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Gene flow in Prunus species in the context of novel trait risk assessment

Published online by Cambridge University Press:  03 February 2011

Rene C. Van Acker
Affiliation:
Department of Plant Agriculture, University of Guelph, Guelph, ON, N1G2W1, Canada

Abstract

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Prunus species are important commercial fruit (plums, apricot, peach and cherries), nut (almond) and ornamental trees cultivated broadly worldwide. This review compiles information from available literature on Prunus species in regard to gene flow and hybridization within this complex of species. The review serves as a resource for environmental risk assessment related to pollen mediated gene flow and the release of transgenic Prunus. It reveals that Prunus species, especially plums and cherries show high potential for transgene flow. A range of characteristics including; genetic diversity, genetic bridging capacity, inter- and intra-specific genetic compatibility, self sterility (in most species), high frequency of open pollination, insect assisted pollination, perennial nature, complex phenotypic architecture (canopy height, heterogeneous crown, number of flowers produced in an individual plant), tendency to escape from cultivation, and the existence of ornamental and road side Prunus species suggest that there is a tremendous and complicated ability for pollen mediated gene movement among Prunus species. Ploidy differences among Prunus species do not necessarily provide genetic segregation. The characteristics of Prunu s species highlight the complexity of maintaining coexistence between GM and non-GM Prunus if there were commercial production of GM Prunus species. The results of this review suggest that the commercialization of one GM Prunus species can create coexistence issues for commercial non-GM Prunus production. Despite advances in molecular markers and genetic analysis in agroecology, there remains limited information on the ecological diversity, metapopulation nature, population dynamics, and direct measures of gene flow among different subgenera represented in the Prunus genus. Robust environmental impact, biosafety and coexistence assessments for GM Prunus species will require better understanding of the mechanisms of gene flow and hybridization among species within the Prunus species complex.

