Deciphering Ciprofloxacin’s Impact on Growth Attributes and Antioxidant Compounds in Pasankalla Quinoa
Adan Quisocala Ramos,
Yoselin Mamani Ramos,
Nora Magaly Quispe Camaticona,
José Luis Ramos Tejeda,
Clara Nely Campos Quiróz,
Ingrid Maldonado,
Nils Leander Huamán-Castilla,
Franz Zirena Vilca
Affiliations
Adan Quisocala Ramos
Unidad de Posgrado de la Facultad de Ciencias Agrarias, Maestría en Agricultura Andina de la Universidad Nacional del Altiplano de Puno, Puno 21001, Peru
Yoselin Mamani Ramos
Laboratorio de Contaminantes Orgánicos y Ambiente del IINDEP de la Universidad Nacional de Moquegua, Urb Ciudad Jardín, Pacocha, Ilo 18601, Peru
Nora Magaly Quispe Camaticona
Laboratorio de Contaminantes Orgánicos y Ambiente del IINDEP de la Universidad Nacional de Moquegua, Urb Ciudad Jardín, Pacocha, Ilo 18601, Peru
José Luis Ramos Tejeda
Laboratorio de Contaminantes Orgánicos y Ambiente del IINDEP de la Universidad Nacional de Moquegua, Urb Ciudad Jardín, Pacocha, Ilo 18601, Peru
Clara Nely Campos Quiróz
Laboratorio de Contaminantes Orgánicos y Ambiente del IINDEP de la Universidad Nacional de Moquegua, Urb Ciudad Jardín, Pacocha, Ilo 18601, Peru
Ingrid Maldonado
Instituto de Investigación Científica en Ecosistemas Altoandinos—IICEA, Puno 21000, Peru
Nils Leander Huamán-Castilla
Escuela Profesional de Ingeniería Agroindustrial, Universidad Nacional de Moquegua, Prolongación Calle Ancash S/N, Moquegua 18001, Peru
Franz Zirena Vilca
Laboratorio de Contaminantes Orgánicos y Ambiente del IINDEP de la Universidad Nacional de Moquegua, Urb Ciudad Jardín, Pacocha, Ilo 18601, Peru
The utilization of irrigation water contaminated with antibiotics can potentially affect the growth and production of metabolites in crops. Thus, the effect of Ciprofloxacin (CIP) in irrigation water on the morphological characteristics and polyphenol content in the Pasakalla variety of quinoa was evaluated. Quinoa seeds were sown and irrigated twice weekly with different CIP doses (1, 10, and 100 µg/L). The plant was divided into roots, leaves, panicles, and grain to measure their morphological characteristics and antioxidant properties (the content of total polyphenols, antioxidant capacity, and polyphenolic profile). Root length and biomass of the plant were not affected by the dosage of CIP during physiological maturity. On the contrary, plant growth was reduced (16%) when 10 ug/L of CIP was used. On the other hand, the presence of high CIP concentrations (100 ug/L) improved the biosynthesis of polyphenols and antioxidant capacity by 52 and 59% compared to the control. Profile polyphenols show that vanillic acid and procyanidins A2 and B2 were significantly increased. Thus, the use of CIP could promote a higher enzymatic activity to produce specific polyphenols in order to inhibit the presence of ROS. Finally, under CIP-controlled conditions, the production of polyphenols could be improved without altering the plant’s expected growth.
