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Physiological studies to optimize algal biomass production in phytoremediation processesMazzotti, Matilde <1986> 11 May 2015 (has links)
Nowadays microalgae are studied, and a number of species already mass-cultivated, for their application in many fields: food and feed, chemicals, pharmaceutical, phytoremediation and renewable energy. Phytoremediation, in particular, can become a valid integrated process in many algae biomass production systems.
This thesis is focused on the physiological and biochemical effects of different environmental factors, mainly macronutrients, lights and temperature on microalgae. Microalgal species have been selected on the basis of their potential in biotechnologies, and nitrogen occurs in all chapters due to its importance in physiological and applicative fields.
There are 5 chapters, ready or in preparation to be submitted, with different specific matters: (i) to measure the kinetic parameters and the nutrient removal efficiencies for a selected and local strain of microalgae; (ii) to study the biochemical pathways of the microalga D. communis in presence of nitrate and ammonium; (iii) to improve the growth and the removal efficiency of a specific green microalga in mixotrophic conditions; (iv) to optimize the productivity of some microalgae with low growth-rate conditions through phytohormones and other biostimulants; and (v) to apply the phyto-removal of ammonium in an effluent from anaerobic digestion.
From the results it is possible to understand how a physiological point of view is necessary to provide and optimize already existing biotechnologies and applications with microalgae.
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Biodiversity Study on Wild Food Plants Traditionally Consumed in the Area of Bologna (Emilia romagna Region, Italy) and in the Middle Agri Valley (Basilicata Region, Potenza Province, Italy)Sansanelli, Sabrina <1979> 17 May 2016 (has links)
The aim of this project was to record the Traditional Local Knowledge (TLK) concerning the traditional uses of wild food plants together with all the practices linked as gathering, processing, cooking, including the therapeutic uses, to re-discover plant species often under-utilized or neglected and to identify those with new or underestimated healthy effects for human people.
This research was performed in two areas belonging to the province of the city of Bologna (Emilia-Romagna region, Northern Italy) and in the Middle Agri Valley (Potenza province, Basilicata region, Southern Italy).
Up to now no research has been carried out on the use of wild edibles in these territories and, therefore, this study represents the first attempt to collect and save from oblivion an important part of the cultural heritage preserved by these populations.
Using an ethnobotanical approach, people still retaining TLK about wild food plants were interviewed recording the edible species and related practices used.
By means of the Relative Frequency of Citation index (RFC), it was possible to state that Crepis vesicaria subsp. taraxacifolia (Thuill) Thell and Cichorium intybus L. were the most recognised and important wild food species respectively in the area of Bologna and in the Middle Agri Valley.
The results of the two investigated areas were compared.
The ethnobotanical study was followed by a metabolic screening of 34 plants samples mentioned by the informants (13 collected in Bologna’s area and 21 in Middle Agri Valley).
Sanguisorba minor Scop. showed the highest antioxidant activity and polyphenol content; Mentha spicata L. exhibited the highest flavonoid content; Sinapis arvensis L. revealed the highest content of chlorophylls and carotenoids and Clematis vitalba L. the highest protein content.
Finally, the most considerable and cited species in the area of Bologna, Crepis vesicaria subsp. taraxacifolia (Thuill) Thell, was analysed by an untargeted metabolomics approach.
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The Harmful Benthic Dinoflagellate Ostreopsis cf. Ovata: Biotic Factors Affecting its Growth and ToxicityGuidi, Flavio <1985> January 1900 (has links)
Over the last two decades, Ostreopsis cf. ovata blooms have been reported with increased frequency, intensity and areal distribution in the Mediterranean Sea. The epiphytic/benthic dinoflagellate proliferates under low hydrodinamism, and produces toxins (palytoxin-like compounds) causing human health problems and massive mortalities of benthic invertebrate communities. While several studies have assessed some effects of abiotic factors like hydrodynamics, water temperature and inorganic nutrients on O. cf. ovata bloom dynamics, biotic factors have been barely addressed. In an effort to provide insights about competition with other microalgal species and microalgal-bacterial interactions in affecting O. cf. ovata growth, physiology and ultimately bloom dynamics, this thesis investigated: (i) the inorganic nutrients uptake and organic phosphorus utilization by O. cf. ovata; (ii) the phylogenetic structure of bacterial assemblages co-occurring with O. cf. ovata bloom in situ; (iii) the microbial (bacteria and viruses) dynamics and toxin production along the O. cf. ovata growth in batch cultures. Data collected show the high efficiency of O. cf. ovata in both inorganic and organic phosphate acquisition, an aspect that could confer advantages towards competing species co-occurring in the microphytobenthos. Recurrent functional associations between O. cf. ovata and Alphaproteobacteria have been evidenced both in situ and in batch cultures, and indicate the latter as a reliable tool for future investigations on O. cf. ovata-bacteria interactions. The ability of some O. cf. ovata-associated Roseobacters (i.e. Ruegeria, Jannaschia, Dinoroseobacter, Roseovarius) to switch from mutualistic to antagonistic relationships depending on algal physiological status suggests an important role of dinoflagellate-bacterial interactions in bloom dynamics. Furthermore, while the vast majority of studies on harmful algal blooms to date have focused on macronutrients’ dynamics, data in this thesis pave the way for further investigations on the role of allochthonous vitamins in O. cf. ovata bloom development and maintenance.
