氮、磷对浒苔生长、光合作用及色素的影响

Q4 Environmental Science 水产学报 Pub Date : 2013-01-01 DOI:10.3724/SP.J.1231.2013.38319
Xinshu Li, Juntian Xu, Dongrui Yao, He Peimin
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引用次数: 1

摘要

富营养化是沿海海洋污染中最严重的环境问题。大型藻华往往具有快速吸收营养和快速增殖的潜力。为了研究富营养化海水中浒苔藻(Ulva prolifera)对氮、磷的生理生化反应,测定了不同营养条件和不同培养密度下浒苔藻(Ulva prolifera)的生长速率、光合作用和色素含量。试验分为4个处理:对照组、+N组、+P组和+N+P组(+N、+P分别代表添加NaNO3、Na2 HPO4)。在4种营养条件下预培养3 D,温度为20℃,光照强度约为6 000 lx,光周期L∶D为12 h∶12 h,连续曝气。结果表明,氮和磷均能提高增毒乌菌的生长速率,但增毒乌菌对氮的富集程度明显高于对磷的富集程度。初始生物量设为0.1 g/L时,对照组、+P组、+N组和+N+P组的相对生长率分别为0.68、0.69、0.72和0.75。相对生长率与生物量密度呈负相关。添加氮、磷显著缩短了生物量倍增时间。当原始生物量为0.2 g/L时,对照组、+P组、+N组和+N+P组的生物量倍增时间分别为1.60、1.53、1.16和1.03 d。在N和P富集条件和0.1 g/L初始生物量密度条件下生长的菌体,生物量倍增时间最快,周期为0.92 d。富氮和富磷均能提高藻体的叶绿素和类胡萝卜素含量,提高藻体的净光合速率和色素含量,在同时富氮和P的培养条件下,藻体的净光合速率和色素含量最大,且显著高于富氮和富磷条件氮磷富集之间的相互作用。综上所述,氮、磷富集能显著促进藻华生长,增加光合色素和光合速率,这可能是藻华发生的重要机制。
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Effects of nitrogen and phosphorus on the growth,photosynthesis and pigments of Ulva prolifera
Eutrophication is the most serious environmental problem in the coastal marine pollution.Macroalgal blooms tend to have the potential for rapid absorption of nutrients and rapid proliferation.In order to investigate the physiological and biochemical responses of Ulva prolifera to nitrogen(N)and phosphorus(P)in the eutrophic seawater,the growth rate,photosynthesis and the pigments of U.prolifera were determined under different nutrients conditions and different culture densities.The experiment was divided into four treatments:the control group,+N group,+P group,and +N+P group(+N,+P represents adding NaNO3,Na2 HPO4,respectively.).The algae were pre-cultured in four nutrition conditions for 3 d.The temperature was set at 20 ℃,light intensity was approximately 6 000 lx,and photoperiod L∶ D was 12 h∶ 12 h with continuous aeration.Our results showed that either N or P supplies could increase the growth rate of U.prolifera,but much more significant enhancement was found in the N enrichment than P enrichment.When the original biomass was set as 0.1 g/L,the relative growth rates of the control group,+P group,+N group and +N+P group were 0.68,0.69,0.72 and 0.75,respectively.There was a negative relation between the relative growth rate and biomass density.The biomass doubling time significantly shortened when N and P were added.When the original biomass was 0.2 g/L,the biomass doubling time of control group,+P group,+N group and +N+P group was 1.60,1.53,1.16,and 1.03 d,respectively.The fastest biomass doubling time was found in the thalli grown at N and P enrichments condition and 0.1 g/L initial biomass density,with the period of 0.92 d.Either N enrichment or P enrichment could increase the chlorophyll and carotenoid contents,as well as the net photosynthetic rate of U.prolifera.The maximum net photosynthetic rate and pigments contents in U.prolifera were found in the culture condition with a combination of simultaneous enrichment of N and P.There was a siganificant interaction between N and P enrichment.In summary,N,P enrichments can significantly promote the growth,increase the photosynthetic pigments and photosynthetic rate of U.prolifera,which may be an important mechanism of the bloom of U.prolifera.
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来源期刊
水产学报
水产学报 Environmental Science-Management, Monitoring, Policy and Law
CiteScore
1.40
自引率
0.00%
发文量
5213
期刊介绍: "Fisheries of" mainly reflects the results of scientific research and development of the direction of aquaculture for domestic and foreign academic exchanges Fisheries Service. Mainly basic research published in Fisheries, aquaculture and proliferation of fishing waters environmental protection, preservation of aquatic products processing and utilization, fishing equipment, and other aspects of mechanical papers, research briefings and reviewed.
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