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Impacts of Nighttime Hypoxia on the Physiological Performance of Red Sea MacroalgaeAlamoudi, Taiba 11 1900 (has links)
Marine deoxygenated areas are expanding, and more hypoxic zones emerge globally. Climate change induced warming and stratification can extrapolate the biological oxygen demand, more predominantly at coastal areas and reefs with dense vegetation and high metabolic activity. The diurnal oxygen fluctuation can reach a critically low oxygen level at nighttime, exposing aquatic organisms to severe hypoxia that could interfere with viable ecosystem functions. Little is known about the impact of hypoxia on marine primary producers macroalgae, mainly the physiological adaptation of the Red Sea macroalgae under climate change scenarios is understudied.
Here we investigate hypoxia thresholds at night time for conspicuous Red Sea macroalgae species calcareous Halimeda opuntia and Padina boryana and noncalcifying brown algae Sargassum latifolium. We utilized a computer-based gas system to expose the samples to different oxygen treatments (normoxia, hypoxia, and severe hypoxia) that mimic in situ water chemistry at 32 °C. We monitored algal physiological response during 12 hours of exposure to different oxygen levels in the dark by measuring photochemical efficiency, respiration rates, and cellular viability.
For the duration of our experiments (12h), we did not detect lethal thresholds. In all tested species, severe hypoxia significantly decreased photochemical efficiency, and hypoxia had a limited impact on photochemical efficiency. However, both low oxygen treatments significantly decreased respiration rates and induced changes in cellular activity. We concluded a sublethal O$_2$ thresholds SLC$_{(50)}$ of 1.2 ±0.1, 1.5 ±0.1, and 1.7 ±0.1 mg O$_2$ L$^{−1}$ ±SD for H. opuntia, P. boryana, and S. latifolium responses, respectively. We also found that during 12 hours of treatments, the median time to observe a 50% reduction in photochemical efficiency under severe hypoxia treatment relative to control was 6.3 ±1.4, 3.5 ±1.0, and 0.8 ±1.3 hours ±SD for H. opuntia, P. boryana, and S. latifolium responses, respectively.
This study is the first assessment of Red Sea macroalgae response to hypoxia and the first dark nighttime algal adaptation of its kind for our proposed species. Further investigation is needed to assess daytime recovery, recurring dark hypoxia, and synergic or sequential effects of other environmental stressors on hypoxia thresholds.
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The Assessment of Current Biogeographic Patterns of Coral Reef Fishes in the Red Sea by Incorporating Their Evolutionary and Ecological BackgroundRobitzch Sierra, Vanessa S. N. 03 1900 (has links)
The exceptional environment of the Red Sea has lead to high rates of endemism and biodiversity. Located at the periphery of the world’s coral reefs distribution, its relatively young reefs offer an ideal opportunity to study biogeography and underlying evolutionary and ecological triggers. Here, I provide baseline information on putative seasonal recruitment patterns of reef fishes along a cross shelf gradient at an inshore, mid-shelf, and shelf-edge reef in the central Saudi Arabian Red Sea. I propose a basic comparative model to resolve biogeographic patterns in endemic and cosmopolitan reef fishes. Therefore, I chose the genetically, biologically, and ecologically similar coral-dwelling damselfishes Dascyllus aruanus and D. marginatus as a model species-group. As a first step, basic information on the distribution, population structure, and genetic diversity is evaluated within and outside the Red Sea along most of their global distribution. Second, pelagic larval durations (PLDs) within the Red Sea environmental gradient are explored. For the aforementioned, PLDs of the only other Red Sea Dascyllus, D. trimaculatus, are included for a more comprehensive comparison. Third, to further assess ongoing pathways of connectivity and geneflow related to larval behavior and dispersal in Red Sea reef fishes, the genetic composition and kinship of a single recruitment cohort of D. aruanus arriving together at one single reef is quantified using single nuclear polymorphisms (SNPs). Genetic diversity and relatedness of the recruits are compared to that of the standing population at the settlement reef, providing insight into putative dispersal strategies and behavior of coral reef fish larvae. As a fourth component to study traits shaping biogeography, the ecology and adaptive potential of the cosmopolitan D. aruanus is described by studying morphometric-geometrics of the body structure in relation to the stomach content and prey type from specimen along the cross-shelf of the central Red Sea and at a site outside the Red Sea, in Madagascar, and approach whether foraging strategies change depending on geographic location and environment, and if differences in diet are followed by phenotypic plasticity. Jointly, results suggest that biological responses and putative adaptive strategies are correlated with different biogeographic ranges and habitat preferences.
