Identificador persistente para citar o vincular este elemento: http://hdl.handle.net/10553/7103
Título: Effects of increased CO2 levels on growth, photosynthesis, ammonium uptake and cell composition in the macroalga Hypnea spinella (Gigartinales, Rhodophyta)
Autores/as: Suárez Álvarez, Sonia 
Gómez-Pinchetti, Juan Luis 
García Reina, Guillermo 
Clasificación UNESCO: 241707 Algología (ficología)
251004 Botánica marina
Palabras clave: Hypnea
Culture
High CO2
Photosynthesis
Ammonium
Fecha de publicación: 2011
Publicación seriada: Journal of Applied Phycology 
Resumen: The red seaweed Hypnea spinella (Gigartinales, Rhodophyta), was cultured at laboratory scale under three different CO2 conditions, non-enriched air (360 ppm CO2)and CO2-enriched air at two final concentrations (750 and 1,600 ppm CO2), in order to evaluate the influence of increased CO2 concentrations on growth, photosynthetic capacity, nitrogen removal efficiency, and chemical cellular composition. Average specific growth rates of H. spinella treated with 750 and 1,600 ppm CO2-enriched air increased by 85.6% and 63.2% compared with non-enriched air cultures. CO2 reduction percentages close to 12% were measured at 750 ppm CO2 with respect to 5% and 7% for cultures treated with air and 1,600 ppm CO2, respectively. Maximum photosynthetic rates were enhanced significantly for high CO2 treatments, showing Pmax values 1.5-fold higher than that for air-treated cultures. N–NH4+ consumption rates were also faster for algae growing at 750 and 1,600 ppm CO2 than that for non-enriched air cultures. As a consequence of these experimental conditions, soluble carbohydrates increased and soluble protein contents decreased in algae treated with CO2-enriched air. However, internal C and N contents remained constant at the different CO2 concentrations. No significant differences in data obtained with both elevated CO2 treatments, under the assayed conditions, indicate that H. spinella is saturated at dissolved inorganic carbon concentrations close by twice the actual atmospheric levels. The results show that increased CO2 concentrations might be considered a key factor in order to improve intensively cultured H. spinella production yields and carbon and nitrogen bioremediation efficiencies.
URI: http://hdl.handle.net/10553/7103
ISSN: 0921-8971
DOI: 10.1007/s10811-011-9700-5
Fuente: Journal of Applied Phycology [ISSN 0921-8971], v. 24 (4), p. 815-823
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