Abstract

A model is developed for the rate of elongation of a root tip in terms of the balance of pressures acting on the root. Differentials of this equation give expressions for the changes in root elongation rate with respect to soil water potential and soil mechanical resistance. The model predicts that root cells osmoregulate against both water stress and soil mechanical resistance with predicts that root cells osmoregulate against both water stress and soil mechanical resistance with similar efficiencies which are less than 100%. Analysis of published data leads to the conclusion that root tips of pea osmoregulate with 70% efficiency. A working equation is developed for the elongation rate of roots in conditions of combined water stress and mechanical resistance.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Effect of endophytic fungus Piriformospora indica and PEG-induced water stress on maximum root growth pressure and elongation rate of maize
Fatemeh Hosseini ... Mohammad Reza Mosaddeghi
Plant and Soil | VOL. 435
Fatemeh Hosseini, et. al.Fatemeh Hosseini ... Mohammad Reza Mosaddeghi
17 Dec 2018
Aphid–Barley Interactions Mediated by Water Stress and Barley Resistance to Russian Wheat Aphid (Homoptera: Aphididae)
C J Oswald ... M J Brewer
Environmental Entomology | VOL. 26
C J Oswald, et. al.C J Oswald ... M J Brewer
01 Jun 1997
Biochemical and physiological mechanisms allowing olive trees to survive and produce under water stress conditions
Mariano A Busso
Lilloa | VOL. -
Mariano A BussoMariano A Busso
14 Sep 2023
Estimation of soil mechanical resistance parameter by using particle swarm optimization, genetic algorithm and multiple regression methods
Mehdi Hosseini ... Yones Khaledian
Soil & Tillage Research | VOL. 157
Mehdi Hosseini, et. al.Mehdi Hosseini ... Yones Khaledian
28 Nov 2015
View more papers

More From: Plant and Soil

Paper Title
Journal
Date
Author
Nitrogen fertilisation reduces the contribution of root-derived carbon to mineral-associated organic matter formation at low and high defoliation frequencies in a grassland soil
Bahareh Bicharanloo ... Feike A Dijkstra
Plant and Soil | VOL. -
Bahareh Bicharanloo, et. al.Bahareh Bicharanloo ... Feike A Dijkstra
10 Jul 2024
Nitrogen fertilisation reduces the contribution of root-derived carbon to mineral-associated organic matter formation at low and high defoliation frequencies in a grassland soil
Bahareh Bicharanloo ... Feike A Dijkstra
Plant and soil | VOL. -
Bahareh Bicharanloo, et. al.Bahareh Bicharanloo ... Feike A Dijkstra
10 Jul 2024
Vegetation fine-tunes aridity thresholds in soil biodiversity and function worldwide
Jianwei Zhang ... Manuel Delgado-Baquerizo
Plant and Soil | VOL. -
Jianwei Zhang, et. al.Jianwei Zhang ... Manuel Delgado-Baquerizo
09 Jul 2024
The shift of carbon metabolic pathways mediated by key rhizosphere microbes of exotic plants affects organic carbon
Chaofang Sun ... Fengjuan Zhang
Plant and Soil | VOL. -
Chaofang Sun, et. al.Chaofang Sun ... Fengjuan Zhang
09 Jul 2024
View more papers