Evolutionary modification in Clarkia. II. Role of flower bud pubescence in section Phaeostoma

Observations of the habitats and relative flowering of a Clarkia species with hairy flower buds and several with hairless flower buds led to the hypothesis that long hairs on flower buds regulate bud temperature. This hypothesis predicts that hairless buds would be warmer and develop faster than hai...

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Bibliographic Details
Published in:American journal of botany 1989-12, Vol.76 (12), p.1807-1820
Main Authors: Vasek, F.C. (University of California, Riverside, CA), Weng, V
Format: Article
Language:English
Subjects:
Ambient temperature
ANATOMIA DE LA PLANTA
ANATOMIE VEGETALE
Biological and medical sciences
Botany
BUD INITIATION
CALIFORNIA
CALIFORNIE
CONTROL GENETICO
FILAMENTOS
FLEUR
FLORACION
FLORAISON
FLORES
Flower buds
FLOWERING
FLOWERS
Flowers & plants
Fundamental and applied biological sciences. Psychology
GENETIC CONTROL
GENOTIPOS
GENOTYPE
GENOTYPES
Greenhouses
GROWTH RATE
Hair
High temperature
INDICE DE CRECIMIENTO
INICIACION DE LA YEMA
INITIATION DU BOURGEON
Leaves
LUTTE GENETIQUE
Morphology, anatomy, histology, cytology
ONAGRACEAE
PLANT ANATOMY
Plant cytology, morphology, systematics, chorology and evolution
Plant growth
PLANT HAIRS
Plants
POIL VEGETAL
Spermatophyta
TAUX DE CROISSANCE
TEMPERATURA
TEMPERATURE
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Description
Summary:Observations of the habitats and relative flowering of a Clarkia species with hairy flower buds and several with hairless flower buds led to the hypothesis that long hairs on flower buds regulate bud temperature. This hypothesis predicts that hairless buds would be warmer and develop faster than hairy buds, which would be cooler, develop more slowly, and avoid high temperature stress. The hypothesis was tested by comparing flower bud growth rates and temperatures in three genetically similar biotypes of Clarkia unguiculata and in all six species of section Phaeostoma. Flower buds of the three biotypes included hairy (HY) and hairless (HN) from the same coastal population and densely hairy (HD) from an interior locality. The six species included C unguiculata with densely hairy buds (HD) and five related species with hairless buds. Contrary to expectations, HY buds grew more rapidly than HN buds. HD buds grew more rapidly than either and also more rapidly than the hairless buds of five related species. Again contrary to expectations, the three biotypes of C unguiculata had equivalent temperature relations, with bud temperatures mostly somewhat below air temperatures. In a comparative experiment, bud temperatures in C. unguiculata approximated air temperatures while bud temperatures in five related species mostly fell well below air temperatures. Thus, predictions of the hypothesis were not borne out. Long bud hairs apparently have minimal effect on bud growth rates and temperatures, and we conclude that physiological adaptations are more important. Bud cooling mechanisms are discussed.
ISSN:0002-9122
1537-2197
DOI:10.1002/j.1537-2197.1989.tb15170.x