Rapid decline in nitrate uptake and respiration with age in fine lateral roots of grape: implications for root efficiency and competitive effectiveness

• Changes in function as an individual root ages has important implications for understanding resource acquisition, competitive ability and optimal lifespan. • Both nitrate uptake and respiration rates of differently aged fine roots of grape (Vitis rupestris × V. riparia cv. 3309 C) were measured. T...

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Bibliographic Details
Published in:The New phytologist 2005-02, Vol.165 (2), p.493-502
Main Authors: Volder, Astrid, Smart, David R., Bloom, Arnold J., Eissenstat, David M.
Format: Article
Language:English
Subjects:
Age
cell respiration
Cost efficiency
fine roots
grape
grapes
hybrids
nitrate uptake
Nitrates
Nitrates - metabolism
Nitrogen
nitrogen content
nutrient competition
nutrient solutions
Nutrient uptake
Oxygen Consumption - physiology
plant age
Plant roots
Plant Roots - metabolism
Plants
Respiration
Riparia
root age
root efficiency
root respiration
root systems
Roots of functions
Soil nutrients
Time Factors
Vitaceae
Vitis - metabolism
Vitis riparia
Vitis rupestris
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Summary:• Changes in function as an individual root ages has important implications for understanding resource acquisition, competitive ability and optimal lifespan. • Both nitrate uptake and respiration rates of differently aged fine roots of grape (Vitis rupestris × V. riparia cv. 3309 C) were measured. The resulting data were then used to simulate nitrate uptake efficiency and nutrient depletion as a function of root age. • Both nitrate uptake and root respiration declined remarkably quickly with increasing root age. The decline in both N uptake and root respiration corresponded with a strong decline in root N concentration, suggesting translocation of nitrogen out of the roots. • For simulations where no nutrient depletion occurs at the root surface, daily uptake efficiency was maximal at root birth and lifetime nitrate uptake efficiency slowly increased as the roots aged. Simulations of growth of roots into unoccupied soil using a solute transport model indicated the advantage of high uptake capacity in new roots under competitive conditions where nitrate availability is very transitory.
ISSN:0028-646X
1469-8137
DOI:10.1111/j.1469-8137.2004.01222.x