太湖不同解有机磷菌株胞外碱性磷酸酶活性对蓝藻碎屑的响应

浮游细菌胞外碱性磷酸酶在湖泊磷循环过程中具有关键作用, 但其与生物可利用性磷和颗粒态有机质之间的关系尚未得到充分的研究。研究以从太湖沉积物分离的3 株解有机磷细菌(OPB)和东湖水中OPB菌群为实验对象, 以蓝藻干物质为颗粒态有机质, 系统分析了模拟条件下OPB 的数量、不同大小颗粒所表现的胞外碱性磷酸酶活性(APA)与不同形态磷的浓度及其相互关系。从总体上讲, APA 与OPB 数量显著正相关, 且明显反比于溶解反应性磷(SRP)浓度, 在模拟实验过程中, 不同菌株(群)所对应的SRP 浓度均显著不同, 故其解磷能力各异。从绝对活性及其在总活性中所占的比例来看, 各处理间小颗粒(0.22—3.0 μm)APA亦明显不同, 而大颗粒(>3.0 μm)APA和溶解态(8 CFU/mL), SRP 浓度逐渐增加。实验后期(20—33 d)细菌数量大幅度减少, 且伴随SRP 和溶解态有机磷浓度的显著升高。因此, 在缺磷且富含颗粒态有机质的条件下, OPB 将产生胞外碱性磷酸酶, 分解有机磷, 进而满足其大量生长的需要, 同时有效改变溶解态磷的形态与生物可利用性。       

不同固磷方式对巢湖沉积物磷吸附行为的影响

内源磷负荷将严重阻碍富营养化湖泊的恢复,其控制技术的关键在于有效增强沉积物吸附磷的能力,而相关研究相对较少。研究以典型富营养化湖泊(巢湖)严重污染区域的沉积物为实验对象,系统比较了常规固磷方式(施用CaCl2、FeCl3、AlCl3与曝气)对沉积物磷吸附行为和间隙水溶解态可反应磷(SRP)浓度的影响。结果表明:施用不同剂量的CaCl2之后,沉积物磷最大吸附量和吸附能均无显著变化,间隙水SRP浓度和沉积物磷平衡浓度(EPC0)仅有较小幅度的下降;FeCl3和AlCl3的施用可明显增加沉积物磷的最大吸附量和吸附能,同时有效降低间隙水SRP浓度和EPC0值,即沉积物显示更强的从水中吸附磷的能力。当同处低剂量水平时,铁能更有效地降低沉积物EPC0值;反之,曝气对沉积物最大吸附量和吸附能均无显著影响,却明显提高了间隙水SRP浓度和沉积物EPC0值,进而导致更强的磷释放风险。故建议将适量铁的施用作为富营养化湖泊沉积物修复的有效技术,且慎用曝气处理。     

岱海表层沉积物中内源磷的释放

以北方半干旱地区典型内陆封闭湖泊岱海为研究对象,开展了上覆水质及多种环境因子(温度,pH,溶解氧,扰动,光照)对湖泊沉积物内源磷释放的影响研究。结果表明:(1)温度升高有利于内源磷的释放,湖泊水体在温度较高的夏季更易呈现富营养化状态;(2)碱性条件有利于磷的释放,岱海水体属微碱性环境(pH8.8),若水体pH进一步升高,将会造成沉积物内源磷的大量释放;(3)厌氧条件(ρDO0.8mg/L)有利于磷的释放,岱海湖心区水深较深,易形成厌氧环境,因此湖心区内源磷释放强度较浅水区大;(4)强烈扰动有利于磷的释放,这会对浅水区的底质产生较大影响;(5)照度通过底栖藻类的生物作用,间接地限制了沉积物释磷对上覆水中磷浓度的影响。     

长江中下游浅水湖泊沉积物多酚氧化酶与过氧化物酶活性分布

采样分析了长江中下游浅水湖泊(鲁湖、梁子湖、后官湖、牛山湖、三角湖、龙阳湖、墨水湖、月湖以及太湖)沉积物多酚氧化酶与过氧化物酶活性的分布及其与微生物的关系.结果表明,在水平方向上,沉积物有机质含量较高的湖泊酶的活性明显较高,湖内酶的活性亦有明显的异质性,排污口、水生植物凋落区以及未疏浚点的活性明显较高.在垂直方向上,有机质含量较高的表层显示较高的多酚氧化酶活性.因此,不同来源的有机质均能诱导酶的产生;过氧化物酶活性随深度变化的趋势不明显,且在疏浚与未疏浚点显示相近水平,这种现象可能源于酶与腐殖质的结合;多酚氧化酶与过氧化物酶活性显著正相关,初步揭示了二者在有机质降解与腐质化过程中的偶联;细菌和放线菌(而非真菌)似为酶的主要生产者.并讨论了氧化还原酶在湖泊富营养化过程中的作用.     

