An anatomical study of secondary embryogenesis inCamellia reticulata

Summary An anatomical study was carried out during the sequences of events which lead to the differentiation of secondary embryos ofCamellia reticulata cv ‘Mouchang’. Secondary embryogenesis can be induced by culturing somatic embryos on a modified Murashige and Skoog medium supplemented with 0.5 mg·liter⁻¹ 6-benzylaminopurine and 0.1 mg·liter⁻¹ indole-3-butyric acid. After about 12 days of culture, globular-shaped secondary embryos became apparent, and by 18 to 20 days of culture cotyledonary stages were formed. Embryos developed mainly on the hypocotyl of primary embryos without an intermediate callus. Histologic monitoring revealed that secondary embryos apparently had a multicellular origin from embryogenic areas originating in both epidermal and subepidermal layers of the hypocotyl region. This morphogenetic competence is related to the presence, at the time of culture, of relatively undifferentiated cells in superfical layers of the primary embryo hypocotyl. Microcomputer image analysis was applied for quantifying cytological events associated with somatic embryogenesis. This method showed an increasing gradient in the nucleus-to-cell area ratio from differentiated cells passing through preembryogenic cells to embryogenic cells. The formation of embryogenic areas was preceded by accumulation of starch in the surrounding cortical cells. The cells underlying globular secondary embryos still contained abundant starch, but it declined as the secondary embryos developed.     

Dried Cryopreserved Somatic Embryos of Two Picea Species Provide Suitable Material for Direct Plantlet Regeneration and Germplasm Storage

The present study aimed to develop a cryopreservation methodfor long-term storage of mature somatic embryos of Picea spp.The effects of drying rate, embryo water content prior to cryopreservation,thawing rate, and rehydration on survival of cryopreserved somaticembryos were investigated. Emphasis was placed on the capacityof cryopreserved somatic embryos to germinate and regenerateplantlets directly, or to reinduce embryogenic tissue for newembryo production. Firstly, a slow drying rate at 97 or 88%relative humidity (RH) was needed to achieve high germination(96.7–100%) and high plantlet conversion rates (26.7–46.7%)(not different from controls). Secondly, somatic embryos hadto reach a water content of 0.23 g H₂O g^-1d.wt (48 h of desiccationat 97% RH) before immersion in liquid nitrogen to germinateat high frequency (93.8%). Thawing techniques had no effecton embryo survival. Dried and cryopreserved somatic embryosof Picea can also be used to reinduce embryogenic tissue andstart new embryo production. Best reinduction frequency (66.7%)was obtained from cryopreserved embryos dried at 97% RH andrehydrated at 100% RH for 12 h prior to reinduction. No differencein embryo production was noticed between the parent line (1stembryogenic cycle) and the sub-lines (2nd embryogenic cycle).Second generation embryos germinated and regenerated into plantletsat rates similar to controls. The optimal cryopreservation methodwas successfully applied to severalP. mariana and P. glaucagenotypes. Copyright 2000 Annals of Botany Company Picea mariana(Mill) B.S.P., Picea glauca(Moench) Voss, desiccation, embryo water content, thawing, rehydration, embryogenic tissue, genotypes, conifers, clonal propagation     

Polypeptides associated with the induction of direct somatic embryogenesis in Camellia japonica leaves I. Identification of embryo-specific polypeptides

Embryogenic and non-embryogenic induced leaves of Camellia japonica,with the same shoot origin and submitted to the same cultureconditions, were used to study protein changes during the inductionof direct embryogenesis. The analysis of protein changes inthese samples, based on two-dimensional polyacrylamide gel electrophoresis,revealed that 91% and 66.2% of the polypeptides detected, respectively,in embryogenic and non-embryogenic induced leaves, were alreadypresent in the non-induced control leaves. The results of thedifferential expression of eight selected polypeptides detectedin induced and non-induced leaves are presented. A spotlistreport was obtained for the 9% (43) embryogenesis-associatedleaf polypeptides. From these polypeptides, two polypeptideswere identified which seem to be specifically associated withsomatic embryogenesis in C. japonica: E1 (pl 5.6; mol. wt. 43.5)and E2 (pl 6.0; mol. wt. 25.7). Key words: Camellia japonica, embryogenesis-associated polypeptides, somatic embryogenesis, two-dimensional polyacrylamide gel electrophoresis     

