Phytotoxic Effect on Corn and Soybean Due Addition of Nanoiron to the Soil

Phytotoxic Effect on Corn and Soybean Due Addition of Nanoiron to the Soil

Due to its low cost and high reactivity, nanoiron has been widely used for remediating contaminated soils. However, accumulation of large amounts of iron in the soil may be toxic for plants. This research aims at investigating the possible phytotoxic effects of the presence of nanoparticles of iron...

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Bibliographic Details
Published in:Water, air, and soil pollution Vol. 231; no. 1
Main Authors: Thomé, Antônio, de Souza, Tayene Oltramari, Thomé, Gladis Cleci Hermes, Reginatto, Cleomar
Format: Journal Article
Language:English
Published: Cham Springer International Publishing 2020
Springer
Springer Nature B.V
Subjects:
Atmospheric Protection/Air Quality Control/Air Pollution
Climate Change/Climate Change Impacts
Coloration
Colour
Corn
Earth and Environmental Science
Emergence
Environment
Environmental monitoring
Hydrogeology
Iron
Nanoparticles
Necrosis
Phytotoxicity
Plant growth
Plant species
Planting
Seedlings
Soil
Soil contamination
Soil investigations
Soil pollution
Soil remediation
Soil Science & Conservation
Soils
Soybean
Soybeans
Symptoms
Vegetables
Water Quality/Water Pollution
Initial plant growth
Nanoremediation
Toxicity
Contaminant
Iron retention
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Summary:Due to its low cost and high reactivity, nanoiron has been widely used for remediating contaminated soils. However, accumulation of large amounts of iron in the soil may be toxic for plants. This research aims at investigating the possible phytotoxic effects of the presence of nanoparticles of iron in the soil, with emphasis on seedling emergence and initial plant growth of soybean and corn. Nanoiron concentrations of 0, 15, and 30 g/kg of soil were examined. For each concentration, 15 samples each of soybean and corn were studied. The plants were grown in vases with 1 kg of soil in a greenhouse. During the experiment, phytotoxicity symptoms such as inhibition of seedling emergence and initial plant growth and plant color changes were analyzed. Twenty-four days after sowing, the plants were harvested and measurements were taken of the root lengths, the aerial lengths, the total dry mass, and the retention of iron by the plants. While all corn plants emerged at the same time, plants under nanoiron treatments showed several symptoms of phytotoxicity, including necrosis, reddish coloration, and subsequent death. In soybean, the 30 g/kg nanoiron concentration completely inhibited seedling emergence. It was concluded that the addition of nanoiron to the soil causes phytotoxicity in soybean and corn plants, affecting seedling emergence, initial growth, and even causing plant death. The symptom differences observed between corn and soybean in relation to nanoiron exposure have become evident in the experiment and show that the same concentration of nanoiron can affect plant species differently.
ISSN:0049-6979
1573-2932
DOI:10.1007/s11270-019-4384-6