家用洗涤剂磷对斜生栅藻生长的影响

以斜生栅藻为材料研究了四种家用洗涤剂对藻类生长的效应。结果发现,不同种类的家用洗涤剂对斜生栅藻生长均有明显的促进作用,斜生栅藻现存量超过国内外通用的富营养化评价标准。尤其是高磷洗衣粉,在日常生活用量的情况下,对斜生栅藻生长的促进作用较低磷洗衣粉增加60％。在整个实验中,无磷对照组斜生栅藻生长率均低于有磷实验组,磷量的增加将引起藻的现存量的增加。因此,限制洗涤剂磷盐的输入,减少营养供应率,降低水体中营养浓度,可起到控制水体富营养化的作用。     

PHOSPHORUS,NITROGEN AND THE GROWTH OF ALGAE IN LAKE KINNERET1

The intracellular concentrations of carbon, nitrogen, phosphorus and chlorophyll a of phytoplankton and zooplankton in Lake Kinneret were determined from 1969 to 1973. The ratios C:P, C:N, chlorophyll a:P, chlorophyll a:N of the algae showed fluctuations which could be related to the nutrient conditions that influence the annual pattern of phytoplankton development, especially in respect to the dinoflagellate bloom of Peridinium cinctum (OFM) Ehr. f. westii (Lemm.) Lef. Relatively high intracellurar P values at the start of the bloom indicated adequate availability of this nutrient and luxury consumption over a short period of time. Later, Peridinium continued to grow despite unusually high C:P ratios (> 300:1). In most years, phosphorus may have eventually limited growth, however, in 1970, the bloom censed despite comparatively high intracellular P concentrations. These observations, together with supplementary evidence from nutrient addition experiments and determinations of specific alkaline phosphatase levels, indicated that, for most of the growth phase of the bloom, Peridinium cells were not directly limited by P. The decline of the bloom usually, but not always (e.g., in 1970), was marked by very high C:P ratios. Thus, a shortage of P may often be a contributory factor to the cessation of the Peridinium bloom and may be limiting phytoplankton growth in the fall. Over the years 1969–73, possibly due to an overall drop in salinity, there appears to be a trend to lower levels of biologically bound phosphorus in Lake Kinneret, without a concomitant decrease in carbon biomass.     

模拟污水中氮、磷对水稻幼苗根系呼吸作用的影响

研究了模拟污水中不同浓度的Ｎ、Ｐ对水稻幼苗根系呼吸强度、细胞色素氧化酶、呼吸途径等的影响。结果表明,在总氮（ＮＴ）、总磷（ＰＴ）浓度分别小于４．２８ｍｍｏｌ／Ｌ、０．２ｍｍｏｌ／Ｌ时,呼吸速率、细胞色素氧化酶和呼吸商（ＲＱ）均随Ｎ、Ｐ浓度增大而增加,当超过这一浓度后,则随总氮总磷浓度上升而下降。总氮、总磷浓度分别小于４．２８ｍｍｏｌ／Ｌ、０．２ｍｍｏｌ／Ｌ时,磷酸戊糖途径（ＨＭＰ）随Ｎ、Ｐ浓度增加     

斜生栅藻对振荡和磷胁迫的生理生化响应

为了探讨水文条件的变化对常见绿藻水华发生的潜在影响,实验以斜生栅藻为材料,研究了不同水流状态及磷浓度对其生长及磷利用策略的影响。实验分别设置静止条件(0 r/min)、低振荡条件(90 r/min)和高振荡条件(120 r/min),同时设置磷限制(0.2 mg/L)和磷充足(2 mg/L)两组磷浓度,整个实验过程为3周。实验过程测定的指标为:比生长速率、胞外碱性磷酸酶活性、叶绿素a含量以及磷吸收动力学参数。实验结果表明:(1)同静止条件相比,低振荡和高振荡条件均能显著降低斜生栅藻的比生长速率,但是两种不同磷浓度下其比生长速率却无显著性差异。(2)在实验第21天时,振荡条件培养下,斜生栅藻的胞外碱性磷酸酶活性显著高于静止条件培养,与此相反,胞内磷浓度却显著高于静止条件。(3)在磷限制条件下斜生栅藻的叶绿素a含量显著降低,同时两种振荡条件培养均使其在磷充足条件下叶绿素a含量降低。(4)通过磷吸收动力学参数的比较,静止条件培养的斜生栅藻对磷的亲和力高于其在振荡条件下。由此可见,斜生栅藻适应于静止无扰动且磷营养丰富的水体,随着水体中磷浓度进一步升高,静止和水流缓慢的水体存在导致像斜生栅藻这一类绿藻发生水华的风险。       