Type
Review Article
Copyright
© ISBR, EDP Sciences, 2011

References

Arnold, ML, Hodge, SA (1995) Are natural hybrids fit or unfit relative to their parents? Trends Ecol. Evol. 10: 6771 Google ScholarPubMed
Arus P, Gradziel T, Margarida-Oliveira M, Tao R (2009) Genomics of Almond. In Folta KM, Gardiner SE, eds, Genetics and Genomics of Rosaceae, Crops and Models, 6: 187–219, Springer Science
Atanassov, D (1932) Plum pox. A new virus disease. Ann. Univ. Sofia, Fac. Agric. Silvic. 11: 4969 Google Scholar
Bagavathiannan, MV, Van Acker, RC (2008) Crop ferality: implications for novel trait confinement. Agric. Ecosyst. Environ. 127: 16 Google Scholar
Bagavathiannan MV, Spok A, Van Acker RC (2010) Commercialization of perennial GE crops: looming challenges for Regulatory Frameworks. J. Agric. Environ. Ethics 23: 10.1007/s10806-010-9257-3
Bellini E, Watkins R, Pomarici E (1984) Descriptor List for Peach (Prunus persica). IBPGR, Rome and CEC, Brussels
Blažek, J (2007) A survey of the genetic resources used in plum breeding. Acta Hort. (ISHS) 734: 3145 Google Scholar
Crane MB, Lawrence WJC (1934) The Genetic of Garden Plants. Mac Millan, London
Culley, TM, Weller, SG, Sakai, AK (2002) The evolution of wind pollination in angiosperms. Trends Ecol. Evol. 17: 361369 Google Scholar
Darwin C (1883) The Variation of Animals and Plants under Domestication. D. Appleton and Co, New York
de Vries, J, Meier, P, Wackernagel, W (2004) Microbial horizontal gene transfer and the DNA release from transgenic crop plants. Plant Soil 266: 91104 Google Scholar
Delaplane KS, Mayer DF (2000) Crop Pollination by Bees. University Press Cambridge, Cambridge
Dickson, EE, Kresovich, S, Weeden, NF (1991) Isozymes in North American Malus (Rosaceae): Hybridization and species differentiation. Syst. Bot. 16: 363375 Google Scholar
Ellstrand, NC, Schierenbeck, KA (2000) Hybridization as a stimulus for the evolution of invasiveness in plants? Proc. Natl. Acad. Sci. USA 97: 70437050 Google ScholarPubMed
FAOSTAT (2010) http://faostat.fao.org/. Retrieved 10 October 2010
Faust, M, Suranyi, D (1997) Origin and dissemination of cherry. Hort. Rev. 19: 263317 Google Scholar
Ferreira, SA, Pitz, KY, Manshardt, R, Zee, F, Fitch, M, Gonsalves, D (2002) Virus coat protein transgenic papaya provides practical control of papaya ringspot virus in Hawaii. Plant Disease 86: 101105 Google Scholar
Fogle HW (1975) Cherries. In Janick J, Moore JN, eds, Advances in Fruit Breeding, Purdue University Press, Indiana, pp 348–336
Frecon, JL (2004) Fruit register list 42: Peach. Hort. Sci 39: 15121513 Google Scholar
Frecon, JL (2006) Fruit register list 43: Peach. Hort. Sci 41: 11161119 Google Scholar
Goodwillie, C, Kalisz, S, Eckert, CG (2005) The evolutionary enigma of mixed mating systems in plants: occurrence, theoretical explanations, and empirical evidence. Ann. Rev. Ecol. Evol. Syst. 36: 4779 Google Scholar
Gradziel, TM (2003) Interspecific hybridizations and subsequent gene introgression within Prunus subgenus Amygdalus. Acta Hort. 622: 249255 Google Scholar
Hartmann W, Neumuller N (2009) Plum Breeding. In Jain M, Priyadarshan PM, eds, Breeding Plantation Tree Crops, Temperate Species, Springer Science, Publ., New York, pp 161–231
Hesse CO (1975) Peaches. In Janick J, Moore JN, eds, Advances in Fruit Breeding, Purdue University Press, Indiana, pp 285–331
Ho, MW, Cummins, J, Saunders, P (2007) GM food nightmare unfolding in the regulatory sham. Microb. Ecol. Health. Dis. 19: 6677 Google Scholar
Holm L, Pancho J, Herberger J, Plucknett D (1979) A Geographical Atlas of World Weeds. John Wiley and Sons, New York
Howard WL (1945) Luther Burbank’s plant contributions. Calif. Agr. Expt. Sta. Bul. 691
Iezzoni AF, Schmidt H, Albertini A (1990) Cherries (Prunus). In Moore JN, Ballington JR, eds, Genetic Resources of Temperate Fruit and Nut Crops (ISHS), The Netherlands, pp 111–173
Ingram C (1948) Ornamental Cherries. Country Life Limited, London
Jackson DI (1986) Temperate and Subtropical Fruit Production. Butterworth of New Zealand, p 249
Kester DE, Gradziel TM, Grasselly C (1991) Almonds (Prunus). In Moore JN, Ballington HJ, eds, Genetic Resources of Temperate Fruit and Nut Crops (ISHS), The Netherlands, pp 701–758
Keulemans, J (1994) Pollination and fruit set in self incompatible plum cultivars. Acta Hort. 359: 260268 Google Scholar
Knight RL (1969) Abstract Bibliography of Fruit Breeding and Genetics to 1965; Prunus. Commonwealth Bureau of Horticulture and Plantation Crops, p 649
Knispel, AL, McLachlan, SM, Van, Acker RC, Friesen, LF (2008) Genetically engineered multiple herbicide resistance in escaped canola populations. Weed Sci. 56: 7280 Google Scholar
