Impact of the Coffea canephora gene introgession on beverage quality of C. arabica
Bertrand B., Guyot B., Anthony F., Lashermes P.. 2003. Theoretical and Applied Genetics, 107 : p. 387-394.
Lines of Coffea arabica derived from the Timor Hybrid (hybrid between C. arabica and C. canephora) are resistant to coffee leaf rust (Hemileia vastatrix) and to the nematode Meloidogyne exigua. The introgression of C. canephora resistance genes is suspected of causing a drop in beverage quality. Coffee samples from pure lines, compared in a Trial 1, and from F1 hybrids and parental lines from a half-diallel trial in a Trial 2, were studied for beverage quality, chemical composition and amount of introgressed genetic material. Chemical analyses (caffeine, chlorogenic acids, fat, trigonelline, sucrose) were carried out with near-infrared spectrometry by reflectance of green coffee. The number of amplified fragment length polymorphic (AFLP) markers introgressed from the Timor Hybrid varied from 1 to 37 for the lines studied. There were significant differences between lines for all of the biochemical compounds analysed and for the acidity and the overall standard of the beverage. Two lines (T17927, T17924) were significantly poorer than the controls for sucrose and beverage acidity. T17924 also had more chlorogenic acids and was poorer for the overall standard. However, two highly introgressed lines, T17934 and T17931 (25 and 30 AFLP markers, respectively), did not differ from the non-introgressed controls. There were no correlations between the number of AFLP markers and the chemical contents or beverage attributes. Significant correlations were found between the performance of the parents and their general combining ability for beverage quality. It was concluded that it should be possible to find lines with both the desired resistance genes and good beverage quality. Selection can avoid accompanying the introgression of resistance genes with a drop in beverage quality.
Mots-clés : coffea canephora; introgression; café; boisson; qualité; composition chimique; marqueur génétique
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Agents Cirad, auteurs de cette publication :
- Bertrand Benoît — Bios / UMR DIADE