蓖齿眼子菜对栅藻和微囊藻的他感作用及其参数

主要报道篦齿眼子菜 (俗称红线草 )的种植水抽滤液对栅藻、微囊藻生长的他感作用试验。应用修正的逻辑斯谛 (Logistic)方程和Lotka Volterra种群竞争模型来计算篦齿眼子菜对藻类的他感作用参数。纯培养试验结果表明 :种植水抽滤液对栅藻生物量和生长率都有一定的促进作用。当浓度大于等于 5 0 %时 ,对栅藻生长的影响则是有抑制效应 ,他感作用效应与种植水的浓度没有明显的相关性 ,他感作用参数平均为 - 0 0 2 6。所有浓度设对照。微囊藻的生长都有明显的抑制作用 ,他感作用参数平均为 - 0 2 37。共培养试验结果表明 :篦齿眼子菜种植水抽滤液对纯培养试验结果有放大效应。所有的种植水抽滤液浓度对栅藻生长都起促进作用 ,对栅藻的生物量效应、生长率存在明显的对数正相关 ,但与他感作用参数的相关不明显 ,共培养的他感作用参数平均为 0 0 2 0 ;对微囊藻生长抑制作用更加明显 ,共培养的他感作用参数平均为 - 0 4 2 0。不管是纯培养还是共培养中 ,种植水抽滤液对栅藻的他感作用系数值都很低 ;而种植水抽滤液浓度对微囊藻的生物量效应、生长率或他感作用的参数都存在明显的线性负相关 ,并且他感作用系数值约高一个数量级     

N、P营养盐胁迫对两株布朗葡萄藻生长的影响

采用批次培养方法,在光照强度60、110mol/m2s下分别设置了7个不同的氮、磷浓度(N:0-3500g/L,P:15-775g/L),研究两株布朗葡萄藻(Botryococcus braunii)对氮、磷胁迫的敏感性差异,筛选高营养利用效率的优良藻株。结果表明:两株藻对氮磷营养胁迫的耐受性存在差异,B.braunii764株对氮胁迫具有较高耐受性,而B.braunii765株对磷胁迫具有较高耐受性。光照强度110mol/m2s,不同氮浓度下B.braunii764株其平均生长速率均显著高于其他各处理组;不同磷浓度下B.braunii765株其平均生长速率显著高于B.braunii764株。在试验设定的光照强度条件下,适当增加光照强度能够显著降低氮胁迫对布朗葡萄藻生长的抑制效应。在光照强度110mol/m2s下,氮浓度3500g/L时两株布朗葡萄藻平均生长速率与在正常Chu-10培养基条件下无显著差异。磷浓度775g/L时两株布朗葡萄藻的平均生长速率均显著低于正常Chu-10培养基条件,增加光照强度对磷胁迫下藻细胞的生长无显著作用。两株布朗葡萄藻在第2天时磷吸收与初始磷浓度呈正相关关系,氮吸收在3500g/L时出现饱和现象。布朗葡萄藻的生长更容易受到培养基中磷营养胁迫的影响。       

THE INFLUENCE OF GENETIC RESISTANCE ON CFU GROWTH KINETICS IN SPLEEN AND FEMUR

An impaired colony formation of C57BL marrow cells transplanted into F_t (C57BL x CBA) mice was observed. In accordance with the literature this phenomenon has been designated as ‘genetic resistance’. Studies to elucidate the mechanism of the genetic resistance demonstrated that the multiplication phase of the CFU growth curve started in the semi-isogeneic combination about 48 hr later than in the isogeneic combination. In the spleen this resulted in a lower ‘dip’. For the spleen as well as for the femur similar CFU doubling times were found during the multiplication phase when both transplantation combinations were compared. Furthermore the percentage of CFU in S-phase (assessed with the ³H-TdR suicide technique) during the first days after transplantation were similar in both combinations. When the spleen was removed 5–6 months before irradiation and bone marrow transplantation was performed the growth curve of parental CFU in the femur was identical with the growth curve of isogeneic CFU (no delay was observed). These results are discussed and a few theories explaining the observations are proposed.     

INFLUENCE OF THE CLAY TYPES ILLITE AND MONTMORILLONITE ON THE UPTAKE OF65 Zn BY SCENEDESMUS OBLIQUUS.

SUMMARY

The stimulatory effect of the clays illite and montmorillonite on zinc uptake by Scenedesmus obliquus is discussed. The competitive effects of hydrogen, phosphate, magnesium and copper ions on zinc uptake are illustrated. This competition is reduced in the presence of illite and montmorillonite and zinc uptake is stimulated. Ferrous ions have no effect on zinc uptake, while calcium ions antagonize zinc uptake at high concentrations. The latter effect was remarkable in the presence of montmorillonite.     

