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Polyploidy and habitat differentiation in Dactylis glomerata L. from Galicia (Spain)

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Summary

The microdistribution of diploid and tetraploid plants of Dactylis glomerata L. was examined and related to their immediate environment in several sites in central Galicia, where morphologically indistinguishable individuals of both ploidies grow in sympatry. The two related cytotypes differed in habitat preference. Diploids were mainly confined to the low-density forest-floor habitat in woodlands of mostly ancient origin, whereas tetraploids were widespread in varied habitats but clearly predominant in open areas, particularly in disturbed anthropic sites. The in situ comparison of plant performance showed that where plants of each ploidy were more common they produced more tillers, panicles and seeds. This habitat preference closely reflected differences in life-history characteristics. The tetraploids had an early and short flowering time almost always completed before the aestival drought, whereas the diploids began to flower several weeks later and flowered throughout the drought. Comparisons along artificial gradients of soil water availability and light transmittance indicated that the cytotypes had distinct physiological requirements which probably originated in metabolic and more general genetic differentiation and could be directly attributable to ploidy. Habitat differentiation increases the species' colonizing ability. It also amplifies divergence in reproductive strategy between diploids and tetraploids, which reduces ineffective crossing between cytotypes and thereby permits them to coexist in sympatry. The effect of hybridization at the polyploid level on the differentiation between cytotypes was assessed from the recent introduction of a foreign tetraploid entity into the study area. Hybridization between the two distinct tetraploids was found to increase habitat differentiation between the diploids and the tetraploids, but the major part of this differentiation is probably attributable to ploidy itself.

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References

  • Ardouin P (1985) Analyse, par la biochimie flavonique, de la structure génétique et de l'organisation évolutive d'un complexe polyploïde Dactylis glomerata L. Thesis Univ Claude Bernard Lyon I France no 1652, pp 108–111

  • Ardouin P, Jay M, Lumaret R (1987) Etude d'une situation de sympatrie entre diploïdes de Dactylis glomerata. L. sur la base du polymorphisme enzymatique et phénolique. Can J Bot (in press)

  • Barrientos E (1985) Evolution dans les complexes autopolyploïdes. Exemple de Dactylis glomerata L.-Etude comparative de la structure génétique des populations dans deux situations de contact entre diploïdes et tétraploïdes. Thesis Univ Sci Tech Languedoc Montpellier France, pp 35–54

  • Belling G (1926) The iron acetocarmine method of fixing and staining chromosomes. Biol Bull 50:160–162

    Google Scholar 

  • Biswas AK, Bhattacharyya NK (1971) Induced polyploïdy in legumes. I Cyamopsis psoraloides DC. Cytologia 36:469–479

    Google Scholar 

  • Biswas AK, Bhattacharyya NK (1972) Induced polyploidy in legumes. II Glycine max (L.) Merr Cytologia 37:605–617

    Google Scholar 

  • Biswas AK, Bhattacharyya NK (1976) Induced polyploidy in legumes. III Phaseolus vulgaris L. Cytologia 41:105–110

    Google Scholar 

  • Borrill M (1961) The pattern of morphological variation in diploid and tetraploid Dactylis L. J Linn Soc (Bot) 56:441–452

    Google Scholar 

  • Borrill M (1978) Evolution and genetic resources in cocksfoot: Ann Rep Welsh Plant Breeding Station, 1977 Univ college wales Aberystwyth GB, pp 190–209

  • Borrill M, Lindner R (1971) Diploid-tetraploid sympatry in Dactylis (Graminae). New Phytol 70:1111–1124

    Google Scholar 

  • Bouhier A (1979), Un finistère Atlantique. In: La Galice, Essai géographique d'analyse et d'interprétation d'un vieux complexe agraire I, Imp. Yonnaise La Roche sur Yon (France), pp 19–68

  • Braun-Blauquet J, Pinto Da Silva AR, Rozeira A (1961) Résultats de deux excursions géobotaniques à travers le Portugal septentrional et moyen-Landes à cistes et éricacées. Agron Lusit 23:229–312

    Google Scholar 

  • Brown D (1954) Methods of surveying and measuring vegetation. Com Bus Past and Field Crops Bull 42 Hurley, Berks, GB, p 20

  • Burk LG, Gwynn GR, Chaplin GF (1972) Diploidized haploids from aseptically cultured anthers in Nicotiana tabacum. J Hered 63:355–360