百花湖消落带土壤磷释放的模拟研究

为探讨贵州省百花湖(水库)消落带土壤磷的释放状况,采用实验室模拟法研究了不同消落带土壤和环境条件变化对百花湖消落带土壤磷释放的影响,分析磷的释放量与磷赋存形态的关系。结果表明:未淹的黄壤释磷量最大,砂石壤最低;温度升高,土壤中磷的释放强度随之增大;扰动上覆水比静置条件下更有利于磷的释放;酸性和碱性条件下土壤磷的释放量略高于中性条件,且碱性条件下最高;厌氧条件比好氧条件更能加速磷释放;不同形态磷与土壤磷释放量有不同程度相关,其中有机磷(OP)与磷的释放极显著相关;与铁铝结合态磷(Fe/Al-P)和钙结合态磷(Ca-P)显著性相关。     

池塘水华与底层磷营养状态的关系

比较了武汉东郊相邻池塘间隙水、上覆水与沉积物中磷形态、水相中与不同大小颗粒相联系的碱性磷酸酶活性 (APA)、溶解态与沉积物APA动力学参数及沉积物有机质的含量。铜绿微囊藻 (Microcystisaeruginosa)出现或繁盛的池塘上覆水中正磷酸盐 (O—P)或间隙水中不同形态磷的浓度较高 ,而底层水相不同形态磷浓度较低的池塘叶绿素的浓度亦低 ,且未见铜绿微囊藻 ,故水华与底层磷营养之间联系紧密。各塘沉积物磷主要以铁结合态形式存在 ,铜绿微囊藻繁盛的池塘沉积物中铁结合态磷含量较低 ,而有机质含量较高 ,底层APA亦表现出较高的底物亲和能力 (较小的Km 值 )和反应速度 (较大的Vmax值 ) ,上述结果说明 ,有机质可能在上覆水、间隙水与沉积物诱导具不同动力学特征的高APA ,同时引发厌氧状态 ,这双重因素均有利于O—P的迅速释放 ,从而促进水华的形成     

滇池、红枫湖沉积物中总磷、分态磷及生物硅形态与分布特征

通过对不同富营养化程度的湖泊（滇池及红枫湖）沉积柱剖面进行不同形态磷以及生物硅含量分析,对比了磷及生物硅的沉积分布特征,并探讨了其与湖泊富营养化演化的关系。结果表明：滇池沉积物中碎屑磷和有机磷在总磷中占50.5%～80.8%,是影响总磷趋势的主要原因;红枫湖中有机磷对总磷的贡献较大,占总磷的53%～60.9%;且两湖各形态磷均随深度的增加而减少;两湖总磷、有机磷、铝磷以及滇池沉积柱中的碎屑磷等的快速增长,表明其主要来源于人为污染;生物硅含量呈现从下层沉积物向上逐渐增加,在上层沉积物中逐渐减少的趋势;总磷、有机磷、铁结合态磷、铝结合态磷、弱结合态磷以及生物硅都能较好地反映富营养化污染的演变和现状。     

环境因子对杭州西湖沉积物各形态磷释放的影响

对西湖沉积物的磷形态、粒径组成、化学组成进行了分析, 模拟研究了上覆水磷含量、光照、pH、温度、水动力条件等不同环境因子对西湖沉积物各形态磷释放的影响。结果表明, 上覆水为蒸馏水时的最大释磷量约为底泥-湖水系统的1.15倍, 且释放形态均以IP中的Fe/Al-P为主。在蔽光条件下的最大TP释放量约为光照条件下最大TP释放量的1.35倍。pH 是影响磷释放的重要因素, 在碱性条件下, 促进Fe/Al-P的释放; 在酸性条件下, 促进Ca-P 的释放。在高温条件下沉积物的释磷量会高于低温条件下的释磷量。沉积物各形态磷的释放量在15h后逐渐趋于平衡扰动状态达到平衡时TP释放量是静态释放平衡状态的1.61倍。研究结果旨在探讨不同环境因子对湖泊沉积物磷迁移转化的生态环境效应, 预测西湖内源磷释放的发展趋势, 为控制沉积物内源污染提供理论基础。     

