Additional far-red increases fruit yield of greenhouse sweet pepper mainly through enhancing plant source strength

IF 3.9 2区农林科学 Q1 HORTICULTURE

Scientia Horticulturae Pub Date : 2024-11-13 DOI:10.1016/j.scienta.2024.113787

Sijia Chen, Tijmen Kerstens, Baltasar Zepeda, Theoharis Ouzounis, Sebastian Olschowski, Leo F.M. Marcelis, Ep Heuvelink

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引用次数: 0

Abstract

Supplementary lighting is necessary for year-round greenhouse production of fruit vegetables in high-latitude regions. Far-red (FR) radiation can influence plant photomorphogenesis as well as photosynthesis. We aimed to identify the effects of supplementary FR on fruit set and yield of sweet pepper, and its underlying mechanisms via a yield component analysis. A 24-week greenhouse experiment was conducted with cultivars 'Gialte' and 'Margrethe', where FR was added to 190 μmol·m−2·s−1 of white supplementary light in four treatments: 0, 50 or 100 μmol·m−2·s−1 FR throughout the whole generative growth phase (since 8 weeks after transplanting), or 100 μmol·m−2·s−1 FR for only four weeks (12 to 16 weeks after transplanting). Fruit yield increased linearly with the cumulative amount of FR provided in supplementary light. The increased fruit dry weight with additional FR was mainly associated with an increased plant dry weight, accompanied by a marginal increase in the fraction of dry matter partitioned to fruits. The increase in plant dry weight resulted from an increased light use efficiency (plant dry weight per unit of supplementary photosynthetic active radiation (PAR) incident on top of the canopy) and an increased incident PAR (due to taller plants closer to the lamps). However, additional FR reduced radiation use efficiency (plant dry weight per unit of supplementary PAR plus FR incident on top of the canopy), indicating that additional FR was used less efficiently than PAR for biomass production. Additional FR enhanced fruit set percentage and fruit set fluctuations over time, where both long-term and short-term FR application elevated the subsequent fruit set peak after the start of FR application. Without additional FR, 17 % fruits in 'Gialte' and 25 % in 'Margrethe' showed medium or severe cracking. Additional FR substantially reduced this percentage to 8 % in both cultivars. We conclude that additional FR improves sweet pepper fruit set and yield in greenhouses, mainly by enhancing plant source strength.

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额外的远红外主要通过增强植物源强度来提高温室甜椒的果实产量

在高纬度地区，全年温室果菜生产都需要补充光照。远红外线辐射可影响植物的光形态发生和光合作用。我们旨在通过产量成分分析，确定补充远红外线对甜椒坐果率和产量的影响及其内在机制。我们对栽培品种 "Gialte "和 "Margrethe "进行了为期 24 周的温室试验，在 190 μmol-m-2-s-1 的白光补充光中添加 FR，共分为四种处理：0、50 或 100 μmol-m-2-s-1 FR 贯穿整个生长期（自移栽后 8 周起），或 100 μmol-m-2-s-1 FR 仅持续四周（移栽后 12 至 16 周）。果实产量随补充光照的 FR 累积量的增加而线性增加。果实干重随补充光照的增加而增加，这主要与植株干重增加有关，同时果实干物质分配比例也略有增加。植株干重增加的原因是光利用效率（冠层顶部入射的每单位补充光合有效辐射（PAR）的植株干重）和入射 PAR 的增加（由于植株较高且更靠近灯管）。然而，额外的光合有效辐射降低了辐射利用效率（每单位补充光合有效辐射加上入射到冠层顶部的光合有效辐射的植物干重），这表明额外的光合有效辐射在生物量生产中的利用效率低于光合有效辐射。额外的 FR 提高了坐果率和坐果率随时间的波动，长期和短期 FR 的应用都提高了 FR 开始应用后的坐果峰值。在不添加阻燃剂的情况下，'Gialte'和'Margrethe'分别有 17% 和 25% 的果实出现中度或严重开裂。添加抗逆剂后，这两个品种的中度或重度开裂率大幅降低至 8%。我们的结论是，添加抗逆剂可提高温室甜椒的坐果率和产量，主要是通过增强植物源强度。

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

Scientia Horticulturae 农林科学-园艺

CiteScore

8.60

自引率

4.70%

发文量

796

审稿时长

47 days

期刊介绍： Scientia Horticulturae is an international journal publishing research related to horticultural crops. Articles in the journal deal with open or protected production of vegetables, fruits, edible fungi and ornamentals under temperate, subtropical and tropical conditions. Papers in related areas (biochemistry, micropropagation, soil science, plant breeding, plant physiology, phytopathology, etc.) are considered, if they contain information of direct significance to horticulture. Papers on the technical aspects of horticulture (engineering, crop processing, storage, transport etc.) are accepted for publication only if they relate directly to the living product. In the case of plantation crops, those yielding a product that may be used fresh (e.g. tropical vegetables, citrus, bananas, and other fruits) will be considered, while those papers describing the processing of the product (e.g. rubber, tobacco, and quinine) will not. The scope of the journal includes all horticultural crops but does not include speciality crops such as, medicinal crops or forestry crops, such as bamboo. Basic molecular studies without any direct application in horticulture will not be considered for this journal.