鲢放养和施肥对盐碱池塘围隔生态系统浮游生物群落的影响

报道了单养链（Hypophthalmichthys molitrix)和施肥对盐碱池塘围隔生态系统浮游生物群落的影响,链的放养使浮游植物丰度,叶绿素a 含量和和初组生产力增大,浮游植物小型化,生物量以小型硅藻和绿藻占优势,裸藻和金藻占有相当比重;浮游动物生物量减少,特别是枝角类的生物量无鱼围隔大于有鱼围隔,且多是较大型的种类,施肥特别是施无机肥能显著地提高浮游植物丰度和初级生产力,浮游动物生物量也增大,施有机肥围隔浮游植物和浮游动物生物量虽高于有鱼对照围隔,但其浮游植物初级生产力,叶绿素a含量,浮游生物多样性指数,P／R系数均较低,链鱼的生长最差,文中讨论了滤食性鱼类和施肥对浮游生物的影响。     

温度,盐度,碱度对池沼公鱼胚胎发育的影响

池沼公鱼(Hypomesus olidus Pallas)是亚冷水小型经济鱼类,栖居于淡水、河口咸淡水中。近年来国内池沼公鱼移植广泛展开,为探讨池沼公鱼对不同生态条件的生存适应能力和     

鲤鱼种和鲢鳙对池塘浮游生物的影响

本文根据１９９０年－９月对９个鱼池的研究,报道鲤鱼种和鲢鳙对浮游生物的影响,结果表明：鲤鱼种使浮游植物和浮游动物生物量增加,浮游植物大型化,浮游动物小型化,并使浮游植物多样性增加,浮游动物多样性下降;鲢鳙密度增加,浮生物小型明显,微型藻类和超微在在浮植物中所占比重显著增加,小型浮游动物（原生动物和轮虫）在浮游动物中比重也明显增;鲢鳙密度对浮游生物多样性和浮游生物量的影响具有阶段性,当鲢鳙密度低时,     

罗非鱼对盐碱池塘围隔浮游生物群落的影响

本文报道了单养尼罗罗非鱼 (Orecohromisniloticus)对施肥处理下盐碱池塘围隔生态系统浮游生物群落的影响。结果表明 ,罗非鱼的放养使浮游植物丰度、叶绿素a含量和初级生产力增大 ,浮游植物小型化 ,生物量以小型硅藻和绿藻占优势 ,裸藻占有相当比重 ;浮游动物生物量也增大 ,桡足类占优势 ,枝角类小型化 ,原生动物密度增大。施肥特别是施有机肥能显著地提高浮游植物生物量 ,使透明度降低 ,但施无机肥对初级生产力和浮游动物生物量影响不大。施有机肥围隔浮游植物和浮游动物密度、浮游动物生物量和浮游生物多样性指数高于其他有鱼围隔 ,罗非鱼的生长最好。文后讨论了罗非鱼滤食和施肥对浮游生物群落结构的影响 ,并与鲢鱼的实验结果 (赵文 ,1999)进行了比较     

罗非鱼对盐碱池塘围隔浮生物群落的影响

本文报道了单养尼罗罗非鱼（Ｏｒｅｃｏｈｒｏｍｉｓ ｎｉｌｏｔｉｃｕｓ）对施肥处理下盐碱池塘围隔生态系统浮游生物群落的影响。结果表明,罗非鱼的放养使浮游植物丰度、叶绿素ａ含量和初级生产力增大,浮游植物小型化,生物量以小型硅藻和绿藻占优势,裸藻占有相当比重;浮游动物生物量也增大,桡足类占优势,枝角类小型化,原生动物密度增大。施肥特别是施有机肥能显著提高浮游植物生物量,使透明度降低,但施无机肥对初级生产     

三峡库区浮游生物群落DNA结构与水体理化因子的分析

本文对三峡水库大坝至香溪河段所设A、B、C、D、E、F和G等7个站点浮游生物群落DNA进行了RAPD分子生物学研究,并分析了其与水体理化因子的关系。各站点间RAPD研究表明：D和E首先聚到一组, 然后与A聚到一起, 最后与C聚成一大类;B和F聚成一大类;而站点G独自归于一类。而理化因子聚类结果显示：B首先与C聚为一小类,再与D聚到一起,然后与G、F聚成的小类聚为一类,而E与A分别单独归为一类。比较发现,RAPD聚类结果中相距较近的站点在理化因子聚类中显示为相距较远的站点（如站点A、C、D、E之间）,而在RAPD聚类中相距较远的站点在理化因子聚类中显示为相距较近的站点（如站点B、F分别与G之间）,这可能因为它们之间存在负相关性,也可能部分因为试验条件本身所造成的误差。为确定浮游生物DNA指纹结构与理化因子的关系提供了新的信息,进而为建立一种新的水质评价体系积累了理化因子的一些背景资料。     

