Cryopreservation of shoot tips of Picrorhiza kurroa Royle ex Benth,an indigenous endangered medicinal plant,through vitrification

The cryopreservation of shoot tips of Picrorhiza kurroa Royle ex Benth (IC 266698), an endangered medicinal plant of India was investigated. Shoot tips (about 1 mm in length) excised from four-week-old proliferating shoot cultures were precultured on MS medium supplemented with various osmotica before dehydrating with PVS2 solution at 0 degrees C. The dehydrated shoot tips were directly immersed in LN2. Following cryopreservation, and after rapid rewarming at 45 degrees C, shoot tips were quickly washed with 1.2 M sucrose solution and then plated on solidified shoot culture medium. Shoot tips were successfully cryopreserved by vitrification, when they were precultured on medium supplemented with 5% DMSO at 4 degrees C for two days before dehydrating in PVS2 for 10-20 minutes at 0 degrees C. Average survival in terms of normal shoot formation after 4 wks of plating was about 20% without callus formation. Cold hardening of shoot cultures for four weeks at 4 degrees C significantly improved the survival and shoot regeneration of cryopreserved shoot tips to 70% and 35%, respectively.     

Ammonium nitrate in the culture medium influences regeneration potential of cryopreserved shoot tips of Holostemma annulare

Influence of NH4NO3 in the pre-freeze and post-freeze culture medium and 2 or 30 day preconditioning in the presence of 0.5 M sucrose on regeneration of shoot tips of Holostemma annulare following cryopreservation using an encapsulation-dehydration protocol was studied. A long preconditioning phase of 30 days significantly reduced tissue water and improved post-freeze recovery of shoot tips. Under the long preconditioning treatment, Murashige & Skoog (MS) medium free of NH4NO3 (MS-3) allowed maximum regeneration (59%) of liquid nitrogen (LN) exposed shoot tips with less frequency of callusing (10.4%) after 45 days of post-freeze culture. Corresponding desiccated control shoot tips showed 85-90% regeneration. A 3.75 mM NH4NO3 concentration (MS-4) favoured 72-89% and 43-47% regeneration after desiccation and LN exposure respectively. The standard MS medium with 20.6 mM NH4NO3 (MS-1) allowed poor regeneration after desiccation (39-53%) as well as LN exposure (8-23%). The study reveals the importance of reducing ammonium nitrate in the culture medium to get maximum recovery of cryopreserved shoot tips of Holostemma annulare.     

Development of a shoot-tip vitrification protocol and comparison with encapsulation-based procedures for plum (Prunus domestica L.) cryopreservation

Cryopreservation of plum (Prunus domestica L.), cv Regina Claudia, was obtained by a vitrification/one-step cooling procedure of shoot tips from cold-hardened in vitro-grown plants. Best survival (57%) was obtained when the shoot tips were precultured at 4 degree C for 2 days on 0.09 M sucrose-containing Quoirin and Le Poivre medium, loaded for 30 min with a cryoprotectant (2 M glycerol and 0.4 M sucrose), incubated with the PVS2 solution at 0 C for 90 min, and directly plunged into liquid nitrogen. After re-warming in a waterbath at 40 degree C, the shoot tips were washed in a 1.2 M-sucrose MS solution for 20 min and finally plated on a regrowth medium. In comparison with the one-step cooling procedure, both the slow cooling (-0.5 degree C/min up to -45 degree C), and the two-step cooling (-160 degree C for 25 min, then -196 degree C) gave lower percentages of shoot-tip survival. Among the other cryogenic procedures tested, the performance of the encapsulation-vitrification method was similar to the vitrification protocol in terms of shoot-tip regrowth (47.5%), while encapsulation-dehydration was unsatisfactory.     

Effect of benzyladenine on recovery of cryopreserved shoot tips of grapevine and citrus cultured in vitro

