@article {Sershen:2007:0143-2044:387,
title = "Cryopreservation of Embryonic Axes of Selected Amaryllid Species",
journal = "Cryoletters",
parent_itemid = "infobike://cryo/cryo",
publishercode ="cryo",
year = "2007",
volume = "28",
number = "5",
publication date ="2007-09-01T00:00:00",
pages = "387-399",
itemtype = "ARTICLE",
issn = "0143-2044",
eissn = "1742-0644",
url = "https://www.ingentaconnect.com/content/cryo/cryo/2007/00000028/00000005/art00007",
keyword = "COOLING RATE, AMARYLLIDACEAE, CRYOPROTECTION, EMBRYONIC AXES",
author = "Sershen and Pammenter, N.W. and Berjak, Patricia and Wesley-Smith, James",
abstract = "A study on cryopreservation of excised embryonic axes of fifteen species of the Amaryllidaceae is reported. Embryonic axes that after flash-drying had a water content in the range 0.4 to 0.1 g g-1 and survival 60% were selected for cryopreservation procedures. The highest post-thaw viabilities (roots and shoots produced) across all species were recorded for embryonic axes subjected to rapid rather than slow cooling. With rapid cooling and no cryoprotection, the highest post-thaw viabilities for the fifteen species investigated was 0% in one species; ranged between 10 and 35% for nine species; and between 45 and 55% for five species. With cryoprotection and rapid cooling the highest post-thaw viabilities for these fifteen species was 0% for one species; ranged between 15 and 35% for six species; and between 40 and 75% for eight species. The highest post-thaw survival in ten out of fifteen species was obtained for axes dried to between 0.24\textpm0.06 and 0.14\textpm0.08 g g-1 (and rapidly cooled). With only one exception (Strumaria discifera; 45%), post-thaw survival after slow cooling ranged between 10 and 30%. Survival after vitrification plus slow cooling was achieved for seven species but was never higher than post-thaw survival in non-cryoprotected, rapidly cooled axes. The results suggest that species within the same family can exhibit commonalities in terms of amenability to cryopreservation techniques but for maximum success, axis water content and cooling rate particularly, must be optimised for each species in the family independently.",
}