Influence of gelling agents on culture medium gel strength, water availability, tissue water potential, and maturation response in embryogenic cultures of Pinus strobus L.

Summary Maturation of somatic embryos of Pinus strobus L. was evaluated on media containing various types (agars and gellan gum), brands and concentrations of gelling agents in the presence of 80 μM ABA and 0.09 M sucrose. The media were characterized with respect to gel strength, water potential and water availability. Embryogenic tissue and somatic embryos cultured on medium with various concentrations of gellan gum were used to determine their water potential (Ψ). Regardless of the type of gelling agent used, gel strength increased with gelling agent concentration and was critical to the maturation response. High gel strength was associated with reduced water availability from the medium to the cultures. The water potential of gelled maturation medium remained constant between 0.4 and 1.0% gellan gum. It is concluded that the embryogenic tissue was exposed to varying amounts of water at the onset of and during the culture period, and that the amount of water in the culture environment in turn influenced the maturation response. Cotyledonary somatic embryos derived from gellan gum medium of high gel strength had a lower Ψ than somatic embryos matured on medium of lower gel strength. Once somatic embryos developed to the cotyledonary stage on the maturation medium, they were transferred to the germination medium. The germination frequency and the number of morphologically normal germinants were higher for somatic embryos matured on medium of high gel strength. Raising the concentration of the gelling agent in the maturation medium may be an alternative to the use of solutes to restrict water available to the embryogenic cultures.     

Regeneration of plant by somatic embryogenesis in <Emphasis Type="Italic">Pinus rigida</Emphasis>×<Emphasis Type="Italic">P. taeda</Emphasis>

Zygotic embryos at different developmental stages were tested for their potential in the initiation of embryogenic suspensor mass (ESM) lines using immature seeds of Pinus rigida × P. taeda. The highest frequency (1.1%) of ESM was obtained with explants from cones collected on July 1. All excised embryos of the July 1 collection were at the early proembryo stage. Two different culture media were compared. Forty-eight ESM lines were initiated on Pinus taeda basal medium (P6) (0.97%) with 13.5 μM 2,4-dichlorophenoxyacetic acid (2,4-D) and 4.4 μM benzyladenine (BA). However, only four ESM were obtained on a modified Murashige and Skoog medium (MSG; 0.55%). Most of the ESM arose from the seeds that were at the stages ranging from late cleavage polyembryony to the early staged proembryo. Out of 52 lines (0.46%) that were produced from 11,388 explants, only two viable lines (0.018%) (PRT11 and PRT28) survived. As for somatic embryo maturation, the highest number (224/g⁻¹ FW) of matured cotyledonary somatic embryos (line PRT 28) was obtained on a medium containing 100 μM abscisic acid (ABA), 0.2 M maltose, and 1.2% gellan gum. For germination of the somatic embryos, the cotyledonary somatic embryos derived from maturation medium were transferred on half-strength Litvay medium (LM) plus 0.4% gellan gum. The germination rates were high (71.4–96.3%) regardless of the concentrations of either ABA or gellan gum in the maturation medium. Approximately 500 somatic plants were recovered from the germination medium and transferred to the green house; finally most of them were transplanted successfully to the experimental field.     

Clonal plant production from self- and cross-pollinated seed families of <Emphasis Type="Italic">Pinus sylvestris</Emphasis> (L.) through somatic embryogenesis

Several factors affecting somatic embryogenesis (SE) in Pinus sylvestris from self- and cross-pollinated seed families were studied with the aim of producing large quantities of clonal plants. Somatic embryogenesis initiation from zygotic embryos was improved on a medium with lower than standard concentrations of 2,4-dichlorophenoxyacetic acid (2.2 vs. 9.5 μM) and 6-benzyladenine (2.2 vs. 4.5 μM). On this medium, initiation rates of four controlled crosses, including one self-cross, varied from 3% to 25%. Among the maturation factors tested, the concentration of abscisic acid (ABA 80, 120 μM) had no significant effect on the production of mature somatic embryos when the medium contained 0.1 M sucrose. When sucrose concentration was 0.2 M, however, 1.4 times more mature somatic embryos were produced on medium with 80 μM compared with 120 μM ABA. Under our best maturation conditions, mature somatic embryos accumulated amounts of storage proteins that were similar to the amounts in mature zygotic embryos. Activated charcoal exerted a beneficial effect on mature somatic embryo production of 24-week-old cultures; there was no evidence of such an effect in 8-week-old cultures. Thirty-seven embryogenic lines from a self-cross and an out-cross were chosen for clonal plant production. Highly embryogenic lines produced mature somatic embryos that were more likely to convert to plants than those from less embryogenic lines. After 4 months of growth in a shade house, plantlet survival rates exceeded 70% for 31 lines out of 35. This report describes an improved method for accelerated production of large quantities of Scots pine for clonal tests.     

