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221.
大宁河水体营养盐状况与水华爆发之间关系分析 总被引:4,自引:2,他引:2
通过对大宁河常规监测和水华爆发期间加密监测断面的氮、磷营养盐指标统计,运用综合评价、相关性分析等方法对大宁河氮、磷营养盐分布和叶绿素a与总磷、总氮的关系进行了分析.结果显示,水华爆发期间叶绿素a与总磷、总氮呈正相关关系,总磷是大宁河水华爆发的限制因子.氮磷水平呈现从上游到入长江口逐渐递增趋势,长江回灌作用对大宁河输入部分氮、磷营养盐. 相似文献
222.
不同形态的营养盐在不同介质(层面)中会对藻类生长产生不同的影响,本研究构建了同时考虑水环境中、藻细胞膜界面上和藻细胞膜内营养盐浓度,尤其营养盐在藻细胞界面吸附/脱附作用的藻类生长数值模型,通过数值计算进行了参数率定和验证.结果显示,实验测试值与本模型计算值的平均相对误差小于6.90%,而且,本模型与未考虑营养盐吸附/脱附作用模型的最大绝对值累积相对误差分别为11.70%和34.18%.显然,本研究提出的这种藻类生长模型与实测数据吻合更好,能够更准确、合理和真实地描述藻类生长状态与变化趋势.本模型反映出的细胞膜界面浓度,体现了藻细胞在光暗交替情况下吸收营养盐的变化,同时表达了藻细胞内部ATP浓度的变化状态,使外界营养盐浓度同藻细胞自身营养状态之间,也就是在微观和中观层次之间建立起具有理论指导意义的相互关联作用. 相似文献
223.
溶藻细菌及其分子生物学研究进展 总被引:4,自引:0,他引:4
溶藻细菌在"水华"防治中的作用和潜力,已广受关注.本文从系统分类、溶藻机制和杀藻物质等方面对已报道的溶藻细菌的研究结果进行了归纳和总结,并对近年来在细菌溶藻研究中应用的分子生物学技术,包括PCR、核酸探针和全细胞杂交、变性梯度凝胶电泳(DGGE)等,以及溶藻机制研究巾的分子生物学进展进行了综述,最后提出了在溶藻细菌的研究和应用中值得注意的几个问题.表1参66 相似文献
224.
无锡太湖水源地藻类爆发应急管理与处置体系研究 总被引:1,自引:0,他引:1
本文通过对太湖蓝藻爆发事件的分析,揭示了我国水源地藻类爆发应急管理和处置体系存在预警、预案机制不完善,监测机制与预警机制脱节,公众信息系统不健全、公开透明程度欠缺等不足,并设计出一套水源地藻类爆发应急处理体系,包括监测检测、应急处理、长效治理和管理体系,以应对该类事件的再次发生。 相似文献
225.
将水华鱼腥藻附着固定在改性的弹性聚氯乙烯载体表面形成藻类生物膜,用于研究其脱氮除磷动力学过程。保持氮磷比约为11∶1,配制NH+4-N和PO3-4-P初始浓度变化范围分别为4.31~229.91和1.70~69.15 mg/L的模拟废水,在废水p H为6.8~7.2、室温、光照强度3 500 lx、连续光照条件下培养藻类生物膜,利用Michaelis-Menten模型测定产率系数Y、反应速率常数k与半饱和常数Km。结果显示,藻类生物膜对氮、磷的去除速率随着营养物质浓度的升高而增加;与磷相比,藻类生物膜对氮的利用效率更高。藻类生物膜脱氮除磷动力学系数分别为:1 N:Y=0.72(mg/m2chla)/(mg/L NH+4-N),k=1.24(mg/L NH+4-N)/((mg/m2chla)·d),Km=17.88 mg/L;2 P:Y=2.50(mg/m2chla)/(mg/L PO3-4-P),k=0.35(mg/L PO3-4-P)/(mg/m2chla)/d,Km=7.29 mg/L。 相似文献
226.
三峡库区支流回水区水体分层与藻类生长 总被引:4,自引:0,他引:4
三峡水库自2003年蓄水以来,库区支流形成了长短不一的回水河段,缓慢的水流和蓄积的营养盐导致回水河段由库区蓄水之初在短时间内出现水华,逐步发展到一年内水华可维持数月。为了研究回水区水环境与水华发生的关系,从2013年4月—12月,对库区北岸最大支流澎溪河的长年回水区——高阳平湖进行了定点监测。监测结果显示,季节性变化及三峡库区特殊的调度方式,导致高阳平湖水体在春、夏和秋季有明显分层。春季水华期间藻类群落结构单一,只出现4门9属,以蓝藻门的微囊藻(Microcystis)、绿藻门的实球藻(Pandorina)和空球藻(Eudorina)为主,秋季藻类结构组成增至7门52属,优势属逐渐被硅藻门的小环藻(Cyclotella)和针杆藻(Synedra)取代,水体各层藻类细胞密度差异消失。研究结果说明高阳平湖水体分层状况影响藻类生长和分布。 相似文献
227.
