Dinoflagellates from the genus Symbiodinium form symbi-otic relationships with many marine invertebrates, including reef-building corals. Symbiodinium is genetically diverse, and acquiring suitable Symbiodinium phylotypes is crucial for the host to survive in habitat environments, such as high-light conditions. The sensitivity of Symbiodinium to high light differs among Symbiodinium phylotypes, but the mechanism that controls light sensitivity has not yet been fully resolved. In the present study using high-light-tolerant and-sensitive Symbiodinium phylotypes, we examined what determines sensitivity to high light. In growth experiments under differ-ent light intensities, Symbiodinium CS-164 (clade B1) and CCMP2459 (clade B2) were identified...
Reef building (Scleractinian) corals are the major component of coral reefs and form an intimate sym...
Coral bleaching involves the breakdown of the symbiosis between corals and dinoflagellates of the di...
Coral thermal tolerance is strongly influenced by the identity of obligate photosymbionts, which enc...
Dinoflagellates from the genus Symbiodinium form symbiotic relationships with many marine invertebra...
Coral bleaching is the manifestation of the dysfunction of the symbiosis between scleractinian coral...
Light and temperature are major drivers in the ecology and biogeography of symbiotic dinoflagellates...
The identification of diverse genetic types of symbiotic algae within the genus Symbiodinium was est...
Cnidarians containing symbiotic microalgae often inhabit highly variable light environments where su...
Light and temperature are major drivers in the ecology and biogeography of symbiotic dinoflagellates...
This study examined the capacity for photoprotection and repair of photo-inactivated photosystem II ...
Light and temperature are major drivers in the ecology and biogeography of symbiotic dinoflagellates...
This study analysed the effects of elevated temperature on chlorophyll fluorescence parameters and s...
The role of symbiont variation in the photobiology of reef corals was addressed by investigating the...
Photosynthetic dinoflagellates in the family Symbiodiniaceae engage in symbiosis with scleractinian ...
Occurrences whereby cnidaria lose their symbiotic dinoflagellate microalgae (Symbiodinium spp.) are ...
Reef building (Scleractinian) corals are the major component of coral reefs and form an intimate sym...
Coral bleaching involves the breakdown of the symbiosis between corals and dinoflagellates of the di...
Coral thermal tolerance is strongly influenced by the identity of obligate photosymbionts, which enc...
Dinoflagellates from the genus Symbiodinium form symbiotic relationships with many marine invertebra...
Coral bleaching is the manifestation of the dysfunction of the symbiosis between scleractinian coral...
Light and temperature are major drivers in the ecology and biogeography of symbiotic dinoflagellates...
The identification of diverse genetic types of symbiotic algae within the genus Symbiodinium was est...
Cnidarians containing symbiotic microalgae often inhabit highly variable light environments where su...
Light and temperature are major drivers in the ecology and biogeography of symbiotic dinoflagellates...
This study examined the capacity for photoprotection and repair of photo-inactivated photosystem II ...
Light and temperature are major drivers in the ecology and biogeography of symbiotic dinoflagellates...
This study analysed the effects of elevated temperature on chlorophyll fluorescence parameters and s...
The role of symbiont variation in the photobiology of reef corals was addressed by investigating the...
Photosynthetic dinoflagellates in the family Symbiodiniaceae engage in symbiosis with scleractinian ...
Occurrences whereby cnidaria lose their symbiotic dinoflagellate microalgae (Symbiodinium spp.) are ...
Reef building (Scleractinian) corals are the major component of coral reefs and form an intimate sym...
Coral bleaching involves the breakdown of the symbiosis between corals and dinoflagellates of the di...
Coral thermal tolerance is strongly influenced by the identity of obligate photosymbionts, which enc...