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Effetti del chitosano su composti polifenolici in colture cellulari di vite: aspetti molecolari e metaboliciFerri, Maura <1979> 03 April 2008 (has links)
Polyphenols, including flavonoids and stilbenes, are an essential part of human diet and constitute
one of the most abundant and ubiquitous group of plant secondary metabolites. The level of these
compounds is inducible by stress or fungal attack, so attempts are being made to identify likely
biotic and abiotic elicitors and to better understand the underlying mechanism.
Resveratrol (3,5,4’-trihydroxystilbene), which belongs to the stilbene family, is a naturally
occurring polyphenol, found in several fruits, vegetables and beverages including red wine. It is one
of the most important plant polyphenols with proved benefic activity on animal health. In the last
two decades, the potential protective effects of resveratrol against cardiovascular and
neurodegenerative diseases, as well as the chemopreventive properties against cancer, have been
largely investigated. The most important source of polyphenols and in particular resveratrol for
human diet is grape (Vitis vinifera).
Since stilbenes and flavonoids play a very important role in plant defence responses and
enviromental interactions, and their effects on human health seem promising, the aim of the
research of this Thesis was to study at different levels the activation and the regulation of their
biosynthetic pathways after chitosan treatment. Moreover, the polyphenol production in grape cells
and the optimisation of cultural conditions bioreactor scale-up, were also investigated.
Cell suspensions were obtained from cv. Barbera (Vitis vinifera L.) petioles and were treated with a
biotic elicitor, chitosan (50 μg/mL, dissolved in acetic acid) to promote phenylpropanoid
metabolism. Chitosan is a D-glucosamine polymer from fungi cell wall and therefore mimes fungal
pathogen attack.
Liquid cultures have been monitored for 15 days, measuring cell number, cell viability, pH and
grams of fresh weight. The endogenous and released amounts of 7 stilbenes (trans and cis isomers
of resveratrol, piceid and resveratroloside, and piceatannol), gallic acid, 6 hydroxycinnamic acids
(trans-cinnamic, p-coumaric, caffeic, ferulic, sinapic and chlorogenic acids), 5 catechines (catechin,
epicatechin, epigallocatechin-gallate (EGCG), epigallocatechin and epicatechin-gallate) and other 5
flavonoids (chalcon, naringenin, kaempferol, quercetin and rutin) in cells and cultural medium,
were measured by HPLC-DAD analysis and total anthocyanins were quantified by
spectrophotometric analysis.
Chitosan was effective in stimulating trans-resveratrol endogenous accumulation with a sharp peak
at day 4 (exceeding acetic acid and water controls by 36% and 63%, respectively), while it did not influence the production of the cis-isomer. Compared to both water and acetic acid controls,
chitosan decreased the release of both trans- and cis-resveratrol respect to controls.
No effect was shown on the accumulation of single resveratrol mono-glucoside isomers, but
considering their total amount, normalized for the relative water control, it was possible to evidence
an increase in both accumulation and release of those compounds, in chitosan-treated cells,
throughout the culture period and particularly during the second week.
Many of the analysed flavonoids and hydroxycinnamic acids were not present or detectable in trace
amounts. Catechin, epicatechin and epigallocatechin-gallate (EGCG) were detectable both inside
the cells and in the culture media, but chitosan did not affect their amounts. On the contrary, total
anthocyanins have been stimulated by chitosan and their level, from day 4 to 14, was about 2-fold
higher than in both controls, confirming macroscopic observations that treated suspensions showed
an intense brown-red color, from day 3 onwards.