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Growth Characterization and Optimization of Cyanobacterial Isolates from the Arabian GulfSiller Rodriguez, Luis F. 12 1900 (has links)
Photoautotrophic organisms have been highlighted as carbon capture and conversion platforms for sustainable production of agricultural and chemicals in KSA. Previously two cyanobacterial strains, Geitlerinema spp. CT7801 and CT7802, were isolated from an industrial brine outfall site in the Eastern Province of the Kingdom of Saudi Arabia. Initial characterization of their growth characteristics showed growth at high temperature (38 ºC) and high salinity ( > 60 PSU), making them potentially good candidates for industrial applications. In this study, quantitative growth assays were performed using standardized methods developed for the analysis of Red Sea photosynthetic microorganisms supported by microscopic observations, optimal growth media preference assays, CO2 concentration effect, photoperiod effect, mixotrophic and heterotrophic growth tests. Data was recorded for absorbance (600 and 750 nm wave lenght), dry cell weight (DCW), colorimetric observations, and chlorophyll a content.
Both CT7801 and CT7802 exhibited a clear preference for Walne's Red Sea medium. An analysis on media composition highlights B and Fe as growth enhancers, as well as a base requirement of seawater. Tests on the effect of supplied concentration of CO2 showed that air enhanced with 1 % v/v CO2 allows approximately 2-fold increase in DCW for Geitlerinema spp. CT7802.
Photoperiod tests showed that continuous light is disadvantageous for phototrophic growth of Geitlerinema spp. CT7801 and CT7802. Results for mixotrophic and heterotrophic growth of Geitlerinema spp. CT7801 and CT7802 revealed their ability to metabolize glycerol. Analysis on the complete genome of CT7802 identified three key enzymes, glycerol kinase, glycerol-3-phosphate dehydrogenase and triosephosphate isomerase, which may catalyze the glycerol metabolic pathway in the strain. Utilization of glycerol, a residue of the biodiesel industry, might provide a sustainable alternative for growth of Geitlerinema sp. CT7802.
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Dilution-to-extinction culturing of SAR11 members and other marine bacteria from the Red SeaMohamed, Roslinda B. 12 1900 (has links)
Life in oceans originated about 3.5 billion years ago where microbes were the
only life form for two thirds of the planet’s existence. Apart from being
abundant and diverse, marine microbes are involved in nearly all
biogeochemical processes and are vital to sustain all life forms. With the
overgrowing number of data arising from culture-independent studies, it
became necessary to improve culturing techniques in order to obtain pure
cultures of the environmentally significant bacteria to back up the findings and
test hypotheses. Particularly in the ultra-oligotrophic Red Sea, the ubiquitous
SAR11 bacteria has been reported to account for more than half of the
surface bacterioplankton community. It is therefore highly likely that SAR11,
and other microbial life that exists have developed special adaptations that
enabled them to thrive successfully. Advances in conventional culturing have
made it possible for abundant, unculturable marine bacteria to be grown in the
lab. In this study, we analyzed the effectiveness of the media LNHM and
AMS1 in isolating marine bacteria from the Red Sea, particularly members of
the SAR11 clade. SAR11 strains obtained from this study AMS1, and
belonged to subgroup 1a and phylotype 1a.3. We also obtained other
interesting strains which should be followed up with in the future. In the long
run, results from this study will enhance our knowledge of the pelagic
ecosystem and allow the impacts of rising temperatures on marine life to be
understood.
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Analysis of Exoelectrogenic Bacterial Communities Present in Different Brine Pools of the Red SeaOrtiz Medina, Juan F. 05 1900 (has links)
One contemporary issue experienced worldwide is the climate change due to the
combustion of fossil fuels. Microbial Electrochemical Systems pose as an alternative
for energy generation. In this technology, microorganisms are primarily responsible
for electricity production. To improve the performance it is reasonable to think
that bacteria from diverse environments, such as the brine pools of the Red Sea,
can be utilized in these systems. Samples from three brine pools: Atlantis II, Valdivia,
and Kebrit Deeps, were analyzed using Microbial Electrochemical Cells, with a
poised potential at +0.2 V (vs. Ag/AgCl) and acetate as electron donor, to evaluate
the exoelectrogenic activity by the present microorganisms. Only samples from Valdivia
Deep were able to produce a noticeable current of 6 A/m2. This result, along
with acetate consumption and changes on the redox activity measured with cyclic
voltammetry, provides arguments to con rm the presence of exoelectrogenic bacteria
in this environment. Further characterization using microscopy and molecular biology
techniques is required, to obtain the most amount of information about these
microorganisms and their potential use in bioelectrochemical technologies.
