几种环境因子对塔玛亚历山大藻（大鹏湾株）生长及其藻？…

在室内条件下研究温度（θ／℃）盐度（ρ／ｇＬ＾－１）及ｐＨ对有毒甲藻塔玛亚历山大藻（大鹏株）的生长及其毒力的影响,实验表明,塔玛亚历山大藻θｏｐｔ为１５－２５℃,最大生长率出现在接种后６－８ｄ;在盐度为１４－３２ｇ／Ｌ范围内,该藻均可生长,盐度２３－２７ｇ／Ｌ时生长最佳;在弱酸弱碱下,该藻可较好生长,ｐＨｏｐｔ＝６－７;用小白鼠法测得本藻株ｃ（ＨＣｌ）＝０．１ｍｏｌ／Ｌ提液的麻痹性贝毒毒力为０．５     

硝化菌群在不同条件下的增殖速率和硝化活性

研究了不同环境因子变化对硝化菌群的增殖能力及其对硝化作用活性的影响,确定了硝化菌群的最佳生长条件．研究发现,温度（θ／℃）、ｐＨ、供氧状况、无机碳源浓度等对于硝化细菌菌群的增殖能力及硝化作用活性具有较重要的影响,而含盐量高低几乎无影响．最适（θ、ｐＨ、［ρ（Ｏ２）］、［ρ（ＮａＨＣＯ３）］分别为３０℃、ｐＨ８．５、３．５ｍｇＬ－１、１ｇＬ－１,此时最大比生长速μｍ可达５．１８ｄ－１,最大比降解速υｍ可达４８．４３ｈ－１．在含氧量较低时,氨氮浓度的升高使硝化菌群的μ值下降,υ值上升．考察有机碳对该菌群的影响发现,ｍ（Ｃｏｒｇ）ｍ－１（Ｎ）在０～０．５之间时,菌群有较大的比生长速率,并且硝化作用活性增强     

煤加压气化废水加压曝气生物处理研究

加压曝气生物氧化新技术,新组合处理煤加压气化废水,ＣＯＤ负荷１５．６ｋｇ／（ｍ＾３·ｄ）,去除率９２．１％;ＮＨ３－Ｎ负荷０．５７ｋｇ／（ｍ＾３·ｄ）,去除率９１．０％,二项指标出水均达到国家排放标准。     

环境条件变化对太湖沉积物磷释放的影响

本文系统研究了环境条件变化对太湖沉积物磷释放的影响，结果表明：温度、ＰＨ、氧化还原条件对沉积物磷释放有很大影响，获得了在不同环境条件下磷释放的方程，结果还表明，厌氧下（ＤＯ〈１．０ｍｇ．ｌ＾－１）沉积物磷的最大释放量明显高于好氧条件（ＤＯ〉８．０ｍｇ．ｌ＾－１），其释放速率分别为３．１４μｇ．ｇ＾－１．ｄ＾－１和２．７５μｇ＾－１．ｄ＾－１，相应的动力学方程可表示为ＣＰ＝Ａｅ＾ｂ／ｔ，观察到藻与沉     

用化学发光法测定雨水中的氨

本文研究了用ＴＣＰＯ－Ｈ２Ｏ２发光体系对氨进行测定。结果表明，当ｐＨ＝１０．３，ＯＰＡ浓度为１０ｍｍｏｌ．ｌ＾－１，氨浓度在０－６ｍｇ．ｌ＾－１时，其浓度和发光强度有良好的线性关系（相关系数为０．９９８），本法的最低检出限为２ｎｇ．ｌ＾－１。可用于实际雨水样品的测定，测定结果还表明：本法具有灵敏度高，精度高，线性范围宽干扰少等优点，适用于大批量分析及连续自动监测分析。     

Fe（Ⅲ）水解过程中无机阴离子的影响作用

本文通过ＰＯ＾３－ ４，Ｆ＾－，ＳＯ＾２－ ４，Ｃｌ＾－，ＮＯ＾－ ３和ＣｌＯ＾－ ４存在时，０．１ｍｏｌ／１ ＦｅＣｌ３溶液的碱中和曲线的分析对比，说明了用曲线斜率区分滴定曲线为三个区域：（Ａ）自发水解反应；（Ｂ）聚合反应；（Ｃ）沉淀反应，以及阴离子对中和曲线的影响及其规律，指出阴子子对Ｆｅ（Ⅲ）浓度中和反应影响为不同程度的竞争配位，参与聚合及电中和脱稳，使沉淀反应提前等。并与ＯＨ＾－共同形成Ｆ     

