While there is an accrued interest in the production and application of bioactive compounds from ... more While there is an accrued interest in the production and application of bioactive compounds from macroalgae, several of these compounds with high industrial and commercial interest remain underexplored. Carotenoids (and specifically fucoxanthin) normally found in brown macroalgae are examples of these compounds. One of the major issues associated with the poor commercial exploitation of these biomolecules is the need for a highly performant and low cost extraction process to extract them selectively from the algal biomass. In this work, aqueous solutions of various non-ionic surfactants were screened for the carotenoids extraction. Moreover, and after the selection of the most performant surfactants, several processing conditions, namely the solid-liquid ratio, concentration of surfactant and time of extraction were evaluated. The optimal conditions were applied to the extraction of carotenoids for both Portuguese and Brazilian algae species. With the process of extraction developed in this work, that was optimized for the dry seaweed biomass but it is also applicable to the fresh one, extraction results of 5.28 ± 2.01 mg carotenoids /g biomass for Tomadol 25-7 and 1.86 ± 0.06 mg carotenoids /g biomass for Pluronic P-123 were obtained. Despite the higher extraction efficiency of the conventional (ethanol-based) method (6.48 ± 0.01 mg carotenoids /g biomass), the methodology proposed in this work allows a much higher selectivity of the carotenoids extraction since, unlike with ethanol, less contaminants (in particular chlorophylls) are extracted along with the carotenoids. This work proposes a simpler (with less extraction steps), more selective and organic solvent-free extractive process to recover carotenoids from brown macroalgae, directly applicable to fresh biomass.
ABSTRACT Understanding the mechanisms by which marine organisms cope to environmental stressful c... more ABSTRACT Understanding the mechanisms by which marine organisms cope to environmental stressful conditions is a fundamental question for ecotoxicology. We examined biochemical and cellular responses of Hypnea musciformis exposed in vitro to four concentrations of diesel oil (0 (control), 0.001, 0.01, 0.1, and 1 % v/v) for 0, 30 min, 1, 12, and 24 h. Chl a content decreased after exposure for 1, 12, and 24 h. Carotenoids increased after 30 min and 12 h and decreased after 1 and 24 h. Phenolic content was lower in samples exposed to 0.1 and 1 % of diesel oil. After treatment, samples showed a decrease in floridean starch grains, cell volume and autofluorescence intensity, changes in chloroplast morphology, and on the surface topography of the cell wall. These findings provide preliminary but important results on biochemical and cellular responses of H. musciformis when exposed to diesel oil and could be considered as tools for monitoring oil spills.
The effects of the heavy metals copper (Cu) and lead (Pb) on Sargassum cymosum were evaluated by ... more The effects of the heavy metals copper (Cu) and lead (Pb) on Sargassum cymosum were evaluated by determining uptake capacity, growth rates, photosynthetic efficiency, contents of photosynthetic pigments and phenolic compounds, 2,2-diphenyl-1-picrylhydrazyl radical-scavenging capacity, and morphological and cellular changes. S. cymosum was cultivated with Cu and Pb separately and combined at concentrations of 10, 25, and 50 μM for 7 days in laboratory-controlled conditions. Seaweeds under Cu treatment showed the highest biosorption capacity, and growth rates were significantly reduced compared to the control. The photosynthesis/irradiance curves showed alterations in kinetic patterns in the metal-treated samples. Specifically, Cu treatment alone inhibited electron transport rate (ETR) response, while Pb alone induced it. However, samples treated with both Cu and Pb (Cu+Pb) showed inhibition in ETR. The total amount of pigments increased relative to control. Light microscopy showed an increase in phenolic compounds, with physodes migrating towards cortical cells. Scanning electronic microscopy revealed alterations in the typical rough surface of thallus, when compared with control, especially for Pb treatments. Based on these results, it could be concluded that Cu and Pb are stress factors for S. cymosum, promoting alterations in seaweed metabolism and stimulating protective mechanisms against oxidative stress. However, the high bioaccumulation capacity of both heavy metals indicates a possible application for S. cymosum as a biosorbent agent for contaminated wastewater when metals are in low concentrations.