Effect of sugars,amino acids,and culture technique on maturation of somatic embryos of Pinus strobus on medium with two gellan gum concentrations

Maturation of five embryogenic lines of Pinus strobus L. was tested on media with various sugars and sources of organic nitrogen, and solidified with two gellan gum concentrations (0.6 and 1.0%). Mature somatic embryo production was more abundant at 1.0% gellan gum than at 0.6%. Complex combinations of amino acids had little effect on mature embryo production of most tested embryogenic lines. Increasing glutamine concentration of the maturation medium from 1.7 to 7.3 g l⁻¹ was beneficial to one embryogenic line. Increasing sucrose concentration or substituting part of the sucrose with mannitol or sorbitol had variable effects on somatic embryo maturation depending on the embryogenic line. A medium with 88 mM sucrose plus 175 mM sorbitol solidified with 1.0% gellan gum produced high numbers of somatic embryos in four out of five embryogenic lines tested. This revised version was published online in June 2006 with corrections to the Cover Date.     

Water relations in culture media influence maturation of avocado somatic embryos

Application of transformation and other biotechnological tools in avocado (Persea americana Mill.) is hampered by difficulties in obtaining mature somatic embryos capable of germination at an acceptable rate. In this work, we evaluated the effect of different compounds affecting medium water relations on maturation of avocado somatic embryos. Culture media were characterized with respect to gel strength, water potential and osmotic potential. Improved production of mature somatic embryos was achieved with gelling agent concentrations higher than those considered standard. The osmotic agents such as sorbitol and PEG did not have positive effects on embryo maturation. The number of w-o mature somatic embryos per culture was positively correlated with medium gel strength. Gel strength was significantly affected by gelling agent type as well as by gelling agent and PEG concentration. Medium water potential was influenced by sorbitol concentration; incorporation of PEG to a culture medium did not affect medium water potential. The highest maturation results were achieved on a medium gelled with 10 g l⁻¹ agar. Moreover, these somatic embryos had improved germination rates. These results corroborate the role of water restriction as a key factor controlling maturation of somatic embryos.     

Increased gelling agent concentration promotes somatic embryo maturation in hybrid larch (Larix × eurolepsis): a 2-DE proteomic analysis

An integrated physiological and proteomic approach was used to investigate the effects of high gellan gum concentration in the medium during maturation of somatic embryos (SE) of hybrid larch, by comparing embryos incubated in media with a high gellan gum concentration (8 g l(-1) ) and the standard concentration (4 g l(-1) ) after 1, 3, 6 and 8 weeks of maturation. Because of the reduced availability of water in the 8 g l(-1) medium, the cultured embryos had a lower osmotic water potential (Ψπ) and water contents, but higher dry weights (DWs), at 8 weeks compared with embryos cultured on the standard medium. The high gellan gum concentration induced a desiccation that is characteristic in zygotic embryo maturation. Total soluble proteins were extracted from SE with trichloroacetic acid (TCA)-acetone after 1 and 8 weeks of maturation on media with 4 and 8 g l(-1) of gellan gum, and separated by two-dimensional gel electrophoresis (2-DE) at pH 4-7. More than 1100 proteins were reproducibly detected on each gel. At 1 and 8 weeks respectively, the abundances of 62 and 49 spots detected in analyses of embryos matured at the two gellan gum concentrations, significantly differed. Among 62 significantly differing spots at 1 week of maturation, the corresponding proteins of 56 were reliably identified by liquid chromatography-mass spectrometry/mass spectrometry (LC-MS/MS), and were found to be mainly involved in 'carbohydrate metabolism', 'genetic information processing' or 'environmental information processing' according to kegg taxonomy. Both physiological parameters and the proteins identified suggested that the embryos were stressed when they were cultured on 4 g l(-1) of gellan gum.     

