1. The role of tree stem proximity in the spatial variability of soil water repellency in a eucalypt plantation in coastal Portugal
- Author
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Keizer, J.J., Ferreira, A.J.D., Coelho, C.O.A., Doerr, S.H., Malvar, M.C., Domingues, C.S.P., Perez, I.M.B., Ruiz, C., and Ferrari, K.
- Subjects
Soil moisture -- Environmental aspects ,Stems (Botany) -- Environmental aspects ,Water, Underground -- Environmental aspects ,Coasts -- Environmental aspects ,Forests and forestry -- Portugal ,Eucalyptus -- Environmental aspects ,Agricultural industry ,Earth sciences - Abstract
Certain organic compounds derived from living organisms or their decaying parts are generally accepted to induce soil water repellency. Water repellency may therefore be expected to increase with proximity to organisms releasing hydrophobic compounds. This hypothesis is tested here for Eucalyptus globulus trees, since eucalypt species are frequently associated with elevated repellency levels. In a young, first-rotation plantation on coastal dune sands in central Portugal, repeat measurements of water repellency using the 'Molarity of an Ethanol Droplet' (MED) test were carried out in situ between April 2001 and May 2002. On 25 dates, repellency was measured at initially 2 and later 3 distances on 2 sides of 8-11 randomly selected trees. On 15 occasions, additional repellency measurements were performed within small grids aside 3 of the selected trees. The postulated decrease in topsoil water repellency with increased distance from eucalypt tree stems was found to apply on several individual measurement dates, as well as, more unexpectedly since repellency usually is a transient phenomenon, for the study period as a whole. The results confirm the general association of eucalypt trees with water repellency, and indicate that tree stem proximity is an important but not sufficient factor to explain repellency distribution in topsoil. Additional keywords: Eucalyptus globulus, MED test., Introduction With a rapidly growing body of literature on soil water repellency (DeBano and Dekker 2000), it is now increasingly evident that the resistance of soils to wetting is not [...]
- Published
- 2005