Joëlle Breidy scite author profile

Chenopodium quinoa Willd., a high quality grain crop, is resistant to abiotic stresses (drought, cold, and salt) and offers an optimal source of protein. Quinoa represents a symbol of crop genetic diversity across the Andean region. In recent years, this crop has undergone a major expansion outside its countries of origin. The activities carried out within the framework of the International Year of Quinoa provided a great contribution to raise awareness on the multiple benefits of quinoa as well as to its wider cultivation at the global level. FAO is actively involved in promoting and evaluating the cultivation of quinoa in 26 countries outside the Andean region with the aim to strengthen food and nutrition security. The main goal of this research is to evaluate the adaptability of selected quinoa genotypes under different environments outside the Andean region. This paper presents the preliminary results from nine countries. Field evaluations were conducted during 2013/2014 and 2014/2015 in Asia (Kyrgyzstan and Tajikistan), and the Near East and North African countries (Algeria, Egypt, Iraq, Iran, Lebanon, Mauritania, and Yemen). In each country, the trials were carried out in different locations that globally represent the diversity of 19 agrarian systems under different agro-ecological conditions. Twenty-one genotypes of quinoa were tested using the same experimental protocol in all locations consisting in a randomized complete block design (RCBD) with three replicates. Some genotypes showed higher yields and the Q18 and Q12 landraces displayed greater adaptation than others to new environmental conditions. The Q21 and Q26 landraces were evaluated with stable and satisfactory levels of yield (>1 t.ha−1) in each of the different trial sites. This production stability is of considerable importance especially under climate change uncertainty. While these results suggest that this Andean crop is able to grow in many different environments, social, and cultural considerations remain crucial regarding its possible introduction as a staple food in new cropping systems around the world.

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Evapotranspiration, yield and water use efficiency of drip irrigated corn in the Bekaa Valley of Lebanon

Karam

Breidy

Stephan

et al. 2003

Agricultural Water Management

118

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Deficit irrigation under water stress and salinity conditions: The MOPECO-Salt Model

Domı́nguez

Tarjuelo

Juan

et al. 2011

Agricultural Water Management

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Yield and water use of eggplants (Solanum melongena L.) under full and deficit irrigation regimes

Karam

Saliba

Skaf

et al. 2011

Agricultural Water Management

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Evolution of hygrophytic plant species in the Anatolia–Caucasus region: insights from phylogenomic analyses ofCardamineperennials

Kantor

Kučera

Šlenker

et al. 2023

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Background and Aims Southwestern Asia is a significant centre of biodiversity and a cradle of diversification for many plant groups, especially xerophytic elements. In contrast, little is known about the evolution and diversification of hygrophytic flora. To fill this gap, we focus on Cardamine (Brassicaceae) species that grow in wetlands over a wide altitudinal range. We aimed to elucidate their evolution, assess the extent of presumed historical gene flow between species, and draw inferences about intraspecific structure. Methods We applied the phylogenomic Hyb-Seq approach, ecological niche analyses, and multivariate morphometrics to a total of 85 Cardamine populations from the target region of Anatolia-Caucasus, usually treated as four to six species, and supplemented them with close relatives from Europe. Key Results Five diploids are recognised in the focus area, three of which occur in regions adjacent to the Black and/or Caspian Seas (C. penzesii, C. tenera, C. lazica), one species widely distributed from the Caucasus to Lebanon and Iran (C. uliginosa), and one western Anatolian entity (provisionally as C. cf. uliginosa). Phylogenomic data suggest recent speciation during the Pleistocene, likely driven by both geographical separation (allopatry) and ecological divergence. With the exception of a single hybrid (allotetraploid) speciation event proven for C. wiedemanniana, an endemic of southern Turkey, no significant traces of past or present interspecific gene flow were observed. Genetic variation within the studied species is spatially structured, suggesting reduced gene flow due to geographical and ecological barriers, but also glacial survival in different refugia. Conclusions This study highlights the importance of the refugial regions of the Black and Caspian Seas for both harbouring and generating hygrophytic species diversity in SW Asia. It also supports the significance of evolutionary links between Anatolia and the Balkan Peninsula. Reticulation and polyploidisation played a minor evolutionary role here in contrast to the European relatives.

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Joëlle Breidy

Worldwide Evaluations of Quinoa: Preliminary Results from Post International Year of Quinoa FAO Projects in Nine Countries

Evapotranspiration, yield and water use efficiency of drip irrigated corn in the Bekaa Valley of Lebanon

Deficit irrigation under water stress and salinity conditions: The MOPECO-Salt Model

Yield and water use of eggplants (Solanum melongena L.) under full and deficit irrigation regimes

Evolution of hygrophytic plant species in the Anatolia–Caucasus region: insights from phylogenomic analyses ofCardamineperennials

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