NaCl盐度和NaHCO3碱度对松浦镜鲤、方正鲫的孵化及其仔鱼存活的影响

研究了NaCl盐度(0、1、3、5、7、9)和NaHCO3碱度(1.00 mmol/L、10.00 mmol/L、15.85 mmol/L、25.12 mmol/L、39.81 mmol/L、63.10 mmol/L)对松浦镜鲤(Cynipus carpio)与方正鲫(Carassius auratus gibelio)的孵化率、畸形率以及仔鱼24 h和48 h存活率的影响。1盐度实验结果,松浦镜鲤在盐度为0、1时,受精卵的孵化率较高,平均为72.40%±6.09%;在盐度0~3时,孵出仔鱼畸形率较低,平均为6.02%±1.87%,48 h存活率较高,平均为94.99%±6.44%。方正鲫在盐度0~3时,受精卵的孵化率较高,平均为68.03%±15.44%;在盐度0~5时,孵出仔鱼畸形率较低,平均为7.95%±3.24%,48 h存活率较高,平均为88.52%±9.19%。2碱度实验结果,这两种鱼的孵化率在碱度1.00~25.12 mmol/L时较高,松浦镜鲤平均为47.96%±8.43%,方正鲫平均为66.23%±18.11%。畸形率在碱度1.00~15.85 mmol/L范围内较低,松浦镜鲤平均为12.47%±3.77%,方正鲫平均为12.46%±8.44%。48 h存活率在碱度1.00~15.85 mmol/L时较高,松浦镜鲤平均为96.16%±5.04%,方正鲫平均为85.62%±3.73%。综合各项指标,松浦镜鲤和方正鲫人工孵化用水建议盐度控制在3以内,碱度控制在15 mmol/L以内。     

海洋微型和微微型浮游生物的区域分布与影响因素

微型和微微型浮游生物几乎存在于所有的海洋生态系统中,其群落遍布世界各大洋。在大部分海域,微型浮游生物的优势类群为鞭毛藻;原绿球藻是贫营养海域的优势类群,而聚球藻、微微型真核生物和异养细菌主要在营养盐丰富的海域出现,在热带、亚热带和温带的富营养区域占优势。温度、盐度、光照、营养盐可得性、水体稳定性和摄食压力是影响微型和微微型浮游生物的主要因素,各海域主要调控因子的不同造成了微型和微微型浮游生物类群和丰度分布的差异。本文主要综述海洋微型和微微型浮游生物类群检测方法、区域分布特点及其受环境影响的研究概况,并提出了今后的重点研究内容和发展方向。     

湖北长湖夏、秋季浮游生物功能群特征及主要影响因子

为了解长湖浮游生物功能群特征及其主要影响因子, 于2017年7月(夏)及10月(秋)对长湖进行2次采样调查, 并结合冗余分析法(Redundancy analysis, RDA)和Pearson相关性分析法分析了浮游生物功能群的主要影响因子。结果显示, 鉴定出浮游植物7门49属, 共95种, 划分为25个浮游植物功能群, 平均密度为5.12×106 ind./L, 平均生物量为1.663 mg/L; 鉴定出浮游动物3门41属, 共59种, 划分为8个浮游动物功能群, 平均密度为3.76×103 ind./L, 平均生物量为2.803 mg/L。从功能群的平均密度和生物量来看, 夏季显著高于秋季(P＜0.01), 其中夏季H1站位浮游动物功能群的密度最高, 秋季Y4站位的浮游生物密度和生物量均较高, 且存在功能群A、LCF向E和K的演替趋势。从优势功能群种类来看, B、D、J、L₀、MP、P、T_C、PF、RF及SCF是夏、秋两季的共有优势功能群, 其中L₀、T_C、RF及PF是绝对优势功能群。综合各功能群的主要代表种构成及其适应的生境特征表明, 长湖鱼类对浮游生物的摄食压力较大且水质仍处于富营养化状态。冗余分析结果显示, TN、TP及DO为影响长湖浮游生物功能群的主要环境因子, 水温及pH也与多数功能群呈明显正相关性。Pearson相关性分析结果显示, 浮游植物功能群B、D、J、L₀、Y及浮游动物PF、RF、SCF等彼此间多数具有极显著的相关性(P＜0.01), 竞争及捕食等生物活动对功能群特征影响较明显。     