    Google Scholar 

  • Carballeira A, Deversa C, Retuerto R, Santillan E, Ucieda F (1983) Bioclimatologia de Galicia Fund Petro Barrié La Coruña Spain, pp 1–392

    Google Scholar 

  • Carroll CP, Borrill M (1965) Tetraploid hybrids from crosses between diploid and tetraploid Dactylis and their significance. Genetica 36:65–82

    Google Scholar 

  • Chorton KH, Young NR (1980) List of grass ecotypes collected in July and August 1977 in Galicia, NW Spain. Report Welsh Plant Breeding station, Aberystwyth, GB

  • Dewey DR, Asay KH (1975) The crested wheat grasses of Iran. Crop Sci (Madison) 15:811–819

    Google Scholar 

  • Diaz Fierros (1971) Contribucion a la climatologia agricola de Galicia. Monograf 8, Univ Santiago de Compostela Spain

    Google Scholar 

  • Domin K (1943) Monograficka studie o rodu Dactylis L. Acta both bohem 14:3–147

    Google Scholar 

  • Doroszewska A (1961) A comparative study of Dactylis slovenica Dom. and D. glomerata L. Acta Soc Bot Pol 30:775–802

    Google Scholar 

  • Eagles CF, Othman OB (1978) Physiological studies of a hybrid between populations of Dactylis glomerata from contrasting climatic regions II. Intra population variation. Ann appl Biol 89:81–88

    Google Scholar 

  • Gadella TW, Kliphuis JE (1970) cytotaxonomic investigations in some angiosperms collected in the valley of Aosta and in the national park “Gran Paradiso” Caryologia 23:363–379

    Google Scholar 

  • Gounot M (1969) Méthodes d'étude quantitative de la végétation. Masson, Paris, pp 66–71

    Google Scholar 

  • Gustafson FG (1944) Growth hormone studies of some diploid and autotetraploid plants. J Hered 35:269–272

    Google Scholar 

  • Hancock JF, Bringhurst RS (1981) Evolution in California populations of diploid and octoploid Fragaria (Rosaceae): a comparison. Am J Bot 68:1–5

    Google Scholar 

  • Harlan JR, De Wet JM (1975) On O winge and a prayer: the origins of polyploidy. Bot Rev 41:361–390

    Google Scholar 

  • Izco J (1982) Problèmes spatiaux et altitudinaux posés par la limite entre les écosystèmes méditerranéens et atlantiques. Ecol Med 8:289–299

    Google Scholar 

  • Jaaska VT (1981) Aspartate aminotransferase and alcohol dehydrogenase iso-enzymes: intraspecific differentiation in Aegilops transchii and the origin of the D. genome polyploids in the wheat group. Pl Syst Evol 137:259–273

    Google Scholar 

  • Jones K, Borrill M (1962) Chromosomal status gene exchange and evolution in Dactylis 3. The role of the inter-ploid hybrids. Genetica 32:296–322

    Google Scholar 

  • Karel MLH (1975) Cytogenetical studies on ecological races of Mecardonia dianthera (Sw) Pennell. III Induced polyploidy. Cytologia 40:97–111

    Google Scholar 

  • Levin DA (1975) Minority cytotype exclusion in local plant populations. Taxon 24:35–43

    Google Scholar 

  • Levin DA (1983) Polyploidy and novelty in flowering plants. Am Nat 122:1–25

    Google Scholar 

  • Lewis H (1967) The taxonomic significance of autopolyploidy. Taxon 16:267–271

    Google Scholar 

  • Lewis WH (1976) Temporal adaptation correlated with ploidy in Claytonia virginica. Syt Bot 1:340–347

    Google Scholar 

  • Lewis WH (1980) Polyploidy in species populations. In: Lewis WH (ed) Polyploidy-biological relevance. Plenum New York, pp 103–144

    Google Scholar 

  • Lewis WH, Suda Y (1976) Diploids and polyploids from a single species population: temporal adaptations. J Hered 67:391–393

    Google Scholar 

  • Lumaret R (1981) Structure génétique d'un complexe polyploïde: Dactylis glomerata L. Relation entre le polymorphisme enzymatique et certains aspects de la biologie, l'écologie et de l'évolution de l'espèce. Thesis Doct Etat Univ Sci Tech Languedoc. Montpellier France, pp 139–142

    Google Scholar 

  • Lumaret R (1984) The role of polyploidy in the adaptive significance of polymorphism at the Got l locus in the Dactylis glomerata complex. Heredity 52:153–169

