@ARTICLE{Suá_Enh_2022,
author = "Suárez Quintana, William H. - García Rico, Ramón O. - García Martínez, Janet B. - Urbina Suarez, Néstor A. - López-Barrera, Germán L. - Barajas Solano, Andrés F. - Zuorro, Antonio",
title = "Enhancement of Metabolite Production in High-Altitude Microalgal Strains by Optimized C/N/P Ratio",
abstract = ": This study evaluated the role of C/N/P in the increase in the synthesis of carbohydrates,
proteins, and lipids in two high-mountain strains of algae (Chlorella sp. UFPS019 and Desmodesmus sp.
UFPS021). Three carbon sources (sodium acetate, sodium carbonate, and sodium bicarbonate), and
the sources of nitrogen (NaNO3
) and phosphate (KH2PO4 and K2HPO4
) were analyzed using a
surface response (3 factors, 2 levels). In Chlorella sp. UFPS019, the optimal conditions to enhance
the synthesis of carbohydrates were high sodium carbonate content (3.53 g/L), high KH2PO4 and
K2HPO4 content (0.06 and 0.14 g/L, respectively), and medium-high NaNO3
(0.1875 g/L). In the
case of lipids, a high concentration of sodium acetate (1.19 g/L) coupled with high KH2PO4 and
K2HPO4 content (0.056 and 0.131 g/L, respectively) and a low concentration of NaNO3
(0.075 g/L)
drastically induced the synthesis of lipids. In the case of Desmodesmus sp. UFPS021, the protein
content was increased using high sodium acetate (2 g/L), high KH2PO4 and K2HPO4 content (0.056
and 0.131 g/L, respectively), and high NaNO3 concentration (0.25 g/L). These results demonstrate
that the correct adjustment of the C/N/P ratio can enhance the capacity of high-mountain strains of
algae to produce high concentrations of carbohydrates, proteins, and lipids.",
year = 2022,
publisher = "Applied Sciences",
url = "https://repositorio.ufps.edu.co/handle/ufps/6532",
}