ELSEVIER Agricultural Water Management 25 (1994) 1-12 Agricultmal water mm~ement Review article Rootzone Processes and the efficient use of irrigation water Brent E. Clothier*, Steven R. Green Environment Group, HortReseareh, Private Bag 11-030, Palmerston North, New Zealand (Accepted 21 December 1993) Abstract The need for more-efficient agricultural use of irrigation water arises out of increased competition for water resources, and the greater pressure on irrigation practices to be environmentally friendly. In this review for the 25th Jubilee volume of Agricultural Water Management we focus on three rootzone processes that determine water-use efficiency in irrigation. Firstly, we discuss the role of macropores in preferentially-transporting irrigation water to depth during infiltration under both sprinkler and flood systems. It is suggested that more-uniform entry of irrigation water into the rootzone will result either by matching the sprinkler rate to the soil's matrix hydraulic conductivity, or by modifying the soil-surface's macroporosity prior to flood irrigation. Secondly, the environmentally-deleterious leaching of chemicals by irrigation is shown to be reduced if the applied fertilizer is first washed into dry soil by a small amount of water. This first pulse of water is drawn by capillarity into the soil's microporosity, and it carries with it the dissolved fertilizer which becomes resident there. These nutrients are then available for plant uptake, yet less prone to susbsequent leaching by heavy rains. Meanwhile, initially-resident solutes in the dry soil, such as salts, will be more-effectively displaced by the infiltrating irrigation water. Finally, our time domain reflectometry (TDR) observations of the changing soil water content in the rootzone of a kiwifruit vine, and our direct measurements of sap flow within individual roots, both reveal that plants can rapidly change their spatial pattern of water uptake in response to the application of irrigation water. The prime uptake role of near-surface roots is highlighted. Consideration of all three of these rootzone processes reinforces the claim that more- efficient and environmentally-sustainable water management will arise through higher-frequency applications of smaller amounts of irrigation. Key words: Rootzone process; Water-use efficiency; Macropore: Sprinkler and flood systems *Corresponding author. 0378-3774/94/$07.00 © 1994 Elsevier Science B.V. All rights reserved SSD10378-3774(93) E005 I-L