Impacts of Nitrogen Sources and Rates on Soil Chemical Attributes and Potato Nutrition and Yield in a Subtropical Environment

The nutritional status, the soil chemical attributes prior to vine killing, and the classified yield of tubers may characterise soil–plant interactions with nitrogen (N) sidedressing for potato cultivars. Two experiments with potato cultivars Agata and Atlantic were carried out with the aim of evalu...

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Published inPotato research Vol. 68; no. 1; pp. 143 - 163
Main Authors Yagi, Renato, Bagio, Bárbara, Soratto, Rogério P., Chiachia, Thaís R. S., Almeida, Danilo S.
Format Journal Article
LanguageEnglish
Published Dordrecht Springer Netherlands 01.03.2025
Springer Nature B.V
Subjects
Acidification
Agriculture
Aluminum
Ammonium
Ammonium sulfate
Biomedical and Life Sciences
Brazil
Calcium
Calcium nitrate
Calcium sulfate
Cultivars
Fertilization
Hydroxyapatite
Inceptisols
Life Sciences
Magnesium
Nitrates
Nitrogen
Nitrogen sources
Nutrients
Nutrition
Nutritional status
Plant Genetics and Genomics
Plant Sciences
Plant Systematics/Taxonomy/Biogeography
Potatoes
Soil chemistry
Soils
Subtropical zones
Sulfates
Urea
vines
Brazil
N management
Mineral nutrition
L
Agronomic efficiency
Soil fertility
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Abstract The nutritional status, the soil chemical attributes prior to vine killing, and the classified yield of tubers may characterise soil–plant interactions with nitrogen (N) sidedressing for potato cultivars. Two experiments with potato cultivars Agata and Atlantic were carried out with the aim of evaluating the effects of N sources (urea, ammonium sulfate, and calcium nitrate) and N application rates (70, 140, and 210 kg ha −1 ) as sidedressing, plus a zero-N control treatment, in southern Brazil. Discrete variations in nutrients in diagnostic leaves and in soil chemical attributes in the Agata experiment were not reflected in the maximum average increase of 69.0% (14.2 Mg ha −1 ) in total tuber yield obtained with the calculated rate for maximum technical efficiency of 152 kg N ha −1 as ammonium sulfate or calcium nitrate. These N sources did not differ in agronomic efficiency (AE). For the Atlantic cultivar, urea was practically inert in terms of soil and plant attributes, and the ammonium sulfate addition acidified the soil, increased its Al 3+ concentration in the ridges, reduced the foliar Ca and Mg concentrations, and did not increase the marketable tuber yield. Calcium nitrate increased foliar N, Ca, and Mg concentrations, increasing marketable tuber yields by 26.6% (7.3 Mg ha −1 ) with 116.7% higher AE than other N sources. In subtropical acidic inceptisols with potentially available Al 3+ , 153 kg N ha −1 ammonium sulfate or calcium nitrate for the cultivar Agata and 152 kg N ha −1 as calcium nitrate for the cultivar Atlantic are the best options for sidedressing fertilisation.
AbstractList The nutritional status, the soil chemical attributes prior to vine killing, and the classified yield of tubers may characterise soil–plant interactions with nitrogen (N) sidedressing for potato cultivars. Two experiments with potato cultivars Agata and Atlantic were carried out with the aim of evaluating the effects of N sources (urea, ammonium sulfate, and calcium nitrate) and N application rates (70, 140, and 210 kg ha⁻¹) as sidedressing, plus a zero-N control treatment, in southern Brazil. Discrete variations in nutrients in diagnostic leaves and in soil chemical attributes in the Agata experiment were not reflected in the maximum average increase of 69.0% (14.2 Mg ha⁻¹) in total tuber yield obtained with the calculated rate for maximum technical efficiency of 152 kg N ha⁻¹ as ammonium sulfate or calcium nitrate. These N sources did not differ in agronomic efficiency (AE). For the Atlantic cultivar, urea was practically inert in terms of soil and plant attributes, and the ammonium sulfate addition acidified the soil, increased its Al³⁺ concentration in the ridges, reduced the foliar Ca and Mg concentrations, and did not increase the marketable tuber yield. Calcium nitrate increased foliar N, Ca, and Mg concentrations, increasing marketable tuber yields by 26.6% (7.3 Mg ha⁻¹) with 116.7% higher AE than other N sources. In subtropical acidic inceptisols with potentially available Al³⁺, 153 kg N ha⁻¹ ammonium sulfate or calcium nitrate for the cultivar Agata and 152 kg N ha⁻¹ as calcium nitrate for the cultivar Atlantic are the best options for sidedressing fertilisation.