湖北省若干浅水湖泊沉积物有机质与富营养化的关系

分析了湖北省月湖、龙阳湖、后官湖、梁子湖、牛山湖、保安湖、鲁湖等7个湖泊表层沉积物有机质、总氮与总磷的含量,并考察了其在月湖、龙阳湖沉积物中的垂直分布及月湖、龙阳湖与保安湖表层沉积物的颗粒组成,结果表明：位于城市与城郊的月湖与龙阳湖表层沉积物有机质含量较高,且表现出沿岸带较丰富的空间分布特征。在垂直及水平方向上,有机质与总氮和总磷含量均显著相关,颗粒组成与有机质和总氮含量亦显著相关。有机质富集应是促进城市湖泊富营养化的重要因素。     

菹草对湖泊沉积物磷状态的影响

武昌野芷湖湾菹草(PotamogetoncrispusL.)生物量较高位置的沉积物显示明显较高的磷吸附指数,以及据Langmuir方程:C/X=C/Xm+K×1/Xm导出的最大吸附量与吸附强度,这一结果在不同时期与不同采样深度均有体现,故提高沉积物磷的吸附能力应为菹草维持水体较低营养水平的重要机制。铁结合态磷是沉积物磷的主要存在形式,吸附能力的提高可由有机质及其与铁的相互作用部分地得到解释。不同时期菹草生物量较高的沉积物表现明显较低的碱性磷酸酶活性与最大反应速度,降低沉积物有机磷的酶促分解速率应为菹草维持水体低营养水平的另一机制。     

Stratification of alkaline phosphatase in sediments of two urban lakes and its effect on phosphorus cycle

Phosphorus loadings in sediments play an important role in lake eutrophication and the progress of its recovery. The phosphorus release is controlled by physical, chemical and biological mechanisms. Alkaline phosphatase catalyzes remineralization of organic phosphorus and then it may be an important factor accelerating phosphorus cycling in sediments. In this paper, distributions, properties and function of alkaline phosphatase with depths in sediments of two urban lakes were discussed. Alkaline phosphatase activity (APA) in the sediments of Lake Yuehu decreased with the sediment depth. APA in sediments of Lake Yuehu was, mostly, inhibited by Phe and L-Cys; and inhibiting ability of Phe could be stronger than L-Cys. APA in deeper layer (20–30 cm) of sediments was more sensitive to the inhibitors than other layers, but range of variation in APA was most wide in the subsurface layer (10–20 cm). All the facts implied that alkaline phosphatase occurred in various forms (isoenzymes). APA in the sediments with different depths of Lake Donghu responded Phe differently. Reacted with Phe and incubated for 1 day, the amounts of SRP released by these sediments varied correspondingly. SRP on the overlying water in deeper layers (5–10 cm and 15–20 cm) of Site T1 was higher than that in surface layer (0–5 cm) of the same site, 1 day after incubation. Hence, the SRP release resulted, at least partially, from the hydrolysis of some liable organic phosphorus mediated by APA. Alkaline phosphatase in lake sediments plays an important role in the release of internal phosphorus loadings and eutrophication. A possible explanation for the sensitivity at deeper layers could be another active region of hydrolysis by alkaline phosphatase from organic phosphorus, which added a new dimension in phosphorus cycling mediated by some biochemical mechanisms.     

