Lotus flowers (Nelumbo nucifera) ar

Lotus flowers (Nelumbo nucifera) are cut at the bud stage, kept dry and brought to a temple as part of
a religious tradition. When placed in water, even if this is done immediately after cutting, the flowers
fail to open and show rapid petal blackening. We tested the role of ethylene in these processes. The rate
of ethylene production by the cut flowers (which had been held dry for 2 h after harvest and were then
placed in water) transiently increased, with a maximum 9–15 h after harvest. This was accompanied
by an increase in ACC synthase activity, while the ACC oxidase activity remained unchanged. Exogenous
ethylene, applied at 0.1–10 L/L, for 3 h prior to vase life or continuously during vase life, had no
effect on petal blackening. Continuous inclusion in the vase water of ethephon, a compound that releases
ethylene, stimulated the rate of ethylene production, and accelerated petal blackening. Treatment with
1-methylcyclopropene (1-MCP), an inhibitor of the ethylene receptor, reduced the rate of ethylene production
and delayed initial petal blackening by about 2 d. None of these treatments had an effect on
flower opening. Two partial cDNAs were isolated from the petals, one encoding a 1-aminocyclopropane-1-
carboxylic acid (ACC) synthase (Nn-ACS) and the other an ACC oxidase (Nn-ACO). The transcript abundance
of both genes had increased by 12 h after the onset of vase life. 1-MCP decreased the transcript abundance
of both genes, whereas ethephon increased it. It is concluded that cut lotus flowers placed in water show
an increase in the rate of ethylene production, apparently due to increased ACS activity and the expression
of one or more ACS genes. Ethylene seems part of the causal chain leading to early petal blackening,
but it is not the cause of the lack of flower opening.