Incidence of green mold of citrus, caused by Penicillium digitatum, was red
uced by 80% or more by the immersion of lemons or oranges for 1-4 min in wa
rm (40.6-43.3 degreesC) 'liquid lime-sulfur' (LLS) solution that contained
0.75% (wt vol(-1)) calcium polysulfide. The incidence of sour rot, caused b
y Geotrichum cirri-aurantii, was reduced 35-70% by this treatment. LLS was
similar in effectiveness to other treatments employed to control postharves
t decay. Effectiveness was higher on lemons than oranges, and on green comp
ared to yellow lemons. LLS did not stop sporulation, a benefit now obtained
with some fungicides. The sulfide content of oranges, lemons, and grapefru
it after LLS treatment was 31.9, 33.1, and 36.3 mug g(-1), respectively. Ri
gorous cleaning of fruit with water applied at high pressure after LLS trea
tment slightly improved LLS efficacy; conversely, similar cleaning reduces
the efficacy of sodium carbonate or borax-boric acid solutions now in use.
The risk of injury to fruit by LLS was low. Fruit of one lemon and five nav
el orange cultivars were not visibly injured after LLS treatment for 3 min
at 40.6 degreesC followed by storage for 7 weeks at 10 degreesC. After LLS
treatment at 48.9 degreesC, 5 degreesC higher than needed for effective LLS
use, only Lisbon lemons and Bonanza navel oranges were slightly injured. S
ulfide concentration in LLS solution declined at a rate of about 7% every 2
4 h, this rate was similar between 25 and 65 degreesC, and it was accompani
ed by the appearance of resistant deposits on the equipment. Additional los
ses would occur when some LLS solution is carried on fruit out of the tank.
Although H2S in the air above LLS solution in pilot tests was less than 1
mu1 l(-1) and below the worker safety threshold of 10 mu1 l(-1), LLS soluti
on has an odor of H2S that can be a nuisance to workers. The disposal of us
ed LLS solutions is more readily accomplished than other tank treatments wh
ose disposal can be difficult because they contain synthetic fungicides, ar
e caustic, or have a high salt concentration. Because LLS improves water pe
netration in soils and is commonly used for this purpose, in many locations
it can be disposed of by application to agricultural soils. Published by E
lsevier Science B.V.