James Hutton Ltd, Dundee, UK.
Cell and Molecular Sciences, The James Hutton Institute, Dundee, UK.
J Sci Food Agric. 2021 Jun;101(8):3376-3385. doi: 10.1002/jsfa.10967. Epub 2020 Dec 11.
In maritime growing environments, blueberry yield often exhibits excessive season-to-season variation, associated with poorly adapted photosynthetic responses to low light conditions. It is therefore necessary to develop methods that stabilise yield while maintaining or improving fruit quality. Here, we placed reflective mulch alongside plants at the early green fruit stage, to test the hypothesis that increasing the available seasonal light integral could enhance blueberry yield. We further determined several quality characteristics to ensure fruit marketability.
Placement of mulch alongside plants reflected up to five times more light compared with bare ground, enhancing the amount of light reaching the canopy. This led to an adaptive increase of light saturated maximal photosynthetic rate of mulch-treated plants, resulting in a twofold increase in yield compared with control plants. Analysis of fruit quality characteristics showed that total soluble solids, sugars and organic acids were similar between treatments. Likewise, antioxidant capacity, total anthocyanin content and the content of individual anthocyanins did not change in response to reflective mulch treatment.
The use of reflective mulch should be explored by industry as a cost-effective method for enhancing blueberry yield while maintaining fruit quality in maritime environments. © 2020 Society of Chemical Industry.
在海洋性生长环境中,蓝莓产量往往表现出季节性波动过大的现象,这与对低光照条件的光合反应适应不良有关。因此,有必要开发既能稳定产量又能保持或提高果实品质的方法。在这里,我们在蓝莓果实呈绿色的早期将反光膜铺设在植株旁边,以验证增加可用的季节性光积分可以提高蓝莓产量的假设。我们进一步确定了几个质量特征,以确保果实的市场销售性。
与裸地相比,反光膜将光反射到植株旁可达五倍之多,从而增加了到达树冠的光量。这导致了被处理的植株的光饱和最大光合速率的适应性增加,与对照植株相比,产量增加了两倍。对果实质量特征的分析表明,处理之间的总可溶性固体、糖和有机酸相似。同样,抗氧化能力、总花青素含量和单个花青素的含量也没有因反光膜处理而发生变化。
反光膜的使用应该被行业探索,作为一种在海洋性环境中提高蓝莓产量而保持果实品质的具有成本效益的方法。 © 2020 化学工业协会。