洞庭湖浮游生物群落DNA指纹与理化因子的关系

对东洞庭湖7个采样站点的浮游生物群落DNA多态性进行了RAPD指纹分析,并探讨了其DNA指纹与理化因子的关系。结果如下:(1)从80条随机引物中筛选出的11条引物共获得148条谱带,多态率为98.6%;所用引物在各站点可获得45—70条扩增谱带,平均为57.6条,其中Ⅳ站最少;(2)Ⅳ站的泥沙含量最高(75.5mg/L),其他各站在1.2—40.3mg/L;各站点间的pH值比较接近,都呈弱碱性;Ⅰ站的TN、TDN及TP含量最高,Ⅲ站的TDP最高,但各站点相差不大。相似性聚类分析表明,浮游生物群落DNA指纹将7个站点划分为两大类———Ⅳ站作为单独的一类而明显有别于其他6个站点,这与洞庭湖浮游生物分布的主要制约因子———泥沙含量的聚类结果是一致的。因此,研究表明浮游生物群落DNA指纹与环境主要限制因子是密切相关的,这类资料的积累将为建立简易、有效的水资源质量评价体系提供科学依据。     

中国林蛙变态蝌蚪对pH、盐度和碱度的适应性

在水温16～18℃的野外条件下,采用单因子急性毒性实验法,研究了水环境中pH、盐度和碱度对中国林蛙(Rana chensinensis)变态蝌蚪的毒性效应．结果表明,中国林蛙变态蝌蚪对pH的适应范围为4．3～9．7,最低耐受限3．6,最高耐受限10．7;对盐度的最高耐受限为9．98g·L^-1,适应盐度上限7．14g·L^-1,安全盐度上限1．70g·L^-1;对碱度的最高耐受限为19．96mmol·L^-1,适应碱度上限8．76mmol·L^-1。安全碱度上限2．41mmol·L^-1．野外变态蝌蚪饲养池水体pH应控制在6．5～8．5,盐度控制在2．0g·L^-1以下,碱度不超过4．0mmol·L^-1．中国林蛙变态蝌蚪是一种狭酸碱、低耐盐、低耐碱生物。     

滩涂富营养池塘中浮游生物种群结构及其生态调控研究

本文研究了种植芦苇和菖蒲,放养鲢,接种有益微生物对滩涂富营养水体藻类和浮游动物的群落结构、数量、生物量等。不同处理藻的种类有差异,对照和放养鲢水体无隐藻门和黄藻门,其他两处理都有7门。种植芦苇、菖蒲等水生植物以及接种有益微生物都可以使水体藻类多样化,减少蓝藻生物量比例。放养鲢水体藻类种数减少,提高了蓝藻生物量的比例,优势种群变为铜绿微囊藻、针状蓝纤维藻、线形棒条藻等。对照和放养鲢处理水体原生动物种类较多,其生物量比例较高;接种有益微生物水体浮游动物数量最多、生物量最大,以轮虫类和枝角类为主。接种有益微生物大幅度地降低生态系统中总氮、氨态氮、总磷的浓度,其含量分别是对照的57.1%、42.7%、57.9%;同时可以降低COD值,提高溶氧水平和透明度。总之,种植芦苇、唐菖蒲等水生植物或接种有益微生物可以改善水体微生态机构和生态结构。       

盐碱池塘浮游植物初级生产力日变化的研究

用黑白瓶测氧法对盐碱池塘浮游植物初级生产力的日变化进行了研究．结果表明,盐碱池塘浮游植物初级生产力存在着明显的日变化,其分布规律与光照、温度、浮游植物现存量等环境因子的变化是相关的．用黑白瓶法连续曝光24h测定初级生产力结果大大偏低于每次曝光2h的全天累积结果．对养鱼池而言,在10：00—14：00时曝光4h再推算全天的初级生产力较为适当．     

