Effect of glycerol on the lipids in the red alga Gratelupia doryphora

Se cultivó alga roja Gratelupia doryphora en agua de mar enriquecida con Provasoli y en glicerol. La incubación en agua de mar condujo a un aumento en el porcentaje de los ácidos grasos polünsaturados, mientras que el glicerol incrementó el contenido de lípidos totales. Por tanto, si la alga está siendo producida como un cultivo heterotrófico, es posible aumentar la biomasa de la misma así como el contenido de ácidos grasos biológicamente activos. The red alga Gratelupia doryphora was cultivated in Provasoli enricher (plain) seawater and in a glycerol media. The incubation in seawater leads to an increase in the percentage of polyunsaturated acids, while the glycerol increase the total lipid content. If the alga is being grown as a heterotrophic culture, it is possible to increase the alga biomass as well as the content of biologically-active fatty acids.

Influencia de las poliaminas en la deposición del carbonato cálcico en el alga Cymopolia barbata (Chlorophyta, Dasycladales).

Papel de las poliaminas en la precipitación del carbonato en algas

El glicerol como activador de la división celular y la actividad biosintética del alga Grateloupia doryphora

[ES] Este artículo está encaminado al mejor conocimiento de la síntesis de compuestos orgánicos de interés industrial bajo el sistema de cultivo in vitro de las macroalgas.

Exploring symbiont fidelity among lichen symbioses and the common alga Trebouxia decolorans s.l.: differents levels of intrathalline photobiont diversity in Xanthoria parietina and Anaptychia ciliaris

Francesco Dal Grande (Biodiversity and Climate Research Centre (BiK-F), Senckenberg Gesellschaft fuer Naturforschung, Frankfurt am Main, Germany Goethe Universitat, Frankfurt am Main, Germany). Comunicación ofrecida por David Alors Rodríguez (Universidad Complutense de Madrid)

Effects of ocean acidification on the brown alga "Padina pavonica": decalcification due to acute and chronic events

[EN] Since the industrial revolution, anthropogenic CO2 emissions have caused ocean acidification, which particularly affects calcified organisms. Given the fan-like calcified fronds of the brown alga Padina pavonica, we evaluated the acute (shortterm) effects of a sudden pH drop due to a submarine volcanic eruption (October 2011–early March 2012) affecting offshore waters around El Hierro Island (Canary Islands, Spain). We further studied the chronic (long-term) effects of the continuous decrease in pH in the last decades around the Canarian waters. In both the observational and retrospective studies (using herbarium collections of P. pavonica thalli from the overall Canarian Archipelago), the percent of surface calcium carbonate coverage of P. pavonica thalli were contrasted with oceanographic data collected either in situ (volcanic eruption event) or from the ESTOC marine observatory data series (herbarium study). Results showed that this calcified alga is sensitive to acute and chronic environmental pH changes. In both cases, pH changes predicted surface thallus calcification, including a progressive decalcification over the last three decades. This result concurs with previous studies where calcareous organisms decalcify under more acidic conditions. Hence, Padina pavonica can be implemented as a bio-indicator of ocean acidification (at short and long time scales) for monitoring purposes over wide geographic ranges, as this macroalga is affected and thrives (unlike strict calcifiers) under more acidic conditions

Determinazione del contenuto polifenolico e dell'attivita antiossidante in estratti dell'alga bruna Fucus vesiculosus

