不同蓝红光比例发光二极管对火龙果花芽分化和果实品质的影响

doi:10.3785/j.issn.1008-9209.2018.02.261

浙江大学学报（农业与生命科学版）

2019, Vol. 45

Issue (1): 14-22 DOI: 10.3785/j.issn.1008-9209.2018.02.261

园艺学

不同蓝红光比例发光二极管对火龙果花芽分化和果实品质的影响

陈心源¹(

),田忍国²,沈林章³,殷益明⁴,朱利鑫⁵,贾惠娟¹(

)

1. 浙江大学园艺系，杭州 310058
2. 浙江三晶照明有限公司，浙江湖州 313000
3. 长兴县经济作物技术推广站，浙江湖州 313100
4. 湖州市经济作物技术推广站，浙江湖州 313000
5. 长兴县安信家庭农场，浙江湖州 313100

Effect of the blue-red light ratio in supplemental light-emitting diode on pitaya flower bud differentiation and fruit quality

Xinyuan CHEN¹(

),Renguo TIAN²,Linzhang SHEN³,Yiming YIN⁴,Lixin ZHU⁵,Huijuan JIA¹(

)

1. Department of Horticulture, Zhejiang University, Hangzhou 310058, China
2. Zhejiang Sanjing Lighting Company Limited, Huzhou 313000, Zhejiang，China
3. Economic Crop Technology Extension Station of Changxing County, Huzhou 313100, Zhejiang，China
4. Economic Crop Technology Extension Station of Huzhou, Huzhou 313000, Zhejiang，China
5. Changxing Anxin Family Farm, Huzhou 313100, Zhejiang，China

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摘要：

以红肉火龙果‘紫蜜龙’为试验材料，设蓝光与红光比例分别为1∶8、1∶6、1∶4、1∶3、1∶2的发光二极管（light-emitting diode, LED）为实验处理，白光LED作对照进行补光（CK），光源分置在50 cm和70 cm这2个高度；同时设置不补光对照（CK₀）。通过比较不同处理间的花芽分化、物候期、果实品质，筛选出能够促进春季提前现蕾、增加花芽数量及提高果实品质的最佳补光方案。结果表明：补光处理分化的花芽数量比不补光多；蓝光与红光比例1∶4、光源高度50 cm的组合，花芽分化数量最多，产量显著高于其他处理，平均单产达到了2.236 kg/株；蓝光与红光比例1∶2、光源高度50 cm的组合，果实可溶性固形物含量相对最高，品质最佳。

关键词： 火龙果; 蓝红光比; 发光二极管; 花芽分化; 产量; 品质

Abstract:

Taking a red pitaya cultivar, ‘Zimilong’ as the test material， we set up different blue-red light ratios in light-emitting diode （LED）, 1∶8, 1∶6, 1∶4, 1∶3 and 1∶2 to treat the pitaya and used white LED light as the control (CK). Besides, the light sources were placed at two positions, 50 cm and 70 cm above the plant. We also set up no artificial light group as a blank control (CK₀). By comparing the flower bud differentiation, phenology and fruit quality, we attempted to choose the best light supplement that would advance spring budding, increase the amount of buds and also improve the quality in pitaya. The result revealed that flower bud differentiation was improved when given light fill. In addition, when the blue-red light ratio in LED light was 1∶4 at 50 cm above the plant, the number of buds and productivity were best among all treatments， and the average yield even reached 2.236 kg/plant. When the blue-red light ratio in LED light was 1∶2 at 50 cm above the plant, the total soluble solid content and fruit quality were the highest.

Key words: pitaya blue-red light ratio light-emitting diode flower bud differentiation production quality

收稿日期: 2018-02-26 出版日期: 2019-03-28

CLC:

S 667.9

基金资助: 校企合作植物生长灯推广项目(KH2017043)

通讯作者: 贾惠娟 E-mail: camillecxy@163.com;jiahuijuan@zju.edu.cn

作者简介: 陈心源（https://orcid.org/0000-0002-3481-0592）|贾惠娟（https://orcid.org/0000-0001-7909-4940）

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引用本文:

陈心源,田忍国,沈林章,殷益明,朱利鑫,贾惠娟. 不同蓝红光比例发光二极管对火龙果花芽分化和果实品质的影响[J]. 浙江大学学报（农业与生命科学版）, 2019, 45(1): 14-22.

Xinyuan CHEN,Renguo TIAN,Linzhang SHEN,Yiming YIN,Lixin ZHU,Huijuan JIA. Effect of the blue-red light ratio in supplemental light-emitting diode on pitaya flower bud differentiation and fruit quality. Journal of Zhejiang University (Agriculture and Life Sciences), 2019, 45(1): 14-22.

链接本文:

http://www.zjujournals.com/agr/CN/10.3785/j.issn.1008-9209.2018.02.261 或 http://www.zjujournals.com/agr/CN/Y2019/V45/I1/14

表1 不同蓝红光比LED光源实际光照强度（光通量密度）

图1 不同光源高度和蓝红光比LED光源对火龙果花芽数量的影响

图2 光源高度50 cm时不同蓝红光比补光的火龙果生长发育曲线

图3 光源高度70 cm时不同蓝红光比补光的火龙果生长发育曲线

表2 不同蓝红光比和光源高度补光的火龙果品质比较

表3 不同蓝红光比与光源高度补光的火龙果糖酸含量比较

表4 不同蓝红光比与光源高度补光的火龙果甜菜素含量比较

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