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Volcanic and Tectonic Activity in the Red Sea Region (2004-2013): Insights from Satellite Radar Interferometry and Optical ImageryXu, Wenbin 04 1900 (has links)
Studying recent volcanic and tectonic events in the Red Sea region is important for improving our knowledge of the Red Sea plate boundary and for regional geohazard assessments. However, limited information has been available about the past activity due to insufficient in-situ data and remoteness of some of the activity. In this dissertation, I have used satellite remote sensing to derive new information about several recent volcanic and tectonic events in the Red Sea region. I first report on three volcanic eruptions in the southern Red Sea, the 2007-8 Jebel at Tair eruption and the 2011-12 & 2013 Zubair eruptions, which resulted in formation of two new islands. Series of high- resolution optical images were used to map the extent of lava flows and to observe and analyze the growth and destructive processes of the new islands. I used Interferometric Synthetic Aperture Radar (InSAR) data to study the evolution of lava flows, to estimate their volumes, as well as to generate ground displacements maps, which were used to model the dikes that fed the eruptions. I then report on my work of the 2009 Harrat Lunayyir dike intrusion and the 2004 Tabuk earthquake sequence in western Saudi Arabia. I used InSAR observations and stress calculations to study the intruding dike at Harrat Lunayyir, while I combined InSAR data and Bayesian estimation to study the
Tabuk earthquake activity.
The key findings of the thesis are: 1) The recent volcanic eruptions in the southern
Red Sea indicate that the area is magmatically more active than previously acknowledged
and that a rifting episode has been taken place in the southern Red Sea; 2) Stress interactions between an ascending dike intrusion and normal faulting on graben-bounding faults above the dike can inhibit vertical propagation of magma towards the surface; 3) InSAR observations can improve locations of shallow earthquakes and fault model uncertainties are useful to associate earthquake activity with mapped faults; 4). The successful application of satellite remote sensing technologies in studying the recent volcanic and tectonic processes in the Red Sea region implies that remote sensing data
are an important resource for the local authorities to monitor geohazards.
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Implications of irradiance for the Red Sea Tridacna giant clam holobiontRossbach, Susann 01 1900 (has links)
Giant clams (Tridacninae subfamily) are prominent members of Indo-Pacific corals reefs,
including the Red Sea, where they play multiple roles and are of distinct ecological significance
for these communities. Tridacninae stand out among other bivalves as one of the few molluscan
groups that live in a symbiosis with dinoflagellate Symbiodiniaceae. This relationship is
comparable to the symbiosis of corals and their associated algae, where the symbionts provide
a substantial amount of the respiratory carbon demand of the host through their photosynthetic
activity. Their photosymbiosis restricts the distribution of the Tridacninae holobiont (i.e. giant
clam host, symbiotic algae and associated bacteria) to the sunlit, shallow waters of the euphotic
zone, where organisms receive sufficient incident light to maintain their high rates of primary
production and calcification. However, giant clams in these shallow reefs are simultaneously
exposed to potentially high and damaging levels of solar (UV) radiation.
This thesis includes research on the Red Sea Tridacna spp. holobiont from an ecosystem to
microscale level. It assess the abundance and distribution of Red Sea giant clams, including
their associated symbiotic microalgae and bacterial microbiome. Further, it describes the strong
light-dependency of calcification and primary production of Red Sea Tridacna maxima clams
and reports on the effective photo-protective mechanisms that have been evolved by these
clams to thrive in shallow reefs, despite levels of high solar irradiance. Tridacninae developed
effective behavioral mechanisms for photo-protection, by which the clam is able to flexibly
adjust its shell gaping behavior to incident light levels within a narrow time frame. On a
microscale, Tridacninae use advanced photonic structures (iridocytes) within their tissues to
mitigate the potential negative effects of high solar UV radiation, and to promote the
photosynthesis of their symbiotic algae.
Understanding the role of the Tridacna spp. holobiont for Red Sea coral reefs, its contributions
to overall productivity, and its abundances in the region may serve as a baseline for further
studies on this charismatic invertebrate. It may also contribute to the conservation efforts from
local to regional scales, and eventually aid the protection of Tridacninae in the Red Sea and
elsewhere.
