about
Biophysical rhizosphere processes affecting root water uptake.Estimation of the hydraulic conductivities of lupine roots by inverse modelling of high-resolution measurements of root water uptake.Root hairs enable high transpiration rates in drying soils.Root hairs increase rhizosphere extension and carbon input to soil.Root type matters: measurement of water uptake by seminal, crown, and lateral roots in maize.Hydraulic conductivity of soil-grown lupine and maize unbranched roots and maize root-shoot junctions.Nitrogen fertilization raises CO2 efflux from inorganic carbon: A global assessmentSpatio-temporal patterns of enzyme activities after manure application reflect mechanisms of niche differentiation between plants and microorganismsRhizosphere shape of lentil and maize: Spatial distribution of enzyme activitiesWater for Carbon, Carbon for WaterSpatial patterns of enzyme activities in the rhizosphere: Effects of root hairs and root radiusWater movement through plant roots – exact solutions of the water flow equation in roots with linear or exponential piecewise hydraulic propertiesVisualization of root water uptake: quantification of deuterated water transport in roots using neutron radiography and numerical modelingWhere do roots take up water? Neutron radiography of water flow into the roots of transpiring plants growing in soilStomatal closure prevents the drop in soil water potential around rootsRoot water uptake and its pathways across the root: quantification at the cellular scale
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P50
description
researcher, ORCID id # 0000-0001-6342-5792
@en
wetenschapper
@nl
name
M Zarebanadkouki
@ast
M Zarebanadkouki
@en
M Zarebanadkouki
@es
M Zarebanadkouki
@nl
type
label
M Zarebanadkouki
@ast
M Zarebanadkouki
@en
M Zarebanadkouki
@es
M Zarebanadkouki
@nl
prefLabel
M Zarebanadkouki
@ast
M Zarebanadkouki
@en
M Zarebanadkouki
@es
M Zarebanadkouki
@nl
P106
P1153
55202253400
P31
P496
0000-0001-6342-5792