Agroforestry plantations offer environmentally acceptable strategies for th
e reuse of saline drainage waters. Tree species suitable for use in such sy
stems must be selected for survival and sustained growth under highly salin
e conditions. In this screening trial, four clones of Eucalyptus camaldulen
sis Dehn. (4543, 4544, 4573, and 4590) and one clone of E. rudis Endl. (450
1) were grown in greenhouse sand cultures irrigated with sodium sulfate-dom
inated waters. Solution compositions were prepared to simulate saline drain
age waters typically found in the San Joaquin Valley of California, Electri
cal conductivities of the solutions ranged from 2 to 28 dS.m(-1). Treatment
s were replicated three times. All plants survived and were harvested after
7 weeks under saline treatment. Plant height was measured weekly and shoot
biomass was determined at final harvest. The salinity levels that resulted
in a 50% reduction in biomass production (C-50) were 16.4 (4573), 17.1 (45
43), 17.7 (4544), 29.0 (4590), and 30.0 dS.m(-1) (4501). Over the range of
salinities from 4 to 20 dS.m(-1), clones 4501, 4590, and 4573 generally mai
ntained higher relative growth rates (RGR) than did clones 4544 and 4543. H
owever, at the highest salinity, RGRs of clones 4501, 4544, and 4573 were s
ignificantly greater than those of clones 4543 and 4590, Assessed on the ba
sis of biomass production, clones 4501 (E. rudis) and 4590 (E. camaldulensi
s) showed exceptional potential for use in agroforestry systems where the s
aline drainage waters are sodium sulfate-dominated.