Abstract
The degree of genetic control and the effects of cultural treatments on somatic embryogenesis (SE) in white spruce were investigated with material derived from six-parent diallel crosses, including reciprocals. Thirty zygotic embryos from both immature and mature cones of each family were cultured in media with either 2,4-D or Picloram immediately after the collection of cones and after 2 months of cold storage. There were significant differences in SE initiation between immature and mature explants, and fresh and cold-stored seeds, but there was no significant differences with culture media effect. Significant variances due to families and to family x treatment interactions were found. The mean percentage of explants that initiated SE in each family ranged from 3.3% to 54.6%, with an overall average of 30.5%. The partitioning of family variance revealed that 21.7% was due to general combining ability effects, 3.5% was due to maternal effects, and 5.5% was due to reciprocal effects, but that the specific combining ability (SCA) was negligible. Variance due to interactions of family x treatments collectively accounted for 32.6%, while the remaining 37.8% of variation was accounted for by random error. However, when comparing the responses obtained with the treatment combinations, the SE response for freshly excised immature embryo explants showed comparatively large SCA variance, whereas the SCA variance was very small in the other treatment combinations.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Anderson RL, Bancroft TA (1952) Statistical theory in research. McGraw-Hill, New York
Anderson AB, Framton LJ Jr, McKeand SE, Hodges JF (1992) Tissue-culture shoot and root system effects on field performance of loblolly pine. Can J For Res 22:56–61
Bryce GR (1980) Data analysis in RUMMAGE — a user's guide. Department of Statistics, Brigham Young University, Provo, Utah
Carman JG (1990) Embryogenic cells in plant tissue cultures: occurrence and behavior. In Vitro Cell Dev Biol 26:746–753
Chalupa V (1985) Somatic embryogenesis and plantlet regeneration from cultured immature and mature embryos ofPicea abies (L.) Karst. Commun Inst For Cech 14:57–63
Cheliak WM, Klimaszewska K (1991) Genetic variation in somatic embryogenesis response in open-pollinated families of black spruce. Theor Appl Genet 82:185–190
Cheliak WM, Rogers DL (1990) Integrating biotechnology into tree improvement programs. Can J For Res 20:452–463
Cockerham CC (1963) Estimation of genetic variances. In: Hanson WD, Robinson HF (eds) Statistical genetics and plant breeding. Nat Acad Sci — Nat Res Counc Publ No. 982, Washington, D.C.
Eberhart SA, Russell WA (1966) Stability parameters for comparing varieties. Crop Sci 6:36–40
Finlay KW, Wilkinson GN (1963) The analysis of adaption in a plant breeding program. Aust J Agric Res 14:742–754
Griffing B (1956) Concept of general and specific combining ability in relation to diallel crossing system. Aust J Biol Sci 9:463–493
Hakman I, Fowke LC, von Arnold S, Eriksson T (1985) The development of somatic embryos in tissue cultures initiated from immature embryos ofPicea abies (Norway spruce). Plant Sci 38:53–59
Hallauer AR, Miranda JB (1981) Quantitative genetics in maize breeding. Iowa State University Press, Ames, Iowa
Kaleikau EK, Sears RG, Gill BS (1989) Control of tissue culture response in wheat (Triticum aestivum L.). Theor Appl Genet 78:783–787
Lazar MD, Baenzinger PS, Schaeffer GW (1984) Combining abilities and heritability of callus formation and plantlet regeneration in wheat (Triticum aestivum L.) anther cultures. Theor Appl Genet 68:131–134
Li Y, Handley J, Clark AJ, Martin H, Smith LM, Bowles DJ (1992) Gene expression patterns during barley embryogenesis. J Exp Bot 43 [Suppl]: 52
Libby WJ (1986) Clonal propagation: the clones are coming! J For 84:37–42
Libby WJ (1990) Advantages of clonal forestry revisited. In: Proc Joint Meet West For Genet Assoc IUFRO Work Parties S.2.02-5,-06, -12, -14, Douglas-fir, Contorta pine, Sitka spruce,Abies Genet Res. Weyerhauser Co, Tacoma, Wash.
Libby WJ, Rauter RM (1984) Advantages of clonal forestry. For Chron 60:145–149
Mather K, Jinks JL (1982) Biometrical genetics, 3rd edn Chapman and Hall, London
Mullin TJ, Park YS (1992) Estimating genetic gains from alternative breeding strategies for clonal forestry. Can J For Res 21:14–23
Mullin TJ, Morgenstern EK, Park YS, Fowler DP (1992) Genetic parameters from a clonally replicated test of black spruce (Picea mariana). Can J For Res 22:24–36
Nagmani R, Bonga JM (1985) Embryogenesis in subcultured callus ofLarix decidua. Can J For Res 15:1088–1091
Park YS, Bonga JM (1993) Conifer micropropagation: its function in tree improvement programs. In: Ahuja MR (ed) Micropropagation of woody plants. Kluwer Acad Publ 457–470
Park YS, Fowler DP (1987) Genetic variances among clonally propagated populations of tamarack and the implications for clonal forestry. Can J For Res 17:1175–1180
Peng J, Hodges TK (1989) Genetic analysis of plant regeneration in rice (Oryza sativa L.) In Vitro Cell Dev Biol 25:91–94
Roberts DR, Flinn BS, Webb DT, Webster RB, Sutton BCS (1989) Characterization of immature embryos of interior spruce by SDS-PAGE and microscopy in relation to their competence for somatic embryogenesis. Plant Cell Rep 8:285–288
Roberts DR, Webster FB, Flinn BS, Lazaroff WR, McInnis SM, Sutton BCS (1991) Application of somatic embryogenesis to clonal propagation of interior spruce. In: Ahuja MR (ed) Woody plant biotechnology. Plenum Press, New York, pp 157–169
Satterthwaite FE (1946) An approximate distribution of estimates of variance components. Biom Bull 2:110–114
Schaffer HE, Usanis RA (1969) General least squares analysis of diallel experiments: a computer program — DIALL. NC State Univ Genet Dep Res Rep No. 1, Raleigh, N.C.
Shaw DV, Hood JV (1985) Maximizing gain per effort by using clonal replicates in genetic tests. Theor Appl Genet 71:392–399
Shukla GJ (1972) Some statistical aspects of partitioning genotype-environment component of variability. Heredity 30:237–245
Sokal RR, Rohlf FJ (1969) Biometry. Freeman & Co, New York
Tautorus TE, Fowke LC, Dunstan DI (1991) Somatic embryogenesis in conifers. Can J Bot 69:1873–1899
Tietjen GL (1974) Exact and approximate tests for unbalanced random effects designs. Biometrics 30:573–581
Tremblay FM (1990) Somatic embryogenesis and plant regeneration from embryos isolated from stored seeds ofPicea glauca. Can J Bot 68:236–242
Webster FB, Roberts DR, McInnis SM, Sutton BCS (1990) Propagation of interior spruce by somatic embryogenesis. Can J For Res 20:1759–1765
Willman MR, Schroll SM, Hodges TK (1989) Inheritance of somatic embryogenesis and plantlet regeneration from primary (Type 1) callus in maize. In Vitro Cell Dev Biol 25:95–100
Author information
Authors and Affiliations
Additional information
Communicated by P. M. A. Tigerstedt
Rights and permissions
About this article
Cite this article
Park, Y.S., Pond, S.E. & Bonga, J.M. Initiation of somatic embryogenesis in white spruce (Picea glauca): genetic control, culture treatment effects, and implications for tree breeding. Theoret. Appl. Genetics 86, 427–436 (1993). https://doi.org/10.1007/BF00838557
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00838557