Microclimate within beech stands – Part II: Thermal conditions
(2004) In European Journal of Forest Research 123. p.13-28- Abstract
- Within the framework of an interdisciplinary project on the effects of climate and forest management on beech-dominated deciduous forests (Swabian Jura, south-western Germany), forest meteorological investigations are carried out to analyse the influences of exposure and canopy density on the microclimate within various beech stands (Fagus sylvatica L.). This second paper of the series ‘‘Microclimate within beech stands’’
focuses on the thermal conditions that exist mainly in
the near-surface layer at different test plots. They were
analysed by air temperature, Ta, (at 1.5 m a.g.l) and soil
temperature, Ts, at six depths measured continuously in
the period 1999–2003. The main results can be... (More) - Within the framework of an interdisciplinary project on the effects of climate and forest management on beech-dominated deciduous forests (Swabian Jura, south-western Germany), forest meteorological investigations are carried out to analyse the influences of exposure and canopy density on the microclimate within various beech stands (Fagus sylvatica L.). This second paper of the series ‘‘Microclimate within beech stands’’
focuses on the thermal conditions that exist mainly in
the near-surface layer at different test plots. They were
analysed by air temperature, Ta, (at 1.5 m a.g.l) and soil
temperature, Ts, at six depths measured continuously in
the period 1999–2003. The main results can be summarized
as follows. (1) The thermal situation within the
beech stands described by Ta depended primarily on the
turbulent air-mass exchange conditions which were
based on the slope-specific energy balance of the forest
floor and advective heat fluxes. (2) The thermal situation
within the soil described by Ts at 3 and 20 cm depth was
governed by the molecular heat transport. Therefore, the
heating and cooling rates of Ts were always lower than
for Ta. Higher Ta and Ts values for the test plots on the
SW slope showed that the thermal conditions within the
beech stands depended primarily on the exposure. (3)
Based on slope-specific differences of daily extremes of
Ta and Ts at 3 cm depth between the silviculturally
treated and control plots, the influence of the more
pronounced height growth of the understorey vegetation
under the near-surface thermal conditions could be
clearly verified for the NE slope. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/707569
- author
- Holst, Thomas LU ; Mayer, Helmut and Schindler, Dirk
- publishing date
- 2004
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- Fagus sylvatica L. & Air temperature & Soiltemperature & Exposure & Canopy density & SouthwesternGermany
- in
- European Journal of Forest Research
- volume
- 123
- pages
- 13 - 28
- publisher
- Springer
- external identifiers
-
- scopus:3242814584
- ISSN
- 1612-4669
- DOI
- 10.1007/s10342-004-0019-5
- language
- English
- LU publication?
- no
- id
- 247ea62f-e860-4eb5-ab95-8c9b1b61110c (old id 707569)
- date added to LUP
- 2016-04-01 12:07:48
- date last changed
- 2022-04-21 02:53:10
@article{247ea62f-e860-4eb5-ab95-8c9b1b61110c, abstract = {{Within the framework of an interdisciplinary project on the effects of climate and forest management on beech-dominated deciduous forests (Swabian Jura, south-western Germany), forest meteorological investigations are carried out to analyse the influences of exposure and canopy density on the microclimate within various beech stands (Fagus sylvatica L.). This second paper of the series ‘‘Microclimate within beech stands’’<br/><br> focuses on the thermal conditions that exist mainly in<br/><br> the near-surface layer at different test plots. They were<br/><br> analysed by air temperature, Ta, (at 1.5 m a.g.l) and soil<br/><br> temperature, Ts, at six depths measured continuously in<br/><br> the period 1999–2003. The main results can be summarized<br/><br> as follows. (1) The thermal situation within the<br/><br> beech stands described by Ta depended primarily on the<br/><br> turbulent air-mass exchange conditions which were<br/><br> based on the slope-specific energy balance of the forest<br/><br> floor and advective heat fluxes. (2) The thermal situation<br/><br> within the soil described by Ts at 3 and 20 cm depth was<br/><br> governed by the molecular heat transport. Therefore, the<br/><br> heating and cooling rates of Ts were always lower than<br/><br> for Ta. Higher Ta and Ts values for the test plots on the<br/><br> SW slope showed that the thermal conditions within the<br/><br> beech stands depended primarily on the exposure. (3)<br/><br> Based on slope-specific differences of daily extremes of<br/><br> Ta and Ts at 3 cm depth between the silviculturally<br/><br> treated and control plots, the influence of the more<br/><br> pronounced height growth of the understorey vegetation<br/><br> under the near-surface thermal conditions could be<br/><br> clearly verified for the NE slope.}}, author = {{Holst, Thomas and Mayer, Helmut and Schindler, Dirk}}, issn = {{1612-4669}}, keywords = {{Fagus sylvatica L. & Air temperature & Soiltemperature & Exposure & Canopy density & SouthwesternGermany}}, language = {{eng}}, pages = {{13--28}}, publisher = {{Springer}}, series = {{European Journal of Forest Research}}, title = {{Microclimate within beech stands – Part II: Thermal conditions}}, url = {{http://dx.doi.org/10.1007/s10342-004-0019-5}}, doi = {{10.1007/s10342-004-0019-5}}, volume = {{123}}, year = {{2004}}, }