Nitrate uptake kinetics of grapevine under root restriction

To examine the effect of root restriction on the nitrate uptake and the nitrate transport system activity, 2-year old “Fenghou” grapevines ( Vitis Vinifera × V. Labrasca) were planted in pots with volume 2 L and 12 L served as root restriction and the control, respectively. The pots were filled with...

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Published inScientia horticulturae Vol. 111; no. 4; pp. 358 - 364
Main Authors Yang, Tianyi, Zhu, Lina, Wang, Shiping, Gu, Weijun, Huang, Danfeng, Xu, Wenping, Jiang, Aili, Li, Shicheng
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 16.02.2007
Elsevier
Subjects
Agronomy. Soil science and plant productions
Biological and medical sciences
Economic plant physiology
Fundamental and applied biological sciences. Psychology
grapes
Km and Vmax value
nitrate nitrogen
Nitrate uptake kinetics
nutrient solutions
nutrient transport
nutrient uptake
plant growth
plant nutrition
Root restriction
root systems
shoots
translocation (plant physiology)
Vitis vinifera
“Fenghou” grapevine
Root restriction
“Fenghou” grapevine
Nitrate uptake kinetics
K m and V max value
Fenghou grapevine
Horticulture
Root
Vitis
Nitrates
Absorption
Km and Vmax value
Fruit crop
Vitidaceae
Dicotyledones
Angiospermae
Liana
Spermatophyta
Kinetic parameter
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Abstract To examine the effect of root restriction on the nitrate uptake and the nitrate transport system activity, 2-year old “Fenghou” grapevines ( Vitis Vinifera × V. Labrasca) were planted in pots with volume 2 L and 12 L served as root restriction and the control, respectively. The pots were filled with perlite and watered with rainwater and nutrient solution. Vine growth and kinetics of nitrate uptake in vine roots were evaluated. The results showed that root restriction significantly inhibited the shoots and roots growth, enhanced the nitrate uptake rate, decreased the kinetics parameter K m value and increased V max value, that is to say, root restriction depressed the affinity of nitrate high-affinity transport system (HATS) and improved the nitrate uptake rates of both high (HATS) and low-affinity transport system (LATS). However, root restriction significantly decreased the amount of net nitrate uptake, which led to the low nitrate concentration in leaves and roots.
AbstractList To examine the effect of root restriction on the nitrate uptake and the nitrate transport system activity, 2-year old “Fenghou” grapevines ( Vitis Vinifera × V. Labrasca) were planted in pots with volume 2 L and 12 L served as root restriction and the control, respectively. The pots were filled with perlite and watered with rainwater and nutrient solution. Vine growth and kinetics of nitrate uptake in vine roots were evaluated. The results showed that root restriction significantly inhibited the shoots and roots growth, enhanced the nitrate uptake rate, decreased the kinetics parameter K m value and increased V max value, that is to say, root restriction depressed the affinity of nitrate high-affinity transport system (HATS) and improved the nitrate uptake rates of both high (HATS) and low-affinity transport system (LATS). However, root restriction significantly decreased the amount of net nitrate uptake, which led to the low nitrate concentration in leaves and roots.
Author Huang, Danfeng
Xu, Wenping
Li, Shicheng
Zhu, Lina
Wang, Shiping
Jiang, Aili
Gu, Weijun
Yang, Tianyi
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  organization: Shanghai Academy of Agricultural Sciences, Shanghai 201106, China
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Issue 4
Keywords Root restriction
“Fenghou” grapevine
Nitrate uptake kinetics
K m and V max value
Fenghou grapevine
Horticulture
Root
Vitis
Nitrates
Absorption
Km and Vmax value
Fruit crop
Vitidaceae
Dicotyledones
Angiospermae
Liana
Spermatophyta
Kinetic parameter
Language English
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Snippet To examine the effect of root restriction on the nitrate uptake and the nitrate transport system activity, 2-year old “Fenghou” grapevines ( Vitis Vinifera ×...
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SubjectTerms Agronomy. Soil science and plant productions
Biological and medical sciences
Economic plant physiology
Fundamental and applied biological sciences. Psychology
grapes
Km and Vmax value
nitrate nitrogen
Nitrate uptake kinetics
nutrient solutions
nutrient transport
nutrient uptake
plant growth
plant nutrition
Root restriction
root systems
shoots
translocation (plant physiology)
Vitis vinifera
“Fenghou” grapevine
Title Nitrate uptake kinetics of grapevine under root restriction
URI https://dx.doi.org/10.1016/j.scienta.2006.11.005
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