Enhancing carrot somatic embryos survival during slow dehydration, by encapsulation and control of dehydration

In order to obtain dry artificial seeds, carrot somatic embryos were encapsulated and dehydrated. Encapsulation in some hydrogels delayed the dehydration and preserved the water content of carrot somatic embryos. In particular, a matrix made of alginate with gellan gum was found to be the most efficient in maintaining a high water activity (a_w) around somatic embryos. By delaying dehydration, and also rehydration, encapsulation seemed to protect somatic embryos against desiccation and imbibition damages, giving better germination and emergence of cotyledons. Matrices made of alginate mixed with kaolin or gellan gum were particularly adapted to protect the embryos during the dehydration. Apart from the matrix composition, the control of dehydration speed enhanced the survival and regeneration of encapsulated-dehydrated somatic embryos. Using a slow dehydration protocol (95-15% RH—relative humidity into the chamber—in 11.5 days), it was possible to exert different dehydration speeds. Slowing the dehydration between 70 and 45% RH stabilized the water activity (a_w) of the encapsulation matrix, and enhanced the survival and regeneration frequencies of encapsulated-dehydrated embryos. In the absence of any maturing pretreatment, alginate-gellan gum encapsulated carrot somatic embryos, dehydrated to 15% RH, and rehydrated in moistured air (90% RH), germinated up to 72.9%. Therefore, encapsulation in alginate-gellan gum, combined with a slow dehydration, leads to enhance the somatic embryos' desiccation tolerance.     

胡萝卜人工种子基本制作流程的建立

通过在胚状体的产生、包埋和发芽过程中进行优化试验,建立胡萝卜人工种子基本制作流程,使人工种子在无菌条件下成苗率达96％,移栽到温室后成活率达79％。     

Effect of maturation duration on desiccation tolerance in hybrid larch (Larix×leptoeuropaea dengler) somatic embryos

Summary Cotyledonary somatic embryos ofLarix × leptoeuropaea that developed after various maturation times on media containing abscisic acid showed different frequencies of conversion into plants. Drying of these somatic embryos under high relative humidity (RH) before germination improved plantlet recovery and eliminated differences in the performance of somatic embryos matured for different times. However, dehydration of somatic embryos under 98% RH to a water content below that of zygotic embryos excised from mature seeds (0.97 and 1.36 g H₂O/g dry weight, respectively) showed a strong positive correlation between longer maturation time and desiccation tolerance. Drying somatic embryos at 4° C under 59% RH for 1 wk resulted in desiccation to a water content of 0.30 g H₂O/g dry weight, which was the closest to the hydration state of zygotic embryos in dried, stored seeds (0.20 g H₂O/g dry weight). Under this condition, only somatic embryos matured for 5 wk germinated and produced plantlets at a relatively high frequency (73 and 41%, respectively).     

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.     

Treatments affecting maturation and germination of American chestnut somatic embryos

The effects of amino acids, abscisic acid (ABA), polyethylene glycol (PEG), and elevated sucrose were tested on the maturation and germination of American chestnut (Castanea dentata) somatic embryos. Somatic embryos from three lines were matured over an eight week period through a two-stage process. After maturation, somatic embryos were randomly divided into three groups to measure dry weight/ fresh weight ratios, starch levels, and germination rates. Prior to transfer to germination medium, somatic embryos received a four week cold treatment. While some treatments with amino acids, elevated sucrose, PEG or ABA increased either dry weight/fresh weight ratios, starch content or both, only addition of 25mM L-asparagine significantly increased germination rate and taproot length, and this response was only obtained with one of the three lines tested. Six plants survived the transfer to potting mix, acclimatization to greenhouse conditions and field planting.     

Direct somatic embryogenesis and synthetic seed production from<Emphasis Type="Italic"> Paulownia elongata</Emphasis>