丛枝菌根对喜树幼苗生长和氮、磷吸收的影响

喜树(Camptotheca acuminata)是我国特有的多年生亚热带落叶阔叶树种,因其次生代谢产物喜树碱具有良好的抗肿瘤活性而受到人们的广泛关注。该文通过温室盆栽接种试验,观察了2属6种丛枝菌根真菌即蜜色无梗囊霉(Acaulospora mellea)、光壁无梗囊霉(A. laevis)、木薯球囊霉(Glomus manihot)、地表球囊霉(G. versiforme)、幼套球囊霉(G. etunicatum)和透光球囊霉(G. diaphanum)对喜树幼苗生长和氮、磷养分吸收的影响。结果表明,丛枝菌根的形成对喜树幼苗的生长以及氮、磷营养的吸收均有影响。从生物量看,除幼套球囊霉和光壁无梗囊霉侵染形成的丛枝菌根喜树幼苗与无菌根幼苗(CK)差异不显著外,其余菌根幼苗的生物量均明显大于无菌根幼苗,透光球囊霉和蜜色无梗囊霉菌根幼苗尤为突出,分别达到无菌根幼苗的1.9和1.4倍。丛枝菌根的形成似乎不利于喜树幼苗的氮素营养吸收,并且主要体现在叶片的氮含量上。相反,丛枝菌根形成总体上促进喜树幼苗对磷素营养的吸收,并且主要体现在根的磷含量上。与无菌根幼苗比,所有菌根幼苗根的氮、磷分配比例增加,而叶片的氮、磷分配比例减少。     

STIMULATION OF GROWTH IN SCENEDESMUS OBLIQUUS (CHLOROPHYCEAE) BY HUMIC ACIDS UNDER IRON LIMITED CONDITIONS1,2

Stimulatory affects of humic acids of molecular weight 30,000 or greater on iron-starved Scenedesmus obliquus (Turp.) Kütz. in association with bacteria were studied by growth and Fe uptake experiments. Humic acids stimulated growth of Fe-starved cells by decreasing the lag phase and extending the growth phase. Humic acids stimulated increased algal growth in medium containing EDTA as well as in medium containing no EDTA, indicating humic acids are not stimulating algal growth under Fe limiting conditions by creating a soluble Fe pool. Humic acids decreased Fe availability to Fe-starved S. obliquus. Iron bound to humic acids is unavailable for uptake by Fe-starved cells indicating growth stimulation is not due to chelation effects alone. Stimulation of growth is not a membrane phenomenon as humic acids show the same stimulatory effect when in contact with cells or separated by dialysis membrane. Humic acids also stimulate growth in the dark, with and without aeration, indicating use as a heterotrophic substrate. A photoheterotrophic mechanism is indicated by increased algal growth caused by illuminating cultures, containing humic acids but excluding CO₂.     

氮磷对污水净化中藻类群落结构的影响

在室内模拟生物净化槽中比较研究了氮,磷对污水净化藻类群落结构和污水净化效果的影响。其结果ＴＮ／ＴＰ＝４４．７／７．０１ｍｇ／Ｌ组,藻类种类多样性最高,净生产力最高,污水净化效果也最佳。     

不同磷条件对安氏伪镖水蚤的生长及摄食的影响

实验研究了海洋浮游动物桡足类安氏伪镖水蚤(Pseudodiaptomus annandalei)在分别喂食高磷和低磷扁藻(Platymonas subcordiformis)时的个体生长发育和摄食的情况。低磷扁藻(C/P=197或375,摩尔比)喂食安氏伪镖水蚤,安氏伪镖水蚤生长速率分别为g=(0.0437±0.0030)/d和g=(0.0339±0.0049)/d,高磷扁藻(C/P=78,摩尔比),安氏伪镖水蚤的生长速率为g=(0.1040±0.0395)/d。另外,从无节幼体到桡足幼体的发育所需的时间延长了1.5—2倍。就蚤体磷含量而言,在高磷条件下,个体的磷含量为干重的0.30%—0.33%,处于低磷喂养条件下的个体磷含量仅为0.08%—0.28%。结合生长速率和蚤体磷含量分析表明二者呈显著相关的线性关系。最后,在低磷条件下,无节幼体、桡足幼体和成体三个生长阶段的安氏伪镖水蚤个体的摄食率分别为150—370、695—703、648—733 cells/(ind?h),明显低于高磷条件下的790、720、728 cells/(ind?h)。据此得到结论:在磷限制条件下培养的饵料藻导致其营养价值发生了变化(C/P和C/N比值),对安氏伪镖水蚤的生长发育以及摄食率产生了显著负面影响,表明海洋桡足类安氏伪镖水蚤亦受到磷的限制。