Thermomagnesium: A By-Product of Ni Ore Mining as a Clean Fertilizer Source for Maize

This study explores whether Thermomagnesium (TM), a by-product of Ni ore mining, is an efficient fertilizer for maize. The effects of TM on soil pH, the supply of Si and Mg to the soil and plants, carbohydrate metabolism, grain filling, and yield were assessed in two simultaneous experiments perform...

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Published inAgronomy (Basel) Vol. 11; no. 3; p. 525
Main Authors Bossolani, João William, Moretti, Luiz Gustavo, Portugal, José Roberto, Rossi, Ricardo, Crusciol, Carlos Alexandre Costa
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.03.2021
Subjects
Agricultural production
By products
Byproducts
Carbohydrate metabolism
carbohydrate partitioning
Carbohydrates
Clay soils
Corn
Crop yield
Crops
Experiments
Fertilizers
Grain
grain filling
Magnesium
magnesium silicate
Mining
mining waste
Nutrients
pH effects
Plant resistance
Productivity
Sandy soils
Seeds
Silicon
Soil chemistry
Soil classification
Soil pH
Starch
Sucrose
Sugar
Zea mays (L)
Brazil
United States > US
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Summary:This study explores whether Thermomagnesium (TM), a by-product of Ni ore mining, is an efficient fertilizer for maize. The effects of TM on soil pH, the supply of Si and Mg to the soil and plants, carbohydrate metabolism, grain filling, and yield were assessed in two simultaneous experiments performed in greenhouse conditions. Five TM doses were applied to two soil textures—clayey (0, 55, 273, 709, and 2018 mg kg−1) and sandy (0, 293, 410, 645, and 1260 mg kg−1). In general, the best results in soil and maize plants occurred at the highest TM dose for both soil textures (clayey 2018 mg kg−1 and sandy 1260 mg kg−1). The results demonstrated that in both soils, the concentrations of Mg and Si in the maize leaves increased with the dose of TM, similarly to that which occurred in the soil. Interestingly, in clayey soil, the soil pH increased linearly, whereas in sandy soil, the pH reached its maximum value between the two largest TM doses. The concentration of reducing sugars increased at the highest TM dose, whereas the concentrations of sucrose and starch decreased. The enhancement of carbohydrate partitioning led to higher maize growth, grain filling, and yield. Overall, the results clearly demonstrate that TM is a sustainable alternative fertilizer for maize and can be used for countless other crops and soil classifications, thus providing a suitable destination for this by-product of Ni ore mining.
ISSN:2073-4395
2073-4395
DOI:10.3390/agronomy11030525