Kovalev, NV (1939) Ecological differentiation of the cherry plum Prunus cerasifera Ehrh. (s.l.Kov.). Dokl. Akad. Nauk. SSR. New Ser. 23: 285288 Google Scholar
Kron, P, Husband, BC (2009) Hybridization and the reproductive pathways mediating gene flow between native Malus coronaria and domestic apple, M-domestica. Botany 87: 864874 Google Scholar
Kuitert W (1999) Japanese Flowering Cherries. Timber Press, Portland, Oregon
Lapins, KO (1970) The Stella cherry. Fruit Varieties Hort. Digest. 24: 1920 Google Scholar
Latham, JR, Wilson, AK (2008) Transcomplementation and synergism in plants: implications for viral transgenes? Mol. Plant Pathol. 9: 85103 Google ScholarPubMed
Lee, S, Wen, J (2001) A phylogenetic analysis of Prunus and the Amygdaloideae (Rosaceae) using ITS sequences of nuclear ribosomal DNA. Am. J. Bot. 88: 150160 Google Scholar
Lewis, D (1949) Structure of the incompatibility gene. II. Induced mutation rate. Heredity 3: 339355 Google Scholar
Martínez-Gómez, P, Arulskar, S, Potter, D, Gradziel,, TM (2003) Relationships among peach, almond, and related species as detected by simple sequence repeat markers. J. Am.Soc. Hort. Sci. 128: 667671 Google Scholar
Marvier, M, Van Acker, RC (2005) Can crop transgenes be kept on a leash? Front. Ecol. Environ. 3: 99106 Google Scholar
Mehlenbacher SA, Cociu V, Hough F (1991) Apricots (Prunus). In Moore JN, Ballington HJ, eds, Genetic Resources of Temperate Fruit and Nut Crops, International Society for Horticultural Science, The Netherlands, pp 65–107
Miki, B, McHugh, S (2004) Selectable marker genes in transgenic plants: applications, alternatives and biosafety. J. Biotechnol. 107: 193232 Google ScholarPubMed
Nyeki, J Soltesz, M, (1977) Effect of the distance and proportion of the pollen donor variety on fruit setting and fruit yield Pandy sour cherry. Acta Agr. Sci. Hung. 26: 8789 Google Scholar
Nyeki, J, Szabo, Z (1996) Flowering phenology of peach cultivars under Hungarian ecological conditions. Acta Hort. 374: 181184 Google Scholar
Nyeki, J, Szabo, Z, Andrasfalvy, A, Soltesz, M, Szel, I (1998) Open pollination and autogamy of peach and nectarine varieties. Acta Hort. 465: 279284 Google Scholar
Nyeki J, Szabo Z, Soltesz M (2003a) Sweet cherry (Prunus avium L.). In Kozma P, Nyeki J, Soltesz M, Szabo Z, eds, Floral biology, pollination and fertilization in temperate zone fruit species and grape, Akademiai Kiado, Budapest, pp 341–358
Nyeki J, Szabo Z, Soltesz M (2003b) Sour cherry (Prunus cerasus L.). In Kozma P, Nyeki J, Soltesz M, Szabo Z, eds, Floral biology, pollination and fertilization in temperate zone fruit species and grape, Akademiai Kiado, Budapest, pp 359–382
Okie, WR (2005) ‘Spring Satin’ plumcot. J. Am. Pomological Soc. 59: 119124 Google Scholar
Okie, WR, Ramming, TW (1999) Plum breeding worldwide. Hort. Tech 9: 162176 Google Scholar
Olden, EJ, Nybom, N (1968) On the origin of Prunus cerasus L. Hereditas 59: 327345 Google Scholar
Pairon, M, Chabrerie, O, Mainer, Casado C, Jacquemart, A-L (2006a) Sexual regeneration traits linked to black cherry (Prunus serotina Ehrh.) invasiveness. Acta Oecol. 30: 238247 Google Scholar
Pairon, M, Jonard, M, Jacquemart, A-L (2006b) Modeling seed dispersal of black cherry, an invasive forest tree: how microsatellites may help? Can. J. For. Res. 36: 13851394 Google Scholar
Pascal, T, Kervella, J, Pfeiffer, F, Sauge, MH, Esmenjaud, D (1998) Evaluation of the interspecific progeny Prunus. persica cv. Summergrand × Prunus. davidiana for disease resistance and some agronomic features. Acta Hort. 465: 185192 Google Scholar
Patterson, B, Vaillancourt, RE, Pilbeam, DJ, Potts, BM (2004) Factors affecting variation in outcrossing rate in Eucalyptus globulus. Aust. J. Bot. 52: 773780 Google Scholar
Petit, RJ, Hampe, A (2006) Some evolutionary consequences of being a tree. Ann. Rev. Ecol. Evol. Syst. 37: 187214 Google Scholar
Ramming DW (2004) Fruit Register list 43: Plum and Plum hybrids. USDA-ARS Crop Diseases, Pests and Genetics, San Joaquin Valley Agricultural Sciences Center, Parlier
Ramming, DW, Cociu, V (1991) Plums (Prunus). Acta Hort. 290: 235290 Google Scholar
Ravelonandro, M, Briard, P, Monsion, M, Scorza, R, Renaud, R (2002) Stable transfer of the plum pox virus (PPV) capsid transgene to seedlings of two French cultivars ‘Prunier d’Ente 303’ and ‘Quetsche 2906’, and preliminary results of PPV challenge assays. Acta Hort. 577: 9196 Google Scholar
Reales, A, Sargent, DJ, Tobutt, KR, Rivera, D (2010) Phylogenetics of Eurasian plums, Prunus L. section Prunus (Rosaceae), according to coding and non-coding chloroplast DNA sequences. Tree Gen. Genomes 6: 3745 Google Scholar
Rehder A (1947) Manual of Cultivated Trees and Shrubs, 2nd edn, Macmillan company, New York