These elicitation results suggest that chitosan selectively up-regulates specific biosynthetic
pathways, without modifying the general accumulation pattern of other flavonoids.
Proteins have been extracted from cells at day 4 of culture (corresponding to the production peak of
trans-resveratrol) and separated by bidimensional electrophoresis. The 73 proteins that showed a
consistently changed amount between untreated, chitosan and acetic acid (chitosan solvent) treated
cells, have been identified by mass spectrometry. Chitosan induced an increase in stilbene synthase
(STS, the resveratrol biosynthetic enzyme), chalcone-flavanone isomerase (CHI, that switches the
pathway from chalcones to flavones and anthocyanins), pathogenesis-related proteins 10 (PRs10, a
large family of defence proteins), and a decrease in many proteins belonging to primary
metabolisms. A train of six distinct spots of STS encoded by the same gene and increased by
chitosan, was detected on the 2-D gels, and related to the different phosphorylation degree of STS
spots.
Northern blot analyses have been performed on RNA extracted from cells treated with chitosan and
relative controls, using probes for STS, PAL (phenylalanine ammonia lyase, the first enzyme of the
biosynthetic pathway), CHS (chalcone synthase, that shares with STS the same precursors), CHI
and PR-10. The up-regulation of PAL, CHS and CHI transcript expression levels correlated with the
accumulation of anthocyanins. The strong increase of different molecular weight PR-10 mRNAs,
correlated with the 11 PR-10 protein spots identified in proteomic analyses.
The sudden decrease in trans-resveratrol endogenous accumulation after day 4 of culture, could be
simply explained by the diminished resveratrol biosynthetic activity due to the lower amount of
biosynthetic enzymes. This might be indirectly demonstrated by northern blot expression analyses,
that showed lower levels of phenylalanine ammonia lyase (PAL) and stilbene synthase (STS) mRNAs starting from day 4. Other possible explanations could be a resveratrol oxidation process
and/or the formation of other different mono-, di-glucosides and resveratrol oligomers such as
viniferins.
Immunolocalisation experiments performed on grape protoplasts and the subsequent analyses by
confocal microscope, showed that STS, and therefore the resveratrol synthetic site, is mostly
associated to intracellular membranes close to the cytosolic side of plasma membrane and in a
smaller amount is localized in the cytosol. STS seemed not to be present inside vacuole and
nucleus. There were no differences in the STS intracellular localisation between the different
treatments. Since it was shown that stilbenes are largely released in the culture medium and that
STS is a soluble protein, a possible interaction of STS with a plasma membrane transporter
responsible for the extrusion of stilbenes in the culture medium, might be hypothesized. Proteomic
analyses performed on subcellular fractions identified in the microsomial fraction 5 proteins taking
part in channel complexes or associated with channels, that significantly changed their amount after
chitosan treatment. In soluble and membrane fractions respectively 3 and 4 STS and 6 and 3 PR-10
have been identified. Proteomic results obtained from subcellular fractions substantially confirmed
previous result obtained from total cell protein extracts and added more information about protein
localisation and co-localisation.
The interesting results obtained on Barbera cell cultures with the aim to increase polyphenol
(especially stilbenes) production, have encouraged scale up tests in 1 litre bioreactors. The first trial
fermentation was performed in parallel with a normal time-course in 20 mL flasks, showing that the
scale-up (bigger volume and different conditions) process influenced in a very relevant way
stilbenes production.
In order to optimise culture parameters such as medium sucrose amount, fermentation length and
inoculum cell concentration, few other fermentations were performed. Chitosan treatments were
also performed. The modification of each parameter brought relevant variations in stilbenes and
catechins levels, so that the production of a certain compound (or class of compounds) could be
hypothetically promoted by modulating one or more culture parameters. For example the catechin
yield could be improved by increasing sucrose content and the time of fermentation.