Embryogenic tissue initiation and somatic embryogenesis in Fraser fir (<Emphasis Type="Italic">Abies</Emphasis> fraseir [Pursh] Poir.)

Embryogenic suspensor mass (ESM) was established from immature seeds of Fraser fir. The initiation frequency of ESM was dependent on genotype, collection time, medium, and plant growth regulators (PGR) used. The ESM initiation potential was higher with seeds collected in late June (clone 16-273, 4.7%) or early July (clone 16-45, 2.2%) and decreased as the zygotic embryos matured. Excised proembryo stage of zygotic embryos was most appropriate to initiation of ESM. Most of the ESM arose from the seeds that were at the proembryo stage. From the four different culture media we compared, seven ESM lines were obtained: two lines from Murashige and Skoog (MS) medium with 4.4 μM benzyladenine (BA), one from Schenk and Hildebrandt (SH) medium with 4.5 μM thidiazuron (TDZ), and four from SH with 4.4 μM 6-benzyladenine. However, only one ESM line from clone 16-273 (June 24, SH+TDZ) could be proliferated in subsequent culture. Different concentrations of l-glutamine and casein hydrolysate (CH) in the medium were also compared for their effect on ESM proliferation. The highest proliferation rate (1.16-fold) was obtained from SH medium supplemented with 250 mg/L CH and 3.42 mM l-glutamine. In contrast, the lowest rate was noted when 1,000 mg/L CH plus 3.42 mM l-glutamine (0.17-fold) was added to the medium. As for somatic embryo maturation, the highest number of mature precotyledonary (100.1/g⁻¹ FW ESM) or cotyledonary (64.3/g⁻¹ FW ESM) somatic embryos was obtained on a medium containing 20 or 80 μM abscisic acid, 10% polyethyleneglycol, 4% maltose, and 0.3% gellan gum. For germination of the somatic embryos, the cotyledonary somatic embryos derived from maturation medium were transferred on half-strength Litvay medium containing 0.3% gellan gum. The somatic plantlets were recovered from the germination medium and transferred to soils.     

Effects of carbohydrate source, polyethylene glycol and gellan gum concentration on embryonal-suspensor mass (ESM) proliferation and maturation of maritime pine somatic embryos

Summary The influence of carbon sources and polyethylene glycol combined with 0.45 and 0.9% (w/v) of gellan gum on the maturation of maritime pine somatic embryos was tested. The effect of the carbon source and polyethylene glycol varied widely between lines. One out of the five lines tested showed a striking response to polyethylene glycol (PEG) treatment; the addition of this osmoticum limited the embryonal-suspensor mass (ESM) proliferation while it enhanced the maturation rate. Conversely, the ESM proliferation was stimulated by PEG in the other lines without subsequent improvement of the maturation rate. The use of a high concentration of gellan gum (0.9%) improved the maturation of the five ESM lines. It was concluded that the most efficient culture medium to recover cotyledonary embryos from all lines is one supplemented with sucrose at 6% (w/v) and gellan gum at 0.9% (w/v) without PEG. The determining factor in the maturation of maritime pine somatic embryos is the genotype and/or the quality of ESM. The possible relationship between maturation performances and ESM morphology, particularly the suspensor organization, is discussed.     

Enhancement of somatic embryogenesis and plant regeneration in Japanese larch (<Emphasis Type="Italic">Larix leptolepis</Emphasis>)

Different nitrogen sources, abscisic acid (ABA), gellan gum at various concentrations, and osmotica were evaluated for their effects on maturation of somatic embryo (SE) in Japanese larch (Larix leptolepis). Different concentrations of l-glutamine or casein hydrolysate (CH) in the medium were also compared. The highest number of matured embryos was obtained with ½ Litvay (LM) medium supplemented with 1.71 mM l-glutamine and 250 mg l^?1 CH. In terms of osmoticum effect, the highest number of cotyledonary SEs was produced in medium containing 0.2 M maltose. As for the effects of ABA and gellan gum concentration, the highest number of cotyledonary SEs was achieved on a medium containing 60 μM ABA and 0.8% gellan gum. In addition, the best plantlet conversion frequency (35.5%) was obtained with SEs derived from the treatment with 60 μM ABA and 0.8% gellan gum.     

