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21.
氨氮和亚硝酸盐对红螯螯虾幼虾和亚成虾的急性毒力 总被引:2,自引:0,他引:2
【目的】近年来,红螯螯虾养殖面积越来越广泛,明确不同规格的红螯螯虾对氨氮和亚硝酸盐的耐受力,有利于提高其养成率,促进其养殖业的健康发展。【方法】在水温24~25℃、p H 7.9~8.0的条件下,研究了氨氮和亚硝酸盐对红螯螯虾幼虾和亚成虾的急性毒性,分析半致死浓度(LC50)和安全浓度(SC)。【结果】总氨氮对红螯螯虾幼虾的24、48、72和96 h LC50分别为188.0、136.15、104.67和88.00 mg·L~(-1),SC为8.80 mg·L~(-1);总氨氮对亚成虾的24、48、72和96 h LC50分别为344.01、270.46、205.15和167.68 mg·L~(-1),SC为16.77 mg·L~(-1);非离子氨对幼虾的24、48、72和96 h LC50分别为10.16、7.35、5.65和4.75 mg·L~(-1),SC为0.48 mg·L~(-1);非离子氨对亚成虾的24、48、72和96 h LC50分别为18.58、14.60、11.08和9.05 mg·L~(-1),SC为0.91 mg·L~(-1);亚硝酸盐对幼虾的24、48、72和96 h LC50分别为46.76、33.88、27.97和22.81 mg·L~(-1),SC为2.28 mg·L~(-1);亚硝酸盐对亚成虾的24、48、72和96 h LC50分别为77.56、59.33、45.41和37.48 mg·L~(-1),SC为3.75 mg·L~(-1)。【结论】红螯螯虾对氨氮的耐受力高于亚硝酸盐,亚成虾对氨氮和亚硝酸盐的耐受力高于幼虾。 相似文献
22.
Giorgio Giardina Serena Rinaldo Nicoletta Castiglione Manuela Caruso Francesca Cutruzzolà 《Proteins》2009,77(1):174-180
The opportunistic pathogen Pseudomonas aeruginosa can grow in low oxygen, because it is capable of anaerobic respiration using nitrate as a terminal electron acceptor (denitrification). An intermediate of the denitrification pathway is nitric oxide, a compound that may become cytotoxic at high concentration. The intracellular levels of nitric oxide are tightly controlled by regulating the expression of the enzymes responsible for its synthesis and degradation (nitrite and nitric oxide reductases). In this article, we present the crystallographic structure of the wild‐type dissimilative nitrate respiration regulator (DNR), a master regulator controlling expression of the denitrification machinery and a putative target for new therapeutic strategies. Comparison with other structures among the CRP‐FNR class of regulators reveals that DNR has crystallized in a conformation that has never been observed before. In particular, the sensing domain of DNR has undergone a rotation of more than 50° with respect to the other structures. This suggests that DNR may undergo an unexpected and very large conformational rearrangement on activation. Proteins 2009. © 2009 Wiley‐Liss, Inc. 相似文献
23.
24.
研究了回转式凡纳滨对虾温室集约化养殖池中氨化菌与硝化菌的演变状况.在回转式凡纳滨对虾温室集约化养殖试验中,养殖全过程不换水、不用药,利用净水网草片、复合微生物制剂、水循环与水生植物净化水质,适时排污,使养殖水体的微生物指标与水化学指标有效控制在虾生长合适范围内.试验期间,248号池水中主要微生物指标平均值如下:氨化细菌为1080000±2411556 cfu/mL,亚硝化细菌898±1124cfu/mL,硝化细菌为1700±759 cfu/L;250号池水中主要微生物指标平均值如下:氨化细菌为881000±1793815 cfu/mL,亚硝化细菌1306±1550 cfu/mL,硝化细菌为2250±2047 cfu/L.同时,实验表明,利用净水草网片能取得良好的净化水质的效果和具有抗不利环境冲击的能力.利用这种养殖模式和相应的管理,养殖用水得到有效的控制,养殖效果良好. 相似文献
25.
Improved nitrogen removal by application of new nitrogen-cycle bacteria 总被引:14,自引:0,他引:14
Jetten Mike S.M. Schmid Markus Schmidt Ingo Wubben Mariska van Dongen Udo Abma Wiebe Sliekers Olav Revsbech Niels Peter Beaumont Hubertus J.E. Ottosen Lars Volcke Eveline Laanbroek H.J. Campos-Gomez Jose Luis Cole Jeff van Loosdrecht Mark Mulder Jan Willem Fuerst John Richardson David van de Pas Katinka Mendez-Pampin Ramon Third Katie Cirpus Irina van Spanning Rob Bollmann Annette Nielsen Lars Peter den Camp Huub Op Schultz Carl Gundersen Jens Vanrolleghem Peter Strous Marc Wagner Michael Kuenen J. Gijs 《Reviews in Environmental Science and Biotechnology》2002,1(1):51-63
In order to meet increasingly stringentEuropean discharge standards, new applicationsand control strategies for the sustainableremoval of ammonia from wastewater have to beimplemented. In this paper we discuss anitrogen removal system based on the processesof partial nitrification and anoxic ammoniaoxidation (anammox). The anammox process offersgreat opportunities to remove ammonia in fullyautotrophic systems with biomass retention. Noorganic carbon is needed in such nitrogenremoval system, since ammonia is used aselectron donor for nitrite reduction. Thenitrite can be produced from ammonia inoxygen-limited biofilm systems or in continuousprocesses without biomass retention. Forsuccessful implementation of the combinedprocesses, accurate biosensors for measuringammonia and nitrite concentrations, insight inthe complex microbial communities involved, andnew control strategies have to be developed andevaluated. 相似文献
26.
