Rates of apical septal extension of Desmophyllum dianthus: effect of association with endolithic photo-autotrophs

[1]  C. Ferrier‐Pagès,et al.  High thermal tolerance of two Mediterranean cold-water coral species maintained in aquaria , 2013, Coral Reefs.

[2]  M. Ruckelshausen Cold-water corals , 2013 .

[3]  M. Taviani,et al.  Resilience of cold-water scleractinian corals to ocean acidification: Boron isotopic systematics of pH and saturation state up-regulation , 2012 .

[4]  D. Allemand,et al.  Calcein labelling and electrophysiology: insights on coral tissue permeability and calcification , 2012, Proceedings of the Royal Society B: Biological Sciences.

[5]  J. Gattuso,et al.  Calcification rates and the effect of ocean acidification on Mediterranean cold-water corals , 2011, Proceedings of the Royal Society B: Biological Sciences.

[6]  C. Wild,et al.  First evidence for zooplankton feeding sustaining key physiological processes in a scleractinian cold-water coral , 2011, Journal of Experimental Biology.

[7]  A. Rowden,et al.  Out of Their Depth? Isolated Deep Populations of the Cosmopolitan Coral Desmophyllum dianthus May Be Highly Vulnerable to Environmental Change , 2011, PloS one.

[8]  M. Fine,et al.  Genotypic diversity and distribution of Ostreobium quekettii within scleractinian corals , 2011, Coral Reefs.

[9]  B. Willis,et al.  Growth Anomalies on the Coral Genera Acropora and Porites Are Strongly Associated with Host Density and Human Population Size across the Indo-Pacific , 2011, PloS one.

[10]  J. Stolarski,et al.  Skeletal growth, ultrastructure and composition of the azooxanthellate scleractinian coral Balanophyllia regia , 2010, Coral Reefs.

[11]  G. Nehrke,et al.  Effect of the fluorescent indicator calcein on Mg and Sr incorporation into foraminiferal calcite , 2009 .

[12]  T. McClanahan,et al.  Strong relationship between coral bleaching and growth anomalies in massive Porites , 2009 .

[13]  G. Försterra,et al.  Unusual symbiotic relationships between microendolithic phototrophic organisms and azooxanthellate cold-water corals from Chilean fjords , 2008 .

[14]  J. Raven,et al.  δ13C and δ15N values in reef corals Porites lutea and P. cylindrica and in their epilithic and endolithic algae , 2008 .

[15]  G. Aeby,et al.  Distribution and morphology of growth anomalies in Acropora from the Indo-Pacific. , 2008, Diseases of aquatic organisms.

[16]  A. Tribollet The boring microflora in modern coral reef ecosystems: a review of its roles , 2008 .

[17]  J. Iriarte,et al.  Spatial and temporal variability of chlorophyll and primary productivity in surface waters of southern Chile (41.5–43° S) , 2007 .

[18]  H. Schwarcz,et al.  The skeletal structure of Desmophyllum cristagalli: the use of deep-water corals in sclerochronology , 2007 .

[19]  C. Downs,et al.  Comprehensive characterization of skeletal tissue growth anomalies of the finger coral Porites compressa , 2006, Coral Reefs.

[20]  Paul A. Tyler,et al.  The reproductive biology of two deep-water, reef-building scleractinians from the NE Atlantic Ocean , 2005, Coral Reefs.

[21]  S. Cairns,et al.  A review of the Scleractinia (Cnidaria: Anthozoa) of Chile, with the description of two new species , 2005 .

[22]  S. Golubić,et al.  Endolithic fungi in marine ecosystems. , 2005, Trends in microbiology.

[23]  D. Schlichter,et al.  Transfer of photoassimilates from endolithic algae to coral tissue , 1995, Naturwissenschaften.

[24]  A. Freiwald,et al.  Shallow-water Desmophyllum dianthus (Scleractinia) from Chile: characteristics of the biocoenoses, the bioeroding community, heterotrophic interactions and (paleo)-bathymetric implications , 2005 .

[25]  R. Waller Deep-water Scleractinia (Cnidaria: Anthozoa): current knowledge of reproductive processes , 2005 .

[26]  G. Henderson,et al.  Growth rates of the deep-sea scleractinia Desmophyllum cristagalli and Enallopsammia rostrata , 2004 .

[27]  P. Clode,et al.  Calcification rate and the effect of temperature in a zooxanthellate and an azooxanthellate scleractinian reef coral , 2004, Coral Reefs.

[28]  J. Heikoop,et al.  Lifespans and growth patterns of two deep-sea corals: Primnoa resedaeformis and Desmophyllum cristagalli , 2002, Hydrobiologia.

[29]  G. Försterra,et al.  First report on large scleractinian (Cnidaria: Anthozoa) accumulations in cold-temperate shallow water of south Chilean fjords , 2003 .

[30]  Y. Loya,et al.  Endolithic algae: an alternative source of photoassimilates during coral bleaching , 2002, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[31]  A. Moran Calcein as a marker in experimental studies newly-hatched gastropods , 2000 .

[32]  L. Peck,et al.  Growth and tissue mass cycles in the infaunal bivalve Yoldia eightsi at Signy Island, Antarctica , 2000, Polar Biology.

[33]  Denis Allemand,et al.  Photosynthesis and Calcification at Cellular, Organismal and Community Levels in Coral Reefs: A Review on Interactions and Control by Carbonate Chemistry , 1999 .

[34]  D. Schlichter,et al.  Trophic Potential and Photoecology of Endolithic Algae Living within Coral Skeletons , 1997 .

[35]  S. Golubić,et al.  Microbial endoliths in skeletons of live and dead corals: Porites lobata (Moorea, French Polynesia) , 1995 .

[36]  S. Golubić,et al.  Fungi in corals: symbiosis or disease? Interaction between polyps and fungi causes pearl-like skeleton biomineralization , 1995 .

[37]  N. Shashar,et al.  Endolithic algae within corals - life in an extreme environment , 1992 .

[38]  M. Risk,et al.  Another internal clock; preliminary estimates of growth rates based on cycles of algal boring activity , 1987 .

[39]  R. Highsmith Lime-boring algae in hermatypic coral skeletons , 1981 .

[40]  J. E. Sorauf,et al.  Structure and incremental growth in the ahermatypic coral Desmophyllum cristagalli from the North Atlantic , 1977 .

[41]  E. White,et al.  Correlation of Density Banding in Reef Coral Skeletons With Environmental Parameters: The Basis for Interpretation of Chronological Records Preserved in the Coralla of Corals , 1975, Paleobiology.

[42]  G. Pickard Some Physical Oceanographic Features of Inlets of Chile , 1971 .

[43]  S. Wainwright,et al.  OXYGEN BALANCE IN SOME REEF CORALS , 1967 .

[44]  H. Odum,et al.  Trophic Structure and Productivity of a Windward Coral Reef Community on Eniwetok Atoll , 1955 .