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INFLUENCE OF HYDROSTATIC PRESSURE AND TEMPERATURE ON THE METABOLIC ACTIVITY OF Alcanivorax marisrubri sp. nov. ISOLATED FROM THE RED SEADelgadillo Ordoñez , Nathalia Catalina 03 1900 (has links)
Hydrostatic pressure (HP) and low temperature are among the main parameters that affect the microbial activity in the deep sea. Especially in the event of an oil spill, the natural microbial degradation of hydrocarbons in the harsh conditions of the deep sea can be significantly impaired. In the Red Sea, the temperature in the deep (22°C) is much higher than in other oceans and may favor hydrocarbon degradation. Bacteria of the genus Alcanivorax, which are prominent and ubiquitous alkane degrading bacteria, have been extensively studied because of their high abundance in oil-contaminated shallow water, but have been shown to be absent in the deep sea because of their piezo-sensitivity. In the present thesis, the novel species Alcanivorax marisrubri isolated at 1000 m from the Southern Red Sea has been evaluated for its piezo-adaptation under different combinations of temperature, and HP. A. marisrubri showed a piezotolerance different from other Alcanivorax species. Furthermore, a positive compensation of growth inhibition was observed when the cells were exposed to mild HP (10 MPa) in combination with a relatively high temperature of 38°C. While growth was inhibited at lower temperatures (20 and 26°C) under mild-HP (5 and 10 MPa), the metabolic activity was triggered, possibly in response to cellular stress. This study showed that the growth and metabolic activity of A. marisrubri under HP depend on temperature, which exerts a positive compensation effect and may extend the growth of this bacterium to the depths of the Red Sea.
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Spatio-temporal changes in Red Sea benthic coral reef communitiesGonzalez-Martinez, Karla Paola 04 1900 (has links)
Understanding how coral reefs respond to natural disturbances is fundamental to assess their resistance and resilience, particularly in a context of climate change. Therefore, and given the escalating frequency and intensity of bleaching events, it is essential to evaluate responses of communities in space and time to disentangle the mechanisms underlying ecological changes. Here, I analyzed a dataset comprising 59 reefs, resulting from 6 years (2014-2016) of a coral reef benthic monitoring program in the Saudi Arabian Red Sea. It encompasses the 2015/2016 mass bleaching event and spans three different geographic regions: north (Duba and Al Wajh), central (Jeddah and Thuwal), and south (Al Lith, Farasan Islands and Farasan Banks). The results indicate significant differences between regions and through time. Coral assemblages from the southern region were the most affected by the 2015 bleaching event, where in some reefs, hard and soft corals cover dropped to <2% in 2017. Important changes in community structure were observed through time in the three regions, with a shift to a macroalgae, turf algae and CCA dominance. Different environmental drivers (salinity, sea surface temperature, fishing index, distance to shore, and photosynthetically active radiation) were analyzed, and highlighted a regionally-based response of the communities to these potential drivers of change. Overall, the examined Red Sea benthic communities presented dynamic patterns in composition. Distance decay plots based on presence/absence showed a general increase in similarity throughout multiple spatial scales in 2019, when compared to previous years. This finding suggests a loss in biodiversity due to thermal anomalies and bleaching events, evidenced by a homogenization (i.e., increase similarity) in the composition of the benthic communities. I document here a patterns of dominance of a few benthic groups with time and a decrease in branching corals. This study provides baseline information about changes in coral reef benthic community structure and identifies environmental factors with a higher impact on a regional scale. This information can be used to guide conservation efforts in these highly biodiverse ecosystems.The resulting datasets can be valuable for anticipating responses of coral communities under future climate scenarios.
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Functional Diversity of Red Sea Coral Reef Fish Assemblages in Northern Saudi ArabiaFord, Kiana 04 1900 (has links)
As a part of Saudi Arabia’s Vision 2030, the Al Wajh Bank will soon undergo major
coastal development to be transformed into a sustainable luxury tourist destination, with
goals to safeguard the marine and coastal habitats in order to achieve a net conservation
benefit of 30%. To realize these objectives, it is essential to establish baseline data on the
marine communities to gauge the success of conservation goals. In this study, we
evaluated and compared the taxonomic and functional diversity of reef fish assemblages
between two areas in the Al Wajh Bank, sites inside the lagoon and those outside of it, in
order to establish differences in fish communities across environmental gradients.
Conditions within the lagoon, such as temperature and salinity, have been shown to differ
from most other Red Sea areas and are thought to result in unique fish assemblages.
Underwater assessments of fish communities and benthic composition were conducted
throughout the Al Wajh Bank during cruises in 2016 and 2017. We found that of the 168
fish species recorded, 75 species were exclusive outside the lagoon, 22 were exclusive
inside the lagoon, and 71 species were shared between inside and outside. Sites within the
lagoon had significantly less species richness as well as lower abundances. While
taxonomic composition differed between the two areas, functionally they were very
similar. Two functional metrics (functional richness and functional dispersion) indicated
different levels of functional diversity, while two other metrics (functional evenness and
functional specialization) showed no differences in functional diversity. The outside had
five groups comprising eleven species with functional redundancy; in contrast, the inside
had two species which were functionally redundant. This study was able to establish that
the inside and outside habitats are different and have dissimilar species compositions, yet
the functional characterization of fish assemblages in conserved. These results advocate
for the use of functional diversity metrics as a way to evaluate changes to community
composition, and is an initial assessment towards tracking changes in the fish
communities as coastal development progresses
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