terclim by ICS banner
IVES 9 IVES Conference Series 9 International Congress on Grapevine and Wine Sciences 9 2ICGWS-2023 9 Investigating the Ancient Egyptian wines: The wine jars database

Investigating the Ancient Egyptian wines: The wine jars database

Abstract

In Ancient Egypt, wine was a luxury product consumed mainly by the upper classes and the royal family and offered to gods in daily religious rituals in the temples.

Since the Predynastic (4000-3100 BC) period, wine jars were placed in tombs as funerary offerings. From the Old Kingdom (2680-2160 BC) to the Greco-Roman (332 BC-395 AD) period, viticulture and winemaking scenes were depicted on the private tombs’ walls. During the New Kingdom (1539-1075 BC), wine jars were inscribed to indicate: vintage year, product, quality, provenance, property and winemaker’s name and title. The inscriptions reveal that the ancient Egyptians considered this information relevant and necessary to be able to distinguish between wines.

Interdisciplinary research on Ancient Egyptian wines included several studies and projects: [1,2] the study of the colour of wine and the origin of the Shedeh, the corpus of viticulture and winemaking scenes in the ancient Egyptian tombs and the archaeological map with the location, among others.

To explore how the Egyptian wines were made, the wine jars typology and production is investigated, and the wine inscriptions to know the ancient winemaking procedures. Moreover, through the study of the main concentration of the Egyptian wine jars from the Pre-dynastic to the New Kingdom period and the research in the museums archives (Egyptian Museum in Cairo, Ahsmolean in Oxford, British Museum in London, Louvre in Paris), the database of the wine jars and wine inscriptions has been created.

The Ancient Egyptian wine jars database and the archaeological map of Egypt with the location of each item will be presented, and it will available in the dedicated website [www.wineofancientegypt.com].

To transfer the knowledge and disseminate the scientific research results, we are also developing a virtual exhibition on the Ancient Egyptian wine culture.

References:

1)  Guasch-Jané M.R. (2016) An Interdisciplinary Study on the Ancient Egyptian Wines: The Egywine Project. M Ioannides, et al. (eds.) Proceedings of the 6th International Conference EUROMED 2016, Nicosia (Cyprus) October 31-November 5 2016, Digital Heritage. Progress in Cultural Heritage: Documentation, Preservation and Protection, EuroMed 2016, Part I, LNCS 10058: 737–748, DOI 10.1007/978-3-319-48496-9_59

2)  Guasch-Jané M.R. (2019) Grape Archaeology and Ancient DNA Sequencing. In: Cantu D., Walker M. (eds) The Grape Genome. Compendium of Plant Genomes. Springer, Cham: 57-75, DOI 10.1007/978-3-030-18601-2_4

DOI:

Publication date: October 5, 2023

Issue: ICGWS 2023

Type: Article

Authors

Guasch-Jané M.R.1*, Socorregut-Domènech J.2

1Mondes pharaoniques (UMR 8167‘Orient et Méditerranée’), Sorbonne University
2Prehistory and Archaeology department, University of Barcelona

Contact the author*

Keywords

Ancient Egypt, archaeological map, database, winemaking, wine inscriptions, wine jars

Tags

2ICGWS | ICGWS | ICGWS 2023 | IVES Conference Series

Citation

Related articles…

Phenolic extraction and dissolved oxygen concentration during red wines fermentations with Airmixig M.I.™

During red wine fermentation, the extraction of phenolics compounds and sufficient oxygen provision are critical for wine quality [1,2]. In this trial, we aimed at evaluating the kinetics of phenolic extraction and dissolved oxygen during red wine fermentations using the airmixing system. Twenty lots of red grape musts were fermented in 300.000 L tanks, equipped with airmixing, using two injection regimes (i.e., high and low intensity, and high and low daily frequency). An oxygen analyzer was introduced into the tanks in order to record the concentration of dissolved oxygen over time.

Effect of different plant fibers on the elimination of undesirable compounds in red wine. Correlation with its polysaccharide composition

The presence of undesirable compounds in wines, such as OTA, biogenic amines and pesticides residues, affects wine quality and can cause health problems for the consumer. The main tool that a winemaker has to reduce their content in the wine is fining. However, some of the fining agents commonly used in the winery can cause allergies or even increase the protein content in the wine, increasing the turbidity. To avoid these problems, the use of plant fibers may be an alternative, such as those from grape pomace[1] or other plant origins.

Valorization of grapevine leaves: screening of polyphenol composition in 50 cultivars

Grapevine leaves are known to contain different polyphenols such as flavonols, catechins and stilbenes, which are known to act as main contributors for plant defense against pathogens (1). While the composition for some major cultivars has been studied, there is lack of systematic comparison about the content of these compounds in the wide ecodiversity of Vitis vinifera cv. Recent advances in Mass Spectrometry-based Metabolomics allow a wider and more sensitive description of these polyphenols, as instance of those present in leaves (2). Such information could help to better explain leaf traits regarding the development of the leaf or to the plant tolerance to a pathogen. Moreover, these compounds offer appealing applications for human health due to their antioxidant activities.

Prediction of aromatic attributes of red wines from its colour properties 

Wine perception is a multisensory experience that makes use of the sight, smell, and taste senses. When wine is sensorially assessed, the stimulus received generates multiple signals that tasters convert into organoleptic descriptors. Colour is commonly the first attribute evaluated during wine tasting. Moreover, the colour properties provide the taster with a priori information of the wine’s aroma. This preconceived perception is later confirmed or denied during the aroma evaluation.

Effects of progeny in the modulation of the response to water stress in isohydric and anisohydric varieties

Each grapevine variety has a specific water use regulation response under drought, and it is still unclear whether this regulation results from innate genotypic behavior (iso- and anisohydric), or is a response to environmental factors, namely recurrent water stress priming effects. In the present work, we explored the influence of the field-grown genotypes’ drought memory in the drought-response phenotype of their vegetative progenies, in Trincadeira (isohydric) and Castelão (anisohydric) varieties under a drought event followed by recovery in a glasshouse. Cuttings from both cultivars subjected to full irrigation (FI) and non-irrigation (NI) treatments for 5 consecutive years were used.