Margareta Tengberg scite author profile

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].

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Insights into the historical biogeography of the date palm (Phoenix dactyliferaL.) using geometric morphometry of modern and ancient seeds

Terral

Newton

Ivorra

et al. 2011

Journal of Biogeography

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Aim The main purpose of this work is to understand the origin, history, historical biogeography and mechanisms of date palm (Phoenix dactylifera L.) domestication.Location Seeds of uncultivated Phoenix individuals from isolated Oman populations, cultivated date palm varieties of various geographical origins and other related Phoenix species were analysed. Additionally, well‐preserved seeds from Egyptian archaeological sites (14th century bc to 8th century ad) were compared with the morphometric reference model based on the analysis of modern material.Methods Elliptic Fourier transforms (EFT), a morphometric method applied to shape outline analysis, were used to characterize seed shape and to quantify morphological diversity in P. dactylifera and related species.Results Analysis of seed outlines by EFT (1) showed that P. dactylifera can be differentiated from other Phoenix species and (2) enabled the quantification of patterns of shape differentiation in the genus Phoenix at different taxonomic, geographical and chronological levels. Date palm agrobiodiversity, partitioned in distinct morphotypes, appeared to be complex in terms of geographical structure. Allocation of archaeological seeds to different modern Phoenix forms and date palm morphotypes allowed us to reveal ancient forms consumed and/or exploited in Egypt and finally to determine spatial and temporal changes in agrobiodiversity.Main conclusions Based on the morphological diversity quantified in P. dactylifera and related species, we characterized ancestral seed shape features present in uncultivated populations. The geographical distribution pattern of seed shapes points to human dispersal routes that spread cultivation from one or more initial ‘domestication centres’. Finally, this work provides a powerful tool to identify ancient forms as demonstrated by the analysis of well‐preserved Egyptian archaeological seeds, dating from the 14th century bc to the 8th century ad. Results open new and fascinating perspectives on the investigation of the origins and chrono‐geographical fluctuation of date palm agrobiodiversity.

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Biogeography of the Date Palm (Phoenix Dactylifera L., Arecaceae): Insights on the Origin and on the Structure of Modern Diversity

et al. 2013

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Agriculturalists and pastoralists: Bronze Age economy of the Murghab alluvial fan, southern Central Asia

Spengler

Cerasetti

Tengberg

et al. 2014

Veget Hist Archaeobot

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Archaeological investigations of pastoral economies often emphasize exchange relations with agricultural populations, though for Bronze Age Eurasia the notion of a ubiquitous 'pastoral realm' has masked various forms of mixed subsistence economies. In Central Asia, there are few attempts to specifically identify the domestic crops utilized by mobile pastoralists or what they may suggest about the role of agriculture in mobile pastoral production or subsistence strategies. This study reports the macrobotanical remains from two Late/Final Bronze Age (ca. 1950-1300 BC) mobile pastoralist habitation sites in the Murghab alluvial fan region of southern Turkmenistan. We compare our results with published macrobotanical data from contemporary agricultural settlements in the Murghab region, as well as with other sites in broader prehistoric Eurasia. We find that mobile pastoralists in the Murghab utilized some of the same domestic crops as their sedentary neighbors. While the data presented here do not preclude the possibility that mobile pastoralists may have practiced some low-investment cultivation (particularly of millet), we hypothesize an economic model that places mobile pastoralists in direct contact with nearby sedentary farming communities through exchange for pre-processed grains. These results highlight one of the possible strategies of mobile pastoral subsistence in Central Asia, and are a further step toward identifying the various degrees of agricultural involvement in the conceptually outdated pastoral realm of Eurasia.

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First Evidence of Cotton at Neolithic Mehrgarh, Pakistan: Analysis of Mineralized Fibres from a Copper Bead

Moulhérat

Tengberg

Haquet

et al. 2002

Journal of Archaeological Science

151

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Tappeh Sang-e Chakhmaq and the beginning of the Neolithic in north-east Iran

Roustaei¹,

Mashkour

Tengberg

2015

Antiquity

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Olive cultivation in the heart of the Persian Achaemenid Empire: new insights into agricultural practices and environmental changes reflected in a late Holocene pollen record from Lake Parishan, SW Iran

Djamali

Jones

Migliore

et al. 2015

Veget Hist Archaeobot

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International audienceAncient Persia witnessed one of its most prosperous cultural and socio-economic periods between 550 bc and ad 651, with the successive domination of the Achaemenid, Seleucid, Parthian and Sassanian Empires. During this period agricultural activities increased on the Iranian plateau, as demonstrated by a remarkable arboricultural expansion. However, available data are not very informative about the spatial organization of agricultural practices. The possible links between climate conditions and agricultural activities during this millennium of continuous imperial domination are also unclear, due to the lack of parallel human-independent palaeoclimatic proxies. This study presents a new late Holocene pollen-based vegetation record from Lake Parishan, SW Iran. This record provides invaluable information regarding anthropogenic activities before, during and after the empires and sheds light on (i) spatial patterning in agricultural activities and (ii) possible climate impacts on agro-sylvo-pastoral practices during this period. Results of this study indicate that arboriculture was the most prominent form of agricultural activity in SW Iran especially during the Achaemenid, Seleucid and Parthian periods. Contrary to the information provided by some Greco-Roman written sources, the record from Lake Parishan shows that olive cultivation was practiced during Achaemenid and Seleucid times, when olive cultivation was significant, at least in this basin located close to the capital area of the Achaemenid Empire. In addition, pollen from aquatic vegetation suggests that the period of the latter centuries of the first millennium bc was characterized by a higher lake level, which might have favoured cultural and socio-economic prosperity

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