The effect of N6-benzyladenine (BA) on the recovery of cryopreserved shoot tips of the LN33 hybrid (Vitis L.) and Troyer citrange [Poncirus trifoliata (L.) Raf. x Citrus sinensis [L.] Osbeck.] cultured in vitro was examined. For the LN33 hybrid, the presence of BA in the recovery medium was essential for survival of control and cryopreserved shoot tips, although the BA concentration did not influence the survival percentage. BA at 5, 2, and 5 microM or higher induced callus formation in control, and shoot tips cryopreserved by vitrification, and by encapsulation-dehydration, respectively. While a BA concentration of 4 microM was found optimal for recovery of control shoot tips, 1 and 2-4 microM produced the best recovery of shoot tips cryopreserved by vitrification and encapsulation-dehydration, respectively. A similar pattern of effect of BA on recovery was found for 'Troyer' citrange. Low survival of control and cryopreserved shoot tips was observed with a BA-free recovery medium. The addition of BA to the recovery medium significantly increased survival. The BA concentration that induced callus formation in shoot tips cryopreserved by encapsulation-vitrification was higher than that which induced it in those cryopreserved by encapsulation-dehydration. Recovery of control shoot tips was best with an addition of 6-10 microM BA to the medium. Optimal recovery of shoot tips cryopreserved by encapsulation-vitrification and encapsulation-dehydration was achieved with 3-4 and 2 microM BA, respectively. Results from the present study suggest that an optimal BA concentration for recovery of control shoot tips may be different from that for cryopreserved shoot tips; furthermore, the optimal BA concentration for recovery of cryopreserved shoot tips may also differ among different cryogenic procedures.     

Cryopreservation of garlic shoot tips by vitrification: effects of dehydration, rewarming, unloading and regrowth conditions

This paper investigates the effect of dehydration, rewarming, unloading and regrowth conditions and of bulb post-harvest storage duration on survival and regeneration of cryopreserved garlic shoot tips. PVS3 was the most effective of the seven vitrification solutions compared. Treating shoot tips with PVS3 for 150-180 min ensured 92 % regeneration after freezing. An air-drying treatment, performed either before or after the PVS3 treatment, was detrimental to regeneration of cryopreserved shoot tips. Rapid rewarming in a water-bath at 37 degree C gave higher regeneration than the slower rewarming procedures employed. Regeneration was similar using either sucrose or sorbitol unloading solutions. The growth regulator content of the recovery medium did not influence percentage regeneration. However, the fresh weight of explants cultured on medium containing 0.3 mg/L zeatin and 0.3 mg/L gibberellic acid was significantly higher than on other media. Post-harvest storage duration of bulbs dramatically influenced survival and regeneration of non-cryopreserved and cryopreserved shoot tips, which were nil for samples cryopreserved immediately after harvest and highest after 3 and 6 months of storage. The optimized cryopreservation protocol was applied to ten different garlic varieties, with regeneration percentages ranging between 72 and 95 %.     

Effect of preculture, pvs2 and vitamin C on survival of recalcitrant Nephelium ramboutan-ake shoot tips after cryopreservation by vitrification

This paper reports the cryopreservation of Nephelium ramboutan-ake shoot tips derived from in vitro shoot multiplication and in vitro seed germination using vitrification. Preculture with either 0.5 M sucrose for 2 days or a combination of 0.3 M sucrose and 0.5 M glycerol for 3 days enhanced dehydration tolerance and resulted in the highest survival of shoot tips; however, none of the shoot tips withstood liquid nitrogen (LN) exposure. The use of a lower temperature (0 degree C) during exposure to plant vitrification solution (PVS2) led to higher survival of shoot tips, compared to exposure at 25 degree C. The survival percentage of shoot tips exposed to PVS2 for up to 20 min at 0°C was 83.3 percent. It was only 53.3 percent when shoot tips were exposed to PVS2 at 25 degree C for 5 min. The importance of vitamin C for reducing oxidative stress in shoots tips was demonstrated. The addition of 0.28 mM vitamin C during critical steps of the vitrification process resulted in a high survival (96.7 percent) without LN exposure, compared to 73.3 percent for shoot tips not treated with vitamin C. Moreover, 3.3 percent shoot tips withstood LN exposure when vitamin C was added during the loading step. This result suggests that cryopreservation is possible for this tropical, recalcitrant seeded tree species.     