By evaluating carotenoid content, photosynthetic pigments and changes in cellular morphology, gro... more By evaluating carotenoid content, photosynthetic pigments and changes in cellular morphology, growth rates, and photosynthetic performance, this study aimed to determine the effect of cadmium (Cd) on the development of young gametophytes of Gelidium floridanum. Plants were exposed to 7.5 and 15 μM of Cd for 7 days. Control plants showed increased formation of new filamentous thallus, increased growth rates, presence of starch grains in the cortical and subcortical cells, protein content distributed regularly throughout the cell periphery, and intense autofluorescence of chloroplasts. On the other hand, plants treated with Cd at concentrations of 7.5 and 15 μM showed few formations of new thallus with totally depigmented regions, resulting in decreased growth rates. Plants exposed to 7.5 μM Cd demonstrated alterations in the cell wall and an increase in starch grains in the cortical and subcortical cells, while plants exposed to 15 μM Cd showed changes in medullary cells with no organized distribution of protein content. The autofluorescence and structure of chloroplasts decreased, forming a thin layer on the periphery of cells. Cadmium also affected plant metabolism, as visualized by a decrease in photosynthetic pigments, in particular, phycoerythrin and phycocyanin contents, and an increase in carotenoids. This result agrees with decreased photosynthetic performance and chronic photoinhibition observed after treatment with Cd, as measured by the decrease in electron transport rate. Based on these results, it was concluded that exposure to Cd affects cell metabolism and results in significant toxicity to young gametophytes of G. floridanum.
Presence of toxic compounds in marine coastal waters has increased exponentially since Industrial... more Presence of toxic compounds in marine coastal waters has increased exponentially since Industrial Revolution. In this way, we aimed to evaluate biochemical and physiological changes occurring within Hypnea musciformis after short-term exposure to gasoline. Hypnea musciformis was cultivated without gasoline and then exposed to various concentrations of it (0.001 %-1.0 %, v/v) for periods of 30 min, 1 h, 12 h and 24 h. A Pricncipal Compound Analysis of UV-vis spectral window (200-700 nm) was able to discriminate gasoline-exposed samples according to both exposure time and gasoline concentration. Changes in carotenoid profile composition were observed. Decreased carotenoid content was associated to gasoline exposure time, being lutein and trans-β-carotene the major compounds found. Higher gasoline concentrations negatively interfered with phenolic compounds accumulation. In addition, increased gasoline concentrations corresponded to decreased intracellular starch grains content as well as increased its deposition on cell wall external surface. Data obtained allow us to conclude that gasoline can damage Hypnea musciformis physiology and cell morphology. This is important, considering Hypnea musciformis carotenoids and phenolics are potential biomarkers of environmental stress investigated, as well as its increased cell wall thickness to avoid gasoline diffusion.
Fossil fuels, e.g. gasoline and diesel oil, account for substantial share of the pollution that a... more Fossil fuels, e.g. gasoline and diesel oil, account for substantial share of the pollution that affects marine ecosystems. Environmental metabolomics is an emerging field that may help unravel the effect of these xenobiotics on seaweeds and provide methodologies for biomonitoring coastal ecosystems. In the present study, FTIR and multivariate analysis were used to discriminate metabolic profiles of Ulva lactuca after in vitro exposure to diesel oil and gasoline, in combinations of concentrations (0.001%, 0.01%, 0.1%, and 1.0% - v/v) and times of exposure (30 min, 1 h, 12 h, and 24 h). PCA and HCA performed on entire mid-infrared spectral window were able to discriminate diesel oil-exposed thalli from the gasoline-exposed ones. HCA performed on spectral window related to the protein absorbance (1700–1500 cm− 1) enabled the best discrimination between gasoline-exposed samples regarding the time of exposure, and between diesel oil-exposed samples according to the concentration. The res...
Understanding the mechanisms by which marine organisms cope to environmental stressful conditions... more Understanding the mechanisms by which marine organisms cope to environmental stressful conditions is a fundamental question for ecotoxicology. We examined biochemical and cellular responses of Hypnea musciformis exposed in vitro to four concentrations of diesel oil (0 (control), 0.001, 0.01, 0.1, and 1 % v/v) for 0, 30 min, 1, 12, and 24 h. Chl a content decreased after exposure for 1, 12, and 24 h. Carotenoids increased after 30 min and 12 h and decreased after 1 and 24 h. Phenolic content was lower in samples exposed to 0.1 and 1 % of diesel oil. After treatment, samples showed a decrease in floridean starch grains, cell volume and autofluorescence intensity, changes in chloroplast morphology, and on the surface topography of the cell wall. These findings provide preliminary but important results on biochemical and cellular responses of H. musciformis when exposed to diesel oil and could be considered as tools for monitoring oil spills.
