Me. Balibrea et al., SUCROLYTIC ACTIVITIES IN RELATION TO SINK STRENGTH AND CARBOHYDRATE-COMPOSITION IN TOMATO FRUIT GROWING UNDER SALINITY, PLANT SCI, 118(1), 1996, pp. 47-55
The effects of low (control), moderate, and high salinity on sucrose m
etabolism, in relation to fruit growth, were assayed in a commercial F
-1 tomato hybrid (Lycopersicon esculentum L. Mill) Radja (GC-793). Hig
h salinity reduced both fruit growth rate and the mature fruit weight
by 44%, while moderate salinity did not affect them significantly. The
highest sink strength in control fruits was found between 20 and 30 d
ays after anthesis (DAA). During this critical growing period, the imp
ort rate was reduced by more than 30% and 50% under moderate and high
salinity, respectively, although the highest sink strength in salinize
d fruits was registered between 40 and 50 DAA. Starch was accumulated
up to 40 DAA and to a greater extent in the salt-treated fruits, with
a negative correlation between starch accumulation and the sink streng
th during the critical growing period (20-30 DAA). The hexose accumula
tion in mature fruits (60 DAA) was about 2 and 1.5 times greater in mo
derately salinized fruits than in control and highly salinized ones, r
espectively. The sucrose content, which declines in control fruits wit
h time, was accumulated in the salinized ones during the rapid growing
period. The acid invertase (E.C. 3.2.1.25) was the main sucrolytic ac
tivity in control fruits between 10 and 40 DAA, with a positive correl
ation between this activity and the sink strength during this period.
However, the cytoplasmic sucrolytic activities, neutral invertase (E.C
. 3.2.1.26) and sucrose synthase (E.C. 2.4.1.13) were more important i
n salinized fruits. Sucrose synthase activity increased in relation to
the intensity of stress between 30 and 40 DAA coinciding with the hig
hest starch accumulation and the depletion in the sucrose content, and
preceding the highest sink strength in the salinized fruits (50 DAA).
The implication of sucrolytic activities in the import of assimilates
and fruit growth under these adverse conditions is discussed.