Effects of water hardness and alkalinity on the toxicity of uranium to a tropical freshwater hydra (Hydra viridissima)

In tropical Australian freshwaters, uranium (U) is of potential ecotoxicological concern, largely as a consequence of mining activities. Although the toxicity of uranium to Australian freshwater biota is comprehensive, by world standards, few data are available on the effects of physicochemical variables, such as hardness, alkalinity, pH and organic matter, on uranium speciation and bioavailability. This study determined the individual effects of water hardness (6.6, 165 and 330 mg l^-1 as CaCO₃) and alkalinity (4.0 and 102 mg l^-1 as CaCO₃), at a constant pH (6.0), on the toxicity (96 h population growth) of uranium to Hydra viridissima (green hydra). A 50-fold increase in hardness (Ca and Mg concentration) resulted in a 92% (two-fold) decrease in the toxicity of uranium to H. viridissima [i.e. an increase in the EC₅₀ value and 95% confidence interval from 114 (107-121) to 219 (192-246) µg l^-1]. Conversely, at a constant hardness (165 mg l-1 as CaCO₃), the toxicity of uranium to H. viridissima was not significantly (P > 0.05) affected by a 25-fold increase in alkalinity (carbonate concentration) [i.e. EC₅₀ values of 177 (166-188) and 171 (150-192) µg l^-1 at 4.0 and 102 mg l^-1 as CaCO₃, respectively]. A knowledge of the relationship between water chemistry variables, including hardness and alkalinity, and uranium toxicity is useful for predicting the potential ecological detriment in aquatic systems, and can be used to relax national water quality guidelines on a site-specific basis.     

Effects of water hardness and alkalinity on the toxicity of uranium to a tropical freshwater hydra (Hydra viridissima)

In tropical Australian freshwaters, uranium (U) is of potential ecotoxicological concern, largely as a consequence of mining activities. Although the toxicity of uranium to Australian freshwater biota is comprehensive, by world standards, few data are available on the effects of physicochemical variables, such as hardness, alkalinity, pH and organic matter, on uranium speciation and bioavailability. This study determined the individual effects of water hardness (6.6, 165 and 330 mg l^-1 as CaCO₃) and alkalinity (4.0 and 102 mg l^-1 as CaCO₃), at a constant pH (6.0), on the toxicity (96 h population growth) of uranium to Hydra viridissima (green hydra). A 50-fold increase in hardness (Ca and Mg concentration) resulted in a 92% (two-fold) decrease in the toxicity of uranium to H. viridissima [i.e . an increase in the EC₅₀ value and 95% confidence interval from 114 (107-121) to 219 (192-246) µg l^-1]. Conversely, at a constant hardness (165 mg l-1 as CaCO₃), the toxicity of uranium to H. viridissima was not significantly (P > 0.05) affected by a 25-fold increase in alkalinity (carbonate concentration) [i.e. EC₅₀ values of 177 (166-188) and 171 (150-192) µg l^-1 at 4.0 and 102 mg l^-1 as CaCO₃, respectively]. A knowledge of the relationship between water chemistry variables, including hardness and alkalinity, and uranium toxicity is useful for predicting the potential ecological detriment in aquatic systems, and can be used to relax national water quality guidelines on a site-specific basis.     

Effects of salinity and water temperature on the ecological performance of Zostera marina

We tested the effects of salinity and water temperature on the ecological performance of eelgrass (Zostera marina L.) in culture-experiments to identify levels that could potentially limit survival and growth and, thus, the spatial distribution of eelgrass in temperate estuaries. The experiments included eight levels of salinity (2.5, 5, 10, 15, 20, 25, 30 and 35‰) and seven water temperatures (5, 10, 15, 20, 25, 27.5 and 30 °C). Low salinity (i.e. 5 and 2.5‰) increased mortality (3–6-fold) and had a strong negative effect on shoot morphology (number of leaves per shoot reduced by 40% and shoot biomass reduced by 30–40%), photosynthetic capacity (P_max—reduced by 30–80%) and growth (production of new leaves reduced by 50–60%, leaf elongation rate reduced by 60–70% and production of side-shoots reduced by 40–60%), whereas eelgrass performed almost equally well at salinities between 10 and 35‰. The optimum salinity for eelgrass was between 10 and 25‰ depending on the response parameter in question. Extreme water temperatures had an overall negative impact on eelgrass, although via different mechanisms. Low water temperatures (5 °C) slowed down photosynthetic rate (by 75%) and growth (production of new leaves by 30% and leaf elongation rate by 80%), but did not affect mortality, whereas high temperatures (25–30 °C) increased mortality (12-fold) and lowered both photosynthetic rate (by 50%) and growth (production of new leaves by 50% and leaf elongation rate by 75%). The optimum water temperature for eelgrass appeared to lie between 10 and 20 °C. These results show that extreme conditions may affect the fitness of eelgrass and, thus, may potentially limit its distribution in coastal and estuarine waters.     