The nutritional status, the soil chemical attributes prior to vine killing, and the classified yield of tubers may characterise soil–plant interactions with nitrogen (N) sidedressing for potato cultivars. Two experiments with potato cultivars Agata and Atlantic were carried out with the aim of evaluating the effects of N sources (urea, ammonium sulfate, and calcium nitrate) and N application rates (70, 140, and 210 kg ha −1 ) as sidedressing, plus a zero-N control treatment, in southern Brazil. Discrete variations in nutrients in diagnostic leaves and in soil chemical attributes in the Agata experiment were not reflected in the maximum average increase of 69.0% (14.2 Mg ha −1 ) in total tuber yield obtained with the calculated rate for maximum technical efficiency of 152 kg N ha −1 as ammonium sulfate or calcium nitrate. These N sources did not differ in agronomic efficiency (AE). For the Atlantic cultivar, urea was practically inert in terms of soil and plant attributes, and the ammonium sulfate addition acidified the soil, increased its Al 3+ concentration in the ridges, reduced the foliar Ca and Mg concentrations, and did not increase the marketable tuber yield. Calcium nitrate increased foliar N, Ca, and Mg concentrations, increasing marketable tuber yields by 26.6% (7.3 Mg ha −1 ) with 116.7% higher AE than other N sources. In subtropical acidic inceptisols with potentially available Al 3+ , 153 kg N ha −1 ammonium sulfate or calcium nitrate for the cultivar Agata and 152 kg N ha −1 as calcium nitrate for the cultivar Atlantic are the best options for sidedressing fertilisation.
The nutritional status, the soil chemical attributes prior to vine killing, and the classified yield of tubers may characterise soil–plant interactions with nitrogen (N) sidedressing for potato cultivars. Two experiments with potato cultivars Agata and Atlantic were carried out with the aim of evaluating the effects of N sources (urea, ammonium sulfate, and calcium nitrate) and N application rates (70, 140, and 210 kg ha−1) as sidedressing, plus a zero-N control treatment, in southern Brazil. Discrete variations in nutrients in diagnostic leaves and in soil chemical attributes in the Agata experiment were not reflected in the maximum average increase of 69.0% (14.2 Mg ha−1) in total tuber yield obtained with the calculated rate for maximum technical efficiency of 152 kg N ha−1 as ammonium sulfate or calcium nitrate. These N sources did not differ in agronomic efficiency (AE). For the Atlantic cultivar, urea was practically inert in terms of soil and plant attributes, and the ammonium sulfate addition acidified the soil, increased its Al3+ concentration in the ridges, reduced the foliar Ca and Mg concentrations, and did not increase the marketable tuber yield. Calcium nitrate increased foliar N, Ca, and Mg concentrations, increasing marketable tuber yields by 26.6% (7.3 Mg ha−1) with 116.7% higher AE than other N sources. In subtropical acidic inceptisols with potentially available Al3+, 153 kg N ha−1 ammonium sulfate or calcium nitrate for the cultivar Agata and 152 kg N ha−1 as calcium nitrate for the cultivar Atlantic are the best options for sidedressing fertilisation.
Author Soratto, Rogério P.
Almeida, Danilo S.
Bagio, Bárbara
Yagi, Renato
Chiachia, Thaís R. S.
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  surname: Almeida
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Snippet The nutritional status, the soil chemical attributes prior to vine killing, and the classified yield of tubers may characterise soil–plant interactions with...
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SubjectTerms Acidification
Agriculture
Aluminum
Ammonium
Ammonium sulfate
Biomedical and Life Sciences
Brazil
Calcium
Calcium nitrate
Calcium sulfate
Cultivars
Fertilization
Hydroxyapatite
Inceptisols
Life Sciences
Magnesium
Nitrates
Nitrogen
Nitrogen sources
Nutrients
Nutrition
Nutritional status
Plant Genetics and Genomics
Plant Sciences
Plant Systematics/Taxonomy/Biogeography
Potatoes
Soil chemistry
Soils
Subtropical zones
Sulfates
Urea
vines
Title Impacts of Nitrogen Sources and Rates on Soil Chemical Attributes and Potato Nutrition and Yield in a Subtropical Environment
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