Distribuição ecológica das comunidades de macroalgas de ambientes lóticos em duas unidades de conservação abrangendo os biomas da Floresta Estacional Semidecidual e Campos no estado do Paraná

Oliveira, Régis de Campos [UNESP]

02 August 2011

Made available in DSpace on 2014-06-11T19:23:02Z (GMT). No. of bitstreams: 0 Previous issue date: 2011-08-02Bitstream added on 2014-06-13T20:10:28Z : No. of bitstreams: 1 oliveira_rc_me_rcla.pdf: 588219 bytes, checksum: 1f0070b393c8b583e615e58edabb93b3 (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Estudos anteriores sugerem que, aparentemente, existem padrões específicos para descrever a composição e a estrutura das comunidades de macroalgas em ambientes lóticos em função das características do bioma ao qual estão inseridos. Neste contexto, a presente dissertação objetivou avaliar, de forma comparativa, a composição, a estrutura das comunidades e a distribuição espacial das comunidades de macroalgas lóticas de duas unidades de conservação (UCs) com biomas distintos: Campos no Parque Estadual de Vila Velha (PVV) e Floresta Estacional Semidecidual no Parque Nacional do Iguaçu (PNI). Em adição, pretendeu-se comparar as comunidades de macroalgas nas quatro estações do ano, a fim de se verificar a possível existência de padrões temporais. As amostragens foram realizadas em 5 segmentos de riacho de 10 m de extensão, em cada UC, através da técnica da transeção, onde as variáveis abióticas (temperatura, oxigênio, pH, condutividade, turbidez, profundidade e velocidade da correnteza) foram mensuradas, assim como a presença e a abundância de cada espécie de macroalga. Estes parâmetros bióticos foram avaliados através da análise visual do leito do rio/riacho. As amostragens foram feitas uma vez a cada estação do ano. O estudo taxonômico registrou 37 macroalgas no total, sendo 16 táxons de ocorrência exclusiva no PVV, 18 táxons de ocorrência exclusiva no PNI e apenas 3 táxons com ocorrência em ambos os parques (Phormidium retzii, Hildenbrandia angolensis e Batrachospermum puiggarianum). O táxon com maior ocorrência no PVV foi o Zygogonium sp. (9 ocorrências), e no PNI o estágio “Chantransia” pygmaea foi o que ocorreu em maior número de pontos amostrados (15). Em relação aos tipos morfológicos, foram encontrados: filamentos livres (24%), filamentos gelatinosos (22%)... / Previous studies suggest that, apparently, there are specific standards to describe the structure and composition of macroalgae communities in lotic environments depending on the characteristics of the biome to which they belong. In this context, the present study aimed to evaluate, comparatively, the floristic composition, community structure and spatial distribution of lotic macroalgae communities from protected areas (PAs) with two distinct biomes, Grassland on Vila Velha State Park (VVP) and Semideciduous Seasonal Forest on the Iguazu National Park (INP). In addition, we intended to compare the macroalgal communities in the four seasons, to verify the possible existence of temporal patterns. The sampling sites were carried out from five segments of stream, 10 m length, in each PA, by means of the transect technique, where the environmental variables (temperature, oxygen, pH, conductivity, turbidity, depth and current velocity) were measured, as well the presence and abundance of each species of seaweed. These biotic parameters were evaluated using visual analysis of stream/river. The samplings were taken once every season. The taxonomic study recorded 37 macroalgae in total, with 16 taxa occurring exclusively in VVP, 18 taxa occurring exclusively in INP and only three taxa occurring in both parks (Phormidium retzii, Hildenbrand angolensis and Batrachospermum puiggarianum). The taxon with the highest frequency of occurrence in the VVP was Zygogonium sp. (9 sites), whereas in INP Chantransia pygmaea is what happened to a greater number of sampled sites (15). Respecting the morphological types were found: free filaments (24%), gelatinous filaments (22%), mats (19%), gelatinous colonies... (Complete abstract click electronic access below)

Alga

Ecologia

Florestas

Floresta estacional semidecidual

Macroalgae

Semideciduos seasonal forest

AvaliaÃÃo sazonal de carotenÃides provitamina A (αâ e βâ caroteno) e vitamina E (αâtocoferol) em macroalgas marinhas pertencentes a famÃlia Caulerpacea (DivisÃo Chlorophyta) / Evaluation of seasonal provitamin A carotenoids (α-and β-carotene) and Vitamin E (α-tocopherol) in marine macroalgae belonging to the family Caulerpacea (Division Chlorophyta)

