Nickel Availability in Soil as Influenced by Liming and Its Role in Soybean Nitrogen Metabolism

Nickel (Ni) availability in soil varies as a function of pH. Plants require Ni in small quantities for normal development, especially in legumes due its role in nitrogen (N) metabolism. This study investigated the effect of soil base saturation, and Ni amendments on Ni uptake, N accumulation in the...

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Published inFrontiers in plant science Vol. 7; p. 1358
Main Authors de Macedo, Fernando G, Bresolin, Joana D, Santos, Elcio F, Furlan, Felipe, Lopes da Silva, Wilson T, Polacco, Joe C, Lavres, José
Format Journal Article
LanguageEnglish
Published Switzerland Frontiers Media S.A 08.09.2016
Subjects
base-cation saturation
micronutrient
Nickel
Nitrate Reductase
Plant Science
Soil rhizosphere
Urease
nickel
soil rhizosphere
micronutrient
urease
nitrate reductase
base-cation saturation
grain nitrogen accumulation
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Abstract Nickel (Ni) availability in soil varies as a function of pH. Plants require Ni in small quantities for normal development, especially in legumes due its role in nitrogen (N) metabolism. This study investigated the effect of soil base saturation, and Ni amendments on Ni uptake, N accumulation in the leaves and grains, as well as to evaluate organic acids changes in soybean. In addition, two N assimilation enzymes were assayed: nitrate reductase (NR) and Ni-dependent urease. Soybean plants inoculated with Bradyrhizobium japonicum were cultivated in soil-filled pots under two base-cation saturation (BCS) ratios (50 and 70%) and five Ni rates - 0.0; 0.1; 0.5; 1.0; and 10.0 mg dm(-3) Ni. At flowering (R1 developmental stage), plants for each condition were evaluated for organic acids (oxalic, malonic, succinic, malic, tartaric, fumaric, oxaloacetic, citric and lactic) levels as well as the activities of urease and NR. At the end of the growth period (R7 developmental stage - grain maturity), grain N and Ni accumulations were determined. The available soil-Ni in rhizosphere extracted by DTPA increased with Ni rates, notably in BCS50. The highest concentrations of organic acid and N occurred in BCS70 and 0.5 mg dm(-3) of Ni. There were no significant differences for urease activity taken on plants grown at BSC50 for Ni rates, except for the control treatment, while plants cultivated at soil BCS70 increased the urease activity up to 0.5 mg dm(-3) of Ni. In addition, the highest values for urease activities were reached from the 0.5 mg dm(-3) of Ni rate for both BCS treatments. The NR activity was not affected by any treatment indicating good biological nitrogen fixation (BNF) for all plants. The reddish color of the nodules increased with Ni rates in both BCS50 and 70, also confirms the good BNF due to Ni availability. The optimal development of soybean occurs in BCS70, but requires an extra Ni supply for the production of organic acids and for increased N-shoot and grain accumulation.
AbstractList Nickel (Ni) availability in soil varies as a function of pH. Plants require Ni in small quantities for normal development, especially in legumes due its role in nitrogen (N) metabolism. This study investigated the effect of soil base saturation, and Ni amendments on Ni uptake, N accumulation in the leaves and grains, as well as to evaluate organic acids changes in soybean. In addition, two N assimilation enzymes were assayed: nitrate reductase (NR) and Ni-dependent urease. Soybean plants inoculated with Bradyrhizobium japonicum were cultivated in soil-filled pots under two base-cation saturation (BCS) ratios (50 and 70%) and five Ni rates - 0.0; 0.1; 0.5; 1.0; and 10.0 mg dm(-3) Ni. At flowering (R1 developmental stage), plants for each condition were evaluated for organic acids (oxalic, malonic, succinic, malic, tartaric, fumaric, oxaloacetic, citric and lactic) levels as well as the activities of urease and NR. At the end of the growth period (R7 developmental stage - grain maturity), grain N and Ni accumulations were determined. The available soil-Ni in rhizosphere extracted by DTPA increased with Ni rates, notably in BCS50. The highest concentrations of organic acid and N occurred in BCS70 and 0.5 mg dm(-3) of Ni. There were no significant differences for urease activity taken on plants grown at BSC50 for Ni rates, except for the control treatment, while plants cultivated at soil BCS70 increased the urease activity up to 0.5 mg dm(-3) of Ni. In addition, the highest values for urease activities were reached from the 0.5 mg dm(-3) of Ni rate for both BCS treatments. The NR activity was not affected by any treatment indicating good biological nitrogen fixation (BNF) for all plants. The reddish color of the nodules increased with Ni rates in both BCS50 and 70, also confirms the good BNF due to Ni availability. The optimal development of soybean occurs in BCS70, but requires an extra Ni supply for the production of organic acids and for increased N-shoot and grain accumulation.
Nickel (Ni) availability in soil varies as a function of pH. Plants require Ni in small quantities for normal development, especially in legumes due its role in nitrogen (N) metabolism. This study investigated the effect of soil base saturation, and Ni amendments on Ni uptake, N accumulation in the leaves and grains, as well as to evaluate organic acids changes in soybean. In addition, two N assimilation enzymes were assayed: nitrate reductase (NR) and Ni-dependent urease. Soybean plants inoculated with Bradyrhizobium japonicum were cultivated in soil-filled pots under two base-cation saturation (BCS) ratios (50 and 70%) and five Ni rates – 0.0; 0.1; 0.5; 1.0; and 10.0 mg dm -3 Ni. At flowering (R1 developmental stage), plants for each condition were evaluated for organic acids (oxalic, malonic, succinic, malic, tartaric, fumaric, oxaloacetic, citric and lactic) levels as well as the activities of urease and NR. At the end of the growth period (R7 developmental stage – grain maturity), grain N and Ni accumulations were determined. The available soil-Ni in rhizosphere extracted by DTPA increased with Ni rates, notably in BCS50. The highest concentrations of organic acid and N occurred in BCS70 and 0.5 mg dm -3 of Ni. There were no significant differences for urease activity taken on plants grown at BSC50 for Ni rates, except for the control treatment, while plants cultivated at soil BCS70 increased the urease activity up to 0.5 mg dm -3 of Ni. In addition, the highest values for urease activities were reached from the 0.5 mg dm -3 of Ni rate for both BCS treatments. The NR activity was not affected by any treatment indicating good biological nitrogen fixation (BNF) for all plants. The reddish color of the nodules increased with Ni rates in both BCS50 and 70, also confirms the good BNF due to Ni availability. The optimal development of soybean occurs in BCS70, but requires an extra Ni supply for the production of organic acids and for increased N-shoot and grain accumulation.