原生质体转化构建有机磷农药降解工程菌

降解有机磷农药甲胺磷、敌敌畏和对硫磷的菌株地衣芽孢杆菌 Ｐ１２（ Ｂａｃｉｌｌｕｓｌｉｃｈｅｎｉｆｏｒｍｉｓ） 经溶菌酶处理获得原生质体,加入降解乐果的供体菌 Ｇ１ Ｄ Ｎ Ａ,经ρ（ Ｐ Ｅ Ｇ６ ０００） ＝ ３００ ｇ Ｌ－ １ 诱导,在液体再生培养基中振荡培养ｔ＝ ２０ ｈ ,使其恢复细胞壁后,离心收集菌体,涂布于含乐果的基础培养基上,经筛选得一转化子 Ｊ Ｐ Ｚ．其菌落形态明显不同于出发菌株,乐果平板连续传代１０ 次,性状保持稳定．在θ＝ ３０ ℃,１００ ｒ／ｍｉｎ 的培养条件下,３ ｄ 内对ρ（ 甲胺磷） ＝ ０ ．５ ｇ Ｌ－ １ ,ρ（ 敌敌畏） ＝ ０ ．２ ｇ Ｌ－ １ ,ρ（ 对硫磷） ＝ ０ ．１ ｇ Ｌ－ １ ,ρ（ 乐果） ＝ ０ ．３ ｇ Ｌ－ １ 的降解率分别为 Ｒｄ ＝ ７９ ．１ ％ ,４６ ．７ ％ ,２９ ．４ ％ 和４６ ．４ ％ ．     

亚硝酸盐氮地草鱼种耗氧率的影响及适应性研究

通过测定全血红蛋白和高铁血红慢白及耗氧率，研究了草鱼种在ＮＯ２－Ｎ作用下的生理变化和对ＮＯ２－Ｎ的应适用性，结果表明：ρ（ＮＯ２－Ｎ）在０－４ｍｇ．Ｌ＾－１范围内可使草鱼种耗氧率增中，并于１ｍｇ．Ｌ＾－１和４ｍｇ．Ｌ＾－１处出现峰值和次峰暴露处理的鱼种在恢复２１ｄ后，显示出对ＮＯ２－Ｎ的适应性。     

流动注射荧光分析法用于土壤及水系沉积物中铈（Ⅲ）含量的测定

研究表明Ｃｅ＾３＋在ｐＨ〈６．２ＫＣｌ介质中以２５４．０ｎｍ紫外光激发时，在３５２．０ｎｍ处发出具有恒定强度的荧光。因而可选择ｐＨ５－６作为测定酸度条件，利用Ａｌ２（ＳＯ４）３消除Ｆｅ＾３＋等离子的干扰，建立起Ｃｅ＾３＋的流动注射荧光分析法。方法的线性范围是２．０×１０＾－７—２．０×１０＾－６ｍｏｌ／ｌ，一元回归方程△Ｆ＝６６３６００Ｃ－０．０４１（ｎ＝１０，ｒ＝０．９９９７），检测限６．０×１     

垃圾填埋场渗滤液处理工艺研究

通过对垃圾填埋处理场渗滤液的处理工艺研究,并根据渗滤液的特性建立一套适合我国实际的 Ａ— Ｏ— Ｃ— Ｃ Ｌ 处理工艺．试验研究结果表明,出水ρ（ Ｃ Ｏ Ｄ Ｃｒ） ＝ ２０５ ．６ ｍｇ Ｌ－ １ 、ρ（ Ｂ Ｏ Ｄ５） ＝ １８ ．２ ｍｇ Ｌ－ １ 、ρ（ Ｎ Ｈ３ － Ｎ） ≈０ｍｇ Ｌ－ １ 、色度＝ ４０（ 倍） 、ｎ（ 大肠菌群数） ＝ ２００ 个 Ｌ－ １ ．达到 Ｇ Ｂ１６８８９ － １９９７《生活垃圾填埋污染控制标准》中对垃圾渗滤液排放要求的二级标准     

