底泥厌氧环境和光照对菹草萌发和幼苗生理的影响

通过向底泥中投加不同量的蔗糖使其发生厌氧反应以模拟不同程度的底泥厌氧环境，研究这种环境和光照强度对菹草石芽萌发和幼苗生理作用的影响。实验结果表明，底泥厌氧环境能显著降低菹草石芽的最终萌发率，且低光照会加剧这种趋势；尽管低光照不一定会提高最终的萌发率，但对提早石芽的萌发是有利的。在01%蔗糖投加处理中，幼苗的叶绿素和可溶性蛋白含量最高(平均为250和1928 mg/g FW)，其后随投加量的升高而降低，而游离氨基酸的含量却一直呈上升趋势，最高时达到024 mg/g FW ，但低光照却使它下降；可溶性糖含量基本不受底泥厌氧水平的影响，但随着光照减少而降低。随着厌氧水平的增加（从对照到05%蔗糖投加量），菹草的超氧物歧化酶(SOD)活性呈现上升趋势，但在10%蔗糖投加处理中活性降至最低；而过氧化物酶(POD)活性一直处于下降趋势。研究结论是：底泥厌氧对菹草石芽萌发影响显著，这种影响可能比低光照的限制作用还要重要。轻度的厌氧环境反而能促进菹草幼苗的生理代谢，但随厌氧水平的升高对碳氮平衡和其它生理活动产生不利影响。此外，底泥厌氧环境对菹草幼苗的抗氧化系统也有明显刺激作用。     

MACROPHYTE STANDING CROP AND PRIMARY PRODUCTWITY IN SOME FLORIDA SPRING-RUNS1

ABSTRACT: A survey of 31 Florida spring-runs was conducted to estimate their submerged macrophyte standing crop and primary productivity. The standing crops of submerged vegetation were not significantly (p > 0.05) correlated to either total nitrogen (r = 0) or total phosphorus (r =?0.20) concentrations, but standing crops were significantly (p < 0.01) correlated to the percentage of the spring-run's water surface shaded by marginal vegetation (r =?0.76). Maximum daily rates of primary productivity were positively correlated with average submerged macrophyte standing crops (r = 0.81; p < 0.001) and inversely correlated with the degree of shading by marginal vegetation (r =? 0.43; p < 0.05).     

Preparation of floating BiOCl0.6I0.4/ZnO photocatalyst and its inactivation of Microcystis aeruginosa under visible light

Frequent occurrence of harmful algal blooms has already threatened aquatic life and human health. In the present study, floating BiOCl_0.6I_0.4/ZnO photocatalyst was synthesized in situ by water bath method, and and applied in inactivation of Microcystis aeruginosa under visible light. The composition, morphology, chemical states, optical properties of the photocatalyst were also characterized. The results showed that BiOCl_0.6I_0.4 exhibited laminated nanosheet structure with regular shape, and the light response range of the composite BZ/EP-3 (BiOCl_0.6I_0.4/ZnO/EP-3) was tuned from 582 to 638 nm. The results of photocatalytic experiments indicated that BZ/EP-3 composite had stronger photocatalytic activity than a single BiOCl_0.6I_0.4 and ZnO, and the removal rate of chlorophyll a was 89.28% after 6 hr of photocatalytic reaction. The photosynthetic system was destroyed and cell membrane of algae ruptured under photocatalysis, resulting in the decrease of phycobiliprotein components and the release of a large number of ions (K⁺, Ca²⁺ and Mg²⁺). Furthermore, active species trapping experiment determined that holes (h⁺) and superoxide radicals (·O₂⁻) were the main active substance for the inactivation of algae, and the p-n mechanism of photocatalyst was proposed. Overall, BZ/EP-3 showed excellent algal removal ability under visible light, providing fundamental theories for practical algae pollution control.     

复配絮凝剂在餐饮废水中的应用研究

将聚丙烯酰胺 (PAM)和聚铁 (PFS)进行复配 ,分别以COD值和透光脉动值 (R)为技术指标 ,探讨了在处理餐饮废水过程中各种变化条件对絮凝效果的影响。结果表明 :PAM与PFS有一最佳复配比例 ,COD去除率达 90 %以上 ;在此絮凝剂条件下 ,投加方式、搅拌速度和浓度等对R值都有显著影响。     

载银TiO_2可见光降解活性蓝染料废水研究

以溶胶-凝胶法制备了Ag/TiO2纳米催化剂,以日光色镝灯为光源,研究了活性蓝M-2GE模拟染料废水的可见光降解,考察了不同条件对可见光降解的影响。实验结果表明,该方法制备的TiO2、Ag/TiO2催化剂粒径约20～30nm,主要以锐钛矿相存在;光催化反应的最佳条件为:催化剂载Ag量2%,投加量为2g/L,pH值在2～6;在最佳的反应条件下,活性蓝的脱色率达98%,TOC去除率达70%;在实验的浓度范围内,服从一级反应动力学,随着染料溶液浓度的增大,表观速率常数不断降低。     

n-TiO2光催化机理及其在环境保护中的应用研究进展

本文对半导体二氧化钛的光催化机理、载体形式、反应器等方面的研究进展作了详细概述。并就其在废水处理、杀菌消毒等环境保护方面中的应用作了综述     

激光散射技术及其对絮凝剂分子特性检测和性能研究

本文提出一种将激光散射技术应用于对絮凝剂性能研究的方法。综述了利用该技术可实现对絮凝剂胶体分子粒径、形态结构、粒径分布和重均分子量的精确测量 ,论述了激光散射技术在絮凝剂沉降性能的研究及絮凝剂改进提高方面的重要作用     