The best results in stilbene yield were obtained in a 800 mL fermentation inoculated with 10.8
grams of cells and supplemented with chitosan. The culture was fed with MS medium added with
30 g/L sucrose, 25 μg/mL rifampicin and 50 μg/mL of chitosan, and was maintained at 24°C, stirred
by marine impeller at 100 rpm and supplied of air at 0.16 L/min rate. Resveratroloside was the
stilbene present in the larger amount, 3-5 times more than resveratrol. Because resveratrol
glucosides are similarly active and more stable than free resveratrol, their production using a bioreactor could be a great advantage in an hypothetical industrial process. In my bioreactor tests,
stilbenes were mainly released in the culture medium (60-80% of the total) and this fact could be
another advantage for industrial applications, because it allows recovering the products directly
from the culture medium without stopping the fermentation and/or killing the cells. In my best
cultural conditions, it was possible to obtain 3.95 mg/L of stilbenes at day 4 (maximum resveratrol
accumulation) and 5.13 mg/L at day 14 (maximum resveratroloside production).
In conclusion, chitosan effect in inducing Vitis vinifera defense mechanisms can be related to its
ability to increase the intracellular content of a large spectrum of antioxidants, and in particular of
resveratrol, its derivates and anthocyanins. Its effect can be observed at transcriptional, proteomic
(variation of soluble and membrane protein amounts) and metabolic (polyphenols production) level.
The chitosan ability to elicit specific plant matabolisms can be useful to produce large quantities of
antioxidant compounds from cell culture in bioreactor.
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Influence of climate changes on cross allergies: possible involvement of pollen transglutaminaseIorio, Rosa Anna <1980> 21 April 2009 (has links)
Allergies are a complex of symptoms derived from altered IgE-mediated reactions of the immune system towards substances known as allergens. Allergic sensibilization can be of food or respiratory origin and, in particular, apple and hazelnut allergens have been identified in pollens or fruits. Allergic cross-reactivity can occur in a patient reacting to similar allergens from different origins, justifying the research in both systems as in Europe a greater number of people suffers from apple fruit allergy, but little evidence exists about pollen. Apple fruit allergies are due to four different classes of allergens (Mal d 1, 2, 3, 4), whose allergenicity is related both to genotype and tissue specificity; therefore I have investigated their presence also in pollen at different time of germination to clarify the apple pollen allergenic potential.
I have observed that the same four classes of allergens found in fruit are expressed at different levels also in pollen, and their presence might support that the apple pollen can be considered allergenic as the fruit, deducing that apple allergy could also be indirectly caused by sensitization to pollen.
Climate changes resulting from increases in temperature and air pollution influence pollen allergenicity, responsible for the dramatic raise in respiratory allergies (hay fever, bronchial asthma, conjunctivitis). Although the link between climate change and pollen allergenicity is proven, the underlying mechanism is little understood.
Transglutaminases (TGases), a class of enzymes able to post-translationally modify proteins, are activated under stress and involved in some inflammatory responses, enhancing the activity of pro-inflammatory phospholipase A2, suggesting a role in allergies. Recently, a calcium-dependent TGase activity has been identified in the pollen cell wall, raising the possibility that pollen TGase may have a role in the modification of pollen allergens reported above, thus stabilizing them against proteases. This enzyme can be involved also in the transamidation of proteins present in the human mucosa interacting with surface pollen or, finally, the enzyme itself can represent an allergen, as suggested by studies on celiac desease. I have hypothesized that this pollen enzyme can be affected by climate changes and be involved in exhacerbating allergy response. The data presented in this thesis represent a scientific basis for future development of studies devoted to verify the hypothesis set out here.
First, I have demonstrated the presence of an extracellular TGase on the surface of the grain observed either at the apical or the proximal parts of the pollen-tube by laser confocal microscopy (Iorio et al., 2008), that plays an essential role in apple pollen-tube growth, as suggested by the arrest of tube elongation by TGase inhibitors, such as EGTA or R281. Its involvement in pollen tube growth is mainly confirmed by the data of activity and gene expression, because TGase showed a peak between 15 min and 30 min of germination, when this process is well established, and an optimal pH around 6.5, which is close to that recorded for the germination medium. Moreover, data show that pollen TGase can be a glycoprotein as the glycosylation profile is linked both with the activation of the enzyme and with its localization at the pollen cell wall during germination, because from the data presented seems that the active form of TGase involved in pollen tube growth and pollen-stylar interaction is more exposed and more weakly bound to the cell wall.
Interestingly, TGase interacts with fibronectin (FN), a putative SAMs or psECM component, inducing possibly intracellular signal transduction during the interaction between pollen-stylar occuring in the germination process, since a protein immunorecognised by anti-FN antibody is also present in pollen, in particular at the level of pollen grain cell wall in a punctuate pattern, but also along the shank of the pollen tube wall, in a similar pattern that recalls the signal obtained with the antibody anti TGase. FN represents a good substrate for the enzyme activity, better than DMC usually used as standard substrate for animal TGase. Thus, this pollen enzyme, necessary for its germination, is exposed on the pollen surface and consequently can easily interact with mucosal proteins, as it has been found germinated pollen in studies conducted on human mucus (Forlani, personal communication).
