磷浓度对小环藻、大型溞和金鱼藻三者相互作用的影响
EFFECTS OF PHOSPHORUS CONCENTRATION ON INTERACTIONS AMONG CYCLOTELLA SP., DAPHNIA MAGNA AND CERATOPHYLLUM DEMERSUM
-
摘要: 为了解磷浓度对水生植被恢复和生物操纵效果的影响, 分别用小环藻(Cyclotella sp.)、大型溞(Daphnia magna)和金鱼藻(Ceratophyllum demersum)代表浮游植物、浮游动物和大型沉水植物建立水生微宇宙模型, 在25℃、2600 lx光强和11 mg/L氮浓度条件下, 分别研究小环藻与大型溞、小环藻与金鱼藻、小环藻-大型溞-金鱼藻共培养时4种磷浓度(0.05、0.1、0.5和2 mg/L)下小环藻、大型溞、金鱼藻的增长率以及培养液中氮磷去除率的变化。结果表明: 小环藻与大型溞、小环藻与金鱼藻两两共培养时, 磷浓度为0.05-2 mg/L时, 金鱼藻和大型溞均生长良好, 小环藻受到明显抑制, 其密度保持较小幅度的正增长。在小环藻-大型溞-金鱼藻三者共培养时, 在0.05-2 mg/L的磷浓度范围内大型溞和金鱼藻生长良好, 与两两共培养相比, 小环藻则受到了更大程度的抑制, 在磷浓度为0.05-0.1 mg/L时藻密度呈现负增长. 这说明在水生态系统中, 大型浮游动物和沉水植物对浮游藻类的联合控制效果远好于各自单独的控制效果, 该控制效果随磷浓度的提高而减弱, 以0.1 mg/L的磷浓度为最佳。在实验结束后测定氮磷去除率发现, 在最低磷浓度(0.05 mg/L),即磷限制时, 水中磷去除率最高, 在最高磷浓度(2 mg/L), 即氮限制时, 水中氮去除率最高。Abstract: In the present study, the effects of phosphorus concentration on bio-manipulation and restoration of aquatic vegetation were determined. Cyclotella sp., Daphnia magna and Ceratophyllum demersum were selected to be respectively as the representative of phytoplankton, zooplankton and submerged macrophyte to construct an aquatic microcosm system. The growth rate of Cyclotella sp., D. magna, and C. demersum and removal rate of nitrogen and phosphorus were tested in the certain conditions [25, 2600 lx illumination, 11 mg/L nitrogen concentration, four phosphorus concentration (0.05, 0.1, 0.5, 2 mg/L) and three types of co-culture operations]. Our results showed that D. magna and C. demersum grew well but Cyclotella sp. was suppressed and its consistency kept slowly positive growth at 0.05-2 mg/L phosphorus concentration in the two co-culture systems (Cyclotella sp. and D. magna co-culture system, Cyclotella sp. and C. demersum co-culture system). In the co-culture system of Cyclotella sp., D. magna and C. demersum, the growth of D. magna and C. demersum was improved, but Cyclotella sp. was suppressed greater at 0.05-2 mg/L phosphorus concentration. Cyclotella sp. showed negative growth at 0.05-0.1 mg/L phosphorus concentration. Our results illustrated that the inhibition effect of zooplankton and large aquatic plants co-culture on the algae was better than that the single zooplankton or large aquatic plants. This inhibition effect decreased with the phosphorus concentration increasing. And the best inhibition effect presented at the phosphorus concentration0.1 mg/L. The highest phosphorus removal presented in the lowest phosphorus treatment (0.05 mg/L), while the highest nitrogen removal presented in the highest concentration of nitrogen (2 mg/L) at the end of the experiment.
