Malai E S, O'Sullivan C A, Grant T J, Sreekantan L, Mellor V A, Schmidt S, Dry I B
CSIRO Agriculture and Food St Lucia Queensland Australia.
School of Agriculture and Food Sciences The University of Queensland Brisbane Queensland Australia.
Plant Environ Interact. 2024 Dec 1;5(6):e70018. doi: 10.1002/pei3.70018. eCollection 2024 Dec.
Controlled environment farming (CEF) systems, including tunnel houses, glasshouses, and vertical farms, are expanding worldwide. As the industry scales, growers need a broader range of crops that are adapted to CEF systems to take full advantage of the potential to increase yields and decrease weather-related risks. Dwarf grapevines (microvines) are ideal candidates for CEF due to their high economic value, phenotype, and phenology. This study aimed to develop propagation protocols, a critical first step for the successful integration of microvines in the CEF market, and to demonstrate the establishment, early growth, first flowering, and fruiting of table grape microvines in a fully indoor, LED-lit, CEF system. An experiment was conducted to investigate the efficiency of clonal propagation of a newly developed microvine variety, which had been bred for the production of seedless table grapes in response to two variables: (a) shoot position of cutting, and (b) length of time of misting exposure (from 3 to 7 weeks). A subset of successfully established plantlets were then transplanted into a hydroponic, CEF system, where their establishment, early growth, flowering, and fruit formation were assessed. Three weeks after cuttings were taken, 83.7% of the cuttings had formed roots, regardless of cutting section or misting treatment, while the remaining 16.7% of cuttings died. The sprouting success was lower with 49.3% of plants forming new leaves after 7 weeks. The highest level of sprouting was observed with cuttings taken from mid-shoot and lower shoot positions and the 5-week misting duration. While the rooting efficiency and survival of green shoot microvine cuttings are very high, further research is needed to increase the frequency of sprouting in the required timeframes to levels that are more acceptable for commercial production. The establishment success of sprouted cuttings after transplanting to hydroponics was 100% and their production and fruit quality were similar regardless of cutting tissue source. The crop cycle from planting to first harvest was 208 days (63 days for plantlet production and 145 days from transplanting to first harvest). The vines began flowering after an average of 33.9 days and the berries went through veraison (i.e., commencement of ripening) after an average of 116 days under the conditions tested. Microvine fruit grown under these conditions contained greater than the minimum total soluble solids content required for the Australian market. We have demonstrated that table grape microvines have potential as a novel crop for CEF systems.
可控环境农业(CEF)系统,包括温室大棚、玻璃温室和垂直农场,正在全球范围内不断扩展。随着该行业的规模化发展,种植者需要更多适应CEF系统的作物品种,以便充分利用提高产量和降低与天气相关风险的潜力。矮化葡萄藤(微型葡萄藤)因其高经济价值、表型和物候特性,是CEF的理想选择。本研究旨在制定繁殖方案,这是微型葡萄藤成功融入CEF市场的关键第一步,并展示鲜食葡萄微型葡萄藤在完全室内、LED照明的CEF系统中的定植、早期生长、首次开花和结果情况。进行了一项实验,以研究一个新培育的微型葡萄藤品种的克隆繁殖效率,该品种专为无核鲜食葡萄生产而培育,实验针对两个变量:(a)插条的茎段位置,以及(b)喷雾处理的时长(3至7周)。然后,将一部分成功定植的幼苗移植到水培CEF系统中,评估它们的定植、早期生长、开花和果实形成情况。扦插后三周,无论插条茎段或喷雾处理如何,83.7%的插条已生根,其余16.7%的插条死亡。7周后,发芽成功率较低,只有49.3%的植株长出新叶。从中部茎段和下部茎段选取的插条以及5周的喷雾时长,发芽率最高。虽然绿枝微型葡萄藤插条的生根效率和成活率很高,但仍需进一步研究,以在所需时间内将发芽频率提高到更符合商业生产要求的水平。移植到水培系统后,发芽插条的定植成功率为100%,无论插条组织来源如何,其产量和果实品质相似。从种植到首次收获的作物周期为208天(幼苗生产63天,从移植到首次收获145天)。在测试条件下,葡萄藤平均33.9天后开始开花,浆果平均116天后进入转色期(即开始成熟)。在这些条件下种植的微型葡萄果实的总可溶性固形物含量高于澳大利亚市场要求的最低水平。我们已经证明,鲜食葡萄微型葡萄藤作为CEF系统中的一种新型作物具有潜力。