Cryopreservation of in vitro-grown shoot tips of Crateva nurvala Buch. Ham, an important medicinal tree

Cryopreservation of in vitro axillary shoot tips of Crateva nurvala Buch. Ham, an important medicinal tree, was investigated. Axillary buds (c. 1mm in length) excised from 4-week-old in vitro cultures, were pre-cultured on liquid MS medium supplemented with 0.4 M sucrose for 16 h. These were incubated in 2 M glycerol+0.4 M sucrose for 20 min at 25 degree C before being dehydrated with PVS2 solution for 40 min The dehydrated shoot tips were directly immersed in LN. Following cryopreservation and after rapid warming at 40 degree C, shoot tips were quickly washed with MS+1.2 M sucrose solution for 20 min and then plated on top of filter paper placed on MS medium supplemented with 0.1 mg l-1 BAP, kept in darkness for one day followed by placement of shoots directly on the medium and incubation in darkness for a day more, before transfer of cultures to light. Average survival in terms of normal shoot formation after 4 weeks of plating was 56.6 percent. The rescued shoot tips were bulked up by subsequent nodal cultures and when put onto 0.02 mg l-1 NAA showed a rhizogenic response. Thus, in vitro-grown shoot tips of Crateva nurvala were successfully cryopreserved following the optimization of the PVS2-vitrification protocol.     

Development of a vitrification-based cryopreservation protocol for the storage of saltcedar (Tamarix boveana Bunge)

We cryopreserved in vitro shoot tips of saltcedar (Tamarix boveana Bunge) using the vitrification technique. The success of the cryopreservation protocol was strongly affected by preculture, loading duration, dehydration duration in plant vitrification solution 2 (PVS2), and medium composition during post-warming regrowth. The highest explant regrowth (50 percent) occurred when the following conditions were employed: preculture in 0.4 M glycerol; treatment with a loading solution (LS) consisting of 2 M glycerol + 0.4 M sucrose in culture medium for 40 min at room temperature; and dehydration in PVS2 at 0 degree C for 45 min before rapid immersion in liquid nitrogen (LN). Rewarming was performed in a water-bath at 40 degree C for 2 min. Explants were then immersed in unloading solution for 10 min before plating on recovery medium supplemented with 0.01 mg per liter thidiazuron (TDZ). TDZ was progressively eliminated from the medium over a period of 6 weeks. Plantlets were transferred to a double-layer medium to enhance rooting. This protocol was successfully applied to three individuals of T. boveana harvested from the wild.     

Cryopreservation of shoot tips of blackberry and raspberry by encapsulation-dehydration and vitrification

Encapsulation-dehydration and PVS2-vitrification cryopreservation protocols were evaluated for the long-term conservation of a diverse group of Rubus germplasm. Cold acclimation for a 4-week period prior to cryopreservation was necessary for regrowth of shoot apices from blackberry and raspberry genotypes. For the encapsulation-dehydration protocol, encapsulated apices were pretreated in 0.75 M sucrose for 20 h, desiccated 6-h under laminar flow to c. 20 percent moisture content, then plunged in liquid nitrogen (LN) and rapidly warmed. The PVS2-vitrification protocol included pretreating shoot tips on 5 percent dimethyl sulfoxide (DMSO) medium for 48 h, exposure to loading solution (LS) and PVS2 for 20 min each at 25 degree C , followed by immersion in LN and rapid warming. Shoot tips of 25 genotypes in 9 Rubus species and 9 Rubus hybrids were successfully cryopreserved with recovery of 60 to 100 percent using the encapsulation-dehydration protocol. Four genotypes of 3 species were tested using the vitrification protocol with 71 percent average regrowth. The present results indicate that both of these improved cryopreservation protocols can be applied to a diverse range of Rubus genetic resources.     

V-cryo-plate procedure as an effective protocol for cryobanks: case study of mint cryopreservation

A vitrification procedure using aluminium cryo-plates (V-Cryo-plate procedure) was successfully developed and adjusted for in vitro-grown mint (Mentha spp.) shoot tips. Shoots were cultured at 25°C on MS medium containing 0.088 M sucrose for 7 to 14 days after the last subculture. Shoot tips with a basal part (1-1.5 mm × 1 mm) were dissected from the shoots and precultured at 25°C for 1 day on the same medium. Precultured shoot tips were placed on aluminium cryo-plates with 10 wells and embedded in alginate gel. Osmoprotection was performed by immersing the cryo-plates for 30 min at 25 degree C in 25 ml pipetting reservoirs filled with loading solution (2 M glycerol + 0.8 M sucrose). For dehydration, the cryo-plates were transferred and immersed in 25 ml pipetting reservoirs filled with PVS2 for 20 min at 25 degree C. Then the cryo-plates were transferred in uncapped 2 ml cryotubes and directly plunged into liquid nitrogen. For rewarming, shoot tips attached to the cryo-plates were immersed in cryotubes containing 2 ml 1 M sucrose solution at room temperature. Using this procedure, regrowth of cryopreserved shoot tips of line 'Fukuyamajisei' reached over 90 percent. This protocol was successfully applied to 16 additional Mentha lines, with regrowth ranging from 73 percent to 100 percent. This V-Cryo-plate method will facilitate the cryostorage of mint germplasm in our genebank.     

