Abstract
Cold-acclimated twigs of Amelanchier alnifolia Nutt. released less HCN at -4.5 C than nonacclimated twigs following slow freezing to -25 C or rapid freezing to -78 C. Cold-acclimated twigs frozen slowly to -25 C released more HCN than cold-acclimated twigs frozen only to -4.5 C. Cold-acclimated twigs frozen slowly to -25 C and then rapidly to -78 C released less HCN at -4.5 C than cold-acclimated twigs frozen rapidly to -78 C. In general, K(+) efflux and the inability to reduce triphenyl tetrazolium chloride following freezing and thawing paralleled HCN release at -4.5 C. Because low K(+) efflux and high triphenyl tetrazolium chloride reduction are known to depend upon membrane integrity, the increased K(+) efflux and the decreased triphenyl tetrazolium chloride reduction following freezing and thawing provide indirect evidence that HCN release at -4.5 C is a measure of membrane damage in frozen cells.