Phosphorus fractions and alkaline phosphatase activity in sediments of a large eutrophic Chinese lake (Lake Taihu)

Spatial, vertical, and seasonal variations in phosphorus fractions and in alkaline phosphatase activity (APA) were investigated in sediments in a large-shallow eutrophic Chinese lake (Lake Taihu) in 2003–2004. The phosphorus content was highest in the most seriously polluted lake area. Iron-bound phosphorus (Fe(OOH)～P) dominated (47% on average) among the phosphorus fractions determined according to Golterman (Hydrobiologia 335:87–95, 1996). Notably, organically-bound P comprised a further significant additional portion (acid-soluble + hot NaOH-extractable organic P = 25%), which was highest at the most polluted sites. The Fe(OOH)～P content was the lowest in spring (April, 2004), suggesting that degradation of organic matter led to the release of iron-bound phosphates. Sediment APA showed a significant positive relationship with both organically-bound P and Fe(OOH)～P. Consequently, organically-bound P is an important portion of the sediment phosphorus in Lake Taihu. It is mainly derived from freshly-settled autochthonous particles and from external discharges. Organically-bound P induces APA and may lead to the release of bioavailable phosphates from the organic sediments, thereby accelerating lake eutrophication.     

有机磷农药对滇池微囊藻生长和摄磷效应的影响

采集滇池水体作为铜绿微囊藻培养基,研究了两种有机磷农药(甲胺磷和辛硫磷)对微囊藻生长和摄磷效应的动力学规律。结果表明,在滇池水体中添加较低浓度的甲胺磷(0.8、1.6、3.2mg/L)和辛硫磷(0.02、0.06、0.1mg/L)均能不同程度地促进微囊藻的生长,且在HGZ培养基中抑制微囊藻生长的浓度在滇池水体中却能促进微囊藻的生长。微囊藻的生长取决于细胞内磷的浓度且对磷的吸收利用存在积累性,在微囊藻生长初期,摄取各形态磷的速率较快;随后微囊藻摄取各形态磷的速率较慢。总溶解磷(TSP)和溶解反应磷(SRP)是微囊藻优先摄取的磷形态,在生长过程中微囊藻利用了大量的溶解有机磷(DOP)作为磷源加速生长。这一特点对于微囊藻成为淡水湖泊富营养化发展过程中的一种重要优势种具有极为重要的作用。     

Seasonal Variations in Chlorophyll a Concentrations in Relation to Potentials of Sediment Phosphate Release by Different Mechanisms in a Large Chinese Shallow Eutrophic Lake (Lake Taihu)

The relationship between chlorophyll a and fractionation of sediment phosphorus, inorganic phosphate-solubilizing bacteria (IPB), and organic phosphate-mineralizing bacteria (OPB) was evaluated in a large Chinese shallow eutrophic lake (Lake Taihu) and its embayment (Wuli Bay). At the three study sites, the increase of chlorophyll a concentrations in April paralleled those of the iron bound phosphate accounting for major portion of sediment inorganic phosphate, and in June significantly higher OPB and IPB numbers (especially OPB) in sediment were main contributors to the peaks of chlorophyll a concentration. Even though IPB peaked from February to June, it should serve as an unimportant P source due to the irrelevancy with chlorophyll a and soluble reactive phosphorus (SRP). By contrast, at the other site in the embayment, the calcium-bound phosphate was predominant and solid, which was difficult to be released, and neither IPB nor OPB were detectable in the sediment, indicating weak potential for phosphorus release from the sediment, which was reflected in the small seasonal variation in SRP concentration in water column. Hence, the extents to which the three general mechanisms behind phosphate release from sediment (desorption of iron bound phosphate, solubilization by IPB and enzymatic hydrolysis by OPB) operated were different depending on seasons and sites in Lake Taihu, they may jointly drive phosphate release and accelerate the eutrophication processes.     

Phosphorus sorption characteristics of sediment in the Simiyu and Kagera River basins: implications for phosphorus loading into Lake Victoria

As part of a larger study to assess the influence of land use on riverine and atmospheric phosphorus (P) loading to Lake Victoria, P sorption characteristics of eight composite bottom sediment samples from the Simiyu and Kagera rivers were determined using the Langmuir equation. The samples had low to medium Langmuir adsorption maxima (Γ_m), ranging from 107 to 201μg g^?1. Langmuir binding energy co-efficient (K) ranged from 60 to 181μg l^?1 and the equilibrium P concentration at zero sorption (EPC₀) from 0.1 to 2.75μg g^?1. By using Langmuir co-efficients derived from P sorption experiments and soluble reactive phosphorus (SRP) concentrations measured in rivers as well as the in-shore waters of Lake Victoria, it was possible to determine the potential release of SRP into the lake by sediment from the two catchments. For the 2000 water-year, it was estimated that about 28.65 ± 0.89 (mean ± SD) and 66 ± 6.76 tons of SRP were released into Lake Victoria by sediment deposited by the Simiyu and Kagera rivers, respectively. The implications of these results to future management of cultural eutrophication in Lake Victoria are also discussed.     