Cryopreservation of Arabidopsis thaliana shoot tips

Development of a successful shoot tip cryopreservation method for Arabidopsis thaliana L. will enable researchers to use molecular tools to study processes important for successful cryopreservation in this model organism. We demonstrate that Arabidopsis can be successfully cryopreserved using either plant vitrification solution 2 (PVS2) or plant vitrification solution 3 (PVS3) as cryoprotectants prior to rapidly cooling shoot tips in liquid nitrogen (LN). Shoot tip regrowth after PVS2 cryoprotectant treatment was improved after cold acclimation treatments of 8 or 18 days. All of the shoots tips regrew after LN exposure when cryoprotected with PVS3 for 60 min at 22 degree C. In addition, shoot tips could be cryopreserved using a two-step cooling procedure with PGD (polyethylene glycol-glucose-dimethyl sulfoxide) as a cryoprotectant. The high levels of shoot formation after LN exposure of Arabidopsis shoot tips makes this a desirable system in which molecular tools can be used to examine how alterations in biochemical, metabolic and developmental processes affect regrowth after cryoprotective treatments.     

Newly developed encapsulation-dehydration protocol for plantcryopreservation

A simplified and efficient encapsulation-dehydration protocol, which is a compromise between vitrification and encapsulation-dehydration, was presented for plant cryopreservation. In this protocol, during the encapsulation process, the apices precultured with 0.3 M sucrose for 16 h were simultaneously osmoprotected with a mixture of 02 M glycerol plus 0.4 M sucrose for 1 h. These encapsulated apices were directly dehydrated with dry silica gel prior to a plunge into LN without the pretreatment of 0.8M sucrose for 16 h. This protocol produced much higher rates of recovery growth in the three plant species tested (wasabi, chrysanthemum, and mint) than those cryopreserved by the conventional encapsulation-dehydration. This protocol also considerably reduced the time needed for the cryogenic procedure. Thus, this new protocol appears promising for cryopreservation of shoot apices and other explants.     

Importance of explant size and origin and of preconditioning treatments for cryopreservation of garlic shoot apices by vitrification

This paper investigates the effect of the origin and size of the explants employed and of the preconditioning (cold acclimation, preculture) and loading treatments on survival and regeneration of cryopreserved garlic shoot apices using vitrification with the PVS3 vitrification solution. Both the origin and size of explants had a significant effect on regeneration of cryopreserved apices. Higher regeneration was generally observed with apices excised from bulbs and bulbils, followed by cloves, and those originated from larger propagules regrew more rapidly. Smaller apices (1.5 or 3.0 mm in diameter) displayed higher regeneration than large ones (4.5 mm in diameter). Cold acclimation at 5 degree C of apices before freezing had no positive effect on regeneration after cryopreservation. Preculture of apices at 10 or 23 degree C for more than 3 days had a detrimental effect on regeneration. The optimal sucrose concentration in the preculture medium was 0.3-0.5 M. Loading apices for 30 or 60 min at 23 degree C in medium containing 2 M glycerol + 0.4 M sucrose or 1 M glycerol + 0.8 M sucrose had no effect on regeneration after cryopreservation, in comparison with apices cryopreserved without loading treatment. Under optimal conditions, regeneration of cryopreserved apices sampled from large cloves was above 90 percent.     

Cryopreservation of Dioscorea rotundata poir.: a comparative study with two cryogenic procedures and assessment of true-to-type of regenerants by RAPD analysis

The aim of this study was to develop a cryopreservation protocol for Dioscorea rotundata with maintenance of genetic stability of regenerated plants after cryopreservation. In vitro shoot tips were cryopreserved using vitrification and encapsulation-dehydration to compare the efficacy of the two methods. Both methods produced high levels of plant regeneration from cryopreserved shoot tips. The regeneration level obtained using vitrification (71%) was not significantly different from that obtained using encapsulation-dehydration (67%). Genetic stability of plants derived from cryopreserved shoot tips was evaluated using RAPD markers. Analysis of 50 cryopreserved-derived and 20 in vitro- maintained (control) plantlets showed that 10 primers produced 77 clear, reproducible bands, with the amplification products being monomorphic for all the plantlets tested. A total of 5,390 bands obtained from this study exhibited no aberration in RAPD banding. Thus, the present study showed that both vitrification and encapsulation-dehydration methods are equally applicable to D. rotundata for cryopreservation. The in vitro plantlets derived from cryopreservation were genetically stable at the molecular level tested.     

