Alleviation of tannery wastewater toxicity in Spinacia oleracea through application of metal oxide nanoparticles
Ihsan Elahi Zaheer, Shafiq ur Rehman, Mehwish Liaquat, Maryam Saif, Fareeha Kanval, Sarvet Jehan, Shafaqat Ali, Abdulrahman Alasmari, Sarah Owdah Alomrani, Ibrahim Al-Ashkar, Ayman El Sabagh, Abdul Ghafoor

TL;DR
Metal oxide nanoparticles reduce the harmful effects of tannery wastewater on spinach plants by lowering oxidative stress and improving nutrient uptake.
Contribution
This study demonstrates the novel use of ZnO, MgO, and FeO nanoparticles to mitigate chromium toxicity in plants exposed to tannery wastewater.
Findings
Chromium stress reduced plant growth, chlorophyll, and increased oxidative stress and electrolyte leakage.
Application of metal oxide nanoparticles lowered oxidative stress and chromium concentration in plants.
ZnO nanoparticles were most effective in mitigating chromium toxicity followed by MgO and FeO.
Abstract
Hexavalent chromium [Cr(VI)] rich tannery wastewater has negative impacts on physiological functions and growth of plants. We examined the effectiveness of foliar application of metal oxide nanoparticles including magnesium oxide, zinc oxide and iron oxide in mitigating chromium induced toxicity in Spinacia oleracea under 0%, 50%, and 100% tannery wastewater irrigation levels. The results reveal that chromium stress notably reduced plant growth, chlorophyll content, increased oxidative stress (H2O2 and MDA), electrolyte leakage and build up of Cr both in roots and shoots of plants. The stress also reduced mineral nutrient acquisition including Mg, Fe and Zn. However, foliar application of MgO, FeO and ZnO nanoparticles strengthened the activities of antioxidant enzymes (SOD, POD and CAT) thus resulting in lowered oxidative stress and concentration of Cr within plant body. Application of…
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Taxonomy
TopicsChromium effects and bioremediation · Nanoparticles: synthesis and applications · Plant Stress Responses and Tolerance
