Cytogeography of essential oil chemotypes of Eremophila longifolia F. Muell (Scrophulariaceae)

•E. longifolia is both diploid and tetraploid, in congruence with chemotypes.•Diploid cytotypes produce very high yields of essential oils.•Tetraploid cytotypes produce very low yields of essential oils.•The safrole/methyl eugenol chemotype is diploid and very rare.•The isomenthone chemotype is a su...

Full description

Saved in:
Bibliographic Details
Published in:Phytochemistry (Oxford) 2014-09, Vol.105, p.43-51
Main Authors: Sadgrove, Nicholas John, Jones, Graham Lloyd
Format: Article
Language:English
Subjects:
Australia
Chemotypes
Eremophila longifolia
Eremophila Plant - chemistry
Essential oil
Eugenol - analogs & derivatives
Eugenol - analysis
Eugenol - chemistry
Humans
Menthol - analysis
Menthol - chemistry
Molecular Structure
Oils, Volatile - chemistry
Ploidy
Principal Component Analysis
Safrole - analysis
Safrole - chemistry
Scrophulariaceae - chemistry
Scrophulariaceae - genetics
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•E. longifolia is both diploid and tetraploid, in congruence with chemotypes.•Diploid cytotypes produce very high yields of essential oils.•Tetraploid cytotypes produce very low yields of essential oils.•The safrole/methyl eugenol chemotype is diploid and very rare.•The isomenthone chemotype is a suitable cultivar for commercial crops. Previous studies have demonstrated that the widely distributed desert plant Eremophila longifolia has at least six geographically defined essential oil chemotypes. The focus of the present study is to extend and enhance information concerning known chemotypes and to investigate the involvement of cell nuclei ploidy in this variation. Forty field collected specimens of E. longifolia were taken from most of the mainland states of Australia then subjected to hydrodistillation to produce essential oils, which were then chemically characterised. Ploidy was determined using relative fluorescence of cell nuclei stained with propidium iodide, measured in a flow cytometer. Using principal component analysis (PCA), at least three essential oil chemotypes, in addition to the six already described, were identified in the present study. Previously described high yielding essential oil chemotypes were also characterised in terms of diploidy. For the first time diploid populations were identified in New South Wales, correlating with high yielding isomenthone/menthone and karahanaenone chemotypes. Furthermore, the separate diploid population previously described from Western Australia was demonstrated to be the safrole/methyl eugenol type, which is restricted to a small geographic range in far north-west Western Australia (Murchison District). All other chemotypes were shown to be tetraploid, including apparently randomly emerging individuals, representative of chemotypes producing low yields of isomenthone/menthone and karahanaenone similar in composition to the high yielding diploid types.
ISSN:0031-9422
1873-3700
DOI:10.1016/j.phytochem.2014.05.005