We have developed a reproducible system for efficient direct somatic embryogenesis from leaf and internodal explants of Paulownia elongata. The somatic embryos obtained were subsequently encapsulated as single embryos to produce synthetic seeds. Several plant growth regulators [6-benzylaminopurine, indole-3-acetic acid, -naphthaleneacetic acid, kinetin and thidiazuron (TDZ)] alone or in combination were tested for their capacity to induce somatic embryogenesis. The highest induction frequencies of somatic embryos were obtained on Murashige and Skoog (MS) medium supplemented with 3% sucrose, 0.6% Phytagel, 500 mg l^-1 casein hydrolysate and 10 mg l^-1 TDZ (medium MS10). Somatic embryos were induced from leaf (69.8%) and internode (58.5%) explants on MS10 medium after 7 days. Subsequent withdrawal of TDZ from the induction medium resulted in the maturation and growth of the embryos into plantlets on MS basal media. The maturation frequency of somatic embryos from leaf and internodal explants was 50.8% and 45.8%, respectively. Subculturing of mature embryos led to their germination on the same medium with a germination frequency of 50.1% and 29.8% from leaf and internode explants, respectively. Somatic embryos obtained directly on leaf explants were used for encapsulation in liquid MS medium containing different concentrations of sodium alginate with a 30-min exposure to 50 mM CaCl₂. A 3% sodium alginate concentration provided a uniform encapsulation of the embryos with survival and germination frequencies of 73.7% and 53.3%, respectively. Storage at 4°C for 30 days or 60 days significantly reduced the survival and complete germination frequencies of both encapsulated and non-encapsulated embryos relative to those of non-stored somatic embryos. However, the survival and germination rates of encapsulated embryos increased following storage at 4°C. After 30 days or 60 days of storage, the survival rates of encapsulated embryos were 67.8% and 53.5% and the germination frequencies were 43.2% and 32.4%, respectively. These systems could be useful for the rapid clonal propagation and dissemination of synthetic seed material of Paulownia elongata.Abbreviations BAP 6-Benzylaminopurine - IAA Indole-3-acetic acid - NAA -Naphthaleneacetic acid - TDZ ThidiazuronCommunicated by H. Lörz     

Somatic embryogenesis and plant regeneration from immature seeds of Magnolia obovata Thunberg

We have tested plantlet formation by somatic embryogenesis using immature seeds of Magnolia obovata. Seed collection date appeared to be critical for embryogenic cell induction. The optimal collection date was 3–4 weeks postanthesis. The embryogenic cells proliferated, formed somatic embryos, and were subsequently converted into normal plantlets under optimized culture conditions. Somatic embryo formation from the embryogenic calli was better on sucrose medium than on glucose medium. The optimum level of sucrose appeared to be 3% with an average of 28 somatic embryos per plate. About 25% of somatic embryos were converted into normal plantlets in 1/2 MS medium containing gibberellic acid (GA₃). During somatic embryo germination, secondary embryogenesis was frequently observed in the lower part of the hypocotyl or radicle ends of germinating somatic embryos. Finally, about 85% of converted plantlets survived in an artificial soil mixture, were transferred to a nursery, and have grown normally.     

Growth regulators influence the fatty acid profiles of in vitro induced jojoba somatic embryos

Inducing somatic embryogensis from jojoba [Simmondsia chinensis (Link) Schneider] explants to produce artificial seeds in the laboratory (in vitro) may prove highly profitable, as the seeds contain a characteristic liquid wax of economic importance in industry, nutrition and medicine. Thus, there is a need to examine the effect of the factors involved in the in vitro process on the quality and quantity of the synthesized fatty acids in comparison with those naturally produced in vivo. Immature zygotic embryos and mature leaf explants were cultured on Murashige and Skoog basal medium (MS) supplemented with various levels of 2,4-D, BA and sucrose. Embryogenic calluses developed from the zygotic embryos and leaf explants over a period of 2–4 weeks with the highest response at 0.4 μM 2,4-D, 2.2/4.4 μM BA and 117 mM sucrose (4%). Following induction, the zygotic embryo derived somatic embryos developed to the globular, heart, torpedo, and cotyledon stages. Direct somatic embryogenesis was observed with some of the zygotic embryo explants. Leaf-derived embryogenic calluses did not mature on any of the maturation/germination media examined up to 4 weeks of culture. Analysis of fatty acids indicated that the mature seeds are characterized with long chain saturated fatty acids C22:0 behenic Acid. The zygotic embryo-derived somatic embryos (SE-Z) and leaf-derived somatic embryos (SE-L) are characterized with the induction of the essential polyunsaturated fatty acid C18:2 (omega-6) linoleic acid, (omega-3) alpha-linolenic acid (ALA), with higher values of long chain saturated fatty acids C16:0 palmitic acid and monounsaturated fatty acid C18:1 oleic acid. These results indicate that manipulating the growth regulators in the induction media influenced the fatty acids synthesis and hence the fatty acids profile in jojoba somatic embryos.     

