dc.description.abstract | Papaya fruit (Carica papaya L. cv. ‘Sunrise Solo’) at
pre-ripe (10 to 20 % surface yellow coloration) and
ripe stages (70 to 80 % surface yellow coloration) of
development were treated with 9 µl l–1 of the ethylene
antagonist 1-methylcyclopropene (1-MCP) for
18 h at 20 ºC and then stored at the same temperature.
The hypothesis addressed was that fruit at both
early and advanced stages of ripening would respond
beneficially, in terms of extended shelf-life, and quality
retention, to exposure to 1-MCP. For fruit of
both ripening categories, respiration and ethylene
production, firmness, electrolyte leakage, titratable
acidity, pH, soluble solids, and visual changes were
recorded during storage. Pre-ripe fruit treated with
the ethylene antagonist exhibited a 2-day delay in the
respiratory climacteric maximum and showed suppressed
but steadily increasing ethylene production
throughout storage. A reduction in respiration and
ethylene production were also noted for fruit treated
with 1-MCP at the ripe stage. The rate of softening
of fruit of both ripening categories was significantly
reduced in response to 1-MCP. Firmness of pre-ripe
fruit declined 52 % over 9 days of storage compared
with 30 % for 1-MCP-treated fruit over the same
time period. Firmness of ripe fruit at the start of
storage was initially 60 % lower than initial values for
pre-ripe fruit; however, 1-MCP significantly suppressed
further softening of ripe fruit, with
1-MCP-treated fruit declining only 15 % over 8 days
of storage whereas controls softened 60 % over a
6-day period. Electrolyte leakage in pre-ripe fruit
was significantly suppressed by 1-MCP treatment
through 11 days of storage. Efflux was higher in ripe
fruit compared with pre-ripe fruit, but leakage values
in ripe fruit were not significantly affected by
1-MCP. Soluble solid levels were not significantly influenced
by 1-MCP for fruit of either developmental
stage whereas the ethylene antagonist affected titratable
acidity and mesocarp pH. Fruit treated with
1-MCP showed delayed loss of surface green colour
in pre-ripe fruit and suppressed the intensity of yellow
colour development of fruit treated when ripe.
In informal sensory analyses, the period of table-ripe
edibility of fruit treated when pre-ripe or ripe was
extended 4 to 5 days and 3 to 6 days, respectively. | tr_TR |