Changes in carbon and nitrogen physiology during ammonium and nitrate nutrition and nitrogen starvation in<i>Isochrysis galbana</i>

Flynn, Kevin J.; Zapata, Manuel; Garrido, J. L.; Öpik, Helgi; Hipkin, C. R.

doi:10.1080/09670269300650071

Cited by 31 publications

(18 citation statements)

References 24 publications

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“…This result is consistent with earlier work on Chlorella vulgaris, where the production of nitrate reductase, a specific enzyme required for nitrate assimilation, increased when cells were reared in ammonium following N starvation (Morris and Syrett, 1965). Also the marine haptophyte Isocrysis galbana registered a low but constant production of nitrate reductase when reared with ammonium as the only N source (Flynn et al, 1993). In contrast, synthesis of nitrate reductase did not occur in cells of the freshwater rhodophyte Cyanidium caldarium grown in ammonium-based media (Rigano and Violante, 1973).…”

Section: Discussionsupporting

confidence: 93%

An experimentally validated nitrate–ammonium–phytoplankton model including effects of starvation length and ammonium inhibition on nitrate uptake

Malerba

Connolly

Heimann

2015

Ecological Modelling

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Section: Discussionsupporting

confidence: 93%

An experimentally validated nitrate–ammonium–phytoplankton model including effects of starvation length and ammonium inhibition on nitrate uptake

Malerba

Connolly

Heimann

2015

Ecological Modelling

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“…This Haptophyta is of substantial interest in aquaculture, principally to feed mollusk larvae, as well as fish and crustaceans in the early stages of growth (Pernet, Tremblay, Demers, & Roussy, 2003;Poisson & Ergan, 2001;Renaud, Thinh, Lambrinidis, & Parry, 2002;Sánchez, Martínez, & Espinola, 2000;Saoudi-Helis, Dubacq, Marty, Samain, & Gudin, 1994). Other important biomolecules such as sterols, tocopherols, pigments and pharmaceuticals, among others, are also synthesized by this microalga (Fabregas & Herrero, 1990;Flynn, Zapata, Garrido, Opik, & Hipkin, 1993;Volkman, Smith, Eglinton, Forsberg, & Corner, 1981).…”

Section: Introductionmentioning

confidence: 98%

Isochrysis galbana and Diacronema vlkianum biomass incorporation in pasta products as PUFA’s source

Fradique

Batista

Nunes

et al. 2013

LWT - Food Science and Technology

130

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a b s t r a c tFactors such as an ageing population, increased health care costs and rapid advances in science and technology are likely driving the increase interest among consumers in attaining wellness through diet, which is in turn, fuelling interest in functional foods and changing the way that people eat.Microalgae have been largely cultured and commercialized as food and feed additives, their potential as source of high-added value compounds and their ability to positively affect human's health due to their original chemical composition, is well known. Considering pasta is a main staple food, the objective of this study was to prepare fresh spaghetti enriched with different amounts of microalgae and to compare the fatty acid profile of pastas before and after cooking, with standard semolina spaghetti.The results show that fatty acid profile of pastas prepared with Isochrysis galbana and Diacronema vlkianum biomass incorporation, presented a high resistance to the thermal treatment applied during the cooking procedure. The increase of the amount of the algae lead to a significant increase of EPA (Eicosapentaenoic Acid) and DHA (Docosahexaenoic Acid) both in raw and cooked pastas, omega-3 fatty acids that can be obtained through seafood.

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“…In this study, Chl a : C ratios were highest in C-stressed cultures, and decreased with increased N stress. The high degree of variability in the Chl a : C ratio (by a factor of 2) of I. galbana due to nutrient deprivation (as also noted by Flynn et al, 1993) indicated that Chl a measurements could not be used to reliably estimate phytoplankton biomass. In addition, dinoflagellates generally have lower Chl a : C ratios than diatoms (Tang, 1996), and the use of Chl a measurements to estimate the biomass of a mixed population of unknown nutrient history is debatable.…”

Section: mentioning

confidence: 99%

Utilization of dissolved inorganic carbon (DIC) and the response of the marine flagellate Isochrysis galbana to carbon or nitrogen stress

1999

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The growth of the marine flagellate Isochrysis galbana was followed in batch cultures at four concentrations of dissolved inorganic carbon (DIC), from C‐ and N‐replete lag phase into C‐ and/or N‐deplete stationary phase. Organic buffers were omitted from the growth medium, and culture pH was maintained at 8.30±0.05 by the addition of acid or alkali. The responses of the flagellate to N stress included an increase in the C∶N ratio, and decreases in the ratios of glutamine (Gln)∶glutamate (Glu) and Chl a∶C, and the cell Chl a quota. Conversely, the responses to C stress included a decrease in the C∶N ratio, and increases in the ratios of Gln∶Glu and Chl a∶C, and the cell Chl a quota. The relationship between carbon‐specific growth rate (C‐μ), and the concentration of extracellular DIC, [DIC]ext, exhibited Michaelis–Menten type kinetics with a half saturation constant, KG(DIC), of 81 μM. Comparative studies of the diatom Phaeodactylum tricornutum showed similar results, although the value of KG(DIC) was lower at 30 μM.

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Changes in carbon and nitrogen physiology during ammonium and nitrate nutrition and nitrogen starvation inIsochrysis galbana

Cited by 31 publications

References 24 publications

An experimentally validated nitrate–ammonium–phytoplankton model including effects of starvation length and ammonium inhibition on nitrate uptake

An experimentally validated nitrate–ammonium–phytoplankton model including effects of starvation length and ammonium inhibition on nitrate uptake

Isochrysis galbana and Diacronema vlkianum biomass incorporation in pasta products as PUFA’s source

Utilization of dissolved inorganic carbon (DIC) and the response of the marine flagellate Isochrysis galbana to carbon or nitrogen stress

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