谷氨酰胺转胺酶(MTG)分批发酵中温度对S.mobaraense生长及产酶影响的模型化

研究了2.5L小罐培养过程中控制温度为25℃～35℃时对细胞生长和MTG合成的影响.结果表明当控制相对较低的温度时,细胞生长的延滞期较长,当控制温度较高时,细胞生长的延滞期较短,达到最大DCW和最高MTG酶活的时间均较短;通过研究各种不同模型对细胞生长的影响得到最适合描述S.mobaraense生长与温度之间的关系方程为Schoolfield方程;通过对最大DCW和最大MTG酶活进行数学模拟,发现方程X(U)=-a     

Metabolic rates of epipelagic marine copepods as a function of body mass and temperature

Metabolic rates (oxygen consumption, ammonia excretion, phosphate excretion) have been calculated as a function of body mass (dry, carbon, nitrogen and phosphorus weights) and habitat temperature, using multiple regression. The metabolic data used for this analysis were species structured, collected from Arctic to Antarctic seas (temperature range: -1.7°C to 29.0°C). The data were further divided into geographical and/or seasonal groups (35 species and 43 data sets for oxygen consumption; 38 species and 58 data sets for ammonia excretion; 22 species and 31 data sets for phosphate excretion). The results revealed that the variance attributed to body mass and temperature was highest (93-96%) for oxygen consumption rates, followed by ammonia excretion rates (74-80%) and phosphate excretion rates (46-56%). Among the various body mass units, the best correlation was provided by the nitrogen unit, followed by the dry weight unit. The calculated Q₁₀ values varied slightly according to the choice of body mass units; overall ranges were 1.8-2.1 for oxygen consumption rates, 1.8-2.0 for ammonia excretion rates and 1.6-1.9 for phosphate excretion rates. The effects of body mass and temperature on the metabolic quotients (O:N, N:P, O:P) were insignificant in most cases. Although the copepod metabolic data used in the present analysis were for adult and pre-adult stages, possible applications of the resultant regression equations to predict the metabolic rates of naupliar and early copepodite stages are discussed. Finally, global patterns of net growth efficiency [growth (growth+metabolism)^-1] of copepods were deduced by combining the present metabolic equation with Hirst and Lampitt's global growth equation for epipelagic marine copepods.     

Respiration and ammonia excretion by marine metazooplankton taxa: synthesis toward a global-bathymetric model

For thirteen representative taxa of metazooplankton from various depth horizons (<4,200 m) of the world’s oceans, respiration rate (681 datasets on 390 species) and ammonia excretion rate (266 datasets on 190 species) are compiled and analyzed as a function of body mass (dry mass, carbon or nitrogen), habitat temperature, habitat depth and taxon. Stepwise-regression analyses reveal that body mass is the most important parameter, followed by habitat temperature and habitat depth, whereas taxon is of lesser importance for both rates. The resultant multiple regression equations show that both respiration rate and ammonia excretion rate (per individual) increase with increase in body mass and habitat temperature, but decrease with habitat depth. Some taxa are characterized by significantly higher or lower rates of respiration or ammonia excretion than the others. Overall, the global-bathymetric models explain 93.4–94.2 % of the variance of respiration data and 80.8–89.7 % of the variance of ammonia excretion data. The atomic O:N ratios (respiration/ammonia excretion) are largely independent of body mass, habitat temperature, habitat depth and taxon, with a median of 17.8. The present results are discussed in light of the methodological constraints and the standing hypotheses for the relationship between metabolic rate and temperature. Perspectives for model improvement and possible application of it to plankton-imaging systems for rapid assessment of the role of metazooplankton in C or N cycles in the pelagic ecosystem are briefly discussed.     

