Authentication of Coffea arabica varieties through DNA fingerprinting and its significance for the coffee sector

Pruvot-Woehl Solène, Krishnan Sarada, Solano William, Schilling Timothy, Toniutti Lucile, Bertrand Benoît, Montagnon Christophe. 2020. Authentication of Coffea arabica varieties through DNA fingerprinting and its significance for the coffee sector. Journal of AOAC International, 103 (2) : pp. 325-334.

Journal article ; Article de recherche ; Article de revue à facteur d'impact
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Abstract : Background: Locating the optimal varieties for coffee cultivation is increasingly considered a key condition for sustainable production and marketing. Variety performance varies when it comes to susceptibility to coffee leaf rust and other diseases, adaptation to climate change and high cup quality for specialty markets. But because of poor organization and the lack of a professional coffee seed sector, most existing coffee farms (and even seed lots and nurseries) do not know which varieties they are using. DNA fingerprinting of coffee planting material will contribute to professionalize the coffee seed sector. Objective: The objective of this paper is i) to check in a large scale the robustness of the existing coffee DNA fingerprinting method based on eight Single Sequence Repeats markers (SRR) and ii) to describe how it can help in moving the needle towards a more professional seed sector. Method : 2533 samples representing all possible genetic background of Arabica varieties were DNA fingerprinted with 8 SRR markers. The genetic diversity was analyzed and the genetic conformity to varietal references was assessed. Results: The DNA fingerprinting method proved to be robust in authenticating varieties and trace back the history of C. arabica breeding and of the movement of C. arabica varieties. The genetic conformity of two important coffee varieties, Marseillesa and Gesha, proved to be 91% and 39% respectively. Conclusions: DNA fingerprinting provides different actors in the coffee sector with a powerful new tool—farmers can verify the identity of their cultivated varieties, coffee roasters can be assured that marketing claims related to varieties are correct, and most of all, those looking to establish the a more professional and reliable coffee seed sector have a reliable new monitoring tool to establish and check genetic purity of seed stock and nursery plants. Highlights: While C. arabica is primarily self-pollinating, even fixed line varieties appear to be drifting away from their original genetic reference due to uncontrolled cross pollination. A set of 8 SSR markers applied to the largest possible genetically diverse set of samples prove to discriminate between a wide range of varieties Figures confirm that genetic non conformity of coffee varieties can represent up to 61% of checked samples.

Mots-clés Agrovoc : Coffea arabica, Marqueur génétique, Identification, Semence, Empreinte ADN, Analyse qualitative

Mots-clés libres : Coffea arabica, Genetic markers, Authentication, Seed sector

Classification Agris : F30 - Plant genetics and breeding
F03 - Seed production and processing

Champ stratégique Cirad : CTS 1 (2019-) - Biodiversité

Auteurs et affiliations

  • Pruvot-Woehl Solène, WCR (USA)
  • Krishnan Sarada, Denver Botanic Gardens (USA)
  • Solano William, CATIE (CRI)
  • Schilling Timothy, WCR (USA)
  • Toniutti Lucile, World Coffee Research (FRA)
  • Bertrand Benoît, CIRAD-BIOS-UMR IPME (FRA)
  • Montagnon Christophe, CIRAD-DGDRS-Dims (FRA) - auteur correspondant

Source : Cirad-Agritrop (

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