Somatic embryogenesis and plantlet development in Pinus sylvestris and Pinus pinaster on medium with and without growth regulators

To initiate somatic embryogenesis in Pinus sylvestris and Pinus pinaster, immature seeds were collected from June to August and the developmental stage of the zygotic embryos was determined. Four developmental stages were distinguished and the response of the zygotic embryos at each of the four developmental stages was compared intra- and inter-species. For this study, modified Litvay's medium (LM), with or without growth regulators, was chosen. Somatic embryogenesis was initiated and maintained on both media but the two species displayed different propensities. In P. sylvestris, the highest initiation frequency was obtained with intact megagametophytes containing embryos at the four-cell stage to the stage of cleavage polyembryony (up to 22 and 9%, respectively). The culture medium had no significant effect on the initiation and proliferation of embryogenic cultures. In P. pinaster, however, the best response occurred from excised zygotic embryos at the stage prior to elongation of cotyledon primordia (up to 40% explants responded), on medium with growth regulators. Another characteristic distinguishing the two species in culture was that in some embryogenic cell lines of P. sylvestris, somatic embryos matured spontaneously when initiated and maintained on medium without growth regulators. Some of these embryos developed into plantlets on the same medium at the frequency of 40%. Therefore, in P. sylvestris all the stages of somatic embryogenesis were achieved on the medium without growth regulators. However, in both species, maturation of a large number of somatic embryos was greatly improved on medium containing high concentration of gellan gum (Gelrite 10 g l^?1) and abscisic acid (60 μM). Cotyledonary somatic embryos subsequently germinated (72 and 80% for P. sylvestris and P. pinaster, respectively) and developed into plantlets (48 and 29%, for P. sylvestris and P. pinaster, respectively). This represents a significant improvement in plantlet recovery from somatic embryos of both species.     

Cryopreservation and plant regeneration via somatic embryogenesis using shoot apical domes of mature Pinus roxburghii sarg, trees

Summary The present investigation reports optimized parameters for somatic embryogenesis and cryopreservation of embryogenic cultures using shoot apical domes from mature trees of Pinus roxburghii Sarg. Embryogenic tissue of P. roxburghii Sarg. was cryopreserved for 24 h, 10 d, and 8 wk using sorbitol and dimethylsulfoxide (DMSO) as cryoprotectants. Results indicate that 0.2M sorbitol and 5% DMSO had the best cryoprotecting effect. The recovered tissue showed luxuriant growth on maintenance medium (II). Partial desiccation of thawed embryogenic tissue for 24 h prior to transfer to maturation medium enhanced the maturation of somatic embryos. Maturation frequency increased from 1.3 to 18.3% after 12 h desiccation treatment, and from 18.3 to 61.8% after 24 h of desiccation. However, non-desiccated embryogenic tissue produced the least number of somatic embryos (1.3%) on the maturation medium with the same abscisic acid and Gellan gum concentration. All the three embryogenic lines produced plantlets and had the same appearance and normal growth as compared to unfrozen controls.     

Plant regeneration of common ash (<Emphasis Type="Italic">Fraxinus excelsior</Emphasis> L.) by somatic embryogenesis

This is the first report on somatic embryogenesis in common ash (Fraxinus excelsior L.). Experiments on somatic embryogenesis induction were carried out on zygotic embryos at different phases of development and maturation. The embryo axes were isolated and cultured on media containing different plant growth regulators (PGRs). Embryogenic tissues were obtained from embryos collected at an incomplete maturation phase and cultured on a modified Murashige and Skoog medium containing 8.8 μM 2,4-dichlorophenoxyacetic acid and 4.4 μM benzyl-adenine (BA). Embryos isolated from seeds at an advanced stage of maturation showed only organogenetic phenomena. Embryogenic tissues were successfully subcultured and multiplied on medium containing a reduced concentration of PGRs. After their isolation, somatic embryos were induced to develop and mature by transfer to PGR-free medium and subsequent culture on medium containing 0.1 μM BA. Somatic embryos developed completely and also germinated spontaneously. Embryo germination and conversion were significantly improved when subjected to a period of storage at 4°C and transplant onto woody plant medium. Plantlets were successfully transferred to soil and acclimatized in a “misted” greenhouse.     

