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浮床空心菜种植比率对养殖池塘的水质和青虾生长的影响
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Abstract:
本文探讨了占不同水面比率的浮床空心菜对养殖池塘水质净化和青虾生长的影响。试验是在青虾放养密度均为40 ind./m2的8口面积相等的土池进行,共设3个处理组,处理1组(TR1)为浮床空心菜种植占池塘面积的6.7%,处理2组(TR2)为浮床空心菜种植占池塘面积的13.5%,处理3组(TR3)为浮床空心菜种植占池塘面积的27%,对照组为无空心菜浮床的2口池塘。经3个半月(105 d)的养殖试验结果表明,通过种植空心菜浮床的3个处理组的青虾增重率和特定生长率均高于对照组;种植空心菜浮床的3个处理组青虾成活率、亩产量和体重规格均显著高于对照组(P < 0.05),3个处理组的青虾饲料系数显著低于对照组(P < 0.05),但处理组之间的成活率、亩产量、体重规格和饲料系数差异不显著(P > 0.05)。水质检测分析数据结果表明,在相同的环境条件和管理方式下,种植空心菜的3个处理组青虾养殖的池塘中硝氮、亚硝氮、氨氮和活性磷酸盐的平均含量均明显低于对照组(P < 0.05)。与对照组相比,浮床空心菜处理组对氨氮、硝氮和亚硝氮的平均清除率分别为30%以上、20%以上和19%以上。浮床空心菜处理组对活性磷酸盐(PO43--P)的吸收清除率达40%以上,因此,浮床空心菜主要吸收磷酸盐和氨氮(NH4+-N),而对硝氮(NO3-N)和亚硝氮(NO2-N)的吸收较少。综合空心菜浮床对水质净化和青虾生长性能的改善指标,以TR2组为最优,在青虾养殖池塘中适度比例(13.5%)的种植空心菜生态浮床可以改善水质条件和提高青虾的生长性能和成活率。
The effects of floating bed planting ratio of water spinach Ipomoea aquatica Forssk on water purification and growth performance of oriental river prawn Macrobrachium nipponense were studied in this paper. The tests were conducted in 8 earth ponds of same area which the density of oriental river prawn was 40 ind./m2, three treatment groups were installed, the floating planting ratio of water spinach was 6.7% in treatment group 1 (TR1), the floating planting ratio of water spinach was 13.5% in treatment group 2 (TR2), and the floating planting ratio of water spinach was 27% in treatment group 3 (TR3), there was 2 earth ponds of no floating bed of water spinach as check group (CK). The results of three and half months (105 days) aquaculture test indicated that, the weight gain rate (WGR) and special growth rate (SGR) of oriental river prawn were increased by planting floating bed of water spinach. The survival rate (SR), yield and weight specifications of oriental river prawn in three treatment groups were significantly higher than in check group (P < 0.05); Feed Conversion Ratio (FCR) of oriental river prawn in three treatment groups were significantly lower than in check group (P < 0.05); but there was no significantly difference between three treatment groups for SR, Yield, weight specification and FCR of oriental river prawn (P > 0.05). Under the same environmental conditions and management methods, the results of the water quality analysis data showed that, the concentrations of ammonium, nitrate, nitrite and phosphate in all three treatment groups were significantly lower than in check group (P < 0.05). Compared to check group, the mean clearance rate (CR) of ammonium nitrogen, nitrate nitrogen and nitrite nitrogen in three treatment groups were respectively above 30%, 20% and
| [1] | 张磊磊, 宋学宏, 孟祥雨, 等. 杂交青虾“太湖1号”苗种在池塘养殖中的适宜放养密度[J]. 淡水渔业, 2013, 43(1): 69-73. |
| [2] | 冯亚明, 李丽, 史晓芹, 等. 鳊池混养青虾试验[J]. 水产养殖, 2021, 42(12): 50-52. |
| [3] | 谢钦铭, 苏世杰, 辜光磊, 杨贵妃, 岳紫薇. 复合硅藻基质微生态制剂在青虾养殖的应用[J]. 水产研究, 2022, 9(3): 105-113. |
| [4] | 邱梦, 谢钦铭, 王钰. 新型底质改良剂对土池水质调控和青虾养殖效果的试验[J]. 水产研究, 2023, 10(2): 83-90. |
| [5] | Srivastava, J., Gupta, A. and Chandra, H. (2008) Managing Water Quality with Aquatic Macrophytes. Reviews in Environmental Science and Bio/Technology, 7, 255-266. https://doi.org/10.1007/s11157-008-9135-x |
| [6] | Palm, H.W., Knaus, U., Appelbaum, S., et al. (2018) Towards Commercial Aquaponics: A Review of Systems, Designs, Scales and Nomenclature. Aquaculture Internation, 26, 813-842. https://doi.org/10.1007/s10499-018-0249-z |
| [7] | 董贯仓, 孙鲁峰, 杜兴华, 等. 3种植物对池塘养殖水体的净化效果研究[J]. 山东师范大学学报(自然科学版), 2020, 35(2): 236-241. |
| [8] | Reeta, D. and Wilkie, A.C. (2004) Nutrient Removal by Floating Aquatic Macrophytes Cultured in Anaerobically Digested Flushed Dairy Manure Wastewater. Ecological Engineering, 14, 27-42.
