L'intégration de l'ethnobotanique et de la génétique des populations met en évidence l'agrobiodiversité des palmiers dattiers de l'oasis de Siwa (Égypte) et leur importance pour l'histoire évolutive de l'espèce.

Crop diversity is shaped by biological and social processes interacting at different spatiotemporal scales. Here we combined population genetics and ethnobotany to investigate date palm (Phoenix dactylifera L.) diversity in Siwa Oasis, Egypt. Based on interviews with farmers and observation of practices in the field, we collected 149 date palms from Siwa Oasis and 27 uncultivated date palms from abandoned oases in the surrounding desert. Using genotyping data from 18 nuclear and plastid microsatellite loci, we confirmed that some named types each constitute a clonal line, i.e. a true-to-type cultivar. We also found that others are collections of clonal lines, i.e. ethnovarieties, or even unrelated samples, i.e. local categories. This alters current assessments of agrobiodiversity, which are visibly underestimated, and uncovers the impact of low-intensity, but highly effective, farming practices on biodiversity. These hardly observable practices, hypothesized by ethnographic survey and confirmed by genetic analysis, are enabled by the way Isiwans conceive and classify living beings in their oasis, which do not quite match the way biologists do: a classic disparity of etic vs. emic categorizations. In addition, we established that Siwa date palms represent a unique and highly diverse genetic cluster, rather than a subset of North African and Middle Eastern palm diversity. As previously shown, North African date palms display evidence of introgression by the wild relative Phoenix theophrasti, and we found that the uncultivated date palms from the abandoned oases share even more alleles with this species than cultivated palms in this region. The study of Siwa date palms could hence be a key to the understanding of date palm diversification in North Africa. Integration of ethnography and population genetics promoted the understanding of the interplay between diversity management in the oasis (short-time scale), and the origins and dynamic of diversity through domestication and diversification (long-time scale)

The discovery of wild date palms in oman reveals a complex domestication history involving centers in the middle east and africa

For many crops, wild relatives constitute an extraordinary resource for cultivar improvement [1, 2] and also help to better understand the history of their domestication [3]. However, the wild ancestor species of several perennial crops have not yet been identified. Perennial crops generally present a weak domestication syndrome allowing cultivated individuals to establish feral populations difficult to distinguish from truly wild populations, and there is frequently ongoing gene flow between wild relatives and the crop that might erode most genetic differences [4]. Here we report the discovery of populations of the wild ancestor species of the date palm (Phoenix dactylifera L.), one of the oldest and most important cultivated fruit plants in hot and arid regions of the Old World. We discovered these wild individuals in remote and isolated mountainous locations of Oman. They are genetically more diverse than and distinct from a representative sample of Middle Eastern cultivated date palms and exhibit rounded seed shapes resembling those of a close sister species and archeological samples, but not modern cultivars. Whole-genome sequencing of several wild and cultivated individuals revealed a complex domestication history involving the contribution of at least two wild sources to African cultivated date palms. The discovery of wild date palms offers a unique chance to further elucidate the history of this iconic crop that has constituted the cornerstone of traditional oasis polyculture systems for several thousand years [5]

Genome-wide association mapping of date palm fruit traits

Date palms (Phoenix dactylifera) are an important fruit crop of arid regions of the Middle East and North Africa. Despite its importance, few genomic resources exist for date palms, hampering evolutionary genomic studies of this perennial species. Here we report an improved long-read genome assembly for P. dactylifera that is 772.3 Mb in length, with contig N50 of 897.2 Kb, and use this to perform genome-wide association studies (GWAS) of the sex determining region and 21 fruit traits. We find a fruit color GWAS at the R2R3-MYB transcription factor VIRESCENS gene and identify functional alleles that include a retrotransposon insertion and start codon mutation. We also find a GWAS peak for sugar composition spanning deletion polymorphisms in multiple linked invertase genes. MYB transcription factors and invertase are implicated in fruit color and sugar composition in other crops, demonstrating the importance of parallel evolution in the evolutionary diversification of domesticated species

