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多年生巴基™豆供人类食用的安全性:来自重金属、叶酸、刀豆氨酸、霉菌毒素、微生物和农药分析的证据。

Perennial Baki™ Bean Safety for Human Consumption: Evidence from an Analysis of Heavy Metals, Folate, Canavanine, Mycotoxins, Microorganisms and Pesticides.

作者信息

Craine Evan B, Şakiroğlu Muhammet, Barriball Spencer, Peters Tessa E, Schlautman Brandon

机构信息

The Land Institute, Salina, KS 67401, USA.

Bioengineering Department, Adana Alparslan Türkeş Science and Technology University, Adana 01250, Turkey.

出版信息

Molecules. 2024 Apr 13;29(8):1777. doi: 10.3390/molecules29081777.

Abstract

Global food production relies on annual grain crops. The reliability and productivity of these crops are threatened by adaptations to climate change and unsustainable rates of soil loss associated with their cultivation. Perennial grain crops, which do not require planting every year, have been proposed as a transformative solution to these challenges. Perennial grain crops typically rely on wild species as direct domesticates or as sources of perenniality in hybridization with annual grains. spp. (sainfoins) are a genus of perennial legumes domesticated as ancient forages. Baki™ bean is the tradename for pulses derived from sainfoins, with ongoing domestication underway to extend demonstrated benefits to sustainable agriculture. This study contributes to a growing body of evidence characterizing the nutritional quality of Baki™ bean. Through two studies, we investigated the safety of Baki™ bean for human consumption. We quantified heavy metals, folate, and canavanine for samples from commercial seed producers, and we quantified levels of mycotoxins, microorganisms, and pesticides in samples from a single year and seed producer, representing different varieties and production locations. The investigated analytes were not detectable or occurred at levels that do not pose a significant safety risk. Overall, this study supports the safety of Baki™ bean for human consumption as a novel pulse crop.

摘要

全球粮食生产依赖一年生谷物作物。这些作物的可靠性和生产力受到气候变化适应以及与种植相关的不可持续土壤流失率的威胁。多年生谷物作物,即无需每年种植的作物,已被提议作为应对这些挑战的变革性解决方案。多年生谷物作物通常依靠野生种作为直接驯化对象,或作为与一年生谷物杂交的多年生特性来源。红豆草属是一类作为古老饲草被驯化的多年生豆科植物。巴基豆是红豆草衍生豆类的商品名,目前正在进行驯化,以将已证实的益处扩展到可持续农业领域。本研究为越来越多关于巴基豆营养品质特征的证据做出了贡献。通过两项研究,我们调查了巴基豆供人类食用的安全性。我们对来自商业种子生产商样品中的重金属、叶酸和刀豆氨酸进行了定量分析,并且对来自单一生产年份和种子生产商、代表不同品种和生产地点的样品中的霉菌毒素、微生物和农药水平进行了定量分析。所调查分析物未被检测到,或者其含量水平不会构成重大安全风险。总体而言,本研究支持巴基豆作为一种新型豆类作物供人类食用的安全性。

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本文引用的文献

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