I have obtained data that TGase activity increases in a very remarkable way when pollen is exposed to stressful conditions, such as climate changes and environmental pollution. I have used two different species of pollen, an aero allergenic (hazelnut, Corylus avellana) pollen, whose allergenicity is well documented, and an enthomophylus (apple, Malus domestica) pollen, which is not yet well characterized, to compare data on their mechanism of action in response to stressors. The two pollens have been exposed to climate changes (different temperatures, relative humidity (rH), acid rain at pH 5.6 and copper pollution (3.10 µg/l)) and showed an increase in pollen surface TGase activity that is not accompanied to an induced expression of TGase immunoreactive protein with AtPNG1p. Probably, climate change induce an alteration or damage to pollen cell wall that carries the pollen grains to release their content in the medium including TGase enzyme, that can be free to carry out its function as confirmed by the immunolocalisation and by the in situ TGase activity assay data; morphological examination indicated pollen damage, viability significantly reduced and in acid rain conditions an early germination of apple pollen, thus possibly enhancing the TGase exposure on pollen surface.
Several pollen proteins were post-translationally modified, as well as mammalian sPLA2 especially with Corylus pollen, which results in its activation, potentially altering pollen allergenicity and inflammation. Pollen TGase activity mimicked the behaviour of gpl TGase and AtPNG1p in the stimulation of sPLA2, even if the regulatory mechanism seems different to gpl TGase, because pollen TGase favours an intermolecular cross-linking between various molecules of sPLA2, giving rise to high-molecular protein networks normally more stable. In general, pollens exhibited a significant endogenous phospholipase activity and it has been observed differences according to the allergenic (Corylus) or not-well characterized allergenic (Malus) attitude of the pollen. However, even if with a different intensity level in activation, pollen enzyme share the ability to activate the sPLA2, thus suggesting an important regulatory role for the activation of a key enzyme of the inflammatory response, among which my interest was addressed to pollen allergy.
In conclusion, from all the data presented, mainly presence of allergens, presence of an extracellular TGase, increasing in its activity following exposure to environmental pollution and PLA2 activation, I can conclude that also Malus pollen can behave as potentially allergenic. The mechanisms described here that could affect the allergenicity of pollen, maybe could be the same occurring in fruit, paving the way for future studies in the identification of hyper- and hypo- allergenic cultivars, in preventing environmental stressor effects and, possibly, in the production of transgenic plants.
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Harmful algae and their potential impacts on the coastal ecosystem: growth and toxin production dynamicsPezzolesi, Laura <1982> 09 May 2011 (has links)
The main goal of the present thesis was to study some harmful algal species which cause blooms in Italian coastal waters, leading to consequences for human health, coastal ecosystem, fishery and tourism.
In particular, in the first part of this thesis the toxicity of Adriatic strains of the raphidophyte Fibrocapsa japonica was investigated. Despite several hypotheses have been proposed for the toxic mechanism of the raphidophytes, especially for the species Chattonella antiqua and C. marina, which have been studied more extensively, just a few studies on the toxic effects of these species for different organisms were reported. Moreover, a careful reading of the literature evidenced as any ichthyotoxic events reported worldwide can be linked to F. japonica blooms. Although recently several studies were performed on F. japonica strains from the USA, Japan, Australia, New Zealand, the Netherlands, Germany, and France in order to characterize their growth and toxicity features, the work reported in this thesis results one of the first investigation on the toxic effects of F. japonica for different organisms, such as bacteria, crustaceans and fish. Mortality effects, together with haemolysis of fish erythrocytes, probably due to the relatively high amount of PUFAs produced by this species, were observed. Mortality for fish, however, was reported only at a high cell density and after a long exposition period (9-10 days); moreover a significant increase of H2O2 obtained in the tanks where sea basses were exposed to F. japonica was also relevant. This result may justify the absence of ichthyotoxic events in the Italian coasts, despite F. japonica blooms detected in these areas were characterized by high cell densities. This work reports also a first complete characterization of the fatty acids produced and extracellularly released by the Adriatic F. japonica, and results were also compared with the fatty acid profile of other strains. The absence of known brevetoxins in F. japonica algal extracts was also highlighted, leading to the hypothesis that the toxicity of F. japonica may be due to a synergic effect of PUFAs and ROS.
