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Plant Biol (Stuttg) 2004; 6(2): 222-230
DOI: 10.1055/s-2004-817802
Original Paper

Georg Thieme Verlag Stuttgart · New York

A Survey of Genetic Diversity and Reproductive Biology of Puya raimondii (Bromeliaceae), the Endangered Queen of the Andes

S. Sgorbati1 , M. Labra1 , E. Grugni2 , G. Barcaccia3 , G. Galasso4 , U. Boni5 , M. Mucciarelli2 , S. Citterio1 , A. Benavides Iramátegui6 , L. Venero Gonzales7 , S. Scannerini8
  • 1Dipartimento di Scienze dell'Ambiente e del Territorio, Università di Milano-Bicocca, P.zza della Scienza 1, 20126 Milano, Italy
  • 2Dipartimento di Morfofisiologia Veterinaria, Università di Torino, Via L. da Vinci 44, 10095 Grugliasco (Torino), Italy
  • 3Dipartimento di Agronomia Ambientale e Produzioni Vegetali, Università di Padova, Agripolis, Via Romea 16, 35020 Legnaro (Padova), Italy
  • 4Regione Lombardia, Direzione Generale Qualità dell'Ambiente, Via Stresa 24, 20125 Milano, Italy
  • 5Indena s.p.a. Via don Minzoni 6, 20090 Settala (Milano), Italy
  • 6Facultad de Farmacia y Bioquímica, Universidad Nacional Mayor de San Marcos, Lima, Peru
  • 7Universidad Nacional de San Antonio Abad, Cusco, Peru
  • 8Dipartimento di Biologia Vegetale, Università di Torino, Viale P. A. Mattioli 25, 10125 Torino, Italy
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Publikationsverlauf

Publikationsdatum:
26. März 2004 (online)

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Abstract

Puya raimondii Harms is an outstanding giant rosette bromeliad found solely around 4000 m above sea level in the Andes. It flowers at the end of an 80 - 100-year or even longer life cycle and yields an enormous (4 - 6 m tall) spike composed of from 15 000 to 20 000 flowers. It is endemic and currently endangered, with populations distributed from Peru to the north of Bolivia. A genomic DNA marker-based analysis of the genetic structure of eight populations representative of the whole distribution of P. raimondii in Peru is reported in this paper. As few as 14 genotypes out of 160 plants were detected. Only 5 and 18 of the 217 AFLP marker loci screened were polymorphic within and among these populations, respectively. Four populations were completely monomorphic, each of the others displayed only one to three polymorphic loci. Less than 4 % of the total genomic variation was within populations and genetic similarity among populations was as high as 98.3 %. Results for seven cpSSR marker loci were in agreement with the existence of a single progenitor. Flow cytometry of seed nuclear DNA content and RAPD marker segregation analysis of progeny plantlets demonstrated that the extremely uniform genome of P. raimondii populations is not compatible with agamospermy (apomixis), but consistent with an inbreeding reproductive strategy. There is an urgent need for a protection programme to save not only this precious, isolated species, but also the unique ecosystem depending on it.

Key words

Biodiversity conservation - flow cytometry - genomic diversity - giant rosette plant - molecular markers - Puya raimondii - reproductive biology.

