DIFFERENTIAL IMPACTS OF PHOTOACCLIMATION AND THERMAL STRESS ON THE PHOTOBIOLOGY OF FOUR DIFFERENT PHYLOTYPES OF SYMBIODINIUM (PYRRHOPHYTA)1
about
Bleaching susceptibility and mortality of corals are determined by fine-scale differences in symbiont typeDifferential stability of photosynthetic membranes and fatty acid composition at elevated temperature in SymbiodiniumEvidence for multiple stressor interactions and effects on coral reefs.The engine of the reef: photobiology of the coral-algal symbiosis.The extended phenotypes of marine symbioses: ecological and evolutionary consequences of intraspecific genetic diversity in coral-algal associations.Spectral effects on Symbiodinium photobiology studied with a programmable light engine.Heritable differences in fitness-related traits among populations of the mustard hill coral, Porites astreoides.Host adaptation and unexpected symbiont partners enable reef-building corals to tolerate extreme temperatures.Skeletal light-scattering accelerates bleaching response in reef-building corals.The roles and interactions of symbiont, host and environment in defining coral fitnessSpatio-temporal analyses of Symbiodinium physiology of the coral Pocillopora verrucosa along large-scale nutrient and temperature gradients in the Red SeaCold induces acute stress but heat is ultimately more deleterious for the reef-building coral Acropora yongei.Impact of light and temperature on the uptake of algal symbionts by coral juveniles.Transcriptional response of two core photosystem genes in Symbiodinium spp. exposed to thermal stressTaxonomic and environmental variation of metabolite profiles in marine dinoflagellates of the genus symbiodinium.Functional diversity of photobiological traits within the genus Symbiodinium appears to be governed by the interaction of cell size with cladal designation.Gene Expression Variation Resolves Species and Individual Strains among Coral-Associated Dinoflagellates within the Genus Symbiodinium.New-old hemoglobin-like proteins of symbiotic dinoflagellates.Enhanced photoprotection pathways in symbiotic dinoflagellates of shallow-water corals and other cnidarians.Effects of Trace Metal Concentrations on the Growth of the Coral Endosymbiont Symbiodinium kawagutii.Clownfish in hypoxic anemones replenish host O2 at only localised scalesHistorical thermal regimes define limits to coral acclimatization.Incorporating adaptive responses into future projections of coral bleaching.Multiple Symbiodinium Strains Are Hosted by the Brazilian Endemic Corals Mussismilia spp.The effects of Symbiodinium (Pyrrhophyta) identity on growth, survivorship, and thermal tolerance of newly settled coral recruits.Differential antioxidant response between two Symbiodinium species from contrasting environments.CONCENTRATIONS OF DIMETHYLSULFONIOPROPIONATE AND DIMETHYL SULFIDE ARE STRAIN-SPECIFIC IN SYMBIOTIC DINOFLAGELLATES (SYMBIODINIUM SP., DINOPHYCEAE)(1).Validation of housekeeping genes for gene expression studies in Symbiodinium exposed to thermal and light stress.Symbiont physiology and population dynamics before and during symbiont shifts in a flexible algal-cnidarian symbiosis.Transcript patterns of chloroplast-encoded genes in cultured Symbiodinium spp. (Dinophyceae): testing the influence of a light shift and diel periodicity.Symbiodinium clades A and D differentially predispose Acropora cytherea to disease and Vibrio spp. colonization.Diverse responses of Symbiodinium types to menthol and DCMU treatment.Occurrence, diel patterns, and the influence of melatonin on the photosynthetic performance of cultured Symbiodinium.Symbiodinium transcriptome and global responses of cells to immediate changes in light intensity when grown under autotrophic or mixotrophic conditions.Negative response of photosynthesis to natural and projected high seawater temperatures estimated by pulse amplitude modulation fluorometry in a temperate coral.Contrasting modes of inorganic carbon acquisition amongst Symbiodinium (Dinophyceae) phylotypes.Validation and description of Symbiodinium microadriaticum, the type species of Symbiodinium (Dinophyta).Rapid thermal adaptation in photosymbionts of reef-building corals.Antioxidant plasticity and thermal sensitivity in four types of Symbiodinium sp.Cryptic diversity hides host and habitat specialization in a gorgonian-algal symbiosis.
P2860
Q28288096-0826D39E-3915-4FC5-900A-C39C43C4C654Q29014414-C9F253DD-C071-45C5-872D-23D7F39E0ED2Q30685370-11CE3E88-79F8-4F3E-8FEE-34627A304FBDQ30848927-15652FBE-5B87-496C-B74F-540C2BF846F7Q30848939-8CC5A670-2D48-41A2-BF26-C5AC876FAD51Q30868894-F395E6C1-EA4B-4F65-A505-3457569FB72BQ30973633-24EBABD3-B465-483A-8FB7-8D60B51A24C5Q31044154-6BE7EDD7-65F3-4341-BFFB-9AEB96BD5274Q31061086-B75C09B5-C1E1-487B-A77D-B85922847408Q33486529-46F535DC-2423-4A0A-BDE1-9513DE3E6DA8Q34066316-FD91F9EC-08D9-4856-A2B2-141A8282FE19Q34166688-4785206D-AC64-4041-94E6-D61F64B13F35Q34491318-C63F335F-24BB-4211-B182-1467BF9D6557Q34510362-8504BE8A-03B6-495D-86CE-21CAC52A33C5Q35237601-7C8371CE-A605-4A7A-8B22-55A0377A112AQ35643645-CC884CF8-D956-4E62-94F0-792AB488B502Q36775817-93C65CA2-FF59-429D-851C-6F1F5A3A5E3FQ36781104-7F1EED83-2967-4789-9A8C-80B0F0FD4485Q36856687-DF440274-AEB1-4126-850D-4AF6ECD9F1C3Q38280103-C9CF853B-6720-4927-A53A-EDD6966D51DCQ39064605-1C329108-33EA-4448-8D7A-C12B3C27DDB3Q39080310-FAE11B05-0EBC-4EF8-B9AC-330F3F2A89AAQ39187344-F37E02DD-3980-414C-B84E-61BB977B1218Q39274020-7C91F38E-E85F-4F07-9CC0-CB8F10CEFA3BQ39334167-AF788038-F985-4578-9003-399EF9FFA146Q39402468-378309B8-05B0-45A0-943B-C0FDECF8CED3Q39723273-827C1C40-9441-497C-9848-7F74BE775462Q39852461-8089845F-DE05-4469-A4CA-E6FA376A1487Q39894692-CA8581AD-8C52-4014-BA41-4BF9D502F079Q39895272-7D9D6C47-468D-4926-9A07-6A7251913CBDQ40025453-68A37439-4826-484E-8CF4-E76C58F2F1A3Q42278593-F6C21C95-A7CD-4D40-8834-EB0F90B87EE2Q42435743-A21991EA-CC02-43D3-9B6A-85D818DF393BQ42776169-1F4F0869-21FD-4ABD-A914-BB5778C4B57FQ43189984-7A6DFA53-2BF3-488C-B8EF-648990093817Q43728601-1BFF1FFA-D655-47A6-BBDC-35C2B0955CD1Q46330511-01B4E766-FB59-45AE-8A49-8E691B3E54ADQ46375962-3982ECEB-EA80-4DE3-8B8E-1DD0CB5A63A8Q46809166-B24FB929-3C9D-49B8-9BCA-58F370FEF8ABQ46889653-1384B095-B55D-44FF-809E-C393FF1BE4D3
P2860
DIFFERENTIAL IMPACTS OF PHOTOACCLIMATION AND THERMAL STRESS ON THE PHOTOBIOLOGY OF FOUR DIFFERENT PHYLOTYPES OF SYMBIODINIUM (PYRRHOPHYTA)1
description
im Juni 2006 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в червні 2006
@uk
name
DIFFERENTIAL IMPACTS OF PHOTOA ...... OF SYMBIODINIUM (PYRRHOPHYTA)1
@en
DIFFERENTIAL IMPACTS OF PHOTOA ...... ENT PHYLOTYPES OF SYMBIODINIUM
@nl
type
label
DIFFERENTIAL IMPACTS OF PHOTOA ...... OF SYMBIODINIUM (PYRRHOPHYTA)1
@en
DIFFERENTIAL IMPACTS OF PHOTOA ...... ENT PHYLOTYPES OF SYMBIODINIUM
@nl
prefLabel
DIFFERENTIAL IMPACTS OF PHOTOA ...... OF SYMBIODINIUM (PYRRHOPHYTA)1
@en
DIFFERENTIAL IMPACTS OF PHOTOA ...... ENT PHYLOTYPES OF SYMBIODINIUM
@nl
P2860
P1433
P1476
DIFFERENTIAL IMPACTS OF PHOTOA ...... OF SYMBIODINIUM (PYRRHOPHYTA)1
@en
P2093
Jennifer D. Robison
Mark E. Warner
P2860
P304
P356
10.1111/J.1529-8817.2006.00232.X
P577
2006-06-01T00:00:00Z