Somatic Embryogenesis and Plant Regeneration from Cultured Leaf Explants of Zea mays

Young leaf segments of Zea mays L. seedlings were cultured onMurashige and Skoog's basal nutrient medium supplemented with2 mg l^–1 2, 4-D and sub-cultured on medium containing8 mg l^–1 2,4-D. Two types of callus tissues appeared—embryogenicand non-embryogenic. The embryogenic callus tissue producednumerous somatic embryos which on transfer to media containinglow amounts of 2,4-D or ABA produced plantlets. Callus tissuesexhibited embryogenic potential for more than 1 year. Zea mays L. cv. Ageti-76, Zea mays L. cv. N-L-D-Comp., maize, leaf, callus, somatic embryogenesis, regeneration     

Plant regeneration from embryogenic suspension cultures ofCamellia Japonica

Summary Two methods (I and II) for somatic embryo production from embryogenic suspension cultures ofCamellia japonica are presented. Method I, embryogenic suspension cultures, was established from suspension cultures initiated from leaf-derived callus. These cultures were maintained by reducing agitation and increasing subculture interval. Induction of somatic embryogenesis was achieved in MS28 medium, 6, 12, 24, and 36 mo. after culture establishment. Embryo production decreased after 1 yr of culture. Method II, suspensions of single embryogenic cells and proembryos, was obtained from leaves cultured in liquid MS13 medium 6 wk after culture initiation. Embryo production was 23 embryos/ml. Germination of cell suspension-derived embryos on MS56 medium was 16.7 % (±4.2%) for method I, and 35.4% (±5.1%) for method II. The embryos germinated into plantlets with 0 to 7 axillary shoots.     

Effect of NaCl Salinity on Somatic Embryo Development in Sapindus trifoliatus L.

The effect of NaCl salinity on growth and development of somaticembryos of Sapindus trifoliatus L. was examined. Incorporationof 25 and 50 mol m^–3 NaCl into the medium greatly increasedthe growth and development of somatic embryos and both theseconcentrations favoured the production of secondary embryoids.However, supplementation of 100 mol m^–3 NaCl to the mediumdid not have any significant effect on the growth and developmentof somatic embryos. On the other hand, the culturing of proembryostructures in medium containing 200 mol m^–3 NaCl resultedin complete death within 7 d of salt exposure. Analysis of somatic embryos revealed that, upon salinization,they accumulated Na⁺ and Cl^– in significant amounts butthe content of Na⁺ was much less compared to that of Cl^–.Addition of NaCl (up to 50 mol m^–3) in the medium resultedin a considerable increase in the K⁺ content of somatic embryos.The content of proline in somatic embryos, however, increasedsubstantially in response to salinization. The amount of freesterols, steryl glycosides, steryl esters, and phospholipidsalso rose to higher values in salt-affected somatic embryos.The results suggest that somatic embryos of S. trifoliatus cantolerate concentrations of NaCl up to 100 mol m^–3 withoutaffecting growth and that they have sufficient cellular mechanismsto tolerate salinity at relatively high levels. Key words: Salinity, somatic embryo, sterols, phospholipids     

Somatic Embryogenesis and Analysis of Peroxidase in Cultured Lettuce (Lactuca sativa L.) Cotyledons

Somatic embryos were induced in lettuce cotyledons culturedon Murashige and Skoog's (MS) medium containing either 2 mgl^–1 6-benzylaminopurine (BA) and 0.2 mg l^–1 naphthaleneaceticacid (NAA) or 0.2 mg l^–1 BA and 2 mg l^–1 NAA. Bothcombinations induced a frequency of over 70%. The explants culturedonly in the presence of 2,4-dichlorphenoxyacetic acid (2,4-D)did not produce somatic embryos. The development of the embryoidswas studied histologically and by scanning electron microscopy.Peroxidase activity was assayed and the isoenzyme pattern ofcalluses was determined by polyacrylamide gel electrophoresis.Callus from an embryogenic line showed a much higher peroxidaseactivity than that from a non-embryogenic line, one extra peroxidaseisozyme band being present and typical of the embryogenic callus.No qualitative differences were detectable between the embryogeniccalluses. Lactuca sativa L, lettuce, somatic embryogenesis, peroxidases, isoenzymes     

Somatic Embryogenesis and Plant Regeneration from Freely-suspended Cells and Cell Groups of Panicum maximum Jacq

