Multicontamination Toxicity Evaluation in the Model Plant Lactuca sativa L.
Veronika ZemanováMarie LhotskáMilan NovákFrantisek HnilickaMarek PopovDaniela PavlíkováPublished in: Plants (Basel, Switzerland) (2024)
Many contaminated soils contain several toxic elements (TEs) in elevated contents, and plant-TE interactions can differ from single TE contamination. Therefore, this study investigated the impact of combined contamination (As, Cd, Pb, Zn) on the physiological and metabolic processes of lettuce. After 45 days of exposure, TE excess in soil resulted in the inhibition of root and leaf biomass by 40 and 48%, respectively. Oxidative stress by TE accumulation was indicated by markers-malondialdehyde and 5-methylcytosine-and visible symptoms of toxicity (leaf chlorosis, root browning) and morpho-anatomical changes, which were related to the change in water regime (water potential decrease). An analysis of free amino acids (AAs) indicated that TEs disturbed N and C metabolism, especially in leaves, increasing the total content of free AAs and their families. Stress-induced senescence by TEs suggested changes in gas exchange parameters (increase in transpiration rate, stomatal conductance, and intercellular CO 2 concentration), photosynthetic pigments (decrease in chlorophylls and carotenoids), a decrease in water use efficiency, and the maximum quantum yield of photosystem II. These results confirmed that the toxicity of combined contamination significantly affected the processes of lettuce by damaging the antioxidant system and expressing higher leaf sensitivity to TE multicontamination.
Keyphrases
- oxidative stress
- heavy metals
- stress induced
- risk assessment
- health risk
- drinking water
- human health
- dna damage
- ischemia reperfusion injury
- diabetic rats
- type diabetes
- induced apoptosis
- endothelial cells
- sleep quality
- atomic force microscopy
- skeletal muscle
- energy transfer
- metabolic syndrome
- physical activity
- adipose tissue
- anaerobic digestion
- cell wall
- high fat diet induced