. Mar. Ecol. Prog. Ser. 460: 1-12.; Barott, K., J. Smith., E. Dinsdale., M. Hatay., S. Sandin y F. Rohwer. 2009. Hyperspectral and physiological analyses of coral-algal interactions. PloS one. 4: e8043.; Barott, KL., B. Rodriguez-Mueller., M. Youle., KL. Marhaver., M. J. Vermeij., J. E. Smith y F. L. Rohwer. 2011. Microbial to reef scale interactions between the reef-building coral Montastraea annularis and benthic algae. Proc. R. Soc. B. Biol. Sci. 279: 1655-64.; Bastidas, C y D. Bone. 1996. Competitive strategies between Palythoa caribaeorum and Zoanthus sociatus (Cnidaria: Anthozoa) at a reef flat environment in Venezuela. Bull. Mar. Sci. 59: 543-555.; Begon, M., J. L. Harper y C. R. Townsend. 1996. Ecology: Individuals, populations, and communities 3rd Edition. Blackwell Science Inc. 1068 p.; Belliveau, S. A y V. J. Paul. 2002. Effects of herbivory and nutrients on the early colonization of crustose coralline and fleshy algae. Mar. Ecol. Prog. Ser. 232: 105-114.; Bellwood, D. R y C. J. Fulton. 2008. Sediment‐mediated suppression of herbivory on coral reefs: Decreasing resilience to rising sea‐levels and climate change?. Limnol. Oceanogr. 53: 2695-2701.; Bender, D., G. Diaz-Pulido y S. Dove. 2014. Warming and acidification promote cyanobacterial dominance in turf algal assemblages. Mar. Ecol. Prog. Ser. 517: 271-284.; Benedetti-Cecchi, L., F. Pannacciulli., F. Bulleri., P. S. Moschella., L. Airoldi., G. Relini y F. Cinelli. 2001. Predicting the consequences of anthropogenic disturbance: large-scale effects of loss of canopy algae on rocky shores. Mar. Ecol. Prog. Ser. 214: 137-150.; Birkeland, C. 1977. The importance of rate of biomass accumulation in early succession stages of benthic communities to the survival of coral recruits. In Proc. 3rd Int. Coral Reef Symp. (pp. 16-21).; Birrell, C. L., L. J. McCook y B. L. Willis. 2005. Effects of algal turfs and sediment on coral settlement. Mar. Pollut. Bull. 51: 408-414.; Birrell, C. L., L. J. McCook., B. L. Willis y G. A. Diaz-Pulido. 2008. Effects of benthic algae on the replenishment of corals and the implications for the resilience of coral reefs. Oceanogr. Mar. Biol. pp. 31-70.; Bonaldo, R. M y D. R. Bellwood. 2011. Spatial variation in the effects of grazing on epilithic algal turfs on the Great Barrier Reef, Australia. Coral Reefs. 30: 381-390.; Box, S. J y P. J. Mumby. 2007. Effect of macroalgae competition on the growth and survival of juvenile Caribbean corals. Mar. Ecol. Prog. Ser. 342:139-149.; Brown, A. L y R. C. Carpenter. 2015. Water flow influences the mechanisms and outcomes of interactions between massive Porites and coral reef algae. Mar. Biol. 162: 459-468; Bruno, J. F y J. D. Witman. 1996. Defense mechanisms of scleractinian cup corals against excessive growth of colonial invertebrates. J. Exp. Mar. Biol. Ecol. 207: 229-241.; Bullard, S. G., R. B. Whitlatch y R. W. Osman. 2004. Checking the landing zone: do invertebrate larvae avoid settling near superior spatial competitors?. Mar. Ecol. Prog. Ser. 280: 239-247.; Chadwick, N. E y K. M. Morrow. 2011. Competition between sessile organisms in coral reefs. Coral Reefs. 1: 347-371.; Chaves-Fonnegra, A., L. Castellanos., S. Zea., C. Duque., J. Rodríguez y C. Jiménez. 2008. Clionapyrrolidine A—a metabolite from the encrusting and excavating sponge Cliona tenuis that kills coral tissue upon contact. J. Chem. Ecol. 34: 1565-1574.; Connell, S. D., M. S. Foster y L. Airoldi. 2014. What are algal turfs? Towards a better description of turfs. Mar. Ecol. Prog. Ser., 495: 299-307.; Connolly, S. R y S. Muko. 2003. Spatial priority, size-dependent competition, and coexistence of clonal growth forms. Ecology, 84: 2979-2988.; Dai, C. F. 1990. Interspecific competition in Taiwanese corals with special reference to the interactions between alcyonaceae and scleractinians. Mar. Ecol. Prog. Ser. 60: 291-297.; Dayton, P. K. 1971. Competition, disturbance, and community organization: the provision and subsequent utilization of space in a rocky intertidal community. Ecol. Monogr. 41: 351-389.; Diaz-Pulido, G y L. J. McCook. 2002. The fate of bleached corals: patterns and dynamics of algal recruitment. Mar. Ecol. Prog. Ser. 232: 115–128.; Diaz‐Pulido, G., M. Gouezo., B. Tilbrook., S. Dove y K. R. Anthony. 2011. High CO2 enhances the competitive strength of seaweeds over corals. Ecol. Lett. 14: 156-162.; Edmunds, P. J. 2022. Persistence of a sessile benthic organism promoted by a morphological strategy combining sheets and trees. Proc. R. Soc. B. 289: 20220952.; Edwards, K. F y J. J. Stachowicz. 