While there is an accrued interest in the production and application of bioactive compounds from ... more While there is an accrued interest in the production and application of bioactive compounds from macroalgae, several of these compounds with high industrial and commercial interest remain underexplored. Carotenoids (and specifically fucoxanthin) normally found in brown macroalgae are examples of these compounds. One of the major issues associated with the poor commercial exploitation of these biomolecules is the need for a highly performant and low cost extraction process to extract them selectively from the algal biomass. In this work, aqueous solutions of various non-ionic surfactants were screened for the carotenoids extraction. Moreover, and after the selection of the most performant surfactants, several processing conditions, namely the solid-liquid ratio, concentration of surfactant and time of extraction were evaluated. The optimal conditions were applied to the extraction of carotenoids for both Portuguese and Brazilian algae species. With the process of extraction developed in this work, that was optimized for the dry seaweed biomass but it is also applicable to the fresh one, extraction results of 5.28 ± 2.01 mg carotenoids /g biomass for Tomadol 25-7 and 1.86 ± 0.06 mg carotenoids /g biomass for Pluronic P-123 were obtained. Despite the higher extraction efficiency of the conventional (ethanol-based) method (6.48 ± 0.01 mg carotenoids /g biomass), the methodology proposed in this work allows a much higher selectivity of the carotenoids extraction since, unlike with ethanol, less contaminants (in particular chlorophylls) are extracted along with the carotenoids. This work proposes a simpler (with less extraction steps), more selective and organic solvent-free extractive process to recover carotenoids from brown macroalgae, directly applicable to fresh biomass.
ABSTRACT Understanding the mechanisms by which marine organisms cope to environmental stressful c... more ABSTRACT Understanding the mechanisms by which marine organisms cope to environmental stressful conditions is a fundamental question for ecotoxicology. We examined biochemical and cellular responses of Hypnea musciformis exposed in vitro to four concentrations of diesel oil (0 (control), 0.001, 0.01, 0.1, and 1 % v/v) for 0, 30 min, 1, 12, and 24 h. Chl a content decreased after exposure for 1, 12, and 24 h. Carotenoids increased after 30 min and 12 h and decreased after 1 and 24 h. Phenolic content was lower in samples exposed to 0.1 and 1 % of diesel oil. After treatment, samples showed a decrease in floridean starch grains, cell volume and autofluorescence intensity, changes in chloroplast morphology, and on the surface topography of the cell wall. These findings provide preliminary but important results on biochemical and cellular responses of H. musciformis when exposed to diesel oil and could be considered as tools for monitoring oil spills.
The effects of the heavy metals copper (Cu) and lead (Pb) on Sargassum cymosum were evaluated by ... more The effects of the heavy metals copper (Cu) and lead (Pb) on Sargassum cymosum were evaluated by determining uptake capacity, growth rates, photosynthetic efficiency, contents of photosynthetic pigments and phenolic compounds, 2,2-diphenyl-1-picrylhydrazyl radical-scavenging capacity, and morphological and cellular changes. S. cymosum was cultivated with Cu and Pb separately and combined at concentrations of 10, 25, and 50 μM for 7 days in laboratory-controlled conditions. Seaweeds under Cu treatment showed the highest biosorption capacity, and growth rates were significantly reduced compared to the control. The photosynthesis/irradiance curves showed alterations in kinetic patterns in the metal-treated samples. Specifically, Cu treatment alone inhibited electron transport rate (ETR) response, while Pb alone induced it. However, samples treated with both Cu and Pb (Cu+Pb) showed inhibition in ETR. The total amount of pigments increased relative to control. Light microscopy showed an increase in phenolic compounds, with physodes migrating towards cortical cells. Scanning electronic microscopy revealed alterations in the typical rough surface of thallus, when compared with control, especially for Pb treatments. Based on these results, it could be concluded that Cu and Pb are stress factors for S. cymosum, promoting alterations in seaweed metabolism and stimulating protective mechanisms against oxidative stress. However, the high bioaccumulation capacity of both heavy metals indicates a possible application for S. cymosum as a biosorbent agent for contaminated wastewater when metals are in low concentrations.
