摘要
在室内模拟条件下,研究了一些生态因子对藻-菌(A+B)生态系统代谢有机碳(C6H12O6)、NH3-N和无机磷(IP)的影响.研究结果表明,当藻-菌生态系统中藻(A)或菌(B)的起始数量一定时,其代谢C6H12O6的速率,随与之组合的B或A的起始数量增加(数量比则相应降低)而增加.在光照和黑暗条件下,A+B系统代谢上述3种营养物质的速率均有一定的差异.黑暗下C6H12O6的平均代谢速率较光照下高12.3%(P<0.05),IP和NH3-N的平均代谢速率则分别较光照下低14.4%(P<0.05)和16.2%(P<0.001).在A+B系统和A、B单培养物中,3种营养物质的代谢速率均随有机负荷量增加而增加,而且A+B系统的代谢速率分别高于单培养的A和B,其中NH3-N代谢尤为显著.文章还就生态系统结构与功能的关系问题进行了讨论.
Effects of ecological factors on metabolic rate of organic carbon(C6H12O6), NH3-N and inorganic phosphorus (IP) in an algae-bacteria ecosystem (A+B) are studied under simulated conditions.The results show that the metabolic rate of C6H12O6 in A+B ecosystem increases with decreasing ratio of bacteria (B)/algae (A) or algae/bacteria, and those ofC6H12O6,NH3-N and lP are different in light and dark experiments. The average metabolic rate of C6H12O6 in dark is 12.3% higher than in light, while those of IP and NH3-N in light are respectively 14. 4% and 16.2% higher than in dark.The average metabolic rate of these three nutrient matters are all increased with increasing load of organic carbon in A+B,A and B cultures, especially in case of NH3-N.The relationship between structure and function of algae-bacteria ecosystem is also discussed in this paper.
出处
《应用生态学报》
CAS
CSCD
1994年第2期177-181,共5页
Chinese Journal of Applied Ecology
基金
"七五"科技攻关项目
关键词
藻类
细菌
生态系统
代谢
生态学
Algae-bacteria ecosystem
Single culture
Metabolic rate
Algae and bacteria ratio
Organic load content.