2012. Temporally varying larval settlement, competition, and coexistence in a sessile invertebrate community. Mar. Ecol. Prog. Ser. 462: 93-102.; Fabricius, K y G. De'ath. 2001. Environmental factors associated with the spatial distribution of crustose coralline algae on the Great Barrier Reef. Coral Reefs. 19: 303-309.; Fine, M y Y. Loya. 2003. Alternate coral–bryozoan competitive superiority during coral bleaching. Mar. Biol. 142: 989-996.; Gomez-Cubillos, M. C. 2018. Interacciones coral-césped de algas y sus efectos en la comunidad coralina en el área de Santa Marta, Caribe colombiano. 123.; Gómez-Cubillos, C., C. Gómez-Cubillos., A. Sanjuan-Muñoz y S. Zea. 2019. Interacciones de corales masivos con céspedes algales y otros organismos en arrecifes del Parque Nacional Natural Tayrona. Bol. Investig. Mar. Costeras. 48: 143-171.; Gómez-Cubillos, C., B. Gavio y S. Zea. 2020. Estructura de la comunidad de céspedes algales en interacciones con corales masivos en arrecifes del Parque Nacional Natural Tayrona, Caribe colombiano. Rev. Biol. Trop. 68: 835-849.; Gómez-Cubillos, C.; , C. A. Daza-Guerra; L. C. Franco-León; M. H; Benavides-Marchena; R. A Duque-Díaz y S. Zea. (2024). Estado de la comunidad coralina en tres complejos arrecifales de la Reserva de la Biosfera Seaflower, Caribe colombiano.; Gorgula, S. K y S. D. Connell. 2004. Expansive covers of turf-forming algae on human-dominated coast: the relative effects of increasing nutrient and sediment loads. Mar. Biol. 145: 613-619.; Haas, A., M. Al-Zibdah y C. Wild. 2009. Effect of inorganic and organic nutrient addition on coral–algae assemblages from the Northern Red Sea. J. Exp. Mar. Biol. Ecol. 380: 99-105.; Haas, A., M. El-Zibdah y C. Wild. 2010. Seasonal monitoring of coral–algae interactions in fringing reefs of the Gulf of Aqaba, Northern Red Sea. Coral Reefs. 29: 93-103.; Harris, J. L. 2015. Tropical Algal Turfs: A Review of Their Ecology and a Frameworks for Their Analysis. 8-61. En: The ecology of turf algae on coral reefs. University of California, San Diego. 185 p.; Houk, P., C. Musburger y P. Wiles. 2010. Water quality and herbivory interactively drive coral-reef recovery patterns in American Samoa. PLoS One. 5: e13913.; Johnson, M. D., N.N. Price y J. E. Smith. 2014. Efectos contrastantes de la acidificación de los océanos sobre las algas calcáreas y carnosas tropicales. PeerJ , 2 , e411; Jompa, J y L. J. McCook. 2003. Contrasting effects of turf algae on corals: massive Porites spp. are unaffected by mixed-species turfs, but killed by the red alga Anotrichium tenue. Marine Mar. Ecol. Prog. Ser. 258: 79-86.; Knowlton, N. 2001. The future of coral reefs. Proc. Natl. Acad. Sci. U.S.A. 98: 5419-5425.; Konar, B y K. Iken. 2005. Competitive dominance among sessile marine organisms in an Arctic high rock community. Polar Biol., 29: 61-64.; Król, J. J., M. Jakubowicz; M. K. Zapalski y B. Berkowski. 2018. Massive tabulates in competition for space: a case study of Aferdou el Mrakib (Middle Devonian, Anti-Atlas, Morocco). Palaeogeogr. Palaeoclimatol. Palaeoecol. 497: 105-116.; Kuffner, I. B., L. J. Walters., M. A. Becerro., V. J. Paul., R. Ritson-Williams y K. S. Beach. 2006. Inhibition of coral recruitment by macroalgae and cyanobacteria. Mar. Ecol. Prog. Ser. 323: 107-117.; Nützel, A., A. Kaim y M. Hautmann. 2021. Shell accumulation of benthic organisms in a Triassic deep water setting of the Dolomites (N Italy) and its implications for the understanding of the co-evolution of predator–prey interactions. Hist. Biol. 1-14.; Lang, J. 1973. Coral reef project—papers in memory of Dr. Thomas F. Goreau. 11. Interspecific aggression by scleractinian corals. 2. Why the race is not only to the swift. Bull. Mar. Sci. 23: 260-279.; Langmead, O y N. E. Chadwick-Furman. 1999. Marginal tentacles of the corallimorpharian Rhodactis rhodostoma. 1. Role in competition for space. Mar. Biol. 134: 479-489.; Laursen, G. V y A. T. Nielsen. 2018. Origin and significance of reworked siliciclastic material in Triassic carbonate rocks, Jameson Land, East Greenland. Sedimentology, 65: 935-957.; López Gappa, J. J y N. A. Landoni. 2009. Patterns of space utilization by bryozoans in the Patagonian scallop Psychrochlamys patagonica. J. Exp. Mar. Biol. Ecol. 380: 11-18.; López-Victoria, M., S. Zea y E. Weil. 2006. Competition for space between encrusting excavating Caribbean sponges and other coral reef organisms. Mar. Ecol. Prog. Ser. 312: 113-121.; McCook, L., J. Jompa y G. Diaz-Pulido. 2001. Competition between corals and algae on coral reefs: a review of evidence and mechanisms. Coral Reefs. 