Kelma Maria dos Santos Pires

01 December 2007

FundaÃÃo Cearense de Apoio ao Desenvolvimento Cientifico e TecnolÃgico / As algas marinhas sÃo fontes de uma grande variedade de compostos benÃficos para o homem, dentre os quais se destacam os minerais, as fibras dietÃrias e as vitaminas (A, B, C e E). O objetivo deste trabalho foi verificar a existÃncia de variaÃÃo sazonal nos teores de α- e β-caroteno (carotenÃides provitamina A) e de α-tocoferol (vitamina E), em cinco espÃcies de macroalgas marinhas pertencentes ao gÃnero Caulerpa (FamÃlia Caulerpaceae, DivisÃo Chlorophyta), âin naturaâ e desidratada. Os conteÃdos desses nutrientes nas algas desidratadas foram comparados com aqueles nas algas âin naturaâ, com o objetivo de verificar se houve alteraÃÃo pelo processo de desidrataÃÃo. As espÃcies de macroalgas marinhas foram coletadas mensalmente, de janeiro a dezembro de 2006, durante as marÃs baixas na Praia do Pacheco, Caucaia- CE. As anÃlises de α- e β-caroteno e α-tocoferol foram realizadas a partir da extraÃÃo da alga em metanol-Ãgua (90:10) nas proporÃÃes 1:10 (p/v), nas amostras âin naturaâ, e 1:20 (p/v), nas desidratadas, saponificaÃÃo com hidrÃxido de potÃssio 5% por 30 min a 70ÂC e partiÃÃo em n-hexano que foi evaporado sob corrente de ar. O resÃduo foi suspenso em 1 mL de metanol no momento da anÃlise cromatogrÃfica e 100 μL foram injetados manualmente. O sistema cromatogrÃfico consistiu em uma coluna Waters Spherisorb-Hichrom S5ODS-2 (4,6 x 250 mm) e uma fase mÃvel constituÃda de metanol:tetrahidrofurano (90:10, v/v), com fluxo de 1,5 mL min-1. O detector foi ajustado em 450 nm e 292 nm e os cromatogramas registrados atravÃs do sistema UnicornTM versÃo 5.0. Todas as espÃcies de Caulerpa âin naturaâ e desidratadas analisadas no presente trabalho apresentaram tanto α-caroteno quanto β-caroteno e as suas distribuiÃÃes mostraram diferenÃas ao longo dos doze meses de coleta. De um modo geral, os teores de α-caroteno foram superiores aos de β-caroteno. As perdas nos conteÃdos de carotenÃides provitamina oscilaram entre 10% e 94%. Para que as algas analisadas neste trabalho fossem consideradas fontes excelentes de vitamina A seria necessÃrio que as porÃÃes consumidas diariamente variassem de 52 g a 689 g, quando consumidas âin naturaâ ou de 42 g a 469 g, quando desidratadas. As cinco espÃcies analisadas neste trabalho apresentaram α-tocoferol, tanto nas amostras âin naturaâ quanto nas desidratadas, com exceÃÃo de C. racemosa coletada em marÃo que apÃs ser submetida a secagem nÃo foi detectado α- tocoferol, e sua distribuiÃÃo foi variÃvel ao longo do ano. Nos teores de α- tocoferol foi observado perdas que variaram de 22 a 91%. As porÃÃes que deveriam ser consumidas diariamente para que as espÃcies de Caulerpa estudadas fossem capazes de fornecer 1/2 da IDR sÃo relativamente pequenas, devendo oscilar entre 11 g e 168 g, quando âin naturaâ, ou entre 13 g e 70 g, quando desidratadas. As quantidades de retinol equivalente e α-tocoferol equivalente nas algas analisadas no presente trabalho nÃo diferiram muito daquelas encontradas nos vegetais normalmente consumidos / Marine macroalgae are sources of a great variety of beneficial compounds such as minerals, dietary fibers and vitamins. The aim of this work was to verify seasonal variation upon both provitamin A carotenoids (α- and β-carotene) and vitamin E (α-tocopherol) contents in five species of the marine green macroalga Caulerpa both fresh and oven-dried at 40ÂC for 15 h. The contents in dried algae were compared to those in fresh algae to evaluate the losses after drying. Algal material was collected monthly from January to December 2006, in Pacheco Beach, Caucaia, CearÃ. Analyses of α- and β-carotene and α-tocopherol were carried out in extracts 1:10 (p/v) for fresh alga and 1:20 (p/v) for dried alga using aqueous methanol (90:10, v/v). They were saponified with 5% KOH and partitioned into n-hexane, which was then evaporated. The residues were suspended in 1 mL methanol prior to HPLC analyses. Aliquots of 100 μL were injected in a HPLC system consisting of a Waters Spherisorb-Hichrom S5 ODS-2 column (4.6 x 250 mm) and a mobile phase of methanol:tetrahydrofurane (90:10, v/v), delivered at 1.5 mL min-1. The detector was set at 450 nm for α- and β-carotene and 290 nm for α-tocopherol. Chromatograms were registered at UnicornTM version 5.0. All samples showed α- and β-carotene and α-tocopherol, but their distribution along the year was variable. In general, the contents of α-carotene were greater than those of β-carotene. The losses of α- and β-carotene varied between 10% and 94%. In order to be considered an excellent source of vitamin A, the daily consumption would be 52 g to 689 g of fresh alga or 42 g to 469 g of dried alga. α-Tocopherol was detected in all samples except in dried C. racemosa collected in March. Similar to the distribution of α- and β-carotene along the year, α-tocopherol contents varied too. Losses varied from 22% to 91%. Daily portions to supply 50% of the Recommended Daily Allowance (RDA) would be 11 g to 168 g of fresh alga or 13 g to 70 g of dried alga. Amounts of vitamin A (retinol equivalents) and vitamin E (tocopherol equivalents) in all algae analyzed were not very different from most vegetables normally consumed