References

  • 1 Allard W. A.. History of plant population genetics.  Annual Review of Genetics. (1999);  33 1-27
    CrossrefPubMedSuche in Google Scholar
  • 2 Barcaccia G.. Development, comparability and potential applications of RAPD markers in the genus Medicago. .  Journal of Genetics and Breeding. (1994);  48 161-168
    PubMedSuche in Google Scholar
  • 3 Berry P. E., Calvo R. N.. An overview of the reproductive biology of Espeletia (Asteraeceae) in the Venezuelan Andes. Rundel, P. W., Smith, A. P., and Meinzer, F. C., eds. Tropical Alpine Environments. Cambridge; Cambridge University Press (1994): 229-249
    Suche in Google Scholar
  • 4 Brooks T. M., Mittermeier R. A., Mittermeier C. G., da Fonseca G. A. B., Rylands A. B., Kostant W. R., Flick P., Pilgrim J., Oldfield S., Magin G., Hilton-Taylor C.. Habitat loss and extinction in hotspots of biodiversity.  Conservation Biology. (2002);  16 909-923
    CrossrefPubMedSuche in Google Scholar
  • 5 Dice L. R.. Measures of the amount of ecological association between species.  Ecology. (1945);  26 297-302
    PubMedSuche in Google Scholar
  • 6 Dorst J.. The Puya stands of the peruvian high plateaux as a bird habitat.  IBIS. (1957);  99 594-599
    PubMedSuche in Google Scholar
  • 7 Doyle J. J., Doyle J. L.. Isolation of plant DNA from fresh tissue.  Focus. (1990);  12 13-15
    PubMedSuche in Google Scholar
  • 8 Gilmartin A. J.. Transandean distribution of Bromeliaceae in Ecuador.  Ecology. (1973);  54 1389-1393
    PubMedSuche in Google Scholar
  • 9 Grugni E.. Antonio Raimondi, un genio italiano tra le Ande.  Ligabue Magazine. (1995);  27 62-77
    PubMedSuche in Google Scholar
  • 10 Hartl D. L., Clark A. G.. Principles of Population Genetics, 3rd edn. Sunderland, Massachusetts, USA; Sinauer Associates, Inc (1997)
    Suche in Google Scholar
  • 11 Hartmann O.. Puya raimondii cada vez son menos.  Boletín de Lima. (1981);  10 79-83
    PubMedSuche in Google Scholar
  • 12 Kimura M., Crow J. F.. The number of alleles that can be maintained in a finite population.  Genetics. (1964);  49 725-738
    PubMedSuche in Google Scholar
  • 13 Lewontin R. C.. The Genetic Basis of Evolutionary Change. New York; Columbia University Press (1974)
    Suche in Google Scholar
  • 14 Lodhi M. A., Reisch B. I.. Nuclear DNA content of Vitis species, cultivars and other genera of Vitaceae.  Theoretical Applied Genetics. (1995);  90 11-16
    PubMedSuche in Google Scholar
  • 15 Mabberley D. J.. Evolution of the giant groundsels.  Kew Bulleten. (1973);  28 61-68
    PubMedSuche in Google Scholar
  • 16 Matzk F., Meister A., Schubert I.. An efficient screen for reproductive pathways using mature seeds of monocots and dicots.  The Plant Journal. (2000);  21 97-108
    CrossrefPubMedSuche in Google Scholar
  • 17 McDermott J. M., McDonald B. A.. Gene flow in plant pathosystems.  Annual Reviews of Phytopathology. (1993);  31 353-373
    PubMedSuche in Google Scholar
  • 18 McWilliams E. L.. Chromosome number and evolution. Smith, L. B. and Downs, R. J., eds. Bromeliaceae. Flora Neotropica, Vol. 14. New York; Afner Press (1974): 33-40
    Suche in Google Scholar
  • 19 Miller G. A.. Pubescence, floral temperature and fecundity in species of Puya (Bromeliaceae) in the Ecuadorian Andes.  Oecologia. (1986);  70 155-160
    CrossrefPubMedSuche in Google Scholar
  • 20 Miller G. A., Silander Jr. J. A.. Control of the distribution of giant rosette species of Puya (Bromeliaceae) in Ecuadorian páramos.  Biotropica. (1991);  23 124-133
    PubMedSuche in Google Scholar
  • 21 Myers N., Mittermeier R. A., Mittermeier C. G., da Fonseca G. A. B., Kent J.. Biodiversity hotspots for conservation priorities.  Nature. (2000);  403 853-858
    CrossrefPubMedSuche in Google Scholar