19: 400-417.; Nugues, M. M., L. Delvoye y R. P. Bak. 2004. Coral defence against macroalgae: differential effects of mesenterial filaments on the green alga Halimeda opuntia. Mar. Ecol. Prog. Ser. 278: 103-114.; Nugues, M. M y R. P. Bak. 2006. Differential competitive abilities between Caribbean coral species and a brown alga: a year of experiments and a long-term perspective. Mar. Ecol. Prog. Ser. 315: 75-86.; Rabelo, E. F., M. D. O. Soares y H. Matthews-Cascon. 2013. Competitive interactions among zoanthids (Cnidaria: Zoanthidae) in an intertidal zone of Northeastern Brazil. Braz. J. Oceanogr. 61: 35-42.; River, G. F. y P. J. Edmunds. 2001. Mechanisms of interaction between macroalgae and scleractinians on a coral reef in Jamaica. J. Exp. Mar. Biol. Ecol. 261: 159-172.; Rossi, S y M. J. Snyder. 2001. Competition for space among sessile marine invertebrates: changes in HSP70 expression in two Pacific cnidarians. Biol. Bull. 201: 385-393.; Sammarco, P. W., J. C. Coll, y S. La Barre. 1985. Competitive strategies of soft corals (Coelenterata: Octocorallia). II. Variable defensive responses and susceptibility to scleractinian corals.J. Exp. Mar. Biol. Ecol. 91: 199-215.; Sams, M. A y M. J. Keough. 2012. Contrasting effects of variable species recruitment on marine sessile communities. Ecology. 93: 1153-1163; Sarà, M. 1986. Sessile macrofauna and marine ecosystem. Ital. J. Zool. 53: 329-337.; Schönberg, C. E. L. L y C. Wilkinson. 2001. Induced colonization of corals by a clionid bioeroding sponge. Coral Reefs, 20: 69-76.; Sebens, K. P. 1986. Spatial relationships among encrusting marine organisms in the New England subtidal zone.Ecol. Monogr. 56: 73-96.; Sebens, K. P y J. S. Miles. 1988. Sweeper tentacles in a gorgonian octocoral: morphological modifications for interference competition. Biol. Bull. 175: 378-387.; Sheppard, C. R. C. 1979. Interspecific aggression between reef corals with reference to their distribution. Mar. Ecol. Prog. Ser. 1: 237-247.; Short, J., G. A. Kendrick., J. Falter y M. T. McCulloch. 2014. Interactions between filamentous turf algae and coralline algae are modified under ocean acidification. J. Exp. Mar. Biol. Ecol. 456: 70-77.; Siqueira, A. C., W. Kiessling y D.R Bellwood. 2022. Fast-growing species shape the evolution of reef corals. Commun. Biol. 13: 2426.; Smith, J. E., M. Shaw., R. A. Edwards., D. Obura., O. Pantos., E. Sala y F. L. Rohwer. 2006. Indirect effects of algae on coral: algae‐mediated, microbe‐induced coral mortality. Ecol. Lett. 9: 835-845.; Svensson, J. R y D. J. Marshall. 2015. Limiting resources in sessile systems: food enhances diversity and growth of suspension feeders despite available space. Ecology. 96: 819-827.; Tanner, J. E. 1995. Competition between scleractinian corals and macroalgae: an experimental investigation of coral growth, survival and reproduction. J. Exp. Mar. Biol. Ecol. 190: 151-168.; Taylor, P. D. 2016. Competition between encrusters on marine hard substrates and its fossil record. Palaeontology. 59: 481-497.; Titlyanov, E. A., I. M. Yakovleva y T. V. Titlyanova. 2007. Interaction between benthic algae (Lyngbya bouillonii, Dictyota dichotoma) and scleractinian coral Porites lutea in direct contact. J. Exp. Mar. Biol. Ecol. 342: 282-291.; Tyler, C. L y L. R. Leighton. 2011. Detection of competition in the fossil record: support for character displacement among Ordovician brachiopods. Palaeogeogr. Palaeoclimatol. Palaeoecol. 307: 205-217.; Van Veghel, M. L., D. F. Cleary y R. P. Bak. 1996. Interspecific interactions and competitive ability of the polymorphic reef-building coral Montastrea annularis. Bull. Mar. Sci. 58: 792-803.; Vermeij, M. J y S. A. Sandin. 2008. Density‐dependent settlement and mortality structure the earliest life phases of a coral population. Ecology. 89: 1994-2004.; Vermeij, M. J., I. van Moorselaar., S. Engelhard., C. Hörnlein., S. M. Vonk y P. M. Visser. 2010. The effects of nutrient enrichment and herbivore abundance on the ability of turf algae to overgrow coral in the Caribbean. PloS one.5: e14312.; Vermeij, M. J., J. E. Smith., C. M. Smith., R. Vega Thurber y S. A. Sandin. 2009. Survival and settlement success of coral planulae: independent and synergistic effects of macroalgae and microbes. Oecologia. 159: 325-336.; Wanders, J. B. W. 1977. The role of benthic algae in the shallow reef of Curacao (Netherlands Antilles) III: the significance of grazing. Aquatic Bot. 3: 357-390.; Woodin, S. A y J. B. C. Jackson. 1979. Interphyletic competition between marine benthos. Am. Zool. 19: 1029-1043.; Zvuloni, A., R. Armoza-Zvuloni y Y. Loya. 2008. Structural deformation of branching corals associated with the vermetid gastropod Dendropoma maxima. Mar. Ecol. Prog. Ser. 363: 103-108.; http://hdl.handle.net/20.500.12010/34910

