Tj. Michailides et Dp. Morgan, EFFECT OF SNAIL (HELIX-ASPERSA) DAMAGE ON BOTRYTIS GRAY MOLD CAUSED BY BOTRYTIS-CINEREA IN KIWIFRUIT, Plant disease, 80(10), 1996, pp. 1141-1146
In three (1994) and two (1995) kiwifruit vineyards in the coastal area
of California (San Luis Obispo County), the incidence of fruit with a
ll sepals removed by the common brown garden snail (Helix aspersa) ran
ged from II to 35% in 1994 and 2 to 15% in 1995. Partially damaged fru
it with fewer than three sepals per fruit ranged from 7 to 20% in 1994
and 3 to 5% in 1995. Swollen tissues associated with healing develope
d around the receptacle (stem end) from which sepals had been removed
by snails. In a 3-year study, kiwifruit with and without characteristi
c damage (full removal of sepals) by snails were harvested from two vi
neyards and stored in controlled-atmosphere (CA) cold (-0.5 degrees C)
storage. After 3- to 5-month storage, fruit with snail damage consist
ently had more Botrytis gray mold than fruit not damaged by snails (P
< 0.01). In separate studies, kiwifruit caged with snails developed mo
re gray mold than fruit caged without snails after 3 to 5 months in CA
storage in 1994 but not in 1993. In two vineyards, removal of sepals
by hand did not consistently increase gray mold in CA storage. More vi
able propagules of Botrytis cinerea and other mycoflora were recovered
from fruit that had snail slime than fruit without slime (P < 0.05).
Although snail slime did not affect the germination of B. cinerea coni
dia on a nutrient-rich medium (acidified potato-dextrose agar), snail
slime increased germination of B. cinerea conidia on a nutrient-poor m
edium (acidified water agarose) to more than 50% compared with 1 to 2%
germination without slime after incubation at 21 degrees C for 22 h.
These results suggest that wounds caused by snails eating the sepals a
round the receptacle area of kiwifruit and (or) stimulation of conidia
l germination by snail slime may lead to more infections by B. cinerea
.