https://doi.org/10.1016/j.ecoleng.2004.01.004 |
| [9] | 李大成. 立体式生态浮床对水源地水质改善效果的研究[D]: [硕士学位论文]. 南京: 东南大学, 2006. |
| [10] | 张志勇, 冯明雷, 杨林章. 浮床植物净化生活污水中N、P的效果及N2O的排放[J]. 生态学报, 2007, 27(10): 4333-4341. |
| [11] | 李先宁, 宋海亮, 朱光灿, 等. 组合型生态浮床的动态水质净化特性[J]. 环境科学, 2007, 28(11): 2448-2452. |
| [12] | 李伟, 李先宁, 曹大伟, 等. 组合生态浮床技术对富营养化水源水质的改善效果[J]. 中国给水排水, 2008, 24(3): 34-38. |
| [13] | 刘雪梅, 杜卫刚, 许晨红, 等. 组合式三效生态浮床的构建及应用研究[J]. 安徽农业科学, 2011, 39(34): 21256-21258, 21261. |
| [14] | 刘海洪, 汪祥静, 吴磊, 李先宁. 生物组合对浮床污染物净化效能的影响[J]. 东南大学学报(自然科学版), 2011, 41(4): 784-787. |
| [15] | 张亚娟, 刘存歧, 王军霞, 等. 植物-生物绳组合生态浮床对富营养化水体的净化效果[J]. 重庆师范大学学报(自然科学版), 2012, 29(3): 31-36, 122-128. |
| [16] | 贾秋红, 袁永锋, 白海锋, 等. 生态浮床对养鱼池塘水质净化效果的影响[J]. 科学养鱼, 2015(8): 84-85. |
| [17] | 贾立平, 高志, 白海锋, 等. 生态浮床对淡水池塘浮游动物多样性的影响[J]. 黑龙江水产, 2019(5): 31-34. |
| [18] | 向太吉, 郝霆, 张平录, 等. 3种生态浮床植物去除鲤鱼塘氮、磷效果比较[J]. 水产养殖, 2020, 41(11): 23-27. |
| [19] | 汪松美, 周晓红, 储金宇, 拾亚男. 空心菜浮床 + 仿生植物系统对污染物去除效果[J]. 环境科学与技术, 2013, 36(3): 78-82. |
| [20] | 牛天新, 郑洁敏, 查燕. 空心菜生态浮岛对外塘甲鱼养殖水体的修复作用[J]. 浙江农业科学, 2019, 60(11): 2096-2099. |
| [21] | 范立民, 王庆, 陈曦, 等. 浮床空心菜对罗非鱼养殖池塘水体微生态环境影响方式分析[J]. 中国农学通报, 2023, 39(2): 142-151. |
| [22] | Nelson, S.G., Glenn, E.P., Conn, J., et al. (2001) Cultivation of Gracilaria parvispora (Rhodophyta) in Shrimp-Farm Effluent Ditches and Floating Cages in Hawaii: A Two-Phase Polyculture System. Aquaculture, 193, 239-248.
https://doi.org/10.1016/S0044-8486(00)00491-9 |
| [23] | Sengupta, S., Medda, C. and Dewanji, A. (2010) The Impact of Duckweed Growth on Water Quality in Sub-Tropical Ponds. Environmentalist, 30, 353-360. https://doi.org/10.1007/s10669-010-9293-6 |
| [24] | 王进进. 海马齿生态浮床对高位池养殖效果的研究[D]: [硕士学位论文]. 广州: 中山大学, 2017. |
| [25] | Mohammadzadeh, P. and Hajiboland, R. (2022) Phytoremediation of Nitrate Contamination Using Two Halophytic Species, Portulaca oleracea and Salicornia europaea. Environmental Science and Pollution Research, 29, 46127-46144.
https://doi.org/10.1007/s11356-022-19139-5 |
| [26] | 曹经晔, 白遗胜, 刘寒文, 叶雄平. 池塘养殖水体改良与调控技术的新进展[J]. 淡水渔业, 2007, 37(5): 76-78. |
