沉水植物菹草的人工种子技术
STUDY OF ARTIFIC IAL SEEDS OF SUBM ERGED MACROPHYTE POTAMOGETON CRISPUS L.
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摘要: 为满足水生态系统重建及水体景观对沉水植物种苗的需求,本文建立了菹草(Potamogeton crispus L.)人工种子的制作方法,并分析了菹草人工种子的萌发条件。结果表明,以海藻酸钠为包埋剂,在包埋剂中添加 BA 1.0mg/L+6-BA0.5mg/L制备的菹草人工种子在灭菌自来水中萌发率可达80%,且转株率达20%。在15-25℃之间,温度对菹草人工种子萌发和转株的影响不显著;氮磷水平对菹草人工种子萌发和转株的影响不显著;光强对菹草人工种子的萌发和转株有显著影响,较高的光强有较高的萌发率和转株率,光强为40μmol/m2.s时,菹草人工种子萌发率、转株率可达67.8%、35.6%;底质对菹草人工种子的萌发和转株有显著影响,菹草人工种子在黄沙壤上的萌发率、转株率分别为60%和42.2%,黄沙壤比淤泥和砂石更适合菹草人工种子萌发和转株;菹草人工种子在野外湖水的试验中萌发率、转株率分别达到28%、15%。Abstract: Restoration of submerged vegetation is the key step of restoration of aquatic ecosystem in eutrophic lakes. The seed bank was strongly destroyed in many eutrophic lakes of China, it is necessary to get plenty of seedlings for restoration of submerged vegetation because of the difficulty of getting enough macrophyte seeds. Usually, seedlings of submerged macrophytes have to be obtained from otherwater bodies. Transplantation may destroy the source vegetation and encounter shortage of seedlings in case of lack of vegetation in nearby water bodies. The technique of artificial seeds is a promising method to provide a large number of seedlings in a short time without limitation of season, long distant transportation and harm to the naturalmacrophyte community. In order to establish the method for the preparation of artificial seeds of submerged macrophytes, a common submerged macrophte Potamogeton crispus L. was selected as experimental material1 In this study, the artificial seed of P. crispus was obtained by using node segments as explant, budswere induced in induction medium1 The node segmentswithbuds of P. crispus swere encapsulated with sodium alginate and calcium chloride to form artificial seeds. The effects of hormone types and concentration in capsule, temperature, light intensity, concentration of nitrogen and phosphorus, sediment types on the germination and conversion of artificial seeds of P. crispus were investigated. An experiment of germination and conversion of the artificial seeds in lake was also conducted. The hormones supplemented in the capsules could promote the germination of artificial seeds1 The result showed that the germination and conversion rates of artificial seeds, which embedded in IBA 1.0 mg/L and 6-BA 0.5 mg/L, were 80% and 20% respectively in autoclaved tap water1 No significant effect of temperature was found on the germination and conversion in range of 15-25℃. Similarly nitrogen and phosphorus caused no significant change on the germination and conversion of artificial seeds of P. crispus. Light intensity affected the germination and conversion significantly. Higher light intensity favored the germination of artificial seeds1 The germination and conversion rates of the artificial seeds reached to 67.8% and 35.6% respectively at light intensity of 40μmol/m 2·s1 Sediment types also affected the germination significantly1 Sandy soil was better than sandstone and silt to support the germination1 The germination rate of artificial seedsof P. crispus was 60% on the sandy soil, which was higher than that in sandstone and silt sediments1 To test the feasibility of artificial seeds of P. crispus in eutrophic lakes, a trial experimentwas carried out in the EastLake which is a hyper-eutrophic lake in Wuhan, Hubei the germination and conversion rates of artificial seeds of P1 crispus were 28% and 15% underwater depth of 0.6 m, and 27% and 12% underwater depth of 1.2 m, respectively. The results showed that the artificial seed of P. crispus was applicable in restoration of aquatic vegetation in place of plant transplantation.
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