A multivariate framework for interpreting the effects of soil properties, soil management and landuse on water repellency

Recent research relating the incidence of water repellency in soils of south-western Australia to other soil attributes, soil management, and overuse is reviewed. Repellency and soil attribute relationships are multivariate in nature. Multiple regressions can explain up to 63% of the variation in wa...

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Veröffentlicht in:	Journal of hydrology (Amsterdam) 2000-05, Vol.231-232 (1-4), p.371-383
Hauptverfasser:	Harper, R J, McKissock, I, Gilkes, R J, Carter, D J, Blackwell, P S
Format:	Artikel
Sprache:	eng
Schlagworte:	Clay (material) Hydrology Management Properties (attributes)
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container_title	Journal of hydrology (Amsterdam)
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creator	Harper, R J McKissock, I Gilkes, R J Carter, D J Blackwell, P S
description	Recent research relating the incidence of water repellency in soils of south-western Australia to other soil attributes, soil management, and overuse is reviewed. Repellency and soil attribute relationships are multivariate in nature. Multiple regressions can explain up to 63% of the variation in water repellency. Water repellency is found to be: more common on sandy soils; reduced with application of clay and fine inorganic material; less severe in cropped soils compared with pasture soils; and generally more severe in soil under natural vegetation than in agricultural use (i.e., a natural feature, rather than a result of land degradation due to farming). Field texture data from soil surveys can be used to predict the risk of water repellency development, providing a basis for optimal management.
doi_str_mv	10.1016/S0022-1694(00)00209-2
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subjects	Clay (material) Hydrology Management Properties (attributes)
title	A multivariate framework for interpreting the effects of soil properties, soil management and landuse on water repellency
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