Abstract

Grapevine (Vitis vinifera L.) currently includes thousands of cultivars. Discrimination between these varieties, historically done by ampelography, is done in recent decades mostly by genetic analysis. However, when aiming to identify archaeobotanical remains, which are mostly charred with extremely low genomic preservation, the application of the genomic approach is rarely successful. As a result, variety-level identification of most grape remains is currently prevented. Because grape pips are highly polymorphic, several attempts were made to utilize their morphological diversity as a classification tool, mostly using 2D image analysis technics. Here, we present a highly accurate varietal classification tool using an innovative and accessible 3D seed scanning approach. The suggested classification methodology is machine-learning-based, applied with the Iterative Closest Point (ICP) registration algorithm and the Linear Discriminant Analysis (LDA) technique. This methodology achieved classification results of 91% to 93% accuracy in average when trained by fresh or charred seeds to test fresh or charred seeds, respectively. We show that when classifying 8 groups, enhanced accuracy levels can be achieved using a "tournament" approach. Future development of this new methodology can lead to an effective seed classification tool, significantly improving the fields of archaeobotany, as well as general taxonomy.

Highlights

  • Grapevine (Vitis vinifera L.) currently includes thousands of cultivars

  • Grape pips are highly p­ olymorphic[2]. Exploiting this fact, several attempts were reported recently utilizing the diversity in fresh grape pip morphology as a diagnostic tool, using image analysis techniques, aiming to utilize these methods for the identification of fresh and archaeological specimens

  • In a previous ­publication[38] we described our efforts in developing a 3D tool for grape variety identification by grape pip structure

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Summary

Discussion

We demonstrated a successful varietal classification of charred and fresh grape seeds using an accessible 3D scanning method. Implementing our methodology for classifying fresh and charred grape seeds of four varieties, we achieved a mean accuracy level of 79% for fresh (train) vs charred (test) pips, mean accuracy of 91% for fresh vs fresh pips, and unpredictably, the highest classification rate of 93% was achieved when charred pips were used as a training set to identify charred pips These results emphasize that burned samples show increased morphological similarity compared to fresh ones, possibly due to the removal of various fresh soft tissues present on the seeds surface, which reduces “structural noise”. We are currently exploring the mentioned above approaches towards implementation in the identification of charred archaeological grape seeds

Conclusions
Findings
Materials and methods

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