Cryopreservation of in vitro grown shoots of ginger (Zingiber officinale Rosc.)

An efficient cryopreservation technique for in vitro grown shoots of ginger (Zingiber officinale Rosc) was developed based on encapsulation dehydration, encapsulation vitrification and vitrification procedures. Pregrowth and serial preculture were needed to obtain the best regrowth for all techniques. The vitrification procedure resulted in higher regrowth (80%) when compared to encapsulation vitrification (66%) and encapsulation dehydration (41%). In the vitrification procedure shoots were: precultured in liquid Murashige-Skoog medium containing 0.3 M sucrose for 3 days; cryoprotected with a mixture of 5% DMSO and 5% glycerol for 20 min at room temperature; osmoprotected with a mixture of 2 M glycerol and 0.4 m sucrose for 20 min at 25 degrees C; before being dehydrated with a highly concentrated vitrification solution (PVS2) for 40 min at 25 degrees C. The dehydrated shoots were transferred to 2 ml cryotubes, suspended in 1 ml PVS2 and plunged directly into liquid nitrogen. In all the three cryopreservation procedures tested, shoots grew from cryopreserved shoot tips without intermediary callus formation. The genetic stability of cryopreserved ginger shoot buds were confirmed using ISSR and RAPD profiling.     

Improved cryopreservation of chrysanthemum (Chrysanthemum morifolium) using droplet-vitrification

A droplet-vitrification protocol has been established for cryopreserving Chrysanthemum morifolium cv. Peak using axillary shoot tips and apical shoots of in vitro plants. In the optimized procedure, explants were submitted to a step-wise preculture in liquid sucrose-enriched medium (0.3, 0.5 and 0.7 M for 31,17 and 7 h, respectively). Precultured explants were treated for 40 min with C4 loading solution comprising (w/v) 17.5 percent glycerol + 17.5 percent sucrose, then dehydrated with PVS3 vitrification solution (w/v, 50 percent glycerol + 50 percent sucrose) for 60 min (axillary shoot tips) or 90 min (apical shoots). Explants were cryopreserved by direct immersion in liquid nitrogen in minute drops of PVS3 attached to aluminum foil strips. The optimal age of donor plants was 4-5.5 weeks for apical shoots and 7 weeks for axillary shoot tips, producing post-cryopreservation regeneration percentages of 81.9 percent and 84.9 percernt, respectively. Plants regenerated from cryopreserved samples showed no phenotypical abnormalities and similar profiles of relative DNA content were recorded for control and cryopreserved plants. Our results suggest that the modified droplet-vitrification protocol described in this paper is highly effective and may prove user-friendlier than the cryopreservation protocols already published for chrysanthemum.     

Cryopreservation of Centaurea ultreiae (Compositae) a critically endangered species from Galicia (Spain)

Ex situ conservation of endangered plants is an important aim in order to preserve biodiversity of flora in threatened ecosystems. Among the biotechnological techniques which can be used, cryopreservation is emerging as a preferred option in many instances. This study describes a cryopreservation technique developed for shoot tips of the endangered species Centaurea ultreiae (Compositae) using a vitrification procedure. Basal medium (BM) for preculture and loading phases consisted of 1/2 MS basal salts with modified vitamins (3 microM thiamine). For preculturing shoot tips, BM with five osmotic treatments were investigated: 0.3 M sucrose +/- 20 microM ABA, 0.6 M glycerol +/- 20 microM ABA and 0.25 M sucrose + 0.25 M glycerol + 10 microM ABA. A loading solution treatment (BM with 2 M glycerol and 0.4 M sucrose) was applied prior to exposure of shoot tips to PVS2 and found to be indispensable to obtaining successful post-LN recovery. Highest (95.5%) regrowth of LN immersed shoot tips was obtained following incubation on BM + 0.3 M sucrose + 20 microM ABA or 0.25 M sucrose + 0.25 M glycerol + 10 microM ABA, with loading treatment and PVS2 exposure for 20 minutes at 0 degree C. Keywords: cryopreservation, encapsulation, endangered species, ex situ conservation, vitrification.     