CarotenÃides

Provitamina

Macroalgas marinhas

Carotenoids

Provitamin

Marine Macroalgae

ENGENHARIA DE PESCA

Biomarcadores de exposição em macroalgas Gracilaria domingensis expostas a cádmio e cobre / Biomarkers of exposure in macroalgae Gracilaria domingensis exposed to cadmium and copper

Tatiana Cristina Stefani Margarido

07 October 2016

Nos últimos anos, os metais vêm ganhando maior atenção em estudos devido aos impactos causados no ambiente, sua persistência e capacidade de bioacumulação e biomagnificação. As zonas costeiras por sua localização sofrem danos maiores, principalmente devido à grande quantidade de efluentes depositada nessa área provenientes de atividades urbanas, industriais, agrícolas e mineiras, dentre outras. As algas são organismos que compõe a base da cadeia alimentar e possuem ainda capacidade de estocar metais tornando-os menos disponíveis para as espécies que habitam a região. Tal característica torna esse organismo uma alternativa economicamente viável e ecológica em processos de biorremediação. As macroalgas pertencentes ao gênero Gracilaria, possuem grande importância econômica na produção de ágar, e alguns de seus metabólitos são utilizados no ramo farmacêutico, medicinal e de cosméticos. No entanto, esse gênero pode ser também um bom bioindicador da presença de metais, e os efeitos causados por esses compostos, potenciais biomarcadores. O objetivo presente estudo é verificar os efeitos dos metais cobre (Cu) e cádmio (Cd) em enzimas antioxidantes e de biotransformação na espécie Gracilaria domingensis, e os mecanismos de retenção e detoxificação desses metais. A descrição desses mecanismos visa contribuir com a possibilidade de utilização dessas macroalgas para remediação de ambientes impactados. Para tanto foram desenvolvidos experimentos para definição de valores de IC50 que estabeleceram que os valores de IC50 para o cobre e cádmio para espécie Graciliaria domingensis são 10,6 e 1,05 mg/L, respectivamente. E foram feitos experimentos utilizando as concentrações de cobre de 5,3 e 10,6 mg/L (½ IC50 e IC50) por períodos de 1, 24 e 48 horas. Experimentos com grupos de recuperação, além de experimentos utilizando as concentrações determinadas pelo CONAMA 357/2005 e experimentos de perfil temporal de formação de fitoquelatinas e resposta de biomarcadores após 24, 48, 72 e 96 horas de exposição. As análises das algas expostas demonstraram aumento na atividade da glutationa peroxidase (GPx), glutationa-Stransferase (GST) e ascorbato peroxidase (APx). No entanto, a catalase (CAT) não apresentou atividade detectável, nem mesmo na presença do metal. As análises teste de fitoquelatinas, GSH e GSSG foram inconclusivas, porém os novos testes realizados com concentrações legisladas e relativas ao IC50 mostraram alterações significativas nos níveis de GSSG e GSH para exposição ao cobre, no entanto, o grupo tratado com cádmio foi o único que apresentou fitoquelatinas detectáveis. A espécie Gracilaria domingensis tem demonstrado potencial como organismos bioindicador e os biomarcadores estão fornecendo resultados promissores. / In the last years great importance are being dedicated to the research of metals because of their environmental impact, persistence and the possibility of bioacummulation and biomagnification. The large amount of effluents produced by urban, industrial, agricultural and mining activities among others affect particularly the coastal areas. In this context, the algae which compose the basis of the foodweb, and have the capacity to stock metals decreasing their availability in the environment and therefore to other species inhabiting the area. Such characteristic make the algae a feasibly economic and ecological alternative to be used in bioremediation