Soil heat flux measurements in an open forest

MJW vanderMeulen; W Klaassen

Soil heat flux measurements in an open forest

MJW vanderMeulen
, W Klaassen

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

5 Citations (Scopus)

Abstract

The soil surface heat flux in an open oak forest was determined at four locations to account for the heterogeneity of the forest. Soil temperatures and soil water content were measured at several depths and an integration method with three layers was used. The thickness of the bottom layer was determined with a spectral method. The soil surface heat nux was compared with the net radiation above the canopy for four typical days in 1995. These data were fitted linearly. The slope of this parameterisation was 0.092, with a leaf area index of 2.5 (fully-leafed canopy). This result was compared with four other studies. To produce an exponential fit of the slope against the leaf area index the Beer-Bouguer law for radiation extinction in canopies and a soil surface heat nux proportional to the net radiation at the forest floor was used. An extinction coefficient of 0.36 was found. This result is recommended for future studies, if soil surface heat flux is requested and net radiation data above the canopy as well as leaf area index are available. (C) 1997 Elsevier Science Ltd.

Original language	English
Title of host publication	PHYSICS AND CHEMISTRY OF THE EARTH, VOL 21, NO 3, MAY 1996
Editors	G Kiely
Place of Publication	OXFORD
Publisher	Pergamon Press
Pages	101-105
Number of pages	5
ISBN (Print)	*************
Publication status	Published - 1996
Event	21st European-Geophysical-Society General Assembly - , Netherlands Duration: 1-May-1996 → …

Publication series

Name	PHYSICS AND CHEMISTRY OF THE EARTH/DELTA
Publisher	PERGAMON PRESS LTD
Volume	21

Other

Other	21st European-Geophysical-Society General Assembly
Country/Territory	Netherlands
Period	01/05/1996 → …

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title = "Soil heat flux measurements in an open forest",

abstract = "The soil surface heat flux in an open oak forest was determined at four locations to account for the heterogeneity of the forest. Soil temperatures and soil water content were measured at several depths and an integration method with three layers was used. The thickness of the bottom layer was determined with a spectral method. The soil surface heat nux was compared with the net radiation above the canopy for four typical days in 1995. These data were fitted linearly. The slope of this parameterisation was 0.092, with a leaf area index of 2.5 (fully-leafed canopy). This result was compared with four other studies. To produce an exponential fit of the slope against the leaf area index the Beer-Bouguer law for radiation extinction in canopies and a soil surface heat nux proportional to the net radiation at the forest floor was used. An extinction coefficient of 0.36 was found. This result is recommended for future studies, if soil surface heat flux is requested and net radiation data above the canopy as well as leaf area index are available. (C) 1997 Elsevier Science Ltd.",

author = "MJW vanderMeulen and W Klaassen",

year = "1996",

language = "English",

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series = "PHYSICS AND CHEMISTRY OF THE EARTH/DELTA",

publisher = "Pergamon Press",

pages = "101--105",

editor = "G Kiely",

booktitle = "PHYSICS AND CHEMISTRY OF THE EARTH, VOL 21, NO 3, MAY 1996",

note = "21st European-Geophysical-Society General Assembly ; Conference date: 01-05-1996",

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TY - GEN

T1 - Soil heat flux measurements in an open forest

AU - vanderMeulen, MJW

AU - Klaassen, W

PY - 1996

Y1 - 1996

N2 - The soil surface heat flux in an open oak forest was determined at four locations to account for the heterogeneity of the forest. Soil temperatures and soil water content were measured at several depths and an integration method with three layers was used. The thickness of the bottom layer was determined with a spectral method. The soil surface heat nux was compared with the net radiation above the canopy for four typical days in 1995. These data were fitted linearly. The slope of this parameterisation was 0.092, with a leaf area index of 2.5 (fully-leafed canopy). This result was compared with four other studies. To produce an exponential fit of the slope against the leaf area index the Beer-Bouguer law for radiation extinction in canopies and a soil surface heat nux proportional to the net radiation at the forest floor was used. An extinction coefficient of 0.36 was found. This result is recommended for future studies, if soil surface heat flux is requested and net radiation data above the canopy as well as leaf area index are available. (C) 1997 Elsevier Science Ltd.

AB - The soil surface heat flux in an open oak forest was determined at four locations to account for the heterogeneity of the forest. Soil temperatures and soil water content were measured at several depths and an integration method with three layers was used. The thickness of the bottom layer was determined with a spectral method. The soil surface heat nux was compared with the net radiation above the canopy for four typical days in 1995. These data were fitted linearly. The slope of this parameterisation was 0.092, with a leaf area index of 2.5 (fully-leafed canopy). This result was compared with four other studies. To produce an exponential fit of the slope against the leaf area index the Beer-Bouguer law for radiation extinction in canopies and a soil surface heat nux proportional to the net radiation at the forest floor was used. An extinction coefficient of 0.36 was found. This result is recommended for future studies, if soil surface heat flux is requested and net radiation data above the canopy as well as leaf area index are available. (C) 1997 Elsevier Science Ltd.

M3 - Conference contribution

SN - *************

T3 - PHYSICS AND CHEMISTRY OF THE EARTH/DELTA

SP - 101

EP - 105

BT - PHYSICS AND CHEMISTRY OF THE EARTH, VOL 21, NO 3, MAY 1996

A2 - Kiely, G

PB - Pergamon Press

CY - OXFORD

T2 - 21st European-Geophysical-Society General Assembly

Y2 - 1 May 1996

ER -

Soil heat flux measurements in an open forest

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