Abstract:
Various postharvest treatments (cold storage, stem-end treatments and vase-water
additives) were evaluated for the effect on:
1. Longevity and quality of freshly cut Gloriosa superba L., Kniphofia uvaria (L.) Oken
‘Flamenco’, Tulipa gesneriana L. ‘Apeldoom’ in Austria.
2. Long-distance transport of flowers like Anthurium andraeanum L. ‘Tropical’, and
foliage like Codiaeum variegatum (L.) Blume. ‘Excellent’, Cordyline terminalis (L.)
Kunth ‘Mike silver’ from Sri Lanka to various European countries.
Preparation of vase solutions was made according to the instructions given in the label of
the commercial products and published recommendations using deionised water.
Chlorophyll fluorescence of randomly selected leaves of cut flower stems was measured
with a portable chlorophyll fluorometer (MINI PAM, Walz, Effeltricht, Germany). A
chroma meter (Minolta, Model CR-200b; Minolta, GmbH Ahrensburg, Germany) was
used to measure leaf and petal colour. A Vapour Pressure Osmometer (Wescor, Inc., Utah,
USA) was used to measure leaf and petal osmotic potential at the end of vase life. Soluble
solids of defrosted juice of samples were estimated by the refractive index (°brix).
The vase life of Gloriosa superba flowers was significantly affected by storage
temperature. There was a significant difference between ‘dry’ and ‘wet’ storage with
standard vase solution for flower quality during vase period. Results highlight that to store
cut Gloriosa flower stems under wet storage with a selected floral preservative solution or
Leeping at least wrapped in wet newspapers at 4 °C for less than 7 days helps to increase
longevity. Kniphofia uvaria stems ‘wrapped with wet newspapers’ stored at 4 °C showed
better postharvest performances than ‘dry’ stored stems. In the case of cold storage of
Kniphofia, flower stems wrapped with wet newspapers showed the best option for reducing
geotropic bending in storage period and maintaining flower quality in vase period.
Stem-end treatments, e.g. heat treatment (60 °C, 15 s) and ultrasonic treatment (1 min)
showed a significant prolonging of the vase life of Anthurium andraeanum compared to
the non-treated control. However, the difference between heat and ultrasonic stem-end
Mala Hettiarachchi, Thesis 2003
treatments for vase life was non-significant. Tulipa gesneriana showed no significant
differences for vase-water additives such as Flora 2000, Chrysal clear, Standard vase
solution and Flower fresh in increasing fresh weight and vase life. For Kniphofia uvaria
and Cordyline terminalis, stems treated with Flora 2000 or Flower fresh produced the
longest vase life, similarly Codiaeum variegatum stems placed in 8-HQS produced the
longest vase life. Results indicate the difficulties of introducing a standard vase-water
additive that can be applied for several cut flowers/foliage species. Results of experiments
debate the efficacy of introduced international vase solution to be used as a cut
flower/foliage preservative solution for delaying flower senescence, prolonging vase life
and enhancing postharvest quality of tested species.
Addition of floral preservatives for Anthurium gives results that are statistically
indistinguishable from tap water treated flowers, and suggest that there is a little to be
gained in adding nutrients during vase life. It proved that nutrients gained in the preharvest
stage were the ones that are critical in the postharvest stage. Results indicate that use of tap
water as a vase solution for field grown cut flowers was as effective as using floral
preservatives. It is necessary to use an appropriate vase solution to maintain flower/foliage
colour after long-distance shipment. Water uptake during vase period is highly affected by
long-distance transportation, resulting negative water accumulation and substantial fresh
weight reduction even at the initial stage of the vase life.
Postharvest changes in chroma and hue angle corresponded with changes in fluorescence
components (F0, Fm, Fv and yield) linked to foliage appearance of ‘Excellent’ Codiaeum
and ‘Mike silver’ Cordyline. The data suggest that colour and chlorophyll fluorescence
yield may be used as rapid, non-destructive and reliable parameters for monitoring quality
during the postharvest chain of cut flowers and cut foliage.
Mala Hettiarachchi, Thesis 2003