Maturation of avocado somatic embryos and plant recovery

Avocado proembryonic masses from suspension cultures were used to develop a protocol for somatic embryo development and maturation. Avocado somatic embryos could develop from proembryonic masses both in liquid and on semisolid medium but only the latter could develop to maturity. Size and number of opaque somatic embryos were affected by gellan gum concentration, with the optimum response obtained on medium supplemented with 6–7 g l⁻¹ gellan gum. The optimum sucrose concentration for recovery of opaque somatic embryos was 90 g l⁻¹; however, the development of embryos was suppressed at this concentration. Consequently, recovery of cotyledonary, opaque somatic embryos was achieved on medium with 30 g l⁻¹ sucrose. Somatic embryo development from dedifferentiating proembryonic masses required media with a high ratio of NO ₃ ⁻ :NH ₄ ⁺ (1:0 and 3:1) as opposed to the standard ratio (2:1) of MS medium. Germination of somatic embryos was sporadic. In order to increase the frequency of plant recovery, shoots that developed from somatic embryos were micropropagated using standard protocols. This revised version was published online in June 2006 with corrections to the Cover Date.     

Bottlenecks in Pinus radiata somatic embryogenesis: improving maturation and germination

Commercial deployment of clonal trees via somatic embryogenesis (SE) could increase forest productivity over conventional tree breeding techniques. However, some technical advances need to be made to use SE in clonal forestry with Pinus radiata. For example, the conversion of embryonal mass (EM) into plants is at present a major bottleneck. For this reason, maturation experiments were carried out to determine the effect of the initial amount of EM, activated charcoal (AC) and the best combination of abscisic acid (ABA), sucrose and amino acid concentration in the maturation medium. Germination was evaluated on different media formulations with and without AC. When 100 mg of EM were suspended in liquid medium without AC, cotyledonary somatic embryos were obtained in all the maturation media tested. Maturation medium supplemented with 60 μM ABA, 6% sucrose, and embryo development medium amino acid mixture produced the highest number of cotyledonary somatic embryos, between 10 and 1,550 embryos per gram of EM fresh weight. Approximately half of the tested 25 lines produced more than 600 embryos per gFW. Embryo development was the best when somatic embryos were germinated in half strength modified Quoirin and Lepoivre medium supplemented with 2 g L⁻¹ AC. This protocol simplified and improved SE maturation and germination due to the elimination of subcultures, the large number of somatic embryos obtained from a very low amount of EM, and the elimination of pre-germination treatments, resulting in a significant saving of cost and labor.     

Maturation of black spruce somatic embryos: Sucrose hydrolysis and resulting osmotic pressure of the medium

The physiological and osmotic roles of sucrose during black spruce (Picea mariana (Mill.) B.S.P.) embryo maturation were investigated. The results showed that when both sucrose and mannitol were present in the medium, the optimum sucrose concentration varied between 4% and 6%. From these data, mannitol does not apparently replace sucrose during the maturation of somatic embryos and therefore it might not be a suitable osmoticum. For the media supplemented with 4% to 12% sucrose and various concentrations of mannitol, the osmotic pressure of the medium rose during maturation, particularly for the highest sucrose concentrations (7% to 12%). Medium containing 3% each of fructose and glucose produced fewer mature embryos compared to the medium with 6% sucrose. An increment in the osmotic potential was observed in medium with 6% sucrose in contrast to that containing 3% each of fructose and glucose. Sugar analysis revealed that the sucrose hydrolysis in the medium was detectable within 1 week of incubation and continued throughout the maturation period. Moreover, no significant uptake of the sugars was detected, since the total amount of fructose, glucose and sucrose remained constant. Our results indicate that the action of sucrose on embryo maturation is mostly achieved through an osmotic control.     

Somatic Embryogenesis from 20 Open-Pollinated Families of Portuguese Plus Trees of Maritime Pine

Immature zygotic embryos from 20 open-pollinated (OP) families of maritime pine (Pinus pinaster) plus trees were screened for their somatic embryogenic capacity. The best time for zygotic embryo collection was between 30th June and 16th July 1999 when most embryos were at a pre-cotyledonary stage of development. The somatic embryogenesis (SE) initiation frequency was highest on DCR basal medium with 13.6 µM 2,4-dichlorophenoxyacetic acid (2,4-D) and 4.4 µM 6-benzylaminopurine (BAP) supplemented with L-glutamine and casein hydrolysate. On this medium, initiation frequencies among OP families ranged from 4.6 to 49.1%. Initiation of embryogenic cell lines from all 20 OP families was possible only on DCR based medium, but the addition of L-glutamine and casein hydrolysate significantly increased the number of zygotic embryos producing SE. Most families showed a similar behaviour on different initiation media; however, a few exceptions were observed. Further development of somatic embryos on maturation medium, consisting of DCR with 120 µM abscisic acid (ABA), 100 g l^–1 polyethylene glycol (PEG) and 10 g l^–1 gellan gum, occurred in 29% of 896 embryogenic lines representing all 20 OP families. However, development into cotyledonary somatic embryos was observed in only 11% of the cell lines, but this still represented 18 OP families.     

