1. The Red Sea: Environmental gradients shape a natural laboratory in a nascent ocean.- 2. Environmental Setting for Reef Building in the Red Sea.- 3. Ecophysiology of reef-building corals in the Red Sea.- 4. Microbial Communities of Red Sea Coral Reefs.- 5. Symbiodinium diversity in Red Sea coral reefs & coral bleaching.- 6. Sponges of the Red Sea.- 7. Corals of the Red Sea. - 8. Fishes and connectivity of Red Sea coral reefs.
Dr. Voolstra’s research interests are in Evolutionary Genomics and Systems Biology of coral reefs. Coral reefs represent one of the most diverse ecosystems in the world. They are, however, extremely fragile and endangered due to human imposed exploitation, pollution, and global warming. An Evolutionary Genomics and Systems Biology approach can add to our understanding of reef ecology and conservation efforts. Dr Voolstra intends to focus on the following research topics: The role of adaptive evolution and coral-specific genes in molecular mechanisms of bleaching and stress; the molecular machinery of mutualism between corals and algae; the role of prokaryotes in these processes. Furthermore, Dr. Voolstra is interested in Biomineralization, Cancer, Ageing, Population Genetics/Genomics, and Genome-wide association studies (GWAS). Dr. Voolstra is an evolutionary biologist by heart that is interested in the big picture by applying whatever techniques are available or by the development of new methods in order to advance research.
Michael L. Berumen: Associate Professor, Marine Science. Biological and Environmental Science and Engineering Division. Center membership: Red Sea Research Center. Research Interests: Larval connectivity and dispersal of reef fishes; movement ecology of reef organisms; biodiversity and evolutionary biology of Red Sea fauna.
This volume is a complete review and reference work for scientists, engineers, and students concerned with coral reefs in the Red Sea. It provides an up-to-date review on the geology, ecology, and physiology of coral reef ecosystems in the Red Sea, including data from most recent molecular studies. The Red Sea harbours a set of unique ecological characteristics, such as high temperature, high alkalinity, and high salinity, in a quasi-isolated environment. This makes it a perfect laboratory to study and understand adaptation in regard to the impact of climate change on marine ecosystems. This book can be used as a general reference, guide, or textbook.