Sublittoral and profundal Oligochaeta fauna of the Lake Constance (Bodensee-Obersee)

Fourteen tubificid species and one lumbriculid make up the oligochaete population of the northern half of Lake Constance, a meso- to mesoeutrophic lake. Tubifex tubifex makes up 72% of the total abundance, the clean water species Stylodrilus heringianus only 0.1%. No correlation exists between total worm abundance and organic carbon content of the sediment, only 4% of the organic carbon being used by the worms. A highly significant correlation between particulate organic matter loading and its organic carbon content from 10 tributaries and total oligochaete abundance is demonstrated. The ecological index I_PA is defined and used to assess the biologically relevant trophic status of the lake bed. This integrates information on the percent representation of three groups of worm species classified on atrophic basis and total abundance of the worms. Despite control of the increase in phosphorus loadings progressive eutrophication of sediments was observed after an 8 year interval.     

Limitations of using extracellular alkaline phosphatase activities as a general indicator for describing P deficiency of phytoplankton in Chinese shallow lakes

Extracellular phosphatase can be produced by phytoplankton to utilize organic phosphorus under phosphorus (P) deficiency. However, there is a controversy about its use as an indicator of P deficiency in natural phytoplankton community inferred by such an “induction–repression” mechanism. Size-fractionation of alkaline phosphatase activity (APA), soluble reactive phosphorus (SRP) concentration, algal density, and composition were determined in six Chinese shallow lakes ranking in gradient of trophic status, where a positive relationship between SRP concentration and algal density was observed. Enzyme-labeled fluorescence (ELF) method was used to localize phosphatase on cell membrane of algae. The so-called algal APA that associated with coarser particle (>3.0 μm) accounted for the largest part of total APA. Within a lake with lower SRP concentration, the “induction–repression” mechanism held true. Contrastingly, both algal and total APA were positively related to SRP concentration based on the data across all study lakes with statistical significance, which may be explained firstly by algal composition. The lakes with higher SRP concentration were dominated by diatoms and green algae, while they easily produced extracellular phosphatases as evidenced by ELFA labeling. In parallel, the lakes with lower SRP concentration were dominated by cyanobacteria, while it was never ELFA-positive; secondly, ELFA-positive dots or structures suggested that, in lakes with higher trophic status, attached bacteria or heterotrophic microorganisms could substantially contribute to extracellular phosphatases for hydrolyzing organophosphoric compounds but probably utilizing the organic moiety as an organic carbon source. This process simultaneously produces inorganic P, leading to the co-occurrence of high phosphate concentration and APA. So, the contributor of APA are complex, which may produce extracellular phosphatase species-specific or not exclusively for P nutrient and consequently make it difficult to normalize APA with the exact biomass estimators. Therefore, it is not reasonable to use APA, normalized or not, as a general indicator for describing P deficiency of phytoplankton in shallow lakes especially eutrophic ones.     

SOME ASPECTS OF THE DISTRIBUTION OF REACTIVE PHOSPHORUS IN LAKE McILWAINE,RHODESIA: PHOSPHORUS LOADING AND ABIOTIC RESPONSES

SUMMARY

This study was designed to investigate the apparent loss from the water column in Lake McIlwaine This study of significant quantities of reactive phosphorus. The Total Reactive Phosphorus mass-balance for the lake for 1977/78 was calculated, and both in situ and laboratory experiments were carried out to determine the effect of the lake sediments on the phosphorus loading of the lake. The experimental results showed that both uptake and release of phosphorus occurs in the lake, but that uptake of phosphorus by the sediments was by far the dominant process, thus accounting for the observed loss of phosphorus from the water column. The availability of the bound phosphorus for algal growth was also studied and it is suggested that algal uptake of bound phosphorus is possible. Various factors affecting phosphorus uptake by the sediments are discussed.     

Oligotrophication of Lake Balaton over a 20-year period and its implications for the relationship between phytoplankton and zooplankton biomass

Hydrobiologia - Lake Balaton, the largest lake in Central Europe, underwent severe eutrophication from the 1960s to the 1990s, due to phosphorus loadings from external anthropogenic sources. The...