JIANG Cheng-yao,ZHAO Shu-mei,CHENG Yan-fei,et al.Effect of Oxygen Condition in Micro/nano-bubble Water on Leafy Vegetables Seed Germination[J].Northern Horticulture,2013,37(02):28-30.
微/纳米气泡水中的氧环境对叶菜种子发芽的影响
- Title:
- Effect of Oxygen Condition in Micro/nano-bubble Water on Leafy Vegetables Seed Germination
- 文章编号:
- 1001-0009(2013)02-0028-03
- Keywords:
- micro/nano-bubble; leafy vegetables; seed; germination
- 分类号:
- S 63
- 文献标志码:
- A
- 摘要:
- 以小白菜和生菜为试材,研究比较了充氧微/纳米气泡水与普通纯净水对叶菜种子发芽的影响。结果表明:在相同条件下,经溶解氧浓度为45 mg/L的充氧微/纳米气泡纯净水处理的叶菜种子发芽率、发芽势及活力指数均比普通纯净水处理的种子有显著提高,其中发芽速率小白菜提高14%,生菜提高44%;发芽势小白菜提高25%,生菜提高62%;活力指数小白菜提高130%,生菜提高135%。充氧微/纳米气泡提高了水中溶解氧的利用效率,对种子萌发具有促进作用,有利于缩短叶菜发芽周期和提高发芽品质。
- Abstract:
- Taking the Chinese cabbage and lettuce as test materials,the effect of oxygenated micro/nano-bubble water on leafy vegetables seed germination were studied.The results showed that under the same optimal seeding environmental conditions in which both common water and oxygenated micro/nano-bubble water were applied,compared with seeds soaked in the common water,the evaluation indexes including cermination percentage (in short as GP),germination energy (in short as GE) and vigor index (in short as VI) of seeds soaked in the oxygenated micro/nano-bubble water of 45 mg/L dissolved oxygen,had been significantly improved.The increased part of GP in Chinese cabbage was 14% and in lettuce was 44%.The GE improved 25% in Chinese cabbage,and 62% in lettuce.The VI in Chinese cabbage enhanced 130%,meanwhile it achieved 135% in lettuce.The oxygenated micro/nano-bubble enhanced the utilizing efficiency of dissolved oxygen,and proved that this kind of water had promoted seeds germination which contributed to shorten the breeding pregermination cycle.
参考文献/References:
[1]
中野明正
,
大木浩
,
池部徹男
,
等
.
マイクロバブルによる酸素富加が溶液栽培したネギの生育と養分吸収に与える影響
[J].
根の研究
,2009,18(2):49-54.
[2]川村邦明,マイクロ.ナノバブル技術研究組合について[J].食品と開発,2010,45(7):4-5. [3]高桥正好.機能水の研究とその利用食品工業にぉけゐマィクロ バブルの可能性[J].食品工囊(特集),2002:26-34. [4]Liu S h,Wang Q,Ma H,et al.Effect of micro-bubbles on coagulation flotation process of dyeing wastewater[J].Separation and Purification Technology,2010,71:337-346. [5]Marui T.An introduction to micro/nano-bubbles and their applications[C].The 14th World Multi-Conference on Systemics,Cybernetics and Informatics,Orlando,2010. [6]大成博文.マイクロバブルのすべて[M].東京:株式会社日本実業出版社,2006:23-60. [7]王敏,陈青云,陈光良,等.大气压等离子体处理对生菜种子萌发和生长发育的影响[J].华北农学报,2007(6):108-113. [8]徐卫红,徐秀芳.Na2CO3胁迫对生菜种子萌发的影响[J].上饶师范学院学报,2011(6):59-61. [9]原红娟,陈丽.盐胁迫对几种叶菜生理生化指标的影响[J].北方园艺,2011(24):52-54. [10]梁勇,卜崇兴,郭世荣,等.不同浓度海水对水培生菜生长和品质的影响[J].江苏农业科学,2007(3):95-97. [11]许鸿源,刘超,周凤珏,等.有机无机复合肥和无机复合肥对生菜生长及品质的影响[J].现代农业科技,2009(15):71-72. [12]王华静,吴良欢,陶勤南.氨基酸部分取代硝态氦对小白菜硝酸盐累积的影响[J].中国环境科学,2004(1):19-23. [13]任立研,胡忠俊,邓晓玫,等.铬污染对三种常见蔬菜种子萌发和生长的影响研[J].大众科技,2011(12):152-155. [14]李德明,贺立红,朱祝军.几种重金属离子对小白菜种子萌发及生理活性的影响[J].种子,2005(6):27-29. [15]刘子凡.种子学实验指南[M].北京:化学工业出版社,2010:74-80. [16]鱼小军,师尚礼,龙瑞军,等.生态条件对种子萌发影响研究进展[J].草业科学,2006(10):44-47. [17]颜启传.种子学[M].北京:中国农业出版社,2001. [18]韩建国.实用牧草种子学[M].北京:中国农业大学出版社,1997.
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备注/Memo
第一作者简介:蒋程瑶(1988-),女,在读硕士,研究方向为设施园艺。E-mail:catherinejaing@126.com.