罗非鱼对微型生态系统浮游生物群落和初级生产力的影响

本文报道罗非鱼不同放养密度对淡水微型生态系统结构与功能影响的部分研究结果。罗非鱼的捕食使微型生态系统中浮游动物密度下降,引起浮游植物密度、初级生产力和P/R系数的增长,同时使水柱透明度降低而pH值增高,以致于实验后期微型生态系统具有典型的富营养化水体的特征。就罗非鱼放养密度不同的微型生态系统而言,虽然其浮游生物密度和P/R系数存在显著的组(或部分组)间差异,但不同密度组的初级生产力水平和最终的理化状况相差不大,并且罗非鱼的收获量甚为接近。因此,实验条件下微型生态系统的群落结构和代谢的变化,按照营养级联假说不能很好地予以解释,表明微型生态系统是由捕食(下行影响)和理化因素(上行影响)共同调节或控制的。根据微型生态系统的实验结果推断,放养较大密度的罗非鱼,将会加速营养物负荷较高的天然水域富营养化的进程。     

Effect of soil salinity and soil water availability on growth and chemical composition ofSorghum halepense L.

Summary Effects of soil salinity and soil water regime on growth and chemical composition ofSorghum halepense L. was studied with a view to evaluating its potential as a forage crop in saline soils. The experiment was conducted under controlled conditions using pot-culture with three levels of soil salinity (EC_e 0.5, 5.0, 10.0 ds/m) and three soil water regimes (60%, 40% and 20% of water holding capacity of the soil). High soil salinity and low soil water combiningly had an adverse effect on plant growth but the biomass production was appreciably high (57 to 75% of control) even under high soil salinity (EC_e 10 ds/m) when sufficient water was available. Belowground plant parts were relatively more salt-tolerant than shoots. There occurred an increase in the concentration of certain nutrients (N, Ca, Mg, TNC) in the plants in response to salinity, which along with increased root: shoot ratios was inferred as an adaptive feature of the plant for persistence under saline conditions.     

First survey of fungi in hypersaline soil and water of Mono Lake area (California)

Mono Lake is a closed lake located in central California, east of the Sierra Nevada mountains. It contains dissolved carbonates, sulfates and chlorides at high concentrations. Due to its high salinity, Mono Lake was sometimes compared to the Dead Sea. However, it appears that Mono Lake water and vicinity abound with life. In this work, the fungal flora living in this extreme ecosystem was studied for the first time. Soil, tufa, water and sediment samples were also analyzed for their mineral and salt composition. Results showed that water was particularly rich in sodium, potassium, phosphorus and boron. Soil and sediments contained very high levels of calcium and magnesium, but also barium, boron and strontium. Sodium, phosphorus and iron levels varied in a large extent from one to another sample. Neutral to very alkaline pH were recorded. Water samples were found sterile in the conditions chosen for fungi isolation, while sediment, soil and tufa samples led to the isolation of a total of 67 fungal species (from 23 samples), belonging to various taxonomic groups. From our results no clear effects of the chemical parameters of the samples were observed on fungal life apart from the pH. The methods chosen did not allow the isolation of extremely halotolerant species. We isolated in this work a series of ubiquitous species, suggesting that a selection of resistant and/or adaptable strains of some common species could have occurred. Depending on the medium and the temperature of isolation, it can be hypothesized that some species were present as dormant structures, while some others, isolated at pH 8 on a medium enriched in Na and Ca, could be in a growing form adapted to alkaline and saline conditions. This work contributes to a better knowledge of the mycobiota present in the Mono Lake's ecosystem.