Orphan crops of archaeology-based crop history research

Agrobiodiversity is central to sustainable farming worldwide. Cultivation, conservation and reintroduction of diverse plant species, including ‘forgotten’ and ‘underutilized’ crops, contribute to global agrobiodiversity, living ecosystems and sustainable food production. Such efforts benefit from traditional and historical knowledge of crop plants' evolutionary and cultural trajectories. This review is a first attempt at systematically gauging species representativeness in studies of archaeological plant remains. Results indicate that, in addition to discipline-specific methodological sources of bias, modern agricultural biases may replicate themselves in crop history research and influence understandings of ‘forgotten crops’. Recognizing these biases is an initial stride towards rectifying them and promoting agrobiodiversity in both research and practical applications. Summary: So-called ‘forgotten’ or ‘orphan’ crops are an important component of strategies aimed at preserving and promoting biodiversity. Knowledge of historical cultivation, usage, and geographic and evolutionary trajectories of plants, that is, crop history research, is important for the long-term success of such efforts. However, research biases in the crops chosen for study may present hurdles. This review attempts to systematically identify patterns in crop species representativeness within archaeology-based crop history research. A meta-analysis and synthesis of archaeobotanical evidence (and lack thereof) is presented for 268 species known to have been cultivated for food prior to 1492 CE from the Mediterranean region to South Asia. We identified 39 genera with known crop plants in this geographical and historical context that are currently absent from its archaeobotanical record, constituting ‘orphan’ crops of archaeobotany. In addition, a worldwide synthesis of crop species studied using geometric morphometric, archaeogenetic and stable isotope analyses of archaeological plant remains is presented, and biases in the species represented in these disciplines are discussed. Both disciplinary methodological biases and economic agenda-based biases affecting species representativeness in crop history research are apparent. This study also highlights the limited geographic diffusion of most crops and the potential for deeper historical perspectives on how crops become marginalized and ‘forgotten’

Genomic Insights into Date Palm Origins

With the development of next-generation sequencing technology, the amount of date palm (Phoenix dactylifera L.) genomic data has grown rapidly and yielded new insights into this species and its origins. Here, we review advances in understanding of the evolutionary history of the date palm, with a particular emphasis on what has been learned from the analysis of genomic data. We first record current genomic resources available for date palm including genome assemblies and resequencing data. We discuss new insights into its domestication and diversification history based on these improved genomic resources. We further report recent discoveries such as the existence of wild ancestral populations in remote locations of Oman and high differentiation between African and Middle Eastern populations. While genomic data are consistent with the view that domestication took place in the Gulf region, they suggest that the process was more complex involving multiple gene pools and possibly a secondary domestication. Many questions remain unanswered, especially regarding the genetic architecture of domestication and diversification. We provide a road map to future studies that will further clarify the domestication history of this iconic crop

Origins, evolutionary and biogeographical history of the date palm (Phoenix dactylifera L.) : the contribution of genetics and morphometrics