Da alcuni decenni l’interesse verso i prodotti naturali di origine marina ha portato ad un’intensa ricerca di composti antiossidanti nelle alghe, prodotti per tollerare lo stress ossidativo frequente nelle condizioni ambientali a cui sono soggette. Tra le varie macroalghe le Phaeophyceae, come rivelano numerosi studi, hanno un elevato potenziale antiossidante, spesso associato alla ricchezza in polifenoli. Tuttavia la natura dei composti responsabili di questa attività è ancora oggetto di discussione. Questo lavoro di tesi si è focalizzato sulla determinazione del contenuto polifenolico totale in estratti dell’alga bruna Fucus vesiculosus ottenuti con solvente acetone:acqua in diverse condizioni di tempo e temperatura, tramite il metodo di Folin-Ciocalteau. e sulla valutazione dell’attività antiradicalica degli estratti, con il test del DPPH (2,2-difenil-1-picrilidrazile). Secondariamente è stata effettuata la ricerca di 14 composti fenolici tramite RS-HPLC ed è stata valutata la correlazione tra attività antiossidante e il contenuto di polifenoli totali e individuali. Temperature più alte hanno favorito una maggiore concentrazione di composti fenolici nei campioni, mentre estratti ricavati in tempi brevi a temperature più basse manifestano un’attività antiossidante significativamente più alta. Inoltre il contenuto dei polifenoli totali non è risultato correlato all’attività antiossidante riscontrata. Tra i composti individuali analizzati: miricetina, acido ferulico e catechina, sono stati identificati in tutti gli estratti. La concentrazione di acido ferulico non ha mostrato variazioni significative tra i campioni, mentre la miricetina è risultata più concentrata in estratti ottenuti a temperature maggiori, e la catechina in quelli a temperature minori. Quest’ultima, a differenza dei primi due, mostra una correlazione con l’attività antiossidante, tuttavia molto debole. Sulla base dei risultati ottenuti si può affermare che l’alga Fucus vesiculosus presenta un’importante attività antiossidante ma, in accordo con diversi autori, altri metaboliti devono essere i principali responsabili di questa attività, dal momento che non risulta correlata con il contenuto fenolico.

Lithothamnion Prolifer Foslie: A Common Non-Geniculate Coralline Alga (Rhodophyta: Corallinaceae) from the Tropical and Subtropical Indo-Pacific

A little-known, but ecologically important non-geniculate coralline, Lithothamnion prolifer, is recorded from a number of tropical Indo-Pacific sites, including Fiji, Australia, Kiribati and Indonesia. The species occurs primarily on vertical walls of caves and overhangs in Fiji and Australia, but was also found as rhodoliths in Kiribati. Lithothamnion prolifer is characterized by the combination of characters which follow. The thallus is extremely glossy, smooth, and rosy coloured. Thalli usually produce complanate protuberances, but protuberances become terete when growing on well lit, horizontal substrata, when unattached, or when growing on loose substrata. Conceptacles occur mainly on the tips of protuberances, and tetra/bisporangial conceptacles are large (to 1300 mu m external diameter, with chambers up to 1100 mu m diameter). The tetra/bisporangial conceptacles are flush or only slightly raised, and often extensive and irregularly shaped (resembling small sori). They lack a raised rim, and have flattened pore plates. The rosette cells surrounding the tetra/bisporangial pore appear somewhat sunken below the surrounding roof cells in SEM, and the cells of filaments lining the pore canals of tetra/bisporangial conceptacles do not differ from the cells of filaments making up the rest of the roof. Old conceptacles persist and become buried in the thallus, and are then usually completely filled in by irregularly arranged calcified cells.

Ocean acidification alters the calcareous microstructure of the green macro-alga Halimeda opuntia

Decreases in seawater pH and carbonate saturation state (Omega) following the continuous increase in atmospheric CO2 represent a process termed ocean acidification, which is predicted to become a main threat to marine calcifiers in the near future. Segmented, tropical, marine green macro-algae of the genus Halimeda form a calcareous skeleton that involves biotically initiated and induced calcification processes influenced by cell physiology. As Halimeda is an important habitat provider and major carbonate sediment producer in tropical shallow areas, alterations of these processes due to ocean acidification may cause changes in the skeletal microstructure that have major consequences for the alga and its environment, but related knowledge is scarce. This study used scanning electron microscopy to examine changes of the CaCO3 segment microstructure of Halimedaopuntia specimens that had been exposed to artificially elevated seawater pCO2 of 650 µatm for 45 d. In spite of elevated seawater pCO2, the calcification of needles, located at the former utricle walls, was not reduced as frequent initiation of new needle-shaped crystals was observed. Abundance of the needles was 22 %/µm**2 higher and needle crystal dimensions 14 % longer. However, those needles were 42 % thinner compared with the control treatment. Moreover, lifetime cementation of the segments decreased under elevated seawater pCO2 due to a loss in micro-anhedral carbonate as indicated by significantly thinner calcified rims of central utricles (35-173 % compared with the control treatment). Decreased micro-anhedral carbonate suggests that seawater within the inter-utricular space becomes CaCO3 undersaturated (Omega < 1) during nighttime under conditions of elevated seawater pCO2, thereby favoring CaCO3 dissolution over micro-anhedral carbonate accretion. Less-cemented segments of H. opuntia may impair the environmental success of the alga, its carbonate sediment contribution, and the temporal storage of atmospheric CO2 within Halimeda-derived sediments.