  4. 4
    Academic Journal
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    Academic Journal
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    Academic Journal

    المصدر: Acta Biológica Colombiana; Vol. 15 Núm. 3 (2010): Incluye artículos seleccionados del V Seminario Internacional del procesamiento de imágenes médicas; 91-106 ; Acta Biológica Colombiana; Vol. 15 No. 3 (2010): Incluye artículos seleccionados del V Seminario Internacional del procesamiento de imágenes médicas; 91-106 ; 1900-1649 ; 0120-548X

    وصف الملف: application/pdf; text/html

  7. 7
  8. 8
    Dissertation/ Thesis

    المساهمون: Sanjuan Munoz, Adolfo (Thesis advisor), Universidad Nacional de Colombia - Sede Caribe, Instituto de Estudios en Ciencias del Mar (CECIMAR), Zea, Sven

    وصف الملف: application/pdf

    Relation: Universidad Nacional de Colombia Sede Caribe Centro de Estudios de Ciencias del Mar; Centro de Estudios de Ciencias del Mar; Gomez Cubillos, Martha Catalina (2018) Interacciones coral-cesped de algas y sus efectos en la comunidad coralina en el area de Santa Marta, Caribe colombiano. Maestría thesis, Universidad Nacional de Colombia - Sede Caribe.; https://repositorio.unal.edu.co/handle/unal/68917; http://bdigital.unal.edu.co/70254/

  9. 9

    المؤلفون: Díaz Tapìa, Pilar

    المساهمون: Bárbara, Ignacio, Universidade da Coruña. Departamento de Bioloxía Animal, Bioloxía Vexetal e Ecoloxía, Bárbara Criado, Ignacio

    المصدر: RUC. Repositorio da Universidade da Coruña
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  11. 11
    Dissertation/ Thesis

    المؤلفون: Díaz-Tapia, Pilar

    المساهمون: Bárbara, Ignacio, Universidade da Coruña. Departamento de Bioloxía Animal, Bioloxía Vexetal e Ecoloxía

  12. 12
    Electronic Resource