UNIGEN SEEDS SPAIN

UNIGEN SEEDS SPAIN

Strong potential of CIPC vapour in efficiently preventing sprouting

Isopropyl N-(3-chlorophenyl) carbamate (CIPC) is a growth inhibitor typically applied as a hot fog (spherical particles of about 5 ?m diameter) on harvested potatoes to prevent sprouting during prolonged storage. Although particularly efficient in sprout control, deposition of solid CIPC particles on the potatoes increases the residue levels of the chemical on the tubers. The potential of CIPC to be used in the vapour phase for

fomesa-fruitfog-cipc
29 July, 2021
Isopropyl N-(3-chlorophenyl) carbamate (CIPC) is a growth inhibitor typically applied as a hot fog (spherical particles of about 5 ?m diameter) on harvested potatoes to prevent sprouting during prolonged storage. Although particularly efficient in sprout control, deposition of solid CIPC particles on the potatoes increases the residue levels of the chemical on the tubers. The potential of CIPC to be used in the vapour phase for efficient sprout control at significantly lower application rates has been evaluated. First, CIPC vapour release rates from different hydrocolloid formulations were evaluated. From the investigated formulations (agar, gellan gum, ?-carrageenan, alginate), 1% gellan gum set with 0.002 M calcium ions appeared to result in the fastest vapour releasing formulation. At industrially relevant storage conditions (8?C, 90% relative humidity) CIPC vapour release was significantly reduced. Vapour adsorption by tubers was then investigated and showed maximum of 2.5 mg kg?1 (mass of CIPC per mass of tubers) for washed, non-dormant tubers exposed to solid sources for 28 d. Efficient sprout control was indicated for tubers exposed to vapour sources and CIPC levels of 0.3 mg kg?1. Overall, the work indicates strong potential of CIPC vapour in efficiently preventing sprouting. SourcesCIPC vapour for efficient sprout control at low application levelsO. Gouseti (a), A. Briddon (b), S. Saunders (b), G. Stroud (b), P.J. Fryer (a), A. Cunnington (b), S. Bakalis (a)(a) School of Chemical Engineering, University of Birmingham, Edgbaston, Birmingham B15 2TT, United Kingdom(b) AHDB Potatoes Sutton Bridge Crop Storage Research, East Bank, Sutton Bridge, Spalding P12 9YD, United KingdomPostharvest Biology and Technology, Volume 110, December 2015, Pages 239?246The picture shows Fomesa Fruitfog, the gas formulation with CIPC by FOMESA FRUITECH
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