Embryogenic calluses derived from cultured immature embryosand young inflorescences of Panicum maximum Jacq. were placedin Murashige and Skoog's liquid medium supplemented with 1 mg1^–1 2, 4- dichlorophenoxyacetic acid (2, 4-D) and 2.5per cent coconut water, to initiate suspension cultures. Suspensionsconsisted of two types of cells: small, richly-cytoplasmic andoften starch-containing embryogenic cells, and large, vacuolatednon-embryogenic cells. A presumed sequence of developmentalstages from single embryogenic cells to globular and heart-shapedstages of embyrogenesis was observed in the suspension cultures.Plantlets were produced from the embryoids when the suspensionswere plated in an agar medium without any hormone or with only0.2 mg 1^–12, 4-D or naphthalene acetic acid. Embryogenicsuspension cultures derived from immature embryos as well asfrom inflorescence segments gave rise to plants which showedthe normal somatic chromosome number of 2n = 4x = 32. Panicum maximum Jacq., Guinea grass, embryogenesis, regeneration, suspension culture     

Secretion of Specific Extracellular Proteins by Somatic Embryos of Picea abies is Dependent on Embryo Morphology

Embryogenic cell lines ofPicea abieswere categorized into twogroups, A and B, based on the morphology of the somatic embryosand the ability of the somatic embryos to proceed through amaturation process when treated with ABA. Group A embryos hada distinct, densely-packed embryonic region whereas group Bembryos had loosely packed cells in their embryonic region.Embryo morphology was shown to be regulated by changes in theplant growth regulators in the culture medium. Treatment withN⁶-benzyladenine stimulated embryos to develop large embryonicregions. The morphology of somatic embryos and especially thatof the embryonic regions was correlated with the presence ofspecific extracellular proteins. Only somatic embryos with denselypacked cells in the embryonic regions secreted proteins withrelative molecular weights of 28, 66 and 85kD. The extracellularprotein of 28kD was isolated and the first 21 amino acids inthe N-terminus were identified. These showed 52–57% identitywith the N-terminal sequence conserved among members of a proteinfamily which includes zeamatin and which have been shown tobe involved in plant anti-fungal mechanisms. Immunological studiesof extracellular chitinases and zeamatin-like proteins, as wellas of activity of extracellular peroxidase, revealed a closecorrelation between the presence of specific chitinases andembryo morphology. Auxin; cytokinin; embryogenic cell lines; embryo morphology; extracellular proteins; Norway spruce; Picea abies; somatic embryos     

In Vitro Somatic Embryogenesis and Plant Regeneration in Clitoria ternatea

A sustainable plant regeneration system in vitro through somaticembryos from mature sexual embryos has been reported in Clitoriaternatea. Somatic embryos developed through callus from seedlingroots on hormone-free MS medium (MS₁). Addition of growth hormones,KN 0.5 mg dm^–3 (MS₂) or KN+1AA 0·5 mg dm^–3of each (MS₃) induced direct somatic embryos, in high frequency,on split root and hypocotyl systems. The embryogenic potentialvaried with the organ, roots or hypocotyls, and also with themedium. The morphogenetic capacity of the somatic embryos isretained for more than 2 years by subculturing at intervalsof 4 weeks on MS₃ in complete darkness. Somatic embryos, underthe appropriate subculture conditions (16 h light/8 h dark photoperiodat 24± 1 °C on media MS₃, MS₄ and MS₅), resultedin recurrent-somatic embryogenesis and was profuse at the shootand root apices of the somatic embryos. Mature somatic embryoswere transplanted to MS₁ to stimulate germination and plantletregeneration. Plantlets, developed from primary and secondaryembryos on MS₁ were successfully hardened and grown in naturaloutdoor conditions. The morphology and histology of the somaticembryo and plantlet and the culture conditions for continuousproduction of plantlets through direct somatic embryogeny arediscussed Key words: Clitoria ternatea, somatic embryos, plant regeneration     

Distribution and changes of reserve materials in cotyledon cells of Panax ginseng related to direct somatic embryogenesis and germination