Environmental regulation of dormancy loss in seeds of Lomatium dissectum (Apiaceae)

Background and Aims

Lomatium dissectum (Apiaceae) is a perennial, herbaceous plant of wide distribution in Western North America. At the time of dispersal, L. dissectum seeds are dormant and have under-developed embryos. The aims of this work were to determine the requirements for dormancy break and germination, to characterize the type of seed dormancy, and to determine the effect of dehydration after embryo growth on seed viability and secondary dormancy.

Methods

The temperature requirements for embryo growth and germination were investigated under growth chamber and field conditions. The effect of GA₃ on embryo growth was also analysed to determine the specific type of seed dormancy. The effect of dehydration on seed viability and induction of secondary dormancy were tested in seeds where embryos had elongated about 4-fold their initial length. Most experiments examining the nature of seed dormancy were conducted with seeds collected at one site in two different years. To characterize the degree of variation in dormancy-breaking requirements among seed populations, the stratification requirements of seeds collected at eight different sites were compared.

Key Results

Embryo growth prior to and during germination occurred at temperatures between 3 and 6 °C and was negligible at stratification temperatures of 0·5 and 9·1 °C. Seeds buried in the field and exposed to natural winter conditions showed similar trends. Interruption of the cold stratification period by 8 weeks of dehydration decreased seed viability by about 30 % and induced secondary dormancy in the remaining viable seeds. Comparison of the cold stratification requirements of different seed populations indicates that seeds collected from moist habitats have longer cold stratification requirements that those from semiarid environments.

Conclusions

Seeds of L. dissectum have deep complex morphophysiological dormancy. The requirements for dormancy break and germination reflect an adaptation to trigger germination in late winter.Key words: Apiaceae, cold stratification, Lomatium dissectum, morphophysiological dormancy, secondary dormancy, seed germination     

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.     

An improved method for somatic plantlet production in hybrid larch (Larix × leptoeuropaea): Part 2. Control of germination and plantlet development

Germination and plantlet development in somatic embryos of Larix x leptoeuropaea were affected by the duration of the maturation treatment and the concentrations of sucrose and abscisic acid in the maturation media. Extension of the maturation period from 3 weeks to 4 weeks resulted in a significant decrease in germination and plantlet development frequencies. There was no significant effect of abscisic acid concentration on either the number of somatic embryos germinated or the number of plantlets obtained, but it affected the rapidity of the epicotyl development. Sucrose at 0.2 M, applied during maturation, was significantly more beneficial in attaining high germination rates than at 0.1 M. High germination rates (92 and 93%) and plantlet development rates (74 and 80%) were achieved when somatic embryos were matured for a 3-week period on media with either 40 or 60 M abscisic acid, respectively, and 0.2 M sucrose prior to transfer to the growth regulator-free germination medium. Two acclimatization methods were applied: the first required 10 to 12 weeks and ensured 97% plantlet survival under greenhouse conditions; the second required 2–3 weeks and ensured 86% plantlet survival. This represents the first detailed study of the effects of maturation regimes on the recovery of somatic embryo-derived plants of Larix.Abbreviations ABA abscisic acid - IBA indolebutyric acid - 2,4-d 2,4-dichlorophenoxyacetic acid - EM embryonal mass     

Accumulation pattern and identification of seed storage proteins in zygotic embryos of Pinus strobus and in somatic embryos from different maturation treatments