Thermal analysis of garlic shoot tips during a vitrification procedure

The thermal behavior of garlic shoot tips was analyzed during the course of a vitrification protocol using the PVS3 vitrification solution. The size of shoot tips did not significantly influence the thermal behavior of garlic shoot tips. Though there was no significance, endo-thermal enthalpy from melting of crystalline ice increased as preculture duration increased to 6 days. Preculture on medium with 0.5 M sucrose significantly lowered exo- and endothermal enthalpies of dehydration-control shoot tips. By contrast, after dehydration with PVS3 solution, the concentration of sucrose in preculture medium had no significant effect on the value of enthalpies. A big thermal event was observed in garlic shoot tips air-dried for 1-3 h before dehydration. Both vitrification solution and dehydration duration significantly (P < 0.0001) influenced exo- and endothermal enthalpies. After dehydration with PVS1, PVS2, Fahy or Steponkus solutions for 120 min, only a small peak was detected in some shoot tips, but recovery of cryopreserved shoot tips was low. Dehydration duration with PVS3 solution significantly (P < 0.0001) influenced exo- and endothermal enthalpies and onset temperatures during cooling and warming. After dehydration for 150 and 180 min with PVS3 vitrification solution, no crystallization was observed during cooling and warming in most replicates, and recovery of cryopreserved shoot tips was highest (> 80%). There was a significant (P < 0.001) negative correlation between moisture content of shoot tips and concentration of sucrose and glycerol, and regeneration of cryopreserved shoot tips. By contrast, there was a significant (P < 0.001) positive correlation between MC and enthalpy of ice melting, and onset temperature of crystallization. Overall, the results of the analysis of the thermal behavior of garlic shoot tips coincide very well with their recovery after cryopreservation and provide a very useful tool for the establishment and optimization of cryopreservation protocols.     

Cryopreservation of in vitro-grown shoot tips of cassava by encapsulation-vitrification method

Shoot tips of cassava (Manihot esculenta Crantz) in vitro plantlets were successfully cryopreserved using the encapsulation-vitrification technique. Nodal cuttings of 5 mm length with one leaf were cultured on modified MS medium in Petri dishes (90 mm x 20 mm) for about 28 days. Excised shoot tips were precultured on sucrose enriched (0.3 M) medium for 16 h, encapsulated and osmoprotected with a mixture of 2 M glycerol and 0.6 M sucrose for 90 min at 25 degree c before dehydration with PVS2 at 0 degree C for 4 h, then plunged in liquid nitrogen. Successfully vitrified shoot tips resumed growth within 3 days, without intermediary callus formation, and developed shoots. Shoot tips sampled from 21 day-old plantlets produced the highest survival of 80 %. The percentage survival of vitrified shoot tips differed from 38 to 80 % depending on the day of excision. The protocol was successfully applied to four cultivars of cassava with about 80 % average percentage of survival.     

Comparison of cryopreservation techniques for long-term storage of ash (Fraxinus excelsior L.)

The main purpose of this study was to develop a cryopreservation protocol for ash and to highlight the importance of testing different clones and plant material of different ontogenetic states. In vitro-grown ash (Fraxinus excelsior L.) shoot tips were successfully cryopreserved following optimization of the PVS2-vitrification protocol. Pretreatment conditions were optimized and three cryopreservation techniques (encapsulation/dehydration, PVS2-vitrification and encapsulation-vitrification) were tested one after another. PVS2-vitrification proved to be the most suitable technique. In vitro-grown shoot tips of ash were successfully cryopreserved with a mean regrowth of 73% for juvenile clones and 67% for selected mature trees. The optimum preculture conditions and the initial protocol were: 10 days cold hardening, preculture for 2 days on medium with 0.8 M glycerol, incubation in 2 M glycerol solution for 20 min at 22 degrees C followed by PVS2 for 25 min at 0 degrees C on ice and direct immersion in liquid nitrogen. Warming was carried out in 43 degree C water for 1 min followed by 22 degree C water for 10 sec. The encapsulation/dehydration method was not successful for shoot tips of F. excelsior because the shoots were sensitive to osmotic dehydration. The encapsulation/vitrification method resulted in a mean regrowth of only 16%. PVS2 vitrification can now be used to store important ash germplasm of either juvenile or mature trees.