Morphophysiological and biochemical responses of Schedonorus arundinaceus to Zinc (II) excess: insights from biomarkers and elemental accumulation

Autores/as

  • Matias Alberto Gonzalez Instituto de Fisiología Vegetal (INFIVE-CCT La Plata). Diagonal 113 N° 495 (B1900) La Plata, Buenos Aires. Argentina https://orcid.org/0000-0002-4898-362X
  • Valeria Bernardo Instituto de Fisiología Vegetal (INFIVE-CCT La Plata). Diagonal 113 N° 495 (B1900) La Plata, Buenos Aires. Argentina https://orcid.org/0000-0002-0970-5504
  • Sebastián Garita Instituto de Fisiología Vegetal (INFIVE-CCT La Plata). Diagonal 113 N° 495 (B1900) La Plata, Buenos Aires. Argentina
  • Josefina Plaza Cazón Centro de Investigación y Desarrollo en Fermentaciones Industriales (CINDEFI-CCT La Plata). Calle 50 N° 227 (B1900) La Plata. Buenos Aires. Argentina
  • Cecilia Arango Instituto de Fisiología Vegetal (INFIVE-CCT La Plata). Diagonal 113 N° 495 (B1900) La Plata, Buenos Aires. Argentina
  • Marcelo Paulo Hernández Universidad Nacional de La Plata. Facultad de Ciencias Agrarias y Forestales. Laboratorio de Morfología Comparada de Espermatofitas (LAMCE). Cátedra de Morfología Vegetal. Avenida 60 y 119 (B1900) La Plata. Buenos Aires. Argentina
  • Marcela Ruscitti Instituto de Fisiología Vegetal (INFIVE-CCT La Plata). Diagonal 113 N° 495 (B1900) La Plata, Buenos Aires. Argentina https://orcid.org/0000-0002-1173-1760

DOI:

https://doi.org/10.48162/rev.39.135

Palabras clave:

fitotoxicidad por zinc, adaptación al estrés, daño radical, respuestas fisiológicas

Resumen

Excessive levels of zinc have detrimental effects on plant physiology and morphology, hindering growth and development. This study aimed to elucidate the morphophysiological and biochemical mechanisms of Schedonorus arundinaceus in response to high concentrations of zinc exposure and to investigate the correlation between these parameters to identify potential stress biomarkers in this species. Plants were exposed to seven zinc concentrations (0-500-1000-1500-2000-2500-3000 μM) for 50 days. The results showed decreased dry weight, root area, photosynthetic pigments, root soluble proteins and stomatal conductance with increasing zinc concentrations. Conversely, proline, malondialdehyde and leaf-soluble protein content increased. Histological observations revealed altered stomata size and abnormalities in root tissue. Zinc accumulation exceeded phytotoxic thresholds (100-400 mg kg-1) even at lower concentrations, reaching a maximum of 3432 mg kg-1 in shoots. Visible Zn-P crystals were observed on leaf surfaces at the highest zinc treatment. These results suggest that S. arundinaceus possesses a notable capacity to bioaccumulate zinc, particularly in the roots. Furthermore, the strong correlation between proline levels and zinc biomass concentration suggests its potential use as a stress biomarker for zinc-induced stress in this species.

Highlights:

  • Schedonorus arundinaceus demonstrated high zinc bioaccumulation, reaching up to 3432 mg kg-1 in shoots, surpassing phytotoxic thresholds by approximately 9 times.
  • Exposure to high zinc concentrations led to reductions in dry weight, root area, photosynthetic pigments, stomatal conductance and roots soluble proteins content, while increasing proline, malondialdehyde (MDA) and leaves soluble protein content.
  • At the highest zinc concentration, visible Zn-P crystals were observed on leaf surfaces, highlighting a unique physiological response.
  • Histological observations revealed altered stomata size and, indicating significant morphological adaptations in response to zinc stress.
  • The strong correlation between proline levels and zinc bioaccumulation suggests proline as a potential biomarker for zinc-induced stress in Schedonorus arundinaceus.

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Publicado

02-12-2024

Número

Sección

Recursos naturales y ambiente