Effect of Abscisic Acid, Osmoticum, and Desiccation on Synthesis of Storage Proteins during the Development of White Spruce Somatic Embryos

The effect of abscisic acid (ABA), non-permeating osmoticumand desiccation treatment on storage protein synthesis duringmaturation of somatic embryos of Picea glauca (Moench) Voss.was examined. Sodium dodecyl sulphate-polyacrylamide gel electrophoresis(SDS-PAGE) and Western blot analysis demonstrated that someof the major crystalloid and matrix polypeptides were absentfrom somatic embryos maturing on medium containing ABA and lowosmoticum. However, treatment with polyethylene glycol-4000(PEG) in combination with ABA resulted in the synthesis of aspectrum of storage polypeptides resembling that of mature zygoticembryos. These storage proteins accumulated throughout an 8-weekculture period, resulting in a threefold higher protein contentthan somatic embryos maturing for the same time in the absenceof PEG. The structure and distribution of protein bodies incells of these osmotically treated somatic embryos was similarto that in cells of mature zygotic embryos. Treatment with 5·0-7·5%PEG prevented catabolism of the accumulated storage polypeptidesduring desiccation. The optimal culture conditions for somaticembryo maturation and storage protein deposition was 16 µMABA and 7·5% PEG for 8 weeks followed by desiccation.Analysis of mRNAs by in vitro translation and immunoprecipitationof translated products showed that the crystalloid protein mRNAprofiles of zygotic and those of somatic embryos maturing on16 µM ABA in the absence of PEG were similar. The differencesobserved in the pattern of accumulated polypeptides in thesesomatic embryos and those of mature zygotic embryos, therefore,indicates that storage-protein synthesis in response to osmoticumis in part regulated at the translational level. During regenerationof somatic embryos to plantlets the storage polypeptides wererapidly utilized in a manner similar to that in zygotic seedlings.Copyright1993, 1999 Academic Press Desiccation, osmotic stress, storage proteins, Picea, embryogenesis—somatic, mRNA (crystalloid protein)     

Enhanced Maturation and Desiccation Tolerance of White Spruce [Picea glauca (Moench) Voss] Somatic Embryos: Effects of a Non-plasmolysing Water Stress and Abscisic Acid

A non-plasmolysing moisture stress effected by polyethyleneglycol (PEG) was beneficial when applied to maturing white spruce(Picea glauca) somatic embryos for the following reasons. Anosmotic treatment of 5.0–7.5% PEG stimulated a threefoldincrease in the maturation frequency. The osmotically treatedsomatic embryos displayed higher dry weights and lower moisturecontents than the controls, indicating a greater accumulationof storage reserves. Moisture contents of mature, osmotically-treated,hydrated somatic embryos were 40–45%, in contrast to 57%for the non-osmotically treated controls. Desiccation was achievedby placing the somatic embryos in a range of relative-humidityenvironments. No clear trend for the effect of PEG on survivalof desiccated somatic embryos was observed; mean survival valuesranged from 34 to 62% when somatic embryos from all osmotictreatments were desiccated for 14 d at 81% relative humidity.Following this desiccation treatment, somatic embryos from allosmotic concentrations had moisture contents of 26–31%,similar to the 32% recorded for unimbibed zygotic embryos. Afterimbibition, moisture contents for these zygotic and somaticembryos were in the order of 60%. Somatic embryos matured withPEG remained quiescent during desiccation due to their low initialmoisture contents, and gave rise to plantlets of normal appearance.Gradual desiccation of the somatic embryos directly followingmaturation with abscisic acid (ABA) was crucial to survivalduring desiccation. A plasmolysing water stress effected bysucrose at osmotic potentials similar to PEG was detrimentalto somatic embryo maturation, thereby emphasizing the importanceof the choice of osmoticum. Desiccation, maturation, osmotic potential, Picea glauca, polyethylene glycol, somatic embryo, water stress, white spruce