Somatic embryogenesis (SE) of Pinus strobus L. has been greatly improved over the last few years with respect to both the initiation frequencies from a number of seed families and production of mature somatic embryos that readily convert to plants. However, there are no data on biochemical characterization of somatic embryos in relation to zygotic embryos of eastern white pine and on the optimal duration of the maturation stage. It is believed that somatic embryos closely resembling zygotic embryos not only morphologically but biochemically would display more vigorous growth. Hence, in this study the accumulation pattern of the most abundant seed storage proteins in zygotic and somatic embryos were characterized by sodium dodecyl sulphate‐polyacrylamide gel electrophoresis (SDS‐PAGE) and identified by amino acid sequencing and tandem mass spectrometry (MS/MS). This showed that somatic embryos accumulated storage proteins in a similar manner to zygotic embryos and that the most abundant were the buffer‐insoluble 11S‐ globulins MW 59.6 kDa, which dissociated under reduced conditions to 38.2–40.0 and 22.5–23.5 kDa range polypeptides, and buffer‐soluble 7S vicilin‐like proteins MW 46.0–49.0 kDa, which did not separate under reduced conditions. Other relatively abundant soluble proteins were in the ranges of 25–27 and 27–29 kDa. The only group of proteins that showed different migration profiles in the presence of β‐mercaptoethanol (ME) were the low molecular mass proteins of 14.6–16.5 kDa. Somatic embryos that matured for 9 weeks on medium with 6% sucrose accumulated more storage proteins than those matured on medium with 3% sucrose and the extension of the maturation period to 12 weeks resulted in significant reduction of the storage proteins on both media. As expected, somatic embryos matured on medium with 6% sucrose had lower water potential (Ψ) than those from medium with 3% sucrose. Nonetheless, the somatic embryos matured under the best of tested conditions (6% sucrose for 9 weeks) had slightly higher water content; 1.35 ± 0.28 g H₂O g^?1 DM (mean ± sd ) than the mature non‐dried zygotic embryos; (1.16 ± 0.09 g H₂O g^?1 DM), and accumulated less storage proteins, whose amounts were either similar to (7S‐vicilins) or below (11S‐globulins) those found in the immature zygotic embryos collected 2 weeks prior to the usual cone collection. The implications of these results for further research and development of viable artificial seed is discussed.     

Field planting of alfalfa artificial seeds

Summary Encapsulated somatic embryos (artificial seeds) and naked (uncoated) somatic embryos of alfalfa (Medicago sativa L.) were planted directly into the field to demonstrate the feasibility of using artificial seeds for direct sowing. Various row coverings that provided protection for the somatic embryos during conversion (plant formation) in the field and encapsulation methods were investigated. The highest conversion obtained in the field was 25% when naked somatic embryos were planted under the protective covering of inverted styrofoam cups. In comparison, 60% conversion was obtained when embryos were planted in potting mix in a growth chamber. Somatic embryos encapsulated by the thin-coat method converted at 23% under cups in the field and 40% in potting mix in the growth chamber. Naked somatic embryos had an average of 13 and 9% conversion in the field under plastic and cloth coverings, respectively, whereas encapsulated embryos converted at 5 and 14%, respectively. Direct-planted embryos (no row covering) converted at 1% in the field. Successful conversion of coated and naked somatic embryos planted in the field supports the concept of artificial seeds serving as a substitute for natural seeds.     

Role of phytohormones and nitrogen in somatic embryogenesis induction in cell culture derived from leaflets of <Emphasis Type="Italic">Azadirachta indica</Emphasis>

A protocol for somatic embryogenesis in Azadirachta indica A Juss. has been standardized using in vivo leaflets. Experiments were carried out to examine the effect of various auxins, cytokinins, sucrose, inorganic and organic salts on subsequent somatic embryo induction and maturation. Embryogenic calli were induced on Murashige and Skoog (MS) medium supplemented with 1.5 mg dm⁻³ kinetin and 1.5 mg dm⁻³ indole-3-acetic acid and subsequently all the stages of somatic embryo development (globular, cordate, torpedo and cotyledonary) were observed. Maturation of these embryos was accomplished with the same growth regulators after three subcultures. The histological study of somatic embryos showed resembles to zygotic embryos. The matured somatic embryos were transferred onto half strength MS-medium devoid of growth regulators for their germination (82 %). Plantlets were acclimatized in the field with a survival rate of 80–83.5 %.     

Diversification of phytochrome contributions to germination as a function of seed-maturation environment

Environmental conditions during seed maturation influence germination, but the genetic basis of maternal environmental effects on germination is virtually unknown. Using single and multiple mutants of phytochromes, it is shown here that different phytochromes contributed to germination differently, depending on seed-maturation conditions. Arabidopsis thaliana wild-type seeds that were matured under cool temperatures were intensely dormant compared with seeds matured at warmer temperature, and this dormancy was broken only after warm seed-stratification followed by cold seed-stratification. The warm-cold stratification broke dormancy in fresh seeds but not in dry after-ripened seeds. Functional PHYB and PHYD were necessary to break cool-induced dormancy, which indicates a previously unknown and ecologically important function for PHYD. Disruption of PHYA in combination with PHYD (but not PHYB) restored germination to near wild-type levels, indicating that PHYA contributes to the maintenance of cool-induced dormancy on a phyD background. Effects of seed-maturation temperature were much stronger than effects of seed-maturation photoperiod. PHYB contributed to germination somewhat more strongly in seeds matured under short days, whereas PHYD contributed to germination somewhat more strongly in seeds matured under long days. The variable contributions of different phytochromes to germination as a function of seed-maturation conditions reveal further functional diversification of the phytochromes during the process of germination. This study identifies among the first genes to be associated with maternal environmental effects on germination.     