-
Keywords:
- Cyclotella sp. /
- Daphnia magna /
- Ceratophyllum demersum /
- Phosphorus concentration /
- Biomanipulation
-
-
[1] Huang H H, Li X, Du C L. The research situation of the lake eutrophication in China [J]. China Urban Economy, 2011, 18: 259-260 [黄慧慧, 李祥, 杜春兰. 我国湖泊富营养化研究情况概述. 中国城市经济, 2011, 18: 259-206]
[2] Pu P M, Li Y H, Zhang J F, et al. Eutrophication control in local area through phytoplankton population regulation by eco-remediation: a case study on aqua-eco-remediation engineering in Lake Hongfeng Guizhou Province [J]. Journal of Lake Science, 2012, 24(4): 503-512 [濮培民, 李裕红, 张晋芳, 等. 用生态修复调控浮游植物种群局部控制富营养化-以贵州红枫湖水质生态修复工程为例. 湖泊科学, 2012, 24(4): 503-512]
[3] Yoshimasa A, Yusuke S, Takumi S, et al. Effect of phosphorus fluctuation caused by river water dilution in eutro-phic lake on competition between blue-green alga Microcystis aeruginosa and diatom Cyclotella sp. [J]. Journal of Environmental Sciences, 2010, 22(11): 1666-1673
[4] Jorgensen S E, Bernardi R D. The use of structural dynamic models to explain the successes and failures of biomanipulation [J]. Hydrobiologia, 1998, 379: 147-158
[5] Scheffer M, Carpenter S, Foley J A, et al. Catastrophic shifts in ecosystems [J]. Nature, 2001, 413: 591-596
[6] Ju Z W, Yu Z Q, Deng H. Effects of aquatic vegetation on phosphorus waters [J]. Journal of Lake Sciences, 2015, 27(2): 234-242 [琚泽文, 蔚枝沁, 邓泓. 水生植被恢复对城市景观水体磷浓度及沉积物磷形态的影响. 湖泊科学, 2015, 27(2): 234-242]
[7] Ma S, Wang C L, Zhang Y J, et al. Influences of nitrogen and phosphorus concentration on interactions among Chlorelia vugaris, Daphnia magna and Ceratophylium demersum [J]. Acta Hydrobiologica Sinica, 2012, 36(1): 66-72 [马帅, 王程丽, 张亚捷, 等. 氮磷浓度对藻-溞-草间相互作用的影响. 水生生物学报, 2012, 36(1): 66-72]
[8] Ma J M, Jin P, Guo M, et al. Influences of phosphorus concentration on interactions among Microcystis aeruginosa, Daphnia magna and Ceratophyllum demersum [J]. Acta Ecologica Sinica, 2014, 34(6): 1520-1526 [马剑敏, 靳萍, 郭萌等. 磷浓度对铜绿微囊藻、大型溞和金鱼藻三者相互作用的影响. 生态学报, 2014, 34(6): 1520-1526]
[9] Ma J M, Jin P, Wang C L, et al. Study on the interactions among Chlorella vulgaris, Daphnia magna and Ceratophyllum demersum in simulated natural water [J]. Acta Scientiae Circumstantiae, 2013, 33(2): 528-534 [马剑敏, 靳萍, 王程丽等. 模拟自然水体中藻-溞-草间的相互作用研究. 环境科学学报, 2013, 33(2): 528-534]
[10] Zheng L L. The physiological and ecological reseach about the dominant species in han-jiang river ditom bloom [D]. Thesis for Master of Science. Fujian Normal University, Fujian. 2005 [郑凌凌. 汉江水华优势种生理生态学研究. 硕士学位论文, 福建师范大学. 2005]
[11] Environmental Protection Administration of China. Water and Wastewater Monitoring Analysis Method (4th edition) [M]. Beijing: China Environmental Science Press. 2007, 243-257 [国家环境保护总局. 水和废水监测分析方法(第四版). 北京: 中国环境科学出版社. 2007, 243-257]
[12] Jin P, Guo M, Xu T T, et al. Influences of temperature and illumination on co-cultivation among Microcystis aeruginosa, Daphnia magna and Ceratophyllum demersum [J]. Journal of Hydroecology, 2013, 34(5): 65-70 [靳萍, 郭萌, 徐婷婷, 等. 温度和光照对铜绿微囊藻、大型溞和金鱼藻共同培养的影响. 水生态学杂志, 2013, 34(5): 65-70]
[13] Xiong J, Huang J T, Nie L, et al. The effects of nutrient concentration on purification ability and eco-physiology of Ce-ratophyllum demersum [J]. Acta Hydrobiologica Sinica, 2013, 37(6): 1066-1072 [熊剑, 黄建团, 聂雷, 等. 不同营养条件对金鱼藻净化作用及其生理生态的影响. 水生生物学报, 2013, 37(6): 1066-1072]
[14] Yu Z W, Sun W H, Guo K Q, et al. Allelopathic effects of several aquatic plants on algae [J]. Acta Hydrobiologica Si-nica, 1992, 16(1): 1-7 [俞子文, 孙文浩, 郭克勤. 几种高等水生植物的克藻效应. 水生生物学报, 1992, 16(1): 1-7]
-
期刊类型引用(4)
1. 周丝,赵敏,马增岭. 富营养化浅水湖泊生态治理措施及效果——以温州大学明心湖生态治理工程为例. 环境保护科学. 2022(05): 50-58 . 
百度学术
2. 刘梅,原居林,倪蒙,练青平,郭爱环,顾志敏. 藻—溞系统对凡纳滨对虾养殖水体调控效果的研究. 水产科学. 2021(02): 188-195 . 百度学术
3. 陈艳,范明鋆,李杲光,李英臣,于飞,马剑敏. 氮浓度对小环藻、大型溞和金鱼藻相互作用的影响研究. 环境污染与防治. 2019(12): 1427-1431+1464 . 百度学术
4. 姜小玉,杨佩昀,王洁玉,赵闪闪,褚一凡,马剑敏. 大型溞和金鱼藻对三种微藻增殖的影响. 淡水渔业. 2018(04): 106-112 . 百度学术
其他类型引用(4)
计量
- 文章访问数: 1376
- HTML全文浏览量: 2
- PDF下载量: 252
- 被引次数: 8
下载: