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Effects of Zinc and Vitamin Supplementation on the Coral Acropora hemprichii Health and Growth.Alabyadh, Ali 07 1900 (has links)
Coral reefs are complex ecosystems that provide several ecological, environmental, and economic services. However, climate change has heavily threatened these ecosystems, particularly due to increasing sea surface temperature. Innovative solutions to improve coral tolerance to climate change are therefore urgently needed. Vitamin and trace element supplements can improve the fitness of several animals (e.g., fish and crustaceans) in aquaculture systems, and could represent an alternative treatment to improve coral health and growth in coral nurseries. Here, we tested whether the supplementation of vitamins B6, B12, and zinc could boost coral growth, and health. For this purpose, fragments (n=10) of colonies of five Acropora hemprichii were collected from the central Red Sea were treated with B6, B12, zinc, and a combination of these supplements for 21 days. Coral fragments were collected before and after the experiment. Calcification and oxygen metabolism (respiration, photosynthesis) were measured, while symbiont density, chlorophyll, total protein, and carbohydrate were quantified in the lab. Our data showed that corals’ symbionts density, chlorophyll c2, net productivity, and total protein were significantly increased due to zinc supplementation when compared to control colonies. In addition, the multi-treatment also increased the corals’ total proteins. In contrast, none of the other treatments showed a significant effect on the tested coral’s physiological traits. The results of this study may provide data to support alternative approaches to improve coral growth for restoration efforts.
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Practical Applications for Symbiodinium Grown on Solid Media: Culturing, Fluorometry and TransformationsSoffer, Nitzan 01 January 2009 (has links)
Symbiotic dinoflagellates in the genus Symbiodinium are critical to the success of scleractinian reef corals in shallow tropical seas. These symbionts are commonly isolated from hosts and cultured separately in liquid media (f/2 or ASP8a), but initial isolations can be prone to abundant contaminants that can persist long-term in culture. To help remove these contaminants, I developed a solid growth substrate composed of 1% f/2 medium in agar, supplemented with a variety of antibiotics, to help isolate individual clones and establish new ?axenic? cultures. I found that an antibiotic cocktail of kanamycin (50 µg/mL), ampicillin (100 µg/mL) and streptomycin (50 µg/mL) was the most effective at eliminating visual signs of contamination without apparent harm to a variety of Symbiodinium in culture. Photophysiological measurements of Symbiodinium grown on f/2 agar plates, taken using an Imaging Pulse Amplitude Modulated (I-PAM) fluorometer, were comparable with those grown in liquid f/2, both with and without antibiotics. Eight types of Symbiodinium in clades A-D grown on f/2 agar plates at low irradiance (19-46 µmol photons m-2 s-1) were exposed to higher irradiance conditions (50-90 µmol photons m-2s-1) for 13 days and their photosynthetic efficiencies (Fv/Fm) were compared using the I-PAM. There were significant differences among and within clades, except for two types in clade C (C2 and C3) which did not perform differently from eachother. All types showed reduced Fv/Fm after 12 days in higher light. Type D1a showed high mortality after 13 days of higher light stress. Finally, preliminary work to fluorescently label Symbiodinium determined that available vital stains were not generally practical for symbiosis studies. Attempts to transform Symbiodinium with a variety of plasmids containing fluorescent reporters and/or genes for antibiotic resistance were not successful, but did provide a baseline for future work. In summary, Symbiodinium cultures grown on solid substrates supplemented with antibiotics are useful for: (1) isolating individual cells or clones for subsequent applications and establishing and maintaining ?axenic? cultures that are free of observable contaminants; (2) directly comparing the photophysiology of different cultures using an I-PAM fluorometer; (3) quantifying cells on agar plates using the I-PAM and (4) selecting possible transgenic symbionts for symbiosis studies.
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Multiple stressor effects on coral physiology and biogeochemistryDobson, Kerri January 2021 (has links)
No description available.
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