approaches. Macroalgae belonging to the genus Gracilaria, possess already an economical importance in the production of agar and, some of its metabolites are commonly used in the pharmaceutical industry. The organisms of this genus can also be an indicator of the metal presence in the environment and the effects caused by these compounds potential biomarkers. The objective of this project is to assess the effect of copper (Cu) and cadmium (Cd) on antioxidant or biotransformation enzymes in the algae Gracilaria domingensis and also the mechanisms of retention and detoxification of these metals. The description of these mechanisms can contribute to further use this macroalgae to bioremediation processes. Experiments established the IC50 of copper and cadmium in Gracilaria domingensis at 10.6 and 1.05 mg. L-1, respectively. Experiments using the copper\'s concentrations 5.3 and 10.6 mg. L-1 (½ IC50 and IC50) for 1, 24 and 48 h of were performed. Besides experiments with recovery groups, experiments using CONAMA 357/2005 concentration and experiment with different times of exposure (24, 48,72 and 96 hours) to understand better when phytochelatins starts to be produced and a profile of biomarkers The analysis of exposed algae to copper demonstrated an increased activity of glutathione peroxidase (GPx), glutathione-S-transferase (GST) and ascorbate peroxidase (APx). Interestingly, the catalase (CAT) activity was not detected even though in the presence of metal. Other experiments using concentration determined by CONAMA and IC50 was performed, as well experiments using recovery groups, and a temporal profile, to see the results for 24, 48, 72 e 96 hours of exposure. The analysis of phytochelatine, GSH and GSSG test were inconclusive and new conducted tests with CONAMA\'s and IC50 concentration showed significant alterations in the levels of GSSG e GSH for the samples exposed to copper, however, only the group treated with cadmium demonstrated detectable levels of phytochelatin. The species Gracilaria domingensis has been demonstrating the potential as a bioindicator organism and the biomarkers are producing promising results.

Biomarcadores

Gracilaria domingensis

Macroalgas

Metais

Biomarkers

Gracilaria domingensis

Macroalgae

Metals

Coral vs. Macroalgae: Relative Susceptibility to Sedimentation and Ocean Warming

Galarno, Ashton J

28 July 2017

Sedimentation and ocean warming are two major anthropogenic stressors that directly affect coral recruitment and recovery. Many coral-dominated reefs have undergone phase shifts becoming macroalgae-dominated because of the coral population’s inability to tolerate these increasing stressors. Predicting these phase shifts requires a determination of the relative susceptibility of coral and macroalgae to these stressors. The objective of this study was to quantitatively assess the synergistic effects of sedimentation and elevated temperature on the survival and growth of Montastraea cavernosa newly settled coral juveniles, and fragments of the macroalgae, Dictyota ciliolata. A crossed experimental design tested the two temperatures and four sedimentation levels. After 12 weeks, a 2°C increase in temperature did not significantly affect survival of the M. cavernosa juveniles or fragments of D. ciliolata. Montastraea cavernosa juvenile survival was negatively affected by a decrease in sediment. Dictyota ciliolata survival was highly sensitive to the increase in sedimentation. The survival and growth of both species appeared to be susceptible to an increase in sedimentation, but in opposite ways. This study demonstrates that both M. cavernosa juveniles and D. ciliolata fragments may be more vulnerable to light caused by changes in turbidity rather than temperature.