Reim, S, Flachowsky, H, Michael, M, Hanke, MV (2006) Assessing gene flow in apple using a descendant of Malus sieversii var. sieversii f. niedzwetzkyana as an identifier for pollen dispersal. Environ. Biosafety Res. 5: 89104 Google Scholar
Rubio, M, Martínez-Gómez, P, Dicenta, F (2003) Resistance of almond cultivars to Plum pox virus (sharka). Plant Breed. 122: 462464 Google Scholar
Rhymer, JM, Simberloff, D (1996) Extinction by hybridization and introgression. Ann. Rev. Ecol. Sys. 27: 83109 Google Scholar
Rullo J (2009) Plum  ×  cherry interspecific hybrid tree named Nadia. USA Plant Patent Application NO. US2009/0044301 P1
Scoggan HJ (1978) The Flora of Canada, Part 3. National Museum of Natural Sciences, Canada
Scorza, R, Okie, WR (1991) Peaches (Prunus). Acta Hort. 290: 177231 Google Scholar
Scorza, R, Ravelonandro, M, Callahan, AM, Cordts, JM, Fuchs, M, Dunez, J, Gonsalves, D (1994) Transgenic plums (Prunus domestica L.) express the plum pox virus coat protein gene. Plant. Cell Rpt. 14: 1822 Google ScholarPubMed
Scorza, R, Callahan, AM, Levy, L, Damsteegt, V, Ravelonandro, M (1998) Transferring potyvirus coat protein genes through hybridization of transgenic plants to produce plum pox virus resistant plums (Prunus domesticaL.). Acta Hort. 472: 421427 Google Scholar
Scorza, R, Callahan, A, Levy, L, Damsteegt, V, Webb, K, Ravelonandro, M (2001) Post-transcriptional gene silencing in plum pox virus resistant transgenic European plum containing the plum pox potyvirus coat protein gene. Transgenic Res. 10: 201209 Google ScholarPubMed
Scorza, R, Hily, JM, Callahan, AM, Malinowski, T, Cambra, M, Capote, N, Zagrai, I, Damsteegt, V, Briard, P, Ravelonandro, M (2007) Deregulation of Plum Pox resistant transgenic plum ‘HoneySweet’. In Litz RE, Scorza R, eds, Proceedings of the international symposium on biotechnology of temperate fruit crops and tropical species. Acta Hort. 738: 669673 Google Scholar
Shimada, T, Hayama, H, Nishimura, K, Yamaguchi, M, Yoshida, M (2001) The genetic diversities of 4 species of subg. Lithocerasus (Prunus, Rosaceae) revealed by RAPD analysis. Euphytica 117: 8590 Google Scholar
Singh Z, Sansavini S (1998) Genetic transformation and fruit crop improvement. In Janick J, ed, Plant Breeding Reviews (Vol. 16), John Wiley and Sons, pp 87–134
Socias i Company R (1990) Breeding self-compatible almonds. Plant Breed. Rev. 8: 313–338
Socias i Company, R, (2002) The relationship of Prunus webbii and almond revisited. Nucis-Newsletter 11: 1719 Google Scholar
Soltesz M, Nyeki J, Szabo Z (2003) Almond (Amygdalus communis L.). In Kozma P, Nyeki J, Soltesz M, Szabo Z, eds, Floral biology, pollination and fertilization in temperate zone fruit species and grape, Akademiai Kiado, Budapest, pp 435–449
Starfinger, U, Kowarik, I, Rode, M, Schepker, H (2003) From desirable ornamental plant to pest to accepted addition to the flora? – The perception of an alien tree species through the centuries. Biol. Inv. 5: 323335 Google Scholar
Szabo S (2003) Plum (Prunus domestica L). In Kozma P, Nyeki J, Soltesz M, Szabo Z, eds, Floral biology, pollination and fertilization in temperate zone fruit species and grape, Akademiai Kiado, Budapest, pp 383–410
Szabo S, Nyeki J, Soltesz M (2003a) Apricot (Prunus armeniaca L.). In Kozma P, Nyeki J, Soltesz M, Szabo Z, eds, Floral biology, pollination and fertilization in temperate zone fruit species and grape, Akademiai Kiado, Budapest, pp 411–423
Szabo S, Nyeki J, Soltesz M (2003b) Peaches (Prunus persica L.). In Kozma P, Nyeki J, Soltesz M, Szabo Z, eds, Floral biology, pollination and fertilization in temperate zone fruit species and grape, Akademiai Kiado, Budapest, pp 425–434
Van Acker RC, McLean N, Martin RC (2007) Development of quality assurance protocols to prevent GM-contamination of organic crops. In Cooper U, Niggli J, Leifert C, eds, Handbook of Organic Food Safety and Quality, CRC Press, Boca Raton, pp 466–489
Vavilov NI (1951) The Origin, Variation, Immunity and Breeding of Cultivated Plants. Chronica botanica, v. 13, New York, Ronald Press, p 364
Watkins R (1976) Cherry, Plum, Peach, Apricot and Almond in Evolution of crop plants. In Simmonds NW, ed, Longman, New York, pp 242–247
Weinberger JH (1975) Plums. In Janick J, Moore JN, eds, Advances in Fruit Breeding, Purdue, University Press, West Lafayette, pp 336–347
Wendel GW (1972) Longevity of black cherry seed in the forest floor. USDA Forest Service, Research Note NE-149, Northeastern Forest Experiment Station, Upper Darby
Zohary, D (1992) Is the European plum, Prunus domestica L., a P. cerasifera Ehrh. × P. spinosa L. allo-polyploid? Euphytica 60: 7577 Google Scholar