Hopping Hotspots: Global Shifts in Marine Biodiversity

Hotspots of high species diversity are a prominent feature of modern global biodiversity patterns. Fossil and molecular evidence is starting to reveal the history of these hotspots. There have been at least three marine biodiversity hotspots during the past 50 million years. They have moved across almost half the globe, with their timing and locations coinciding with major tectonic events. The birth and death of successive hotspots highlights the link between environmental change and biodiversity patterns. The antiquity of the taxa in the modern Indo-Australian Archipelago hotspot emphasizes the role of pre-Pleistocene events in shaping modern diversity patterns.

[1]  M. Reuter,et al.  Biogeographic responses to geodynamics: A key study all around the Oligo–Miocene Tethyan Seaway ☆ , 2007 .

[2]  S. Williams,et al.  Origins and diversification of Indo‐West Pacific marine fauna: evolutionary history and biogeography of turban shells (Gastropoda, Turbinidae) , 2007 .

[3]  Chad D. Brock,et al.  DO REEFS DRIVE DIVERSIFICATION IN MARINE TELEOSTS? EVIDENCE FROM THE PUFFERFISH AND THEIR ALLIES (ORDER TETRAODONTIFORMES) , 2007, Evolution; international journal of organic evolution.

[4]  J. W. Valentine,et al.  Out of the Tropics: Evolutionary Dynamics of the Latitudinal Diversity Gradient , 2006, Science.

[5]  C. Wallace,et al.  Diverse staghorn corals (Acropora) in high-latitude Eocene assemblages: implications for the evolution of modern diversity patterns of reef corals , 2006, Proceedings of the Royal Society B: Biological Sciences.

[6]  D. Bellwood,et al.  Ancient origins of Indo-Pacific coral reef fish biodiversity: a case study of the leopard wrasses (Labridae: Macropharyngodon). , 2006, Molecular phylogenetics and evolution.

[7]  J. C. Briggs The marine East Indies: diversity and speciation , 2005 .

[8]  Sean R Connolly,et al.  Community Structure of Corals and Reef Fishes at Multiple Scales , 2005, Science.

[9]  D. Bellwood,et al.  Environmental and geometric constraints on Indo-Pacific coral reef biodiversity , 2005 .

[10]  D. Bellwood,et al.  Biodiversity hotspots: evolutionary origins of biodiversity in wrasses (Halichoeres: Labridae) in the Indo-Pacific and new world tropics. , 2005, Molecular phylogenetics and evolution.

[11]  T. Lajeunesse "Species" radiations of symbiotic dinoflagellates in the Atlantic and Indo-Pacific since the Miocene-Pliocene transition. , 2005, Molecular biology and evolution.

[12]  D. Reid,et al.  SPECIATION AND DIVERSITY ON TROPICAL ROCKY SHORES: A GLOBAL PHYLOGENY OF SNAILS OF THE GENUS ECHINOLITTORINA , 2004, Evolution; international journal of organic evolution.

[13]  J. Choat,et al.  Patterns of lineage diversification in the genus Naso (Acanthuridae). , 2004, Molecular phylogenetics and evolution.

[14]  T. Hughes,et al.  Coral communities are regionally enriched along an oceanic biodiversity gradient , 2004, Nature.

[15]  N. Knowlton,et al.  Conventional taxonomy obscures deep divergence between Pacific and Atlantic corals , 2004, Nature.

[16]  D. R. Robertson,et al.  Evolution of coral reef fish Thalassoma spp. (Labridae). 1. Molecular phylogeny and biogeography , 2004 .

[17]  J. Plaziat,et al.  History and biogeography of the mangrove ecosystem, based on a critical reassessment of the paleontological record , 2001, Wetlands Ecology and Management.

[18]  K. Bjorndal,et al.  Global Trajectories of the Long-Term Decline of Coral Reef Ecosystems , 2003, Science.

[19]  R. Grosberg,et al.  Climate Change, Human Impacts, and the Resilience of Coral Reefs , 2003, Science.

[20]  C. Meyer Molecular systematics of cowries (Gastropoda: Cypraeidae) and diversification patterns in the tropics , 2003 .

[21]  Kaustuv Roy,et al.  The Impact of the Pull of the Recent on the History of Marine Diversity , 2003, Science.

[22]  G. Hoelzer,et al.  Historical biogeography and molecular systematics of the Indo‐Pacific genus Dascyllus (Teleostei: Pomacentridae) , 2002, Molecular ecology.

[23]  M. Harzhauser,et al.  Circum-Mediterranean Oligo-Miocene biogeographic evolution - the gastropods' point of view , 2002 .

[24]  R. Hall Cenozoic geological and plate tectonic evolution of SE Asia and the SW Pacific: computer-based reconstructions, model and animations , 2002 .

[25]  Fred Wells,et al.  Marine Biodiversity Hotspots and Conservation Priorities for Tropical Reefs , 2002, Science.

[26]  K. Bjorndal,et al.  Historical Overfishing and the Recent Collapse of Coastal Ecosystems , 2001, Science.

[27]  D. Bellwood,et al.  Regional-Scale Assembly Rules and Biodiversity of Coral Reefs , 2001, Science.

[28]  H. Lessios,et al.  POPULATION STRUCTURE AND SPECIATION IN TROPICAL SEAS: GLOBAL PHYLOGEOGRAPHY OF THE SEA URCHIN DIADEMA , 2001, Evolution; international journal of organic evolution.

[29]  S. Palumbi,et al.  Biogeography: A marine Wallace's line? , 2000, Nature.

[30]  R. Morley Origin and Evolution of Tropical Rain Forests , 2000 .

[31]  J. Veron,et al.  Corals of the world , 2000 .

[32]  D. R. Robertson,et al.  PHYLOGEOGRAPHY OF THE PANTROPICAL SEA URCHIN EUCIDARIS IN RELATION TO LAND BARRIERS AND OCEAN CURRENTS , 1999, Evolution; international journal of organic evolution.

[33]  J. C. Briggs COINCIDENT BIOGEOGRAPHIC PATTERNS: INDO‐WEST PACIFIC OCEAN , 1999, Evolution; international journal of organic evolution.

[34]  A. Ellison,et al.  Origins of mangrove ecosystems and the mangrove biodiversity anomaly , 1999 .

[35]  S. Palumbi,et al.  Molecular biogeography of the Pacific , 1997, Coral Reefs.

[36]  P. Jokiel,et al.  The vortex model of coral reef biogeography , 1992 .