Another microalgae that was studied in this thesis is the benthic dinoflagellate Ostreopsis cf. ovata. This species was investigated with the aim to investigate the effect of environmental parameters on its growth and toxicity. O. cf. ovata, in fact, shows different blooming periods along the Italian coasts and even the reported toxic effects are variable. The results of this work confirmed the high variability in the growth dynamic and toxin content of several Italian strains which were isolated in recent years along the Adriatic and Tyrrhenian Seas. Moreover, the effects of temperature and salinity on the behaviour of the different isolates are in good agreement with the results obtained from field surveys, which evidence as the environmental parameters are important factors modulating O. cf. ovata proliferation. Another relevant result that was highlighted is the anomaly in the production of palytoxin-like compounds reported by one of the studied isolate, in particular the one isolated in 2008 in Ancona (Adriatic Sea). Only this strain reported the absence of two (ovatoxin-b and –c) of the five ovatoxins so far known in the toxin profile and a different relative abundance of the other toxins.
The last aspect that was studied in this thesis regards the toxin biosythesis. In fact, toxins produced (palytoxin-like compounds) or supposed to be produced (brevetoxin-like compounds) by O. cf. ovata and F. japonica, respectively, are polyketides, which are highly oxygenated compounds synthesized by complex enzymes known as polyketide synthase (PKS) enzymes. These enzymes are multi-domain complexes that structurally and functionally resemble the fatty acid synthases (FASs). This work reports the first study of PKS proteins in the dinoflagellates O. cf. ovata, C. monotis and in the raphidophyte F. japonica. For the first time some PKSs were identified in these species, confirming the presence of PKS proteins predicted by the in silico translation of the transcripts found in K. brevis also in other species. The identification of O. cf. ovata PKSs and the localization of the palytoxin-like compounds produced by this dinoflagellate in a similar location (chloroplast) as that observed for other dinoflagellate and cyanobacterial toxins provides some indication that these proteins may be involved in polyketide biosynthesis. However, their potential function as fatty acid synthases cannot be ruled out, as plant fatty acid synthesis also occurs within chloroplasts. This last hypothesis is also supported by the fact that in all the investigated species, and in particular in F. japonica, PKS proteins were present. Therefore, these results provide an important contribution to the study of the polyketides and of the involvement of PKS proteins in the toxin biosynthesis.
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Algal wastewater treatment and biomass producing potential: nutrient removal efficiency and cell physiological responsesSamorì, Giulia <1981> 14 May 2012 (has links)
Microalgae are sun - light cell factories that convert carbon dioxide to biofuels, foods, feeds, and other bioproducts. The concept of microalgae cultivation as an integrated system in wastewater treatment has optimized the potential of the microalgae - based biofuel production. These microorganisms contains lipids, polysaccharides, proteins, pigments and other cell compounds, and their biomass can provide different kinds of biofuels such as biodiesel, biomethane and ethanol. The algal biomass application strongly depends on the cell composition and the production of biofuels appears to be economically convenient only in conjunction with wastewater treatment. The aim of this research thesis was to investigate a biological wastewater system on a laboratory scale growing a newly isolated freshwater microalgae, Desmodesmus communis, in effluents generated by a local wastewater reclamation facility in Cesena (Emilia Romagna, Italy) in batch and semi - continuous cultures. This work showed the potential utilization of this microorganism in an algae - based wastewater treatment; Desmodesmus communis had a great capacity to grow in the wastewater, competing with other microorganisms naturally present and adapting to various environmental conditions such as different irradiance levels and nutrient concentrations. The nutrient removal efficiency was characterized at different hydraulic retention times as well as the algal growth rate and biomass composition in terms of proteins, polysaccharides, total lipids and total fatty acids (TFAs) which are considered the substrate for biodiesel production. The biochemical analyses were coupled with the biomass elemental analysis which specified the amount of carbon and nitrogen in the algal biomass. Furthermore photosynthetic investigations were carried out to better correlate the environmental conditions with the physiology responses of the cells and consequently get more information to optimize the growth rate and the increase of TFAs and C/N ratio, cellular compounds and biomass parameter which are fundamental in the biomass energy recovery.