Nickel (Ni) availability in soil varies as a function of pH. Plants require Ni in small quantities for normal development, especially in legumes due its role in nitrogen (N) metabolism. This study investigated the effect of soil base saturation, and Ni amendments on Ni uptake, nitrogen (N) accumulation in the leaves and grains, as well as to evaluate organic acids changes in soybean. In addition, two N assimilation enzymes were assayed: nitrate reductase (NR) and Ni-dependent urease. Soybean plants inoculated with Bradyrhizobium japonicum were cultivated in soil-filled pots under two base-cation saturation (BCS) ratios (50 and 70%) and five Ni rates - 0.0; 0.1; 0.5; 1.0; and 10.0 mg dm-3 Ni. At flowering (R1 developmental stage), plants for each condition were evaluated for organic acids (oxalic, malonic, succinic, malic, tartaric, fumaric, oxaloacetic, citric and lactic) levels as well as the activities of urease and nitrate reductase. At the end of the growth period (R7 developmental stage - grain maturity), grain N and Ni accumulations were determined. The available soil-Ni in rhizosphere extracted by DTPA increased with Ni rates, notably in BCS50. The highest concentrations of organic acid and N occurred in BCS70 and 0.5 mg dm-3 of Ni. There were no significant differences for urease activity taken on plants grown at BSC50 for Ni rates, except for the control treatment, while plants cultivated at soil BCS70 increased the urease activity up to 0.5 mg dm-3 of Ni. In addition, the highest values for urease activities were reached from the 0.5 mg dm-3 of Ni rate for both BCS treatments. The NR activity was not affected by any treatment indicating good biological nitrogen fixation (BNF) for all plants. The reddish color of the nodules increased with Ni rates in both BCS50 and 70, also confirms the good BNF due to Ni availability. The optimal development of soybean occurs in BCS70, but requires an extra Ni supply for the production of organic acids and for increased N- shoot and grain accumulation.
Author Furlan, Felipe
de Macedo, Fernando G
Bresolin, Joana D
Polacco, Joe C
Lavres, José
Santos, Elcio F
Lopes da Silva, Wilson T
AuthorAffiliation 1 Center for Nuclear Energy in Agriculture, University of Sao Paulo Piracicaba, Brazil
3 University of Missouri, Columbia MO, USA
2 Brazilian Agricultural Research Corporation São Carlos, Brazil
AuthorAffiliation_xml – name: 3 University of Missouri, Columbia MO, USA
– name: 2 Brazilian Agricultural Research Corporation São Carlos, Brazil
– name: 1 Center for Nuclear Energy in Agriculture, University of Sao Paulo Piracicaba, Brazil
Author_xml – sequence: 1
  givenname: Fernando G
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  organization: Center for Nuclear Energy in Agriculture, University of Sao Paulo Piracicaba, Brazil
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  givenname: Joana D
  surname: Bresolin
  fullname: Bresolin, Joana D
  organization: Brazilian Agricultural Research Corporation São Carlos, Brazil
– sequence: 3
  givenname: Elcio F
  surname: Santos
  fullname: Santos, Elcio F
  organization: Center for Nuclear Energy in Agriculture, University of Sao Paulo Piracicaba, Brazil
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  givenname: Felipe
  surname: Furlan
  fullname: Furlan, Felipe
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  organization: University of Missouri, Columbia MO, USA
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  givenname: José
  surname: Lavres
  fullname: Lavres, José
  organization: Center for Nuclear Energy in Agriculture, University of Sao Paulo Piracicaba, Brazil
BackLink https://www.ncbi.nlm.nih.gov/pubmed/27660633$$D View this record in MEDLINE/PubMed
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Keywords nickel
soil rhizosphere
micronutrient
urease
nitrate reductase
base-cation saturation
grain nitrogen accumulation
Language English
License This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
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Edited by: Raul Antonio Sperotto, Centro Universitário UNIVATES, Brazil
This article was submitted to Plant Nutrition, a section of the journal Frontiers in Plant Science
Reviewed by: Bahar Yildiz Kutman, Konya Food and Agriculture University, Turkey; Joska Gerendas, K+S Fertilizers (India) Pvt. Ltd, India
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Snippet Nickel (Ni) availability in soil varies as a function of pH. Plants require Ni in small quantities for normal development, especially in legumes due its role...
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StartPage 1358
SubjectTerms base-cation saturation
micronutrient
Nickel
Nitrate Reductase
Plant Science
Soil rhizosphere
Urease
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Title Nickel Availability in Soil as Influenced by Liming and Its Role in Soybean Nitrogen Metabolism
URI https://www.ncbi.nlm.nih.gov/pubmed/27660633
https://search.proquest.com/docview/1823029533
https://pubmed.ncbi.nlm.nih.gov/PMC5014873
https://doaj.org/article/ecc96041943f4e05a11eba609042ff00
Volume 7
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