Most popular articles
Everything About Peaches. Clemson University Cooperative Extension Service Everything About Peaches Website: whether you are a professional or backyard peach...
Read more
Mission Statement. For the sake of mankind and the world as a whole a further increase of the sustainability...
Read more
Newsletter 9: July 2013 - Temperate Fruits in the Tropics and Subtropics. Download your copy of the Working Group Temperate...
Read more
USA Walnut varieties. The Walnut Germplasm Collection of the University of California, Davis (USA). A description of the Collection and a History...
Read more
China Walnut varieties.
Read more
Become a member

Articles

SURFACE RENEWAL ESTIMATES OF EVAPOTRANSPIRATION. THEORY

Article number
449_5
Pages
49 – 56
Language
Abstract
Traces of high frequency temperature data are known to exhibit ramp-like shapes, and the mean ramp amplitude (a) and inverse ramp frequency (l+s) during a time interval can be used to estimate sensible heat flux density (H) using the surface renewal (SR) method.
Structure functions are used to determine the mean ramp characteristics, and then H is estimated using a basic conservation of energy equation.
The SR estimates of H have been tested against H estimated with a sonic anemometer over several crop canopies.
The method provides good estimates of H without the need for temperature profile and wind speed data over a wide range of agronomic and horticultural crops.
When combined with measured net radiation and soil heat flux density, the SR method provides an inexpensive, accurate method to estimate latent heat flux density (lambdaE) from a vegetative surface.