New pathways for ammonia conversion in soil and aquatic systems 总被引:9,自引:0,他引:9
Ammonia conversion processes are essential for most soil and aquatic systems. Under natural conditions, the many possible reactions are difficult to analyze. For example, nitrification and denitrification have long been regarded as separate phenomena performed by different groups of bacteria in segregated areas of soils, sediments or aquatic systems sequentially in time. It has now been established that strict segregation in place and time of the two processes is not necessary and that both denitrifiers and nitrifiers have versatile metabolisms. However, the rates described for aerobic denitrifiers are very low compared to the rates observed under anoxic conditions. Also the rates of nitrifier denitrification are quite low, indicating that these conversions may not play an important role under natural conditions. In addition, these processes often result in the emission of quite large amounts of undesirable products, NO and N2O. Heterotrophic nitrification might be of relevance for systems, that contain a high carbon to nitrogen ratio. Recently, a novel process (Anammox) has been discovered in which ammonium serves as the electron donor for denitrification of nitrite into dinitrogen gas. 15N labeling studies showed that hydrazine and hydroxylamine were important intermediates in this process. Enrichment cultures on ammonium, nitrite and bicarbonate resulted in the dominance of one morphotypical microorganism. The growth rate of the cultures is extremely low (doubling time 11 days), but the affinity for ammonium and nitrite and the conversion rates (9.2 10–4 mol kg–1 s–1) are quite high. Some of the reported high nitrogen losses in soil and aquatic systems might be attributed to anaerobic ammonium oxidation. In addition, this conversion offers new opportunities for nitrogen removal, when it is combined with recently developed processes for partial nitrification. 相似文献
27.
Serena Rinaldo Giorgio GiardinaFrancesca Cutruzzolà 《Biochemical and biophysical research communications》2014
The reduction of nitrite into nitric oxide (NO) in denitrifying bacteria is catalyzed by nitrite reductase. In several species, this enzyme is a heme-containing protein with one c heme and one d1 heme per monomer (cd1NiR), encoded by the nirS gene. 相似文献
28.
亚硝酸盐是氮循环过程的中间产物,其积累超过一定量则会抑制微生物的生长与代谢,也会给人与水生生物带来健康风险。而在高氮污水生物脱氮工艺中,持续维持亚硝酸盐的积累能实现短程硝化过程,降低生物脱氮的能耗进而降低运营成本。本文综述了在水环境中亚硝酸盐积累的生物过程与积累原因,并对影响亚硝酸盐积累的因素进行了总结,旨在为提高污水处理过程中氮的去除效率,降低运营成本,减少排放污水及自然水体中亚硝态氮含量提供参考。 相似文献
29.
Background and aimSodium nitrite (NaNO2) is an inorganic salt with numerous applications in a variety of industries, as well as in medicine. Nevertheless, exposure to high levels of NaNO2 is toxic for animals and humans. Sodium nitrite intoxication is shown to decrease the activity of major antioxidant defence enzymes which is dependent on the maintenance of specific ion equilibrium. The aim of the present study was to investigate the effect of acute NaNO2 intoxication on the content of the essential metals iron (Fe), calcium (Ca) and zinc (Zn) in mouse spleen.MethodsMature male ICR mice were divided into four groups and subjected to acute NaNO2 exposure by a single intraperitoneal injection of 120 mg/kg body weight. Animals in each group were sacrificed at certain time interval after treatment (1 h, 5 h, 1 day and 2 days). Spleens were excised and processed for atomic absorption spectrometry analysis of Fe, Ca and Zn content.ResultsAt the first hour after treatment, a decrease in Fe and Ca levels was observed. One day following NaNO2 administration, Zn concentration reached its lowest value and Ca levels remained lower, compared to the untreated controls. In contrast, Fe concentration increased on the first and second day after treatment.ConclusionThe results of the present study demonstrate that acute NaNO2 intoxication provokes changes in the endogenous levels of Fe, Ca and Zn in mouse spleen. These findings suggest disruption of the ionic balance and impact on the activity of antioxidant defence enzymes. 相似文献
30.
Sebastián Carballal Ernesto Cuevasanta Pramod K. Yadav Carmen Gherasim David P. Ballou Beatriz Alvarez Ruma Banerjee 《The Journal of biological chemistry》2016,291(15):8004-8013
Cystathionine β-synthase (CBS) is a pyridoxal phosphate-dependent enzyme that catalyzes the condensation of homocysteine with serine or with cysteine to form cystathionine and either water or hydrogen sulfide, respectively. Human CBS possesses a noncatalytic heme cofactor with cysteine and histidine as ligands, which in its oxidized state is relatively unreactive. Ferric CBS (Fe(III)-CBS) can be reduced by strong chemical and biochemical reductants to Fe(II)-CBS, which can bind carbon monoxide (CO) or nitric oxide (NO•), leading to inactive enzyme. Alternatively, Fe(II)-CBS can be reoxidized by O2 to Fe(III)-CBS, forming superoxide radical anion (O2˙̄). In this study, we describe the kinetics of nitrite (NO2−) reduction by Fe(II)-CBS to form Fe(II)NO•-CBS. The second order rate constant for the reaction of Fe(II)-CBS with nitrite was obtained at low dithionite concentrations. Reoxidation of Fe(II)NO•-CBS by O2 showed complex kinetic behavior and led to peroxynitrite (ONOO−) formation, which was detected using the fluorescent probe, coumarin boronic acid. Thus, in addition to being a potential source of superoxide radical, CBS constitutes a previously unrecognized source of NO• and peroxynitrite. 相似文献