以TiCl4和钠基蒙脱土为原料,采用水解法制备了TiO2-蒙脱土复合材料,采用XRD、IR和TEM对其结构和性质进行表征;通过藻细胞的内含物含量、生长代谢活性和形态的变化以及藻细胞膜脂质过氧化分析,研究了TiO2-蒙脱土复合材料在光辅助下去除颤藻的性能.结果表明,TiO2-蒙脱土复合材料中一部分TiO2插入蒙脱层间,增加了蒙脱土的层间距,另一部分以锐钛矿相均匀分散在蒙脱土上;在紫外光辅助下,TiO2-蒙脱土的用量为50.0 mg/L,lh后颤藻的除藻率可达94.58%;TiO2-蒙脱土通过光催化作用破坏藻细胞膜、降解藻细胞内含物、降低藻细胞代谢活性和破坏藻细胞形态,从而产生抑藻作用. 相似文献
228.
229.
Gerald L. Kurten Aaron Barkoh Drew C. Begley Loraine T. Fries 《Journal of the American Water Resources Association》2010,46(1):170-186
Kurten, Gerald L., Aaron Barkoh, Drew C. Begley, and Loraine T. Fries, 2010. Refining Nitrogen and Phosphorus Fertilization Strategies for Controlling the Toxigenic Alga Prymnesium parvum. Journal of the American Water Resources Association (JAWRA) 46(1):170-186. DOI: 10.1111/j.1752-1688.2009.00401.x Abstract: Previous studies have shown that three times weekly applications of phosphorus (30 μg P/l) and nitrogen (300 μg N/l) were effective at reducing the density and toxicity of the alga Prymnesium parvum in limnocorrals simulating a 40-day moronid (e.g., striped bass, Morone saxatilis, and palmetto bass, M. saxatilis ×Morone chrysops) fingerling culture period. However, this fertilization regime produced high pH and unionized ammonia-N concentrations that are detrimental to the survival of moronid fry and fingerlings. In two follow-up experiments we changed the source of N from ammonia to nitrate, reduced fertilization rates, and examined the effect of N-only or P-only fertilization. In the first experiment P fertilization rates were reduced by one-half to 15 μg P/l and NO3-N was substituted for NH3-N at the previously used rate of 300 μg N/l. In the second experiment, N fertilization rates were reduced to 150 μg N/l and the frequency of fertilization was determined by pH and P. parvum responses. Nitrate appeared to be as effective as ammonia as a source of N and when used in combination with P reduced P. parvum cell density and ichthyotoxicity. However, reduced N and P application rates and lower pond water temperatures during the study appeared to have decreased the speed at which fertilization produced these effects. While lower fertilization rates reduced algal productivity, high pH remained a concern for fish culture although pH was reduced to levels that might be acceptable with careful management of fish culture activities. Neither N-only nor P-only fertilization had a measurable effect on algal productivity or eliminated P. parvum and its toxicity. Furthermore, P-only fertilization may have increased P. parvum density and toxicity. For controlling P. parvum density and ichthyotoxicity we recommend a fertilization rate of 212 μg NO3-N/l plus 30 μg PO4-P/l applied three times weekly for aquaculture ponds where high pH is not a concern. Where high pH is a concern we recommend a fertilization rate of 117 μg NO3-N/l plus 16 μg PO4-P/l applied three times weekly with careful attention to afternoon pond pH. 相似文献
230.
Bryan W. Brooks Susan V. James Theodore W. Valenti Jr. Fabiola Urena-Boeck Carlos Serrano Jason P. Berninger Leslie Schwierzke Laura D. Mydlarz James P. Grover Daniel L. Roelke 《Journal of the American Water Resources Association》2010,46(1):45-62
Brooks, Bryan W., Susan V. James, Theodore W. Valenti, Jr., Fabiola Urena-Boeck, Carlos Serrano, Jason P. Berninger, Leslie Schwierzke, Laura D. Mydlarz, James P. Grover, and Daniel L. Roelke, 2010. Comparative Toxicity of Prymnesium parvum in Inland Waters. Journal of the American Water Resources Association (JAWRA) 46(1):45-62. DOI: 10.1111/j.1752-1688.2009.00390.x Abstract: Numerous studies have examined the impacts of Prymnesium parvum to aquatic life, but the majority of information available is from experiments or field studies performed at salinities of marine and coastal ecosystems. Ambient toxicity of P. parvum has been characterized with in vitro and in vivo models because reliable quantitation of P. parvum toxins in environmental matrices is often precluded by a lack of available analytical standards. Hemolytic activity and fish mortality assays have been used most frequently to characterize toxic conditions; however, relatively few in vivo studies employed standardized methods. Because the relative sensitivities of different taxa to P. parvum toxins in inland waters were undefined, we assessed the comparative toxicity of P. parvum filtrate from a laboratory study (20°C, 12:12 light:dark cycle, f/8 media, 2.4 psu) to several common standardized in vitro and in vivo models. After exposure to cell-free filtrate hemolytic activity (1 h EC50 = 13,712 cells/ml) and juvenile fish (Pimephales promelas) survival (48 h LC50 = 21,754 cells/ml) were the most sensitive assay responses examined, followed by rotifer (Brachionus calyciflorus) population growth rate [48 h no observable adverse effect levels (NOAEL) = 19,072 cells/ml] and cladoceran (Daphnia magna) reproduction (10-day NOAEL = 47,680 cells/ml). Green algae (Pseudokirchneriella subcapitata) growth (96 h) was not adversely affected but was instead significantly stimulated by P. parvum toxins. We further propose an initial species sensitivity distribution approach for P. parvum, which may be used to support future environmental management decisions. Our findings from these laboratory studies indicate that although fish kills are increasingly associated with P. parvum blooms occurring in inland waters, further study is required to define the influences of toxin sensitivities of phytoplankton, zooplankton, and fish communities on P. parvum bloom initiation and termination. 相似文献