Publication
II International Symposium on Irrigation of Horticultural Crops
Authors
R.L. Snyder, K.T. Paw U, D. Spano, P. Duce
Keywords
Coherent structures, sensible heat flux, structure functions
Full text
https://doi.org/10.17660/ActaHortic.1997.449.5
Online Articles (101)
K. Chartzoulakis | A.N. Angelakis | P. Skylourakis
R.G. Allen | M. Smith | L.S. Pereira | W.O. Pruitt
M. Anadranistakis | A. Liakatas | A. Poulovassilis
I.K. Tsanis | P.A. Londra | A.N. Angelakis
R.L. Snyder | K.T. Paw U | D. Spano | P. Duce
P. Duce | D. Spano | R.L. Snyder | K.T. Paw U
D. Spano | P. Duce | R.L. Snyder | K.T. Paw U
M. Anadranistakis | A. Liakatas | S. Alexandris | S. Aggelides | P. Kerkides | S. Rizos | A. Poulovassilis
V. Nuzzo | C. Xiloyannis | B. Dichio | G. Montanaro | G. Celano
J.E. Fernández | F. Moreno | I.F. Girón | O.M. Blázquez
J.R. Castel
R. Massai | R. Gucci
M. Iancu
F. La Loggia | M. Pennisi | V. Sardo
I.I. Androulakis | M.H. Loupassaki | W.W. Schwabe
S. Dasberg | Y. Erner
D. Bošnjak | D. Gvozdenovic | S. Moldovan
G. Toller | F. Turri | F. Bigaran | L. Pedron
N. Michelakis | G. Klapaki | E. Vouyoukalou | E. Barbopulu
A. Battilani
M. Génard | J.G. Huguet
D. Almaliotis | I. Therios | M. Karatassiou
K. Chartzoulakis | N. Drosos
A. Battilani
A. Pardo | J. Arbizu | M.L. Suso
M. Rajic | M. Skoric | D. Stojiljkovic
C.D. Economakis
N. Losavio | N. Lamascese | A.V. Vonella
D. Bošnjak | B. Pejic
Z. Zhivkov | S. Kaltcheva
C.D. Economakis | R. Koleilat
D.I. Karafyllidis | D.N. Georgakis | N.I. Stauropoulos | A. Louizakis
J. Treder | B. Matysiak | J. Nowak | W. Treder
A. Boujelben | K. M'barek
B. Srdjevic
E. Fereres
H.G. Jones | D. Aikman | T.A. McBurney
P. Braun
M. Cohen | C. Valancogne | S. Dayau | T. Ameglio | P. Cruiziat | P. Archer
D.M. Papamichail | G.A. Terzidis
P.J. Paschold | K.H. Zengerle
N. Michelakis
I.D. Christov
H.W. Caspari | S. Neal | A. Naylor
D.M. May | J. Gonzales
C.S. Tan | C.F. Drury | M. Soultani | J.D. Gaynor | T.W. Welacky | H.Y.F. Ng | I.J. van Wesenbeeck
D.A. Goldhamer | T.J. Michailides | D.P. Morgan
A.G. Panoras | D.M. Papamichail | Z.G. Papazafiriou
A. Liptay | C.S. Tan | T.J. Jewett | C. Drury | I. van Wesenbeeck
G.N. Mavrogianopoulos | S.M. Aggelides
A. Maarouf | J.P. Rossignol
H.G. Jones
M.I. Ferreira | C.A. Pacheco | C. Valancogne | J. Michaelsen | T. Ameglio | F.-A. Daudet
T.M. Mills | B.E. Clothier | M.H. Behboudian
V.O. Mogensen | C.R. Jensen | H.-H. Poulsen | G. Mortensen | J.H. Thage | J. Koribidis
B. Dichio | V. Nuzzo | C. Xiloyannis | G. Celano | K. Angelopoulos
C. Gimenez | E. Fereres | C. Ruz | F. Orgaz
F. Loreto | S. Delfine | A. Alvino
C. Valancogne | S. Dayau | M.I. Ferreira Gama | T. Ameglio | P. Archer | F.A. Daudet | M. Cohen
T. Ameglio | P. Archer | P. Cruiziat | F.A. Daudet | C. Valancogne | S. Dayau | M. Cohen
J.M. Mjwara | C.E.J. Botha
J. Escalona | E. Delgado | H. Medrano
A. Patakas | B. Noitsakis | K. Chartzoulakis
A. Patakas | D. Stavrakas | M.S. Vrahnakis
V. Novello | L. de Palma
J. Schmid | P. Braun
M. Centritto
J. Girona | J. Marsal | M. Mata | A. Arbonés | C. Miravete
C. Germanà
K. Arzani | S. Lawes | D. Wood
C. Germana
A. Battilani | F. Ventura
D. Almaliotis | I. Therios | M. Karatassiou
P. Konopacki | W. Treder
W. Treder | P. Konopacki | A. Mika
L. de Palma | V. Novello | F. Monastra
T. Boulard | R. Jemaa | A. Baille
A.W. Zabri | S.W. Burrage
A. Daskalaki | S.W. Burrage
M.S. Vrahnakis | Z. Koukoura | A. Patakas
M. Karatassiou | B. Noitsakis | Z. Koukoura
Z. Plaut
A.M. Boland | P. Jerie | E. Maas
S.R. Grattan | M.C. Shannon | C.M. Grieve | J.A. Poss | D. Suarez | F. Leland
A.M. Boland | S. Martin | P. Jerie
J. Beltrão | D. Trindade | P.J. Correia
U. Aksoy | S. Anaç | D. Anaç | H.Z. Can
F. Karam | A. Hamdy | N. Katerji | M. Mastrorilli
B. Noitsakis | K. Dimassi | I. Therios
S. De Pascale | G. Barbieri | C. Ruggiero
F. Boari | V. Cantore | G. Cucci
M. Skoric | M. Beric | D. Stojiljkovic
A.N. Angelakis | G. Tchobanoglous
M. Curtius | H. Bohne
S. Aggelides | G. Mavrogianopoulos | T. Mimides | A. Liakatas
C.D. Tsadilas
J.C. Brito | A. Veliça | C. Guerrero | J. Beltrão | M.L. Faleiro
I.X. Tsiros
I.X. Tsiros | S. Elmaloglou | R.B. Ambrose
P. Kerkides | S. Elmaloglou | G. Grigorakis