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Articles

CALIBRATION OF TIME DOMAIN REFLECTOMETRY WATER CONTENT MEASUREMENTS IN GROWING MEDIA

Article number
401_4
Pages
49 – 56
Language
Abstract
Time Domain Reflectometry (TDR) is a widely accepted method to determine volumetric water content (theta) in soil.
With TDR, the apparent dielectric permittivity (constant) Ka is measured, which is mainly dependent on the water content of the medium.
In growing media this method has hardly been tested.
The aim of our study was to test the applicability of TDR for different growing media.

A new calibration method is introduced in which different pressure heads are applied and water contents are determined indirectly.
Calibration was carried out for the following media: glass- and rockwool, coir dust, pumice stone, and perlite.
For glass- and rockwool a complete set of data could be obtained by this calibration method.
Water contents in the other media could be measured in the range which is commonly occuring in horticultural practice.

For the granual media a linear relationship between theta and Ka defined in terms of La and L seems to be suitable to determine water content in the range of values common in horticulture practice.
Separate calibration of these materials is only necessary, when absolute water contents are needed.
For glass- and rockwool polinomials fitted better.

Publication
International Symposium on Growing Media & Plant Nutrition in Horticulture
Authors
J.A. Kipp, R.C. Kaarsemaker
Keywords
Time domain reflectometry, calibration method, rockwool, glasswool, perlite, coir dust, pumice stone
Full text
https://doi.org/10.17660/ActaHortic.1995.401.4
Online Articles (70)
G. Wever | A.A. van Leeuwen
S. Burés | Alan M. Ferrenberg | F. A. Pokorny | David P. Landau
V. Terés | V. Arrieta | M. Rozas
J.A. Kipp | R.C. Kaarsemaker
R. Gabriëls | W. Keirsbulck | H. Engels
C. de Kreij | C.W. van Elderen | E. Meinken | P. Fischer
F.F. da Silva | R. Wallach | Y. Chen
T.E. Bilderback | M.R. Lorscheider
G.A. Boertje
K. Dickinson | W.R. Carlile
L.M. Rivière | N. Coulomb | P. Morel
G. Kritz | T. Khaled
P. Fischer | E. Meinken
M.A. Sherif | P.A. Loretan | A.A. Trotman | D.G. Mortley | J.Y. Lu | L.C. Garner
B. Gunnlaugsson | S. Adalsteinsson
R. Orozco | O. Marfa | S. Burés
W.L. van Schie
S.D. Ansermino | D.M. Holcroft | J.B. Levin
C.A. Smith | P. MacDonald | A.M. Sword
M. Rozas | V. Terés | V. Arrieta
D.M. Holcroft | M.D. Laing
D.P. Wilson | A.R. Finlay
F. Buwalda | R. Frenck | B. Löbker | B. van den Berg-De Vos | K.S. Kim
M. Hardgrave
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M. Hardgrave | M. Harriman
M.J. Maher | M. Prasad
O. Marfà | R. Orozco
M. Reis | M. Soliva | X. Martinez Farré
C. Cattivello
E.S. Lim
M. Schiavi | A. Venezia | D. Casarotti | G. Martignon
R. Baas | M.G. Warmenhoven
G. de Rijck | E. Schrevens
P.F. Challinor | J.M. Le Pivert | M.P. Fuller
P. Imas | A. Feigin
N.C. Bragg | G.M. Whiteley
D.J. Hand | M. Fussell
W. Voogt
B. Bar-Yosef | P. Imas
A. van Peer
Ulla E. Gertsson
P. Adams | L.C. Ho
Th.H. Gieling | J. Bontsema | A.W.J. van Antwerpen | L.J.S. Lukasse
E. Eymar | C. Cadahía | A. Sánchez | I. Hassan
A. Nukaya | K. Goto | H. Jang | A. Kano | K. Ohkawa
D.L. Le Marchant-Smith | C.N. Ozanne
M.G. Warmenhoven | R. Baas
M.C. van Labeke | P. Dambre | E. Schrevens | G. de Rijck
W. Sady | S. Rozek | J. Myczkowski
F. Lieten
M. Raviv | R. Reuveni | A. Krasnovsky | Sh. Medina
J.A. Saarinen | O. Reinikainen
K.R. Uronen
F. Lemaire | V. Guérin | S. Charpentier
A.P. Papadopoulos | S. Khosla
A.A. Pronk
C.M.J. Bloemhard | J. van Moolenbroek
J.F. de Groot
M. Heinen | P. de Willigen
J. John van Gemert | C.J.M. Kees Vernooy
M. Heinen | J. van Moolenbroek
A.W. Knop | M. Ouwerling
P.A.C.M. van de Sanden | J.J. Uittien
G. D'Angelo | M. Pusterla | M. Castelnuovo
R. de Graaf
R. Gabriëls
O. Verdonck | R. Gabriëls | W. Keirsbulck
G. Wever