  • 22 Nei M.. Estimation of average heterozygosity and genetic distance from a small number of individuals.  Genetics. (1978);  89 583-590
    PubMedSuche in Google Scholar
  • 23 Padilla V.. Bromeliads. New York; Crown publishers Inc. (1973)
    Suche in Google Scholar
  • 24 Raimondi A.. El Perú, Vol. I. Lima, Perú; Imprenta del Estrado (1874): 295-297
    Suche in Google Scholar
  • 25 Rivera C. A.. Puya raimondii Harms.  Boletín de Lima. (1985);  38 85-91
    PubMedSuche in Google Scholar
  • 26 Rohlf F. J.. NTSYS-pc: Numerical Taxonomy and Multivariate Analysis System, Version 1.8. New York; State University of New York, Stony Brook (1993)
    Suche in Google Scholar
  • 27 Rundel P. W., Meinzer F. C., Smith A. P.. Tropical alpine ecology: progress and priorities. Rundel, P. W., Smith, A. P., and Meinzer, F. C., eds. Tropical Alpine Environments. Cambridge; Cambridge University Press (1994): 355-363
    Suche in Google Scholar
  • 28 Savidan Y.. Apomixis: genetics and breeding. Janick, J., ed. Plant Breeding Reviews, Vol. 18. New York; Wiley and Sons, Inc. (2000): 13-86
    Suche in Google Scholar
  • 29 Sgorbati S., Levi M., Sparvoli E., Trezzi F., Lucchini G.. Cytometry and flow cytometry of 4′,6-diamidino-2-phenylindole (DAPI)-stained suspensions of nuclei released from fresh and fixed tissues of plants.  Physiologia Plantarum. (1986);  68 471-476
    PubMedSuche in Google Scholar
  • 30 Smith A. P.. Introduction to tropical alpine vegetation. Rundel, P. W., Smith, A. P., and Meinzer, F. C., eds. Tropical Alpine Environments. Cambridge; Cambridge University Press (1994): 1-19
    Suche in Google Scholar
  • 31 Smith A. P., Young T. P.. Population biology of Senecio keniodendron (Asteraceae) - an Afroalpine giant rosette plant. Rundel, P. W., Smith, A. P., and Meinzer, F. C., eds. Tropical Alpine Environments. Cambridge; Cambridge University Press (1994): 273-293
    Suche in Google Scholar
  • 32 Smith L. B., Till W.. Bromeliaceae. Kubitzki, K., ed. The Families and Genera of Vascular Plants, Vol. IV. Berlin, Germany; Springer (1999): 74-99
    Suche in Google Scholar
  • 33 Venero J. L.. El rodal de Puya raimondii en Lares-Calca.  Boletín de Lima. (1984 a);  31 65-69
    PubMedSuche in Google Scholar
  • 34 Venero J. L.. Registro de una nueva localidad para Puya raimondii en el Perú.  Boletín de Lima. (1984 b);  35 65-68
    PubMedSuche in Google Scholar
  • 35 Venero J. L.. Inisual floración de Puya raimondii en Lares, Calca.  Boletín de Lima. (2001);  123 9-11
    PubMedSuche in Google Scholar
  • 36 Villiger F.. Rodales de Puya raimondii y su protección.  Boletín de Lima. (1986);  10 84-91
    PubMedSuche in Google Scholar
  • 37 Vos P., Hogers R., Bleeker M., Reijans M., Van de Lee T., Horenes M., Fiujters A., Pot J., Pelerman J., Kuiper M., Zabeau M.. AFLP: a new technique for DNA fingerprinting.  Nucleic Acids Research. (1995);  23 4407-4414
    CrossrefPubMedSuche in Google Scholar
  • 38 Weising K., Gardner R. C. A.. A set of conserved PCR primers for the analysis of simple sequence repeat polymorphisms in chloroplast genomes of dicotyledonous angiosperms.  Genome. (1999);  42 9-19
    CrossrefPubMedSuche in Google Scholar
  • 39 Yeh F. C., Yang R. C., Boyle T.. POPGENE. CIFOR, Version 1.21. University of Alberta, Canada (1997)
    Suche in Google Scholar
  • 40 Young T. P.. Population biology of Mount Kenya lobelias. Rundel, P. W., Smith, A. P., and Meinzer, F. C., eds. Tropical Alpine Environments. Cambridge; Cambridge University Press (1994): 251-272
    Suche in Google Scholar
  • 41 Zabeau M., Vos P.. European patent application. Publication no 0543858 Al. (1992)
    Suche in Google Scholar

S. Sgorbati

Dipartimento di Scienze dell'Ambiente e del Territorio
Università degli Studi di Milano-Bicocca

P.zza della Scienza 1

20126 Milano

Italy

eMail: sergio.sgorbati@unimib.it

Section Editor: F. Salamini