Abstract

Quinoa (Chenopodium quinoa Wild), an ancient Andean seed crop, exhibits exceptional nutritional properties and resistance to abiotic stress. The species' tolerance to heavy metals has, however, not yet been investigated nor its ability to take up and translocate chromium (Cr). This study aimed to investigate the metabolic adjustments occurring upon exposure of quinoa to several concentrations (0.01-5 mM) of CrCl3. Young hydroponically grown plants were used to evaluate Cr uptake, growth, oxidative stress, and other biochemical parameters three and/or seven days after treatment Leaves accumulated the lowest amounts of Cr, while roots and stems accumulated the most at low and at high metal concentrations, respectively. Fresh weight and photosynthetic pigments were reduced only by the higher Cr (III) doses. Substantially increased lipid peroxidation, hydrogen peroxide, and proline levels were observed only with 5 mM Cr(III). Except for a significant decrease at day 7 with 5 mM C(III), total poly-phenols and flavonoids maintained control levels in Cr(III)-treated plants, whereas antioxidant activity increased in a dose-dependent manner. Maximum polyamine accumulation was observed in 1 mM CrCl3-treated plants. Even though alpha- and gamma-tocopherols also showed enhanced levels only with the 1 mM concentration, tyrosine aminotransferase (TAT, EC 2.6.15) activity increased under Cr(III) treatment in a dose- and time-dependent manner. Taken together, results suggest that polyamines, tocopherols, and TAT activity could contribute to tolerance to 1 mM Cr(III), but not to the highest concentration that, instead, generated oxidative stress. (C) 2016 Elsevier Inc. All rights reserved.