Growth and water use of eucalypt trees irrigated with saline drainage water

• Published in: Irrigation science Vol. 17; no. 4; pp. 173 - 181
• Main Authors: Sweeney, S.M, Stevens, R.M
• Format: Journal Article
• Language: English
• Published: 1997
• Subjects: South Australia
• ISSN: 0342-7188; 1432-1319
• DOI: 10.1007/s002710050036

Leaf chemical composition, growth and water use of Eucalyptus camaldulensis (Lake Albacutya provenance) were measured in the 4th year of a split-plot salinity by nutrition trial. The main plot consisted of irrigating with five different water salinities: 0.5 dS/m (S0.5), 2 dS/m (S2), 5 dS/m (S5), 7.5 dS/m (S7.5) and 10 dS/m (S10). The subplot treatments consisted either of annual additions of 200 kg N and 100 kg P per hectare (+N+P) or no addition of nutrients (-N-P). Irrigation with water from a drainage system (treatments S2, S5, S7.5 and S10) added about a further 100 kg N/ha annually. Leaf concentrations of N and P were higher in the +N+P treatments. In S0.5, nutrient addition stimulated growth. In +N+P treatments, raising the irrigation salinity from 0.5 to 2.0 dS/m increased leaf Na and decreased the growth rate, however, further increases in salinity affected neither leaf Na nor growth. In -N-P, growth rate depression due to inadequate nutrition was overcome in S2 and S5 by the 100 kg/ha of N in the drainage water. At higher salinities, the N added by drainage water did not overcome the effect of inadequate nutrition. On days when the reference crop evapotranspiration (ETo) was less than 3 mm/day, the correlations between water use of trees in litres per day and ETo and between water use of trees in litres per day and the basal area of the tree butt were highly significant. On days when the ETo was 3 mm/day or greater, the correlation between tree water use and basal area was highly significant, but that between tree water use and ETo was not significant.