Quinoa (Chenopodium quinoa Willd.) crop under Mediterranean conditions: a review

Q2 Agricultural and Biological Sciences

Ciencia E Investigacion Agraria Pub Date : 2019-08-29 DOI:10.7764/rcia.v46i2.2151

D. Bilalis, I. Roussis, I. Kakabouki, Antigolena Folina

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引用次数: 19

Abstract

Quinoa is a pseudocereal crop that is well adapted to a wide range of climatic conditions and has significant potential for increased production as a new crop in the Mediterranean region and in other parts of the world, including northern Europe, North America, Asia, and Africa. Because of its exceptional nutritional properties, quinoa is highly appreciated among humans as well as in animal nutrition for feeding both ruminants and nonruminating animals. Data obtained from several studies conducted in Greece, Italy, and Turkey demonstrate the high nutritional and functional potential of quinoa. Nitrogen fertilization has a positive effect on the growth and grain yield of quinoa crops. The biomass has high crude protein and low fiber and is competitive with alfalfa. The assessment of quinoa saponin content is of great importance for the industry. The highest saponin content and yield have been found under organic cropping systems. Oat, bean, and duckweed plants have a great phytotoxic response, especially to the inflorescence tissues of quinoa, confirming the potential allelopathic activity of this promising crop. The major part of the root system is concentrated in the upper 0–30 cm of the soil, and the root length density and root mass density increase with increasing applied nitrogen. In conclusion, quinoa may be suggested as a new alternative crop for semiarid and arid Mediterranean conditions affected by multiple abiotic stress factors because of its stress-tolerant characteristics, adaptability to several agro-ecological conditions, and nutritional and economic value.

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地中海条件下藜麦(藜麦野生)作物研究进展

藜麦是一种假谷类作物，它能很好地适应各种气候条件，作为一种新作物，在地中海地区和世界其他地区(包括北欧、北美、亚洲和非洲)具有巨大的增产潜力。由于其特殊的营养特性，藜麦在人类和动物营养中都受到高度赞赏，用于喂养反刍动物和非反刍动物。在希腊、意大利和土耳其进行的几项研究获得的数据表明，藜麦具有很高的营养和功能潜力。施氮对藜麦作物的生长和产量有积极影响。其粗蛋白质含量高，纤维含量低，可与紫花苜蓿竞争。藜麦皂苷含量的测定对藜麦生产具有重要意义。在有机种植制度下，总皂苷含量和产量最高。燕麦、豆类和浮萍植物对藜麦的花序组织具有强烈的植物毒性反应，这证实了藜麦具有潜在的化感作用。根系主要集中在土壤0 ~ 30 cm上部，根长密度和根质量密度随施氮量的增加而增加。综上所述，藜麦具有较强的抗逆性、对多种农业生态条件的适应性、营养价值和经济价值，可作为受多种非生物胁迫因素影响的半干旱和干旱地中海地区的一种新的替代作物。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Ciencia E Investigacion Agraria 农林科学-农业综合

CiteScore

1.40

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： The subject matter that is considered to be appropriate for publication in International Journal of Agriculture and Natural Resources (formerly Ciencia e Investigación Agraria) is all new scientific and technological research in agriculture, animal production, forestry, natural resources and other related fields.