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A PUTATIVE HYBRID SWARM WITHIN OÖNOPSIS FOLIOSA (ASTERACEAE: ASTEREAE)
Jonathan F. Hughes and Gregory K. Brown
Western North American Naturalist
Vol. 64, No. 1 (February 2004), pp. 109-124
Stable URL: http://www.jstor.org/stable/41717348
Page Count: 16
You can always find the topics here!Topics: Hybridity, Florets, Soul, Pollen, Corolla, Botany, Chromosomes, Taxa, Plants, Sympatry
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Oönopsis foliosa var. foliosa and var. monocephala are endemic to short-grass steppe of southeastern Colorado and until recently were considered geographically disjunct. The only known qualitative feature separating these 2 varieties is floral head type; var. foliosa has radiate heads, whereas var. monocephala heads are discoid. Sympatry between these varieties is restricted to a small area in which a range of parental types and intermediate head morphologies is observed. We used distribution mapping, morphometric analyses, chromosome cytology, and pollen stainability to characterize the sympatric zone. Morphometrics confirms that the only discrete difference between var. foliosa and var. monocephala is radiate versus discoid heads, respectively. The outer florets of putative hybrid individuals ranged from conspicuously elongated yet radially symmetric disc-floret corollas, to elongated radially asymmetric bilabiate-or deeply cleft corollas, to stunted ray florets with appendages remnant of corolla lobes. Chromosome cytology of pollen mother cells from both putative parental varieties and a series of intermediate morphological types collected at the sympatric zone reveal evidence of translocation heterozygosity. Pollen stainability shows no significant differences in viability between the parental varieties and putative hybrids. The restricted distribution of putative hybrids to a narrow zone of sympatry between the parental types and the presence of meiotic chromosome-pairing anomalies in these intermediate plants are consistent with a hybrid origin. The high stainability of putative-hybrid pollen adds to a growing body of evidence that hybrids are not universally unfit.
Western North American Naturalist © 2004 Monte L. Bean Life Science Museum, Brigham Young University