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Temporal dynamics of water repellency and soil moisture in eucalypt plantations, Portugal

Authors :
Leighton-Boyce, Gemma
Doerr, Stefan H.
Shakesby, Richard A.
Walsh, Rory P.D.
Ferreira, Antonio J.D.
Boulet, Anne-Karine
Coelho, Celeste O.A.
Source :
Australian Journal of Soil Research. May, 2005, Vol. 43 Issue 3, p269, 12 p.
Publication Year :
2005

Abstract

This paper investigates water repellency and soil moisture under 4 different Eucalyptus globulus plantations in Portugal. On 8 occasions over a 16-month period, measurements were made at 3 depths (surface, 0.10 and 0.20m) at 60 points on four 10 by 18m grids. The main results are: (i) at all sites and depths, spatial frequency of repellency (defined as percentage of repellent grid points) followed a moisture-related seasonal cycle, its amplitude being greatest for the longest established site, where surface repellency was contiguous in dry late-summer conditions, but was entirely absent after wet winter conditions; (ii) at a few points at 2 sites, repellency persisted during winter; (iii) repellency severity was dichotomously distributed regardless of season (i.e. soils were generally either wettable or highly repellent); and (iv) at the longest established site, when soil moisture was 27% soils were wettable. This may either support the existence of a 'transition zone', or be an artefact of the different scales of repellency and soil moisture assessments. Reasons for the observed changes in repellency and their relationship with soil moisture and antecedent rainfall are explored and soil hydrological implications discussed. Additional keywords: water repellence, repellency severity, %Ethanol method, hydrophobicity, Eucalyptus globulus, overland flow, time domain reflectometry, transition zone.<br />Introduction The spatial and temporal dynamics of soil water repellency can be expected to cause considerable variations in soil hydrological response. In particular, the time taken for repellency to break [...]

Details

Language :
English
ISSN :
00049573
Volume :
43
Issue :
3
Database :
Gale General OneFile
Journal :
Australian Journal of Soil Research
Publication Type :
Academic Journal
Accession number :
edsgcl.133910174