(1931) The significance of the relationship between corals and Zooxanthellae. Nature, 128, 309-311.Yonge CM (1931) The significance of the relationship between corals and zooxanthellae. Nature 22:309-311Yonge, C.M. (1931) The significance of the relationship between corals and zooxanthellae. ...
One example of symbiosis is the mutualistic relationship between corals and the zooxanthellae that live within their tissues. The corals receive nutrients, and the zooxanthellae access to shelter. Another example is the relationship between cattle egrets and herbivores, in which the egrets eat insects ...
These characteristics were assessed in Okinawa between March and June 1999, 5–10 months after the bleaching event there in August–September 1998. Species with low mortality rates generally had higher densities of zooxanthellae per square centimeter and a very low rate of release of degraded ...
What are the main differences between them? Which of the following symbiotic mutualisms involves a fungus? \\ A.lichens \\ B.corals and zooxanthellae \\ C.legume-Rhizobium interactions \\ D.gut microbe-ruminant interactions What type of marine ...
Muscatine L (1980) Productivity of zooxanthellae. In: Primary productivity in the sea, Plenum. P.G. Falkowski, New York Muscatine L (1990) The role of symbiotic algae in carbon and energy flux in reef corals. In: Coral Reefs, Elsevier. Z. Dubinsky, Amsterdam Muscatine L, Elizabeth Boy...
Symbiont diversity in the scleractinian corals from tropical reefs and non-reef communities in Taiwan. Coral Reefs We examined zooxanthellae diversity in scleractinian corals from southern Taiwan and the Penghu Archipelago, a tropical coral reef and a subtropical non-reefal community, respectively. ...
The disruption to the symbiotic relationship between corals and their zooxanthellae known as coral bleaching is a common stress response to one or multiple disturbance events [1-6]. Coral mass-bleaching events have primarily been associated with elevated photo-oxidative stress caused by high levels ...
Translocation of photosynthetic products from endosymbiotic zooxanthellae to the hydrocoral was demonstrated. There was no evidence that carbon was further translocated to the barnacle. However, hydrocorals bearing barnacles accumulated significantly more 14 C and 32 P than those with no barnacles. The ...
Translocation of photosynthetic products from endosymbiotic zooxanthellae to the hydrocoral was demonstrated. There was no evidence that carbon was further translocated to the barnacle. However, hydrocorals bearing barnacles accumulated significantly more 14 C and 32 P than those with no barnacles. The ...