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Phytoplankton Response to Environmental Variables and Organic Pollutants. Laboratory Cultures and Numerical Simulations ExperimentsFiori, Emanuela <1984> 26 March 2013 (has links)
Herbicides are becoming emergent contaminants in Italian surface, coastal and ground waters, due to their intensive use in agriculture. In marine environments herbicides have adverse effects on non-target organisms, as primary producers, resulting in oxygen depletion and decreased primary productivity. Alterations of species composition in algal communities can also occur due to the different sensitivity among the species. In the present thesis the effects of herbicides, widely used in the Northern Adriatic Sea, on different algal species were studied. The main goal of this work was to study the influence of temperature on algal growth in the presence of the triazinic herbicide terbuthylazine (TBA), and the cellular responses adopted to counteract the toxic effects of the pollutant (Chapter 1 and 2).
The development of simulation models to be applied in environmental management are needed to organize and track information in a way that would not be possible otherwise and simulate an ecological prospective. The data collected from laboratory experiments were used to simulate algal responses to the TBA exposure at increasing temperature conditions (Chapter 3).
Part of the thesis was conducted in foreign countries. The work presented in Chapter 4 was focused on the effect of high light on growth, toxicity and mixotrophy of the ichtyotoxic species Prymnesium parvum.
In addition, a mesocosm experiment was conducted in order to study the synergic effect of the pollutant emamectin benzoate with other anthropogenic stressors, such as oil pollution and induced phytoplankton blooms (Chapter 5).
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MUTAGENESI IN RICINO (Ricinus communis L.)PER LA SELEZIONE DI LINEE PIU' ADATTE ALLA VALORIZZAZIONE AGRONOMICA / Castor Bean Mutagenesis (Ricinus Communis L.) in order to obtain lines for economic valorizationROSSI, DARIO 23 February 2012 (has links)
Il ricino (Ricinus communis L.) è una tra le dieci principali colture oleaginose a livello mondiale. La ricina, eliminata nei processi industriali per la produzione di olio di ricino, costituisce un rischio sia per lo sfruttamento della pianta come biomassa per la generazione di biocarburanti vegetali di seconda generazione, sia per la possibilità di ottenere scorie tossiche dalla lavorazione del materiale. L’utilizzo di tecniche di mutagenesi chimica, associata ad AFLP e metodiche di sequenziamento bersaglio specifiche (TILLING) hanno dimostrato la possibilità di ottenere e riconoscere, in tempi relativamente brevi e in modo specifico, mutazioni nel genoma d’interesse. A partire da una popolazione monovarietale di ricino, sono stati messi a punto diversi trattamenti (basati su EMS ed MNU), al fine di ottenere una popolazione mutagenizzata chimicamente al cui interno ricercare piante prive, o con un contenuto ridotto, di ricina nel seme e di conseguenza caratterizzate da un maggior valore agronomico ed economico. In seguito all’autoimpollinazione delle piante sopravvissute, analisi AFLP e di sequenziamento sulle generazioni successive hanno mostrato come le piante tendano ad accumulare variazioni nel loro genoma rispetto alla generazione precedente. Dall’analisi di sequenza di circa 1 Mb del gene per la ricina nella popolazione mutagenizzata non è emerso nessun cambiamento nella sequenza nucleotidica, in accordo con i risultati di altri studi in cui si è visto come la frequenza di mutagenesi possa variare con la specie considerata. / Castor (Ricinus communis L.) is one of the ten major oil crops worldwide. Ricin, eliminated in industrial processes for the production of castor oil, constitutes a risk to both the exploitation of the plant as a biomass to generate second-generation biofuels, both for getting toxic waste from the processing of the material. The use of chemical mutagenesis techniques, AFLP and methods associated with specific target sequences (TILLING) have demonstrated the ability to obtain and recognize, in a relatively short time, and specifically, mutations in the genome of interest. Starting from a population of castor-variety, have been developed different treatments (based on EMS and MNU), in order to obtain a chemically mutagenized population of plants with a reduced content of ricin in the seed and therefore characterized by a greater agronomic and economic value. After self-pollination of the survived plants, AFLP analysis and sequencing showed how plants tend to accumulate changes in their genome than the previous generation. A sequence analysis of about 1 Mb of the gene for ricin in mutagenized populations has revealed no change in the nucleotide sequence, in agreement with results of other studies in which we have seen that the frequency of mutation may vary with the species under consideration.
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