By evaluating carotenoid content, photosynthetic pigments and changes in cellular morphology, gro... more By evaluating carotenoid content, photosynthetic pigments and changes in cellular morphology, growth rates, and photosynthetic performance, this study aimed to determine the effect of cadmium (Cd) on the development of young gametophytes of Gelidium floridanum. Plants were exposed to 7.5 and 15 μM of Cd for 7 days. Control plants showed increased formation of new filamentous thallus, increased growth rates, presence of starch grains in the cortical and subcortical cells, protein content distributed regularly throughout the cell periphery, and intense autofluorescence of chloroplasts. On the other hand, plants treated with Cd at concentrations of 7.5 and 15 μM showed few formations of new thallus with totally depigmented regions, resulting in decreased growth rates. Plants exposed to 7.5 μM Cd demonstrated alterations in the cell wall and an increase in starch grains in the cortical and subcortical cells, while plants exposed to 15 μM Cd showed changes in medullary cells with no organized distribution of protein content. The autofluorescence and structure of chloroplasts decreased, forming a thin layer on the periphery of cells. Cadmium also affected plant metabolism, as visualized by a decrease in photosynthetic pigments, in particular, phycoerythrin and phycocyanin contents, and an increase in carotenoids. This result agrees with decreased photosynthetic performance and chronic photoinhibition observed after treatment with Cd, as measured by the decrease in electron transport rate. Based on these results, it was concluded that exposure to Cd affects cell metabolism and results in significant toxicity to young gametophytes of G. floridanum.
Presence of toxic compounds in marine coastal waters has increased exponentially since Industrial... more Presence of toxic compounds in marine coastal waters has increased exponentially since Industrial Revolution. In this way, we aimed to evaluate biochemical and physiological changes occurring within Hypnea musciformis after short-term exposure to gasoline. Hypnea musciformis was cultivated without gasoline and then exposed to various concentrations of it (0.001 %-1.0 %, v/v) for periods of 30 min, 1 h, 12 h and 24 h. A Pricncipal Compound Analysis of UV-vis spectral window (200-700 nm) was able to discriminate gasoline-exposed samples according to both exposure time and gasoline concentration. Changes in carotenoid profile composition were observed. Decreased carotenoid content was associated to gasoline exposure time, being lutein and trans-β-carotene the major compounds found. Higher gasoline concentrations negatively interfered with phenolic compounds accumulation. In addition, increased gasoline concentrations corresponded to decreased intracellular starch grains content as well as increased its deposition on cell wall external surface. Data obtained allow us to conclude that gasoline can damage Hypnea musciformis physiology and cell morphology. This is important, considering Hypnea musciformis carotenoids and phenolics are potential biomarkers of environmental stress investigated, as well as its increased cell wall thickness to avoid gasoline diffusion.
Fossil fuels, e.g. gasoline and diesel oil, account for substantial share of the pollution that a... more Fossil fuels, e.g. gasoline and diesel oil, account for substantial share of the pollution that affects marine ecosystems. Environmental metabolomics is an emerging field that may help unravel the effect of these xenobiotics on seaweeds and provide methodologies for biomonitoring coastal ecosystems. In the present study, FTIR and multivariate analysis were used to discriminate metabolic profiles of Ulva lactuca after in vitro exposure to diesel oil and gasoline, in combinations of concentrations (0.001%, 0.01%, 0.1%, and 1.0% - v/v) and times of exposure (30 min, 1 h, 12 h, and 24 h). PCA and HCA performed on entire mid-infrared spectral window were able to discriminate diesel oil-exposed thalli from the gasoline-exposed ones. HCA performed on spectral window related to the protein absorbance (1700–1500 cm− 1) enabled the best discrimination between gasoline-exposed samples regarding the time of exposure, and between diesel oil-exposed samples according to the concentration. The res...
Understanding the mechanisms by which marine organisms cope to environmental stressful conditions... more Understanding the mechanisms by which marine organisms cope to environmental stressful conditions is a fundamental question for ecotoxicology. We examined biochemical and cellular responses of Hypnea musciformis exposed in vitro to four concentrations of diesel oil (0 (control), 0.001, 0.01, 0.1, and 1 % v/v) for 0, 30 min, 1, 12, and 24 h. Chl a content decreased after exposure for 1, 12, and 24 h. Carotenoids increased after 30 min and 12 h and decreased after 1 and 24 h. Phenolic content was lower in samples exposed to 0.1 and 1 % of diesel oil. After treatment, samples showed a decrease in floridean starch grains, cell volume and autofluorescence intensity, changes in chloroplast morphology, and on the surface topography of the cell wall. These findings provide preliminary but important results on biochemical and cellular responses of H. musciformis when exposed to diesel oil and could be considered as tools for monitoring oil spills.
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