Spatial,temporal, and environmental limits on xanthotoxin induction in wild parsnip foliage

Summary Although present constitutively in large amounts, furanocoumarins in leaves of wild parsnip,Pastinaca sativa, are inducible to even higher concentrations by mechanical and insect damage. We conducted several experiments in order to characterize the nature and extent of xanthotoxin inducibility inP. sativa foliage. In order to determine the extent to which induction is localized, we mechanically damaged a single leaflet of a compound leaf on seven plants. Xanthotoxin concentrations increased significantly only in the damaged leaflet and in the half of the terminal leaflet closest to the damaged leaflet; thus, xanthotoxin induction is localized to the immediate vicinity of damage. To determine whether xanthotoxin induction results fromin situ biosynthesis or translocation from other plant parts, we detached individual leaflets from ten plants, damaged half of these detached leaflets, and compared xanthotoxin concentrations after 6 h in damaged and intact leaflets. We found that xanthotoxin concentrations increased 41% in damaged leaflets compared to detached leaflets that were not damaged. We also determined the rapidity and duration of the induction response. In leaflets that were damaged and then harvested after 0, 3, 24, 72, 120 and 168 h, xanthotoxin concentrations increased rapidly compared to undamaged leaflets on the opposite side of the leaf, reaching maximum levels within 24 h. This response was of comparatively short duration; concentrations declined to preinduction levels after seven days. To determine whether availability of resources influences the induced response, we performed two experiments, one in which soil nutrients were manipulated and one in which light level was manipulated. The low nutrient treatment was sufficiently extreme to cause cessation of aboveground growth, and the low light treatment caused etiolation. Extremes of resource limitation notwithstanding, leaflets significantly increased xanthotoxin production (2 to 3-fold increase under nutrient limitation and 3-fold increase under light limitation) in response to damage in both experiments.     

浊度对苦草(Vallisneria natans)幼苗生长的影响

用粒径小于100μm的泥沙分别配置浊度为30、60和90NTU的浑浊水体,将苦草(Vallisneria natans)幼苗种植于上述水体中,测定幼苗的叶片长和叶片数,并利用水下饱和脉冲荧光仪(DIVING-PAM)测定幼苗的光合荧光特性,研究在不同浊度水体中水下光强对苦草幼苗生长的影响。结果表明,随着处理时间的延长和水体浊度的增大,苦草幼苗生长受到明显的影响。第30天时,在60和90NTU水体中,水下光强不足自然光强的4.5%,幼苗叶片出现发黄、折断现象,相对电子传递速率和饱和光强显著降低,非光化学淬灭系数显著升高,表明幼苗光合作用受到明显抑制。在对照水体中,水下的光强为水面光强的43.3%以上,苦草幼苗也受到抑制;而在水下光强≥7.1%的30NTU水体中,苦草幼苗有较高的光能利用率,幼苗生长较好。这表明苦草幼苗有一定的低光适应能力,光强范围大约是7.1%～43.3%,为在浑浊水体中恢复、重建苦草种群提供了一定的实验依据。     

人参生长光环境研究进展

光因子是直接影响植物光合作用的主导因子。人参(PanaxginsengC.A.Mey.)作为典型的阴性植物,对光环境的要求十分严格。文章从保护野山参物种资源及光环境对人参生长发育的重要作用的角度,介绍了人参生长光环境的研究现状:研究时期集中于20世纪80、90年代,以指导园参栽培为目的,围绕可见光区的光强和光质特征展开,以光环境静态调查及光强日动态、光质颜色对人参生理影响为主要研究内容。文中分析了国内外对于人参适宜光照的研究结果存在较大差异的原因可能是人参种质、不同生长阶段的光合能力及光分布空间变化给人参光合作用造成的影响。总结了已有研究的结果,例如,①参棚透光率为25%时,光照强度达到饱和光强度,人参光合速率最高;②浅绿膜人参生育健壮,光合作用强度高,干物质积累快,有利于参根增重。2000年以后,随着林下栽参的兴起,原有研究成果不足以满足目前科学种植的需要,国外已经出现林下分光谱辐射对人参根部皂甙积累影响数量关系的研究,而国内针对林下参生长光环境的研究仍停留在上世纪90年代针对可见光区光强变化的水平上。文章最后指出,现有研究成果在科学指导林下栽参的选址及现代化管理方面存在不足,通过学科交叉与融合、建立合理的人参生长光环境动态模型是未来人参生长光环境研究的发展趋势。