Coral

macroalgae

sedimentation

ocean warming

juvenile

survival

growth

Marine Biology

Identification and characterization of microorganisms associated with marine macroalgae Splachnidium rugosum

Albakosh, Mouna Abdalhamed

January 2014

>Magister Scientiae - MSc / Marine macroalgae are known to carry diverse bacterial communities which interact with their hosts in both harmful and beneficial ways. Algae hosts provide the bacteria with a rich source of carbon in the form of carbohydrate polysaccharides such as fucoidan, agar and alginate, which the bacteria enzymatically degrade. Splachnidium rugosum is a brown alga (Phylum: Phaeophyta) that grows exclusively in the Southern Hemisphere along the temperate shores of South Africa, New Zealand and Australia. While several studies have investigated S. rugosum distribution and fucoidan production, the microbiome of S. rugosum remains largely uncharacterized. Thus, the major objective of the present study was to isolate, identify and characterize epiphytic bacterial communities associated with S. rugosum. Algae were sourced from Rooi Els (Western Cape, South Africa) during winter 2012. Culture based methods relied on a range of selective marine media including marine agar, nutrient sea water agar, nutrient agar and thiosulfate-citrate-bile-salts-sucrose agar to determine the composition and uniqueness of bacterial communities associated with S. rugosum. Epiphytic isolates were identified to species level by 16S rRNA gene sequence analysis and encompassed 39 Gram-negative and 2 Grampositive bacterial taxa. Isolates were classified into four phylogenetic groups, Gamma - Proteobacteria, Alpha-Proteobacteria, Firmicutes and Bacteriodetes. Bacteria belonging to the phylum Gamma-Proteobacteria were the most abundant, with Vibrio and Pseudoalteromonas being the dominant genera. Three isolates with low sequence identity (˂97%) to their closest relatives could possibly represent novel species. These isolates were grouped into the genera Shewanella, Sphingomonas and Sulfitobacter. All bacterial isolates (41) were screened for antimicrobial activity against the following test strains: Escherichia coli, Bacillus cereus, Staphylococcus epidermidis, Mycobacterium smegmatis Micrococcus luteus and Pseudomonas putida. Fifteen isolates (36%) displayed antimicrobial activity against one or more of the test strains, while one isolate (Pseudomonas species) showed broad spectrum antimicrobial activity against all the test strains except for E. coli. This study provides the first account of the diversity and composition of bacterial populations on the surface of S. rugosum, and demonstrates the ability of these bacteria to produce antimicrobial compounds. Despite recent advances in metagenomics, this study highlights the fact that traditional culturing technologies remain a valuable tool for the discovery of novel bioactive compounds of bacterial origin.

Marine macroalgae

Bacterial communities

Algae

Carbohydrate polysaccharides

Splachnidium rugosum

Functional diversity of herbivorous fishes in coral reefs in central Red Sea

Pombo-Ayora, Lucía

04 1900

In this research, I explore the changes in the functional diversity of herbivorous fishes in zones of coral reefs with different benthic composition: a zone dominated by corals, a zone dominated by algae and a transition zone in between the previous two. I choose to use functional traits which explain the feeding mechanics of this group of fish, as well their feeding rates and their previously established functional groups to understand how different assemblages of this fishes could affect their environment in different ways. I found clear differences in the functional diversity by calculating five indexes, functional dispersion (FDis), functional richness (FRic), functional divergence (FDiv), functional evenness (FEve) and functional specialization (FSpe). Each zone showed different species composition with different abundances; both parameters contribute to obtaining different values of the indexes. The coral-dominated zone showed the biggest multidimensional functional trait space (MFTS) with a value of FRic equals to 1 which means that its assemblage occupies 100% of the MFTS, while the transition zone assemblage occupied 83% and the algae-dominated zone occupied 16% of it. Thanks to this index I identified three functionally redundant species in the coral-dominated and the transition zones. The algae-dominated zone showed the lower FDis explained by the high abundance of grazers individuals. FDiv did not vary significantly between the three zones. FEve was higher in the algae-dominated zone; the index value decreased in the transition and coral-dominated zones, a similar tendency was shown by FSpe. Finally, to explore the importance of including functional diversity I made a comparison between the taxonomic and functional β-diversity. This research showed close relations of herbivorous fishes with their environment, but I could not establish if the benthic composition shapes the herbivorous fish assemblage or the other way around. This research can be a baseline to start working in functional diversity in the Red Sea coral reefs, can help to understand what to expect in the evaluation of reefs in different health state and to identify which herbivorous fish species or groups are more vulnerable and more important according to their function for coral reefs.

