Seeds of A. bivenosa DC. Prod., A. coriacea DC., A. elata A. Cunn. Ex Benth
., A. farnesiana (L.) Willd., A. nilotica Willd. ex Del., A. salicina Lindl
., A. saligna (Labill.) H. Wendle., A. senegal (L.) Willd., A. tortilis (Fo
rsk.) Hayne and A. tumida F. Muell. ex Benth. were tested for their final g
ermination percentage (FG) in distilled water (DW) and in 25-400 mol m(-3)
NaCl, germination rate (1/t(50), where t(50) is the time to 50% of final ge
rmination in DW), Ca and K concentration (Ca-unt, K-unt), the leakage of th
ese ions when soaked for 24 h in DW (Ca-DW, K-DW) and the leakage (addition
al to that in DW) when soaked in 250 mol m(-3) NaCl (Ca-NaCl, K-NaCl). Line
ar regression revealed significant positive relationships between salinity
tolerance (I-50, the concentration of NaCl required to reduce final germina
tion to 50% of the control value in DW) and FG, Rate, Ca-unt/K-unt and Ca(N
aC)l/K-NaCl. There was also a significant negative relationship between I-5
0 and K-unt. Multiple regression equations were developed to predict I-50 f
rom the above parameters. Equations based on (1) FG and Rate, (2) Ca-unt an
d K-unt, and (3) any of these four factors, accounted for 61, 60 and 79%, r
espectively, of the variation in I-50. Further equations, introducing the l
eakage of ions into DW and NaCl and the ratios of ion concentrations monito
red, improved the predictive value of the equation. The best equation, acco
unting for 93% of the variation was: I-50 = 108 + 422 Rate - 1.32 K-unt + 1
6.3 Ca-DW - 5.4 K-DW + 71.6 K/Ca-DW. These equations provide a screening te
st for salt tolerance of Acacia seed germination based on simple and rapid
laboratory chemical analyses and germination tests.