Effects of Manganese Nanoparticle Exposure on Nutrient Acquisition in Wheat (Triticum aestivum L.)

Effects of Manganese Nanoparticle Exposure on Nutrient Acquisition in Wheat (Triticum aestivum L.)

Nanoparticles are used in a variety of products, including fertilizer-nutrients and agro-pesticides. However, due to heightened reactivity of nano-scale materials, the effects of nanoparticle nutrients on crops can be more dramatic when compared to non nano-scale nutrients. This study evaluated the...

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Main Authors: Christian O. Dimkpa, Upendra Singh, Ishaq O. Adisa, Prem S. Bindraban, Wade H. Elmer, Jorge L. Gardea-Torresdey, Jason C. White
Format: Article
Language:English
Published: MDPI AG 2018-08-01
Series:Agronomy
Subjects:
Bioaccumulation
macronutrients
manganese oxide nanoparticles
near-neutral soil
translocation factor
wheat
Online Access:http://www.mdpi.com/2073-4395/8/9/158
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spelling doaj-1f4ec93c0c2c472ea506f2d1cdfdca022021-04-02T04:08:26ZengMDPI AGAgronomy2073-43952018-08-018915810.3390/agronomy8090158agronomy8090158Effects of Manganese Nanoparticle Exposure on Nutrient Acquisition in Wheat (Triticum aestivum L.)Christian O. Dimkpa0Upendra Singh1Ishaq O. Adisa2Prem S. Bindraban3Wade H. Elmer4Jorge L. Gardea-Torresdey5Jason C. White6International Fertilizer Development Center (IFDC), Muscle Shoals, AL 35662, USAInternational Fertilizer Development Center (IFDC), Muscle Shoals, AL 35662, USAThe Center for Nanotechnology and Agricultural Pathogen Suppression (CeNAPS), New Haven, CT 06511, USAInternational Fertilizer Development Center (IFDC), Muscle Shoals, AL 35662, USAThe Center for Nanotechnology and Agricultural Pathogen Suppression (CeNAPS), New Haven, CT 06511, USAThe Center for Nanotechnology and Agricultural Pathogen Suppression (CeNAPS), New Haven, CT 06511, USAThe Center for Nanotechnology and Agricultural Pathogen Suppression (CeNAPS), New Haven, CT 06511, USANanoparticles are used in a variety of products, including fertilizer-nutrients and agro-pesticides. However, due to heightened reactivity of nano-scale materials, the effects of nanoparticle nutrients on crops can be more dramatic when compared to non nano-scale nutrients. This study evaluated the effect of nano manganese-(Mn) on wheat yield and nutrient acquisition, relative to bulk and ionic-Mn. Wheat was exposed to the Mn types in soil (6 mg/kg/plant), and nano-Mn was repeated in foliar application. Plant growth, grain yield, nutrient acquisition, and residual soil nutrients were assessed. When compared to the control, all Mn types significantly (p < 0.05) reduced shoot N by 9–18%. However, nano-Mn in soil exhibited other subtle effects on nutrient acquisition that were different from ionic or bulk-Mn, including reductions in shoot Mn (25%), P (33%), and K (7%) contents, and increase (30%) in soil residual nitrate-N. Despite lowering shoot Mn, nano-Mn resulted in a higher grain Mn translocation efficiency (22%), as compared to salt-Mn (20%), bulk-Mn (21%), and control (16%). When compared to soil, foliar exposure to nano-Mn exhibited significant differences: greater shoot (37%) and grain (12%) Mn contents; less (40%) soil nitrate-N; and, more soil (17%) and shoot (43%) P. These findings indicate that exposure to nano-scale Mn in soil could affect plants in subtle ways, differing from bulk or ionic-Mn, suggesting caution in its use in agriculture. Applying nano Mn as a foliar treatment could enable greater control on plant responses.http://www.mdpi.com/2073-4395/8/9/158Bioaccumulationmacronutrientsmanganese oxide nanoparticlesnear-neutral soiltranslocation factorwheat
collection DOAJ
language English
format Article
sources DOAJ
author Christian O. Dimkpa
Upendra Singh
Ishaq O. Adisa
Prem S. Bindraban
Wade H. Elmer
Jorge L. Gardea-Torresdey
Jason C. White
spellingShingle Christian O. Dimkpa
Upendra Singh
Ishaq O. Adisa
Prem S. Bindraban
Wade H. Elmer
Jorge L. Gardea-Torresdey
Jason C. White
Effects of Manganese Nanoparticle Exposure on Nutrient Acquisition in Wheat (Triticum aestivum L.)
Agronomy
Bioaccumulation
macronutrients
manganese oxide nanoparticles
near-neutral soil
translocation factor
wheat
author_facet Christian O. Dimkpa
Upendra Singh
Ishaq O. Adisa
Prem S. Bindraban
Wade H. Elmer
Jorge L. Gardea-Torresdey
Jason C. White
author_sort Christian O. Dimkpa
title Effects of Manganese Nanoparticle Exposure on Nutrient Acquisition in Wheat (Triticum aestivum L.)
title_short Effects of Manganese Nanoparticle Exposure on Nutrient Acquisition in Wheat (Triticum aestivum L.)
title_full Effects of Manganese Nanoparticle Exposure on Nutrient Acquisition in Wheat (Triticum aestivum L.)
title_fullStr Effects of Manganese Nanoparticle Exposure on Nutrient Acquisition in Wheat (Triticum aestivum L.)
title_full_unstemmed Effects of Manganese Nanoparticle Exposure on Nutrient Acquisition in Wheat (Triticum aestivum L.)
title_sort effects of manganese nanoparticle exposure on nutrient acquisition in wheat (triticum aestivum l.)
publisher MDPI AG
series Agronomy
issn 2073-4395
publishDate 2018-08-01
description Nanoparticles are used in a variety of products, including fertilizer-nutrients and agro-pesticides. However, due to heightened reactivity of nano-scale materials, the effects of nanoparticle nutrients on crops can be more dramatic when compared to non nano-scale nutrients. This study evaluated the effect of nano manganese-(Mn) on wheat yield and nutrient acquisition, relative to bulk and ionic-Mn. Wheat was exposed to the Mn types in soil (6 mg/kg/plant), and nano-Mn was repeated in foliar application. Plant growth, grain yield, nutrient acquisition, and residual soil nutrients were assessed. When compared to the control, all Mn types significantly (p < 0.05) reduced shoot N by 9–18%. However, nano-Mn in soil exhibited other subtle effects on nutrient acquisition that were different from ionic or bulk-Mn, including reductions in shoot Mn (25%), P (33%), and K (7%) contents, and increase (30%) in soil residual nitrate-N. Despite lowering shoot Mn, nano-Mn resulted in a higher grain Mn translocation efficiency (22%), as compared to salt-Mn (20%), bulk-Mn (21%), and control (16%). When compared to soil, foliar exposure to nano-Mn exhibited significant differences: greater shoot (37%) and grain (12%) Mn contents; less (40%) soil nitrate-N; and, more soil (17%) and shoot (43%) P. These findings indicate that exposure to nano-scale Mn in soil could affect plants in subtle ways, differing from bulk or ionic-Mn, suggesting caution in its use in agriculture. Applying nano Mn as a foliar treatment could enable greater control on plant responses.
topic Bioaccumulation
macronutrients
manganese oxide nanoparticles
near-neutral soil
translocation factor
wheat
url http://www.mdpi.com/2073-4395/8/9/158
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