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Inducing biochemical changes to simulate after roast darkening in macadamia kernel.

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Authors

Albertson, P.L.
De Giovanni, C
Cocksedge, R H
Forrester, Robert
Rae, A.L.
Mason, R
McConchie, C.A.

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CSLI Publications

Abstract

After-roast darkening is a defect in macadamia kernel evident only upon roasting that adversely affects kernel quality. After-roast darkening was artificially induced in 3 cultivars by incubating nut-in-shell of high moisture content (about 22% w/w) at elevated temperatures in either sealed or unsealed polyethylene bags before drying to 1.5% kernel moisture. After oil roasting, darkening was more evident in kernel from nut-in-shell incubated for 24 h in sealed bags at temperatures greater than or equal to 47.5°C. At an incubation temperature of 50°C the critical incubation period was 12 h for nut-in-shell treated in sealed bags. In raw kernel induced to exhibit high after-roast darkening upon roasting, the concentrations of the hexoses, glucose and fructose were elevated and levels of sucrose were reduced compared to non-induced kernel. The change in kernel sugar composition increased with increasing incubation temperature. A loss in cellular viability was also associated with kernel susceptibility to after-roast darkening. These results indicate that after-roast darkening might result from reactions, possibly enzymatic, that change the kernel sugar composition as a result of a loss in membrane integrity.

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Australian Journal of Experimental Agriculture

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Restricted until

2037-12-31