Les objectifs de ce travail visent à appréhender l'histoire évolutive et biogéographique du palmier dattier (Phoenix dactylifera L.), espèce d'une importance capitale pour les populations humaines des régions chaudes et arides d'Afrique du Nord et du Moyen-Orient, au moyen d'analyses génétiques et morphométriques. En effet, les origines de la domestication du dattier demeurent peu connues malgré les données archéologiques qui semblent attester de sa culture à partir de la fin du 4ème millénaire avant notre ère. L'analyse phylogénétique du genre Phoenix réalisée à partir de séquences chloroplastiques a permis d'identifier les parents proches du dattier. Des populations de dattiers sauvages sont reconnues pour la première fois grâce à des analyses de diversité et de structuration génétiques. De manière congruente, l'analyse morphométrique de contours de la graines s'appuyant sur la méthode des transformées elliptiques de Fourier met en évidence une nette différenciation entre les individus sauvages et cultivés. La caractérisation des changements de traits morphologiques de la graine liés à la domestication est exploitée pour définir le statut sauvage ou domestiqué de matériel mis au jour dans différents sites archéologiques du Pakistan et d'Egypte. En outre, l'étude génétique de dattiers d'origine diverses semble démontrer qu'au moins deux évènements de domestication ont eu lieu : l'un en Afrique et l'autre au Moyen-Orient. Finalement, les études génétiques et morphométriques, menées séparément ou conjointement selon le type et l'ancienneté du matériel analysé, permettent pour la première fois de discuter des origines, de l'histoire biogéographique et de la dynamique de l'agrobiodiversité du palmier dattier, dans le temps et dans l'espace.The objectives of this work are to understand the evolutionary history and biogeography of the date palm (Phoenix dactylifera L.), a species of importance to human populations in hot, arid regions of North Africa and the Middle East using genetic and morphometric analyzes. Indeed, the origins of the domestication of the date palm remain poorly understood despite the archaeological data that seem to attest its culture from the late 4th millennium BCE.Phylogenetic analysis of the genus Phoenix made ​​from chloroplast sequences identified close relatives of the date palm. Populations of wild date palms are recognized for the first time through analyses of genetic diversity and structure. Congruently, morphometric analysis of the seed outline based on the method of elliptic Fourier transform highlights a clear differentiation between wild and cultivated individuals. Characterization of changes in seed morphological traits related to domestication is used to define the status of wild or domesticated material excavated from various archaeological sites in Pakistan and Egypt. In addition, the date palm genetic study of various origins seems to indicate that at least two domestication events took place: one in Africa and one in the Middle East. Finally, genetic and morphometric studies, conducted separately or together depending on the type and age of the material analyzed, allow for the first time to discuss the origins, history and biogeographic dynamics of date palm agrobiodiversity, in time and space

Second-year Report—Sept. 2021. Ethnographic, genetic, and morphometric analyses of the date palm agrobiodiversity in al-‘Ulā oasis

Report and scientific justification of the project: al-Ula DPA Project : Ethnographic, genetic, and morphometric analyses of the date palm agrobiodiversity in al-‘Ulā oasis.Annual Report to AFALULA (Agence française pour le développement d'al-Ula) & RCU (Royal Commission for AlUla).Rapport et justification scientifique du projet: al-Ula DPA Project : Ethnographic, genetic, and morphometric analyses of the date palm agrobiodiversity in al-‘Ulā oasis.Rapport annuel à AFALULA (Agence française pour le développement d'al-Ula) & RCU (Royal Commission for al-‘Ulā)

Varietal diversity and cultivation practices of the date palm in the AlUla oasis

International audienceThe date palm (Phoenix dactylifera L.) has been grown for millennia in Western Asia and North Africa. This palm is the flagship species of the oasis agrosystem. In the oasis of al-‘Ulā, the date palm has been exploited and cultivated for more than 3,000 years for its fruit rich in sugars, and for the materials it provides for construction, basketry, etc. Dates have long been both a staple food and a product of exchange. Hundreds of varieties of date palms have been identified throughout the world. The taste, sweetness, size, shape, and colour of the dates vary according to the variety, each bearing its own name. In al-‘Ulā, more than 90 varieties of date grown by farmers today have been identified and described by the project al-‘Ulā Date Palm Agrobiodiversity

Fourth-year Report—Nov. 2023. Ethnographic, genetic, and morphometric analyses of the date palm agrobiodiversity in al-‘Ulā oasis

Report and scientific justification of the project: al-Ula DPA Project : Ethnographic, genetic, and morphometric analyses of the date palm agrobiodiversity in al-‘Ulā oasis. (Saudi Arabia)Annual Report to AFALULA (Agence française pour le développement d'al-Ula) & RCU (Royal Commission for AlUla).Rapport et justification scientifique du projet: al-Ula DPA Project : Ethnographic, genetic, and morphometric analyses of the date palm agrobiodiversity in al-‘Ulā oasis. (Arabie saoudite)Rapport annuel à AFALULA (Agence française pour le développement d'al-Ula) & RCU (Royal Commission for AlUla)