Reef degradation

Complementarity

Functional traits

Macroalgae

Redundancy

Resilience

Variations in reef-associated fish communities in response to different benthic states in the east central Red Sea

Short, George

08 1900

Coral reefs are priority habitats which are vulnerable to natural and anthropogenic disturbances. These can cause phase shifts from coral habitat to degraded algal-dominated states – and consequent changes in the distribution, abundance and activity of associated fish species. In the eastern Red Sea, human-induced reef degradation is likely to increase with planned development of the Saudi Arabian coast and the changing climate. The present study therefore investigates the ecological effects of coral-algal phase shifts in reef-associated fish communities, using naturally occurring within-reef benthic zones as proxies for levels of habitat health - with a focus on how these responses differ temporally. These zones were dominated by: hard coral (coral zone), coral and turf algae (transition zone), and macroalgal canopies (algal zone). Six inshore reef areas, were studied in periods with low and high densities of Sargassum in the algal zones (May and November respectively). Community composition was assessed via visual census and predation activity predicted using two proxies: in situ experiments and biomass of carnivores. In both periods, we observed distinct fish communities in each zone - with reduced species richness, Shannon-Wiener diversity and predation intensity, from the coral to the algal zones. Decreases in the abundance and biomass of fish also occurred from the coral to algal zones in May but a spike, as well as a shift in community composition, occurred in the algal zone in November. This shift is attributed to the vast increases in grazer biomass, predominantly Siganus luridus, associated with the November bloom of Sargassum canopies. The present study established, the composition and functioning of Red Sea fish communities is spatially and temporally affected by increased macroalgal dominance. This finding supports the need for herbivorous fish to be made a conservation priority in the management and conservation of reef systems in order to prevent phase shifts to algal dominated states. We conclude that if Red Sea reefs are allowed to shift to alternate states, depending on the density of macroalgal canopies, reefs may support high biomass and abundance of fish but the functioning of the fish community will be altered and the diversity lost.

Reef Ecosystems

Phase Shifts

Macroalgae

Fish communities

predation

Benthic Habitat

Impacts of Nighttime Hypoxia on the Physiological Performance of Red Sea Macroalgae

Alamoudi, Taiba

11 1900

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.

Hypoxia Thresholds

Deoxygenation

Macroalgae

Red Sea

Nighttime

Dark

Investigation of the natural products composition from the seaweed ulva capensis

Thwala, Sazi Selby

January 2019

>Magister Scientiae - MSc / In modern society, diversity of marine macroalgae has become an inspiration for pharmaceutical companies and researchers because of their numerous health benefits, and a great deal of interest has developed towards the isolation of bioactive compounds to identify novel marine natural products that could eventually be developed into therapeutics or pharmaceutical products. Furthermore, marine macroalgae are valuable source of structurally diverse metabolites with scientifically proven reports. The search continues as there are many natural bioactive compounds that are in the womb of the ocean which are still a mystery. Thus, the present study investigates the natural products from green seaweed Ulva capensis.

Natural products

Ulva capensis

Marine macroalgae

Bioactive compounds

Green seaweed

Thermal conversion of macroalga Macrocystis pyrifera for production of carbon-negative hydrogen

Gallego, Carolina Arias

03 1900

In recent years, third-generation--or algae-based biofuels--have been studied extensively in order to reduce the risks of compromised food security, solve biofuel issues from past generations and supply continuous feedstock from energy crops. With the goal of a zero-carbon future, bioenergy with carbon capture and storage (BECCS) is a technology that extends to multiple areas--including algae-based biofuels that avoid greenhouse emissions from biomass processing. Algae are aquatic plants or microorganisms, classified as micro and macroalgae; they are of considerable scientific interest because they are fast-growing, with a photosynthetic metabolism that generates carbon sources from atmospheric CO$_2$. Macroalgae (seaweed) can be cultivated in aquaculture farms and collected through mechanical devices; the macroalga selected for this study is Macrocystis pyrifera, a giant brown seaweed characterized by its size and its carbon and oxygen-rich composition. Conventional methods for thermal conversion into potential fuels, such as biomass carbonization, pyrolysis, and gasification are not efficient for biomass with high moisture. For this reason, the research community has introduced new methods like hydrothermal carbonization, liquefaction, and gasification. This project focuses on the process simulation in Aspen plus® V12 to produce green hydrogen from macroalgae biomass by pyrolysis, gasification, and hydrothermal gasification. Hydrogen production was maximized through sensitivity analysis, achieving a hydrogen yield of 2.08% in hydrothermal gasification, 2.06% for pyrolysis, and 1.85% for gasification.

macroalgae

supercritical water

hydrothermal conversion

pyrolysis

gasification

BECCS