Metabolic characteristics of midwater zooplankton: Ammonia excretion,O:N rations,and the effect of starvation

The nature of protein catabolism in a wide range of species of midwater zooplankton was investigated. The weight-specific ammonia excretion rates (g NH₃–N g^–1 dry wt h^–1, y) decline exponentially with minimum depth of occurreece (MDO, x), y=163.4 x^{–0.479±0.212} (95%ci) (CI=confidence interval), when temperature is held constant. The change in ammonia excretion can be partially explained by the decrease in percent protein (%P) with MDO, %P=80.17 MDO^{–0.148±0.122 (95%ci)} The atomic O:N ratio of freshly caught zooplankters ranged from 9.1 to 91, with most measurements between 9 and 25. Detailed studies were carried out on the response of one of the species studied (Gnathophausia ingens) to starvation (28 d). After 14 d of starvation the average ammonia excretion rate declined by more than 75% to less than 1 g NH₃–N g^–1 wet wt h^–1, although the average oxygen consumption declined by only 13% within the first 7 d of starvation and then remained stable. This differential response of oxygen consumption and ammonia excretion to starvation resulted in an increase in the average O:N ratio of starved animals from an initial 33 to 165 after 21 d. The average O:N ratios of fed mysids remained below 38 during the experiment. G. ingens maintains a relatively uniform metabolic rate during starvation by relying more heavily on its large lipid stores than when being fed.     

Influence of environmental salinity on oxygen consumption and ammonia excretion of the arctic under-ice amphipodOnisimus glacialis

Changes in salinity affect the metabolic rate of the sympagic amphipodOnisimus glacialis collected from the Barents Sea in 1986 and 1988. When transferred from 35 to 5 ppt S, oxygen consumption and ammonia excretion both increase three-fold during the first 5 h of exposure, and they remain high throughout the rest of the experimental period (26 h). During 24-h acclimation to various salinities (5 to 45 ppt), the amphipods exhibit a respiratory and excretory response to hyper- and hypoosmotic stress; however, a rather constant O:N atomic ratio (around 15) was obtained at the experimental salinities, indicating protein/lipids as metabolic substrate. Both rates of oxygen consumption and ammonia excretion increased with an increasing osmotic difference (0 to 650 mOsm) between the haemolymph and the environmental medium, indicating higher energy requirements for osmotic and ionic regulation at low salinities. In amphipods abruptly transferred from 35 to 5 ppt, a minor decrease of the haemolymph sodium concentrations together with an increased ammonia excretion output indicate a counter-ion regulation of NH ₄ ⁺ and Na⁺ during hyposmotic stress.     

Influence of temperature changes on oxygen uptake and ammonia and phosphate excretion,in relation to body size and weight,in Oikopleura dioica (Appendicularia)

The relationship between the rates of oxygen consumption, ammonia and phosphate excretion of a pelagic tunicate, the larvacean Oikopleura dioica Fol, 1872 were assessed as a function of size, dry weight and ash-free dry weight at 15°, 20° and 24°C. O. dioica has higher respiration and excretion rates than copepods of similar weight, but the weight exponent of the allometric power function: Y=aX ^b is similar to that of other poikilotherms. Temperatures above 20°C have a depressing effect on respiration and ammonia excretion. 90% of the variance in metabolic rates is explainable by body mass and temperatures Q₁₀ values for oxygen consumption, ammonia and phosphate excretion, respectively, are 2.45, 1.86 and 1.75 between 15° and 20°C, and 3.75, 2.90 and 3.60 between 20° and 24°C. Metabolic quotients (O:N, O:P, N:P) indicate a protein-oriented diet. The results of this study suggest weak metabolic regulation in O. dioica, an energetic strategy which allows an immediate response to favourable changes in feeding conditions.     

Experimental evaluation of the energy balance in Octopus vulgaris, fed ad libitum on a high-lipid diet

A complete energy balance equation was estimated for the common octopus Octopus vulgaris at a constant temperature of 20°C, fed ad libitum on anchovy fillet (Engraulis encrasicolus). Energy used for growth and respiration or lost with faeces and excreted ammonia was estimated, along with total energy consumption through food, for six specimens of O. vulgaris (with masses between 114 and 662 g). The energy balance equation was estimated for the specimens at 10-day intervals. During each 10-day interval, food consumed, body mass increase and quantity of faeces voided were measured. The calorific values of octopus flesh, anchovy flesh and faeces were measured by bomb calorimetry. Oxygen consumption and ammonia excretion rates were monitored for each specimen during three 24-h experiments and daily oxygen consumption and ammonia excretion were estimated. It was found that 58% of the energy consumed was used for respiration. The amount of energy invested in somatic and gonadal growth represented 26% of the total energy budget. The energy discarded through faeces was 13% of consumed energy. The estimated assimilation efficiency (AE) values of O. vulgaris feeding on anchovy (80.9–90.7%) were lower than the AE values estimated for other cephalopod species with different diets of lower lipid content such as crabs or mussels. Specific growth rates (SGR) ranged 0.43–0.95 and were similar to those reported for other high-lipid diets (bogue, sardine) and lower than SGR values found for low-lipid, high-protein diets (squid, crab, natural diet). Ammonia excretion peak (6 h after feeding) followed the one of oxygen consumption (1 h after feeding). The values of atomic oxygen-to-nitrogen (O:N) ratio indicated a protein-dominated metabolism for O. vulgaris.     

