Junker-Frohn Laura V, Lück Manuel, Schmittgen Simone, Wensing Joana, Carraresi Laura, Thiele Björn, Groher Tanja, Reimer Julia J, Bröring Stefanie, Noga Georg, Jupke Andreas, Schurr Ulrich, Usadel Björn, Wiese-Klinkenberg Anika, Wormit Alexandra
Institute of Bio and Geosciences, Plant Sciences (IBG-2), Forschungszentrum Jülich GmbH, 52428 Jülich, Germany.
Bioeconomy Science Center, c/o Forschungszentrum Jülich, 52425 Jülich, Germany.
ACS Omega. 2019 Nov 6;4(21):19071-19080. doi: 10.1021/acsomega.9b01462. eCollection 2019 Nov 19.
At the end of the annual horticultural production cycle of greenhouse-grown crops, large quantities of residual biomass are discarded. Here, we propose a new value chain to utilize horticultural leaf biomass for the extraction of secondary metabolites. To increase the secondary metabolite content of leaves, greenhouse-grown crop plants were exposed to low-cost abiotic stress treatments after the last fruit harvest. As proof of concept, we evaluated the production of the flavonoid rutin in tomato plants subjected to nitrogen deficiency. In an interdisciplinary approach, we observed the steady accumulation of rutin in young plants under nitrogen deficiency, tested the applicability of nitrogen deficiency in a commercial-like greenhouse, developed a high efficiency extraction for rutin, and evaluated the acceptance of the proposed value chain by its key actors economically. On the basis of the positive interdisciplinary evaluation, we identified opportunities and challenges for the successful establishment of horticultural leaf biomass as a novel source for secondary metabolites.
在温室种植作物的年度园艺生产周期结束时,大量残余生物质被丢弃。在此,我们提出了一条新的价值链,利用园艺植物叶片生物质来提取次生代谢产物。为了提高叶片中次生代谢产物的含量,在最后一次果实收获后,对温室种植的作物进行低成本的非生物胁迫处理。作为概念验证,我们评估了缺氮条件下番茄植株中黄酮类芦丁的产量。通过跨学科方法,我们观察到缺氮条件下幼嫩植株中芦丁的稳定积累,在类似商业化的温室中测试了缺氮处理的适用性,开发了一种高效提取芦丁的方法,并从经济角度评估了关键参与者对所提出的价值链的接受程度。基于积极的跨学科评估,我们确定了成功将园艺植物叶片生物质确立为次生代谢产物新来源的机遇和挑战。