Cotyledon explants from zygotic embryos of Panax ginseng produced somatic embryos on Murashige and Skoog basal medium without growth regulators. Somatic embryos developed directly from epidermal cells at the cotyledon base. Somatic embryos were always formed from the side of the cotyledon opposite to the one attached to the medium surface regardless of cotyledon orientation. The frequency of somatic embryo formation from the abaxial epidermis (66%) was much higher than that from the adaxial epidermis (12%). Differences in embryogenic response were likely related to cell structure. Abaxial epidermal cells were filled with reserve materials (lipid bodies), while adaxial epidermal cells were devoid of any prominent reserves. During germination, the reserve materials in the cells of the cotyledons disappeared rapidly. At the same time, the competency of somatic embryo formation from cotyledon explants declined rapidly to zero. Upon culture of the cotyledon explants (for somatic embryo induction), lipid bodies slowly disappeared, but starch grains accumulated prominently. Reserve materials disappeared after commencement of embryogenic cell division. During germination, lipid bodies rapidly disappeared, and chloroplasts developed instead of starch grains. Received: 29 January 1997 / Revised version received: 16 April 1997 / Accepted: 9 May 1997     

Use of calcium to optimize long-term proliferation of friable embryogenic calluses and plant regeneration in Hevea brasiliensis (Mll. Arg.)

In Hevea brasiliensis (Mll. Arg.), increasing the calcium contentof the friable callus maintenance medium from 3 to 9 mM stimulatedregeneration potential through somatic embryogenesis. This stimulationcould be attributed to the homogeneous cytological structureof calluses, which were formed of undifferentiated cells capableof somatic embryogenesis in optimal culture conditions. Thevery marked increase in the active cell population was sufficientto cause a decrease and a stabilization of water and osmoticpotentials of the calluses, whereas their water content increased.The regeneration capacity of calluses cultured on a medium withadditional CaCl₂ was greater in terms of both quantity (numberof somatic embryos produced was increased 2-fold) and quality(germination efficiency trebled). High CaCl₂ concentrations (9 mM CaCl₂) in the embryogenesisinduction medium favoured somatic embryo development when calluseswere maintained 2 months on the same medium. In this case, additionof benzylaminopurine (BAP) and 3,4-dichlorophenoxy- acetic acid(3,4-D) increased the number of embryos produced (243 embryosg^–1 FW callus) and their germination capacity (27%). These culture conditions were used to determine the optimumembryogenesis induction period. The length of the period affectedboth the intensity of embryogenesis (maximum 56–77 d)and somatic embryo quality (maximum 49–70 d). The bestresults were obtained with a 70 d embryogenesis induction period,within which 355 embryos g^–1 FW callus were obtained,with 35% germination. Key words: Calcium, somatic embryogenesis, long-term culture, water status, histology     

High Frequency of Plant Production via Somatic Embryogenesis from Callus or Cell Suspension Cultures inEleutherococcus senticosus

Hypocotyl segments ofEleutherococcus senticosuscultured on Murashigeand Skoog's (MS) medium with 4.5 µM2,4-D produced somaticembryos directly from the surface of explants without interveningcallus formation. When these somatic embryos were subculturedto the same MS medium with 4.5 µM2,4-D, friable embryogeniccalli were formed mainly from radicle tips of somatic embryos,but at a low frequency (5%). Selected embryogenic calli weremaintained on MS agar or liquid medium with 4.5 µM2,4-D.To induce somatic embryo development, embryogenic calli andcell clumps were transferred to MS medium lacking 2,4-D. Thefrequency of somatic embryo formation differed between culturetypes with 1570 embryos formed per Petri dish from callus cultureand 5514 embryos formed per flask from cell suspension cultures.Somatic embryos formed on agar medium had larger cotyledonsthan those of embryos formed in liquid medium. GA₃treatmentwas necessary to induce germination from somatic embryos. Therate of plant conversion was 97% in somatic embryos from callusculture and 76% in embryos from liquid culture. Regeneratedplantlets were successfully acclimatized in the glasshouse.Copyright1999 Annals of Botany Company Eleutherococcus senticosus, micro propagation, somatic embryogenesis.     

