Genetic differentiation and hybridization between Carex gynodynama and C. mendocinensis (Cyperaceae) in California

Patterns of variation within and between Carex gynodynama and C. mendocinensis were investigated by studying allozyme and chromosome variation in natural populations and structural variation using herbarium specimens. Multivariate analyses of structural data demonstrated that C. gynodynama is clearl...

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Bibliographic Details
Published in:American journal of botany 1990-06, Vol.77 (6), p.826-838
Main Author: Waterway, M.J. (McGill University Herbarium, Ste. Anne de Bellevue, Quebec, Canada)
Format: Article
Language:English
Subjects:
ALLELES
ANATOMIA DE LA PLANTA
ANATOMIE VEGETALE
Anatomy & physiology
Animal and plant ecology
Animal, plant and microbial ecology
Autoecology
BIOCHEMICAL POLYMORPHISM
Biological and medical sciences
Botany
CALIFORNIA
CALIFORNIE
CHROMOSOME
CHROMOSOME NUMBER
CHROMOSOMES
CROMOSOMAS
CYPERACEAE
DISTRIBUCION NATURAL
DISTRIBUTION NATURELLE
Endemic species
ENZIMAS
ENZYME
ENZYMES
Fundamental and applied biological sciences. Psychology
GENE
GENES
Genetic loci
GENETIC POLYMORPHISM
GENETIC VARIATION
GENETICA
GENETICS
GENETIQUE
HETEROCIGOTOS
HETEROZYGOTE
HETEROZYGOTES
HIBRIDACION
HIBRIDOS
HYBRIDATION
HYBRIDE
Hybridity
HYBRIDIZING
HYBRIDS
ISOENZIMAS
ISOENZYME
ISOENZYMES
LOCI
LOCUS
MEIOSE
MEIOSIS
NATURAL DISTRIBUTION
NOMBRE CHROMOSOMIQUE
NUMERO DE CROMOSOMAS
OREGON
PLANT ANATOMY
Plant reproduction
Plants and fungi
POLIMORFISMO BIOQUIMICO
POLIMORFISMO GENETICO
POLYMORPHISME BIOCHIMIQUE
POLYMORPHISME GENETIQUE
Population genetics
Population size
SERPENTINE SOILS
SOL DE SERPENTINE
SUELO DE SERPENTINA
Taxa
VARIACION GENETICA
VARIATION GENETIQUE
Waterways
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Summary:Patterns of variation within and between Carex gynodynama and C. mendocinensis were investigated by studying allozyme and chromosome variation in natural populations and structural variation using herbarium specimens. Multivariate analyses of structural data demonstrated that C. gynodynama is clearly distinct from C. mendocinensis, and that sterile specimens similar to C. mendocinensis are intermediate between that species and C. gynodynama. The mean genetic distance between the two species, based on allozyme phenotypes at 17 enzyme-coding loci, was 0.22 ± 0.12. The sterile putative hybrids had the expected heterozygous pattern at three enzyme-coding loci at which the parental species were fixed for different alleles. Chromosome numbers are reported for the first time for both species and their putative hybrid. Carex mendocinensis had a different number in each of the three populations examined with n = 28, n = 29, or n = 30. Chromosome counts from one population of C. gynodynama revealed five plants with n = 25 and one with n = 26. Putative hybrids from this population exhibited irregular pairing at meiosis with 2n = ca. 55-57. Patterns of allozyme variation also suggest that C. mendocinensis has an outcrossing or mixed mating system but that C. gynodynama is an inbreeding species. Carex gynodynama exhibited very little variation in structure, habitat, or at the enzyme-coding loci examined, suggesting that it may have experienced a genetic bottleneck relatively recently. Carex mendocinensis had higher levels of variation both within and between populations at enzyme-coding loci and in structural features. This pattern of variation and a geographic distribution centered in serpentine areas of the Klamath-Siskiyou region, with disjunct smaller populations in serpentine areas farther south, suggest that C. mendocinensis once may have been a more widespread species.
ISSN:0002-9122
1537-2197
DOI:10.1002/j.1537-2197.1990.tb14471.x