    Google Scholar 

  • Lumaret R (1985) Phenotypic and genotypic variation within and between populations of the polyploid complex, Dactylis glomerata L. In: Haeck J, Woldendorp JW (eds) Structure and functioning of plant populations/2, phenotypic and genotypic variation in plant populations. North-Holland Pub CompAmsterdam Oxford New York, pp 343–354

    Google Scholar 

  • Lumaret R, Guillerm JL, Barrientos E, Jay M, Fiasson JL, Ardouin P, Delay J, Loutfi A, Izco J, Amigo J (1987) Signification évolutive de la polyploïde infraspécifique: cas des dactyles diploïdes et tétraploïdes de Galice. In: Legay JM (ed) Biologie des populations, évaluation et prospective, IASBSE Université Claude Bernard. Lyon I, pp 129–133

    Google Scholar 

  • Madembo C (1986) Etude de la variabilité intraclonale, interclonale et intergenotypique de la croissance ponderale du Dactyle. Thesis Ecole Nationale Supérieure d'Agronomie Nancy France, pp 35–42

  • McCollum GD (1958) Comparative studies of chromosome pairing in natural and induced tetraploid Dactylis. Chromosoma 9:571–605

    Google Scholar 

  • Mehlquist GAL, Blodgett C, Bruscia O (1943) Colchicine induced tetraploid in Delphinium cardinale. J Heredity 34:187–192

    Google Scholar 

  • Pickett STA, Bazzaz FA (1976) Divergence of two co-occurring successional annuals on a soil moisture gradient. Ecology 57:169–176

    Google Scholar 

  • Rivas-Martinez S (1979) Brezales y jorales de Europa occidental. In: Lazaroa I Madrid, pp 5–128

  • Rivas-Martinez S, Diaz TE, Fdez Prieto JA, Loidi J, Penas A (1984) La vegetacion de la alta montana cantabrica. In: Los Picos de Europa, Leonesas Leon Spain, p 36

  • Roose ML, Gottlieb LD (1976) Genetic and biochemical consequences of polyploidy in Tragopogon. Evolution 30:818–830

    Google Scholar 

  • Rothera SL, Davy AJ (1986) Polyploidy and habitat differentiation in Deschampsia cespitosa. New Phytol 102:449–467

    Google Scholar 

  • Roy J (1985) Comparison of Dactylis glomerata and Bromus erectus populations from contrasted successional stages. In: Haeck J, Woldendorp JW (eds) Structure and functioning of plant populations/2, phenotypic and genotypic variation in plant populations. North-Holland Pub Comp Amsterdam Oxford New York, pp 51–64

    Google Scholar 

  • Stebbins GL (1980) Polyploidy in plants: unsolved problems and prospects. In: Lewis WH (ed) Polyploidy Biological relevance. Plenum Press, New York London, p 498

    Google Scholar 

  • Sinskaja EN (1964) The origin of species and forms in the genus Dactylis. Botanicheskii Zhurnal 49:177–184

    Google Scholar 

  • Soltis DE, Rieseberg LH (1986) Autopolyploidy in Tolmiea menziesii (Saxifragaceae): genetic insights from enzyme electrophoresis. Am J Bot 73:310–318

    Google Scholar 

  • Tyrl RJ (1975) Origin and distribution of polyploid Achillea (Compositae) in western North America. Brittonia 27:187–196

    Google Scholar 

Download references

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Author notes

  1. J. Delay & A. Ait Lhaj Loutfi

    Present address: Laboratoire de Génétique Ecologique et Biologie des populations végétales, Université de Lille, F-59655, Villeneuve d'Ascq cedex, France

  2. J. Izco

    Present address: Departamento de Botanica Ecologica, Facultad de Farmacia, Universidad de Santiago de Compostela, La Coruña, Spain

  3. M. Jay

    Present address: Laboratoire de Phytochimie, Département de Physiologie végétale, Université Claude Bernard Lyon 1, F-69622, Villeurbanne cedex, France

Authors and Affiliations

  1. Centre Emberger, C.N.R.S., B.P. 5051, F-34033, Montpellier cedex, France

    R. Lumaret, J.-L. Guillerm, J. Delay, A. Ait Lhaj Loutfi, J. Izco & M. Jay

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Lumaret, R., Guillerm, JL., Delay, J. et al. Polyploidy and habitat differentiation in Dactylis glomerata L. from Galicia (Spain). Oecologia 73, 436–446 (1987). https://doi.org/10.1007/BF00385262

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  • DOI: https://doi.org/10.1007/BF00385262

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