There is No Somatic Meiosis in Embryogenic Leaves of Cichorium

Several papers dealing with carrot cell cultures describe meiosis-likedivisions and haploid cells prior to somatic embryogenesis.We have studied the first division in embryogenic mesophyllcells of a diploidCichorium intybus L. and of a tetraploid hybridC.intybus L.xC. endivia L. which undergo direct somatic embryogenesisfrom single cells when leaf fragments are placed in a liquidagitated inductive medium (modified MS with 1x10^-7M NAA and2.5x10^-6M 2-iP), in darkness, at 35°C. MicrosporogenesisinC. intybus provided aspects of meiosis for comparison. Inleaves incubated in inductive conditions, DAPI staining of nucleishowed normal mitosis on days 3–6; about 0.6% cells inprophase had undergone spontaneous endoreduplication leadingto a tetraploid somatic embryo. Immunocytochemistry of tubulinrevealed the constant presence of a preprophase band, as ina normal mitosis. The first pluricellular somatic embryos becamevisible on day 5 of culture. Flow cytometric determination ofnuclear DNA on days 4, 5 and 6 did not show any peak correspondingto the 1C DNA level for the diploid plant or to the 2C DNA levelfor the tetraploid. Instead there was a weak but constant peakat the 4C and 8C levels. We conclude that inCichorium leaves,the first division of somatic embryogenesis is a normal mitosis,with a small shift to endoreduplication. In our opinion, somaticmeiosis is not a prerequisite during direct somatic embryogenesis. Cichorium ; chicory; somatic embryogenesis; cell division; flow cytometry; tubulin     

Factors controlling somatic embryogenesis

Histological and ultrastructural, molecular and elemental distribution changes were investigated during the induction of direct somatic embryogenesis using theCamellia japonica leaf culture system. In this culture system, direct somatic embryogenesis is induced in a controlled way in a specific leaf region (leaf blade) within a leaf. Embryogenic and non-embryogenic leaf regions have characteristic energy-dispersive X-ray spectra already before induction. According to these results electron probe X-ray microanalysis (EPMA) can be a tool for early diagnosis of embryogenic competence. Histological studies showed that severe fluctuations in the number of calcium oxalate crystals and in starch accumulation occur after induction but only in induced tissues. Changes in the cell wall composition of competent cells occur shortly after the induction treatment. The induction of morphogenesis is linked to the appearance of callose covering the surface cells of induced leaves and calluses. A 2^nd deposition of material (cutin) is necessary for normal somatic embryogenesis to occur. The involvement of lipid transfer proteins in the appearance of cutin in the embryogenic regions of the explant is suggested.     

Morphohistological analysis of the origin and development of somatic embryos from leaves of mature Quercus robur

Summary In oak species, there is paucity of information on the anatomical changes underlying differentiation of somatic embryos from explants of mature trees. A histological study was undertaken to ascertain the cellular origin and ontogenesis of somatic embryos in leaf cultures from a 100-yr-old Quercus robur tree. Somatic embryogenesis was induced in expanding leaves excised from shoots forced from branch segments, following culture on three successive media containing different concentrations of α-naphthaleneacetic acid and 6-benzylaminopurine. The somatic embryogenesis followed an indirect pathway from a callus tissue formed in the leaf lamina. After 4–6 wk of culture, meristematic cells originated in superficial layers of callus protuberances, but these cells evolved into differentiated vacuolated cells rather than embryos. A subsequent dedifferentiation into embryogenic cells occurred later (9–12 wk of culture) within a dissociating callus. Embryogenic cells exhibited dense protein-rich protoplasm, high nucleoplasmic ratio, and contained small starch grains. Successive divisions of these cells led to the formation of a few-celled proembryos and embryogenic cell clumps within a thick common cell wall, which seemed to have originated unicellularly. However, a multicellular origin of larger embryogenic clumps could not be dismissed; these gave rise to embryonic nodular structures that developed somatic embryos of both uni- and multicellular origin. Somatic embryos at successive stages of development, including cotyledonary-stage embryos with shoot and root meristems, were apparent.     

Difference in light-induced increase in ploidy level and cell size between adaxial and abaxial epidermal pavement cells of Phaseolus vulgaris primary leaves

Changes in nuclear DNA content and cell size of adaxial andabaxial epidermal pavement cells were investigated using brightlight-induced leaf expansion of Phaseolus vulgaris plants. Inprimary leaves of bean plants grown under high (sunlight) ormoderate (ML; photon flux density, 163 µmol m^–2s^–1) light, most adaxial epidermal pavement cells hada nucleus with the 4C amount of DNA, whereas most abaxial pavementcells had a 2C nucleus. In contrast, plants grown under lowintensity white light (LL; 15 µmol m^–2 s^–1)for 13 d, when cell proliferation of epidermal pavement cellshad already finished, had a 2C nuclear DNA content in most adaxialpavement cells. When these LL-grown plants were transferredto ML, the increase in irradiance raised the frequency of 4Cnuclei in adaxial but not in abaxial pavement cells within 4d. On the other hand, the size of abaxial pavement cells increasedby 53% within 4 d of transfer to ML and remained unchanged thereafter,whereas adaxial pavement cells continuously enlarged for 12d. This suggests that the increase in adaxial cell size after4 d is supported by the nuclear DNA doubling. The differentresponses between adaxial and abaxial epidermal cells were notinduced by the different light intensity at both surfaces. Itwas shown that adaxial epidermal cells have a different propertythan abaxial ones. Key words: Cell enlargement, endopolyploidization, epidermal pavement cells, incident light intensity, leaf expansion, nuclear DNA content, Phaseolus vulgaris     