The effect of laboratory conditions on the extrapolation of experimental measurements to the ecology of marine zooplankton. IV. Changes in respiration and excretion rates of boreal zooplankton species maintained under fed and starved conditions

Herbivorous zooplankton species (Calanus plumchrus, Paracalanus parvus and Euphausia pacifica) and carnivorous species (Parathemisto pacifica and Pleurobrachia pileus) collected from Saanich Inlet, British Columbia, Canada, were maintained in the laboratory under fed and starved conditions. Respiration rate and excretion rates of ammonia and inorganic phosphate were measured successively on the same batch populations of each species in different feeding conditions. Respiration rate remained at a constant level or increased during the feeding experiment but decreased progressively in starved individuals. Herbivorous, but not carnivorous, species showed a rapid decrease in both excretion rates for the first few days of an experiment irrespective of feeding conditions. However, the general level of excretion rates of fed specimens was higher than that of starved ones. The O:N, N:P and O:P ratios were calculated from respiration, ammonia excretion and phosphate excretion and discussed in relation to metabolic substrates of animals during the experiment. A marked difference was shown in the O:N ratio between fed hervivores (>16) and fed carnivores (7 to 19), suggesting highly protein-oriented metabolism in the latter. One unknown factor causing variation in excretion rates is speculated to be the physiological stress on animals during sampling from the field. It is suggested that the laboratory measurement of realistic excretion rates of zooplankton is difficult owing to their large fluctuations, but this is not the case with respiration rate.     

Respiration and ammonia excretion of euphausiid crustaceans: synthesis toward a global-bathymetric model

Respiration and ammonia excretion rates of 19–24 euphausiids from the epipelagic through bathypelagic zones of the world’s oceans were compiled. Body mass (expressed in terms of dry mass, carbon or nitrogen), habitat temperature and sampling depth were designated as parameters in multiple regression analysis. Results suggested that the three parameters were highly significant, contributing 71–89 % of the variance in respiration rates and 69–81 % of the variance in ammonia excretion rates. Atomic O:N ratios derived from simultaneous measurements of respiration and ammonia excretion rates ranged from 11 to 90 (median: 27), and no appreciable effects of the three parameters on O:N ratios were detected. If global-bathymetric models for the metabolism and chemical composition of copepods and chaetognaths are compared with those of euphausiids, it becomes evident that euphausiids are unique in that they maintain high metabolic rates and accumulate moderate amounts of energy reserves (lipids).     

Physiological and behavioural responses of the intertidal scavenging gastropod Nassarius festivus to salinity changes

Physiology (oxygen consumption and ammonia excretion) and behaviour (feeding and activity) of the intertidal gastropod Nassarius festivus (Powys) at five different salinities [15, 20, 25 (control), 30 and 35‰] were studied for 4 weeks. Oxygen consumption and ammonia excretion rates were reduced immediately after salinity was either elevated or reduced. Subsequently, both rates were increased while the O:N ratio was decreased at all salinities, including the control, in the first 2 weeks and then levelled off. Such changes were probably attributed to osmotic adjustment and reproductive activity. Activity and feeding were reduced at low salinity, particularly in the first week. Reproductive output, in terms of the total number of egg capsules and the mean number of eggs per capsule, was also lowered at reduced salinities. Nevertheless, individuals at all salinities are able to maintain a positive energy balance. Results are discussed with respect to the distribution of N. festivus in Hong Kong waters. Received: 14 April 1997 / Accepted: 9 May 1997