The role of sucrose during maturation of black spruce (Picea mariana) and white spruce (Picea glauca) somatic embryos

The present study was conducted to understand the role of sucrose in the medium on the maturation of black spruce and white spruce somatic embryos. A maturation medium containing 6% sucrose, which hydrolyzed into glucose and fructose, gave significantly more embryos than a medium containing 3.16% of each glucose and fructose. Preventing the complete sucrose hydrolysis by a daily transfer of the tissues onto fresh medium significantly decreased the yield of somatic embryos compared to when sucrose was allowed to complete its hydrolysis. This reduction was not due to the manipulation of the tissues during the transfer, since a daily in situ transfer did not affect embryo production. To verify if the better embryo production observed on a medium containing 6% sucrose was due to the increasing osmotic pressure of the medium, this increasing osmotic pressure was simulated with a sequence of media containing different concentrations of glucose and fructose. Unexpectedly and for both species, this simulation did not improve somatic embryo production, which stayed similar to the one obtained on constant osmotic pressure. To understand these results, embryos produced on the different treatments were analyzed in terms of sucrose, glucose, fructose and starch levels and protein contents. The embryo carbohydrate content was independent from the carbohydrate used in the maturation medium. However, embryos matured on 6% sucrose allowed to hydrolyze during the maturation period contained significantly more soluble and insoluble proteins than embryos matured on any other treatment. Furthermore, embryos with a higher protein content also exhibited a higher epicotyl appearance frequency. The role of sucrose as a regulatory factor during the maturation of spruce somatic embryos is discussed.     

Proliferation,maturation and germination of Castanea sativa Mill. Somatic embryos originated from leaf explants

Experiments were performed to determine the influence of proliferation medium on the maintenance of embryogenic competence and on repetitive embryogenesis in Castanea sativa Mill. somatic embryos derived from leaf explants. Somatic embryo proliferation was carried out by both direct secondary embryogenesis and by the culture of nodular callus tissue originated from cotyledons of somatic embryos. Both systems led to the production of cotyledonary somatic embryos on Murashige and Skoog proliferation medium supplemented with 0.1 mg l-1 benzyladenine and 0.1 mg l-1 naphthaleneacetic acid. Carbon source and concentration had a marked influence on maturation and subsequent germination ability of chestnut somatic embryos. Plantlet conversion was achieved in embryos matured on media with 6 % sucrose, and on 3 or 6 % maltose, whereas mean shoot length, root length and leaf number of produced plants were not significantly affected by these maturation media. Overall, the best results were obtained with 3 % maltose-matured somatic embryos, giving rise to 6 % plant recovery in addition to 33 % of embryos exhibiting only shoot development. The application of a 2-month cold treatment at 4 degrees C to somatic embryos matured on medium with 3 % maltose was necessary for achieving plant conversion, while partial desiccation did not appear to influence this response. A total of 39 % of embryos eventually produced plants either through conversion to plantlets or indirectly through rooting of shoots. Shoots formed by somatic embryos could be excised, multiplied and rooted following the micropropagation procedures previously developed for chestnut.     

Effect of exogenous ABA on somatic embryo maturation and germination in Persian walnut (<Emphasis Type="Italic">Juglans regia</Emphasis> L.)

Low efficiency of embryo maturation, germination and conversion to plantlets is a major problem in many species including Persian walnut. We studied the effects of abscisic acid (ABA) and sucrose, on the maturation and germination of Persian walnut (Juglans regia) somatic embryos. Individual globular somatic embryos were grown on a maturation medium supplemented with different combinations of ABA and sucrose for ca. 1 month, until shoot meristems and radicles had developed. White and opaque embryos in late cotyledonary stage were subjected to desiccation after the culture period on maturation media. The number of germinated somatic embryos was influenced by the concentrations of ABA in the maturation medium. The best treatment for germination, in which both shoot and root were developed contained 2 mg l⁻¹ ABA and resulted in 41% conversion of embryos into plantlets. Regeneration was reduced at higher levels of ABA. While ABA always reduced the rate of secondary embryogenesis, treatments containing 4.0% sucrose significantly increased the number of secondary embryos. On the other hand, sucrose had little influence on maturation. Normal and abnormal embryos were verified anatomically.     

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.