Effects of Desiccation, Medium Osmolarity and Abscisic acid on the Maturation of Hevea brasiliensis Somatic Embryos

The effects of desiccation of Hevea somatic embryos and of sucroseand ABA concentrations in the maturation medium on their germinabilitywere investigated. Conversion into plant, water and histochemicalstatus of somatic embryos were compared systematically to thoseof the zygotic embryos used as reference. Slow desiccation ormaturation on 351 mol m^–3 sucrose supplemented with 1mmol m^–3 ABA strongly improved germinability and conversionof embryos into plants. The combination of the two treatmentswas the most effective, increasing the germination frequencyby 3·7 and plant conversion by 6·6 in clone PR107. Each of these two treatments increased the vigour of somaticembryos, stimulated the formation of root and shoot meristemsand the synthesis and accumulation of starch and protein reserves.At the end of maturation, the Hevea somatic embryos bore ananatomical and histochemical resemblance to mature zygotic embryos.Likewise, the two treatments brought the water status of somaticembryos closer to that of the mature zygotic embryos, but withoutachieving a perfect match. Optimization of the successful conversioninto plants may require full acquisition of this water status. Key words: ABA, embryo maturation, Hevea, somatic embryogenesis, water status     

The Use of Single Somatic Embryo Culture in Propagating and Regenerating Lucerne (Medicago sativa L.)

Embryogenic cultures of lucerne (Medicago sativa L.) cv. Robothave been established and propagated on medium containing yeastextract. These cultures consisted of unorganized callus tissuebearing embryogenic centres which increased in size during subculture,yielding new regenerated somatic embryos at the end of each20-d subculture. A development in the propagation of the embryogenic cultureswas the establishment of single embryo culture in hormone-freemedium where, in selected cases, the process of recurrent somaticembryogenesis (RSE) took place on the hypocotyl of explantedembryos. The process was independent of supporting callus tissueand occurred on simple defined medium. Single embryos underwenteither plantlet development or continued RSE on the hypocotyl.One third of the regenerated plantlets showed RSE after thetwo to three trifoliate leaf stage. In these cases shoot developmentstopped and only somatic embryo production took place. In vitrocloning of regenerated plantlets allowed us to reproduce eachparticular genotype before transplantation into soil. Lucerne (alfalfa), Medicago sativa L., somatic embryogenesis, single embryo culture     

Somatic Embryogenesis in Cassava: The Anatomy and Morphology of the Regeneration Process

Anatomical and morphological studies demonstrated that somaticembryos developed similarly on mature seed and clonal leaf explantsof cassava (Manihot esculenta Crantz) cultured for 20–24d on Murashige and Skoog (MS2) basal medium supplemented with4.0 mg l^–1 2,4-D (Stage 1) before transfer to MS2 basalmedium supplemented with 0–01 mg l^–1 2,4-D and 0–1mg l^–1 6-benzylaminopurine (Stage II medium). Within 7d of inoculation onto Stage I medium, cell divisions occurredin the adaxial tissues of cotyledon-piece and leaf-lobe explants,and associated with this was the development of embryogeneticprotusions and ridges on the adaxial surface. Foliose structuresand somatic embryo initials developed from these tissues oncotyledon, embryonic axis and leaf-lobe explants and, when cultureswere transferred to Stage II medium, further somatic embryodevelopment occurred. Somatic embryos apparently originatedfrom groups of cells and were identified by the presence ofa closed root axis, a shoot axis and cotyledons of similar shapeand venation to those of zygotic embryos. Somatic embryos hadno vascular connection with parental cultures. Manihot esculenta, cassava, somatic embryogenesis, tissue culture, anatomy, morphology, morphogenesis