油污土壤生物修复实验研究

为了有效预防和治理因石油开采、运输等造成的土壤污染,对大庆地区油污土壤进行了生物修复的实验研究,通过室内盆栽模拟实验,对芦苇和香蒲根际土壤的石油类污染物总含量、石油烃类组分浓度、非烃组分浓度进行了测定。结果表明,芦苇和香蒲对石油类污染物具有比较明显的降解作用,可以使被污染土壤中的某些油污成分逐渐被选择性消耗。实验还可看出,芦苇和香蒲对石油类污染物中正构烷烃的降解能力高于非正构烃。总体看,芦苇对石油类污染物的降解能力强于香蒲,但芦苇对非正构烃的降解能力略逊于香蒲。     

不同水深条件下芦苇湿地对氮磷的去除研究

研究了两种水深条件(2cm浅水位和15cm深水位)下芦苇湿地对模拟太湖水中氮磷的净化能力。结果表明,芦苇的存在明显地促进湿地脱氮除磷能力的发挥。湿地内反硝化过程为主要脱氮途径。芦苇对湿地反硝化过程的促进作用主要是通过提供有机碳源实现的。在相同进水水质和停留时间为24h的运行条件下,浅水位芦苇湿地与深水位芦苇湿地相比对氮磷的去除率更高,但后者对氮磷的去除速度更快。     

Seasonal changes of endogenous ABA and cytokininsin environmental adaptation of differentecotypes of reed plants

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CHemical and Biological Assessment of an Urban, Estuarine marsh in Northeastern New Jersey USA

Oritani Marsh in the Hackensack Meadowlands of urbanized northeastern New Jersey USA was assessed in 2000 for vegetation, soil/sediment chemistry, abundance/diversity of benthic invertebrates, and bird and mammal usage. Vegetatively, both marsh and uplands are dominated by tall, dense Phragmites australis. Small patches (less than 2 hectares total) dominated by Spartina spp. were found at the lowest elevations. Soil/sediment cores were sliced into 5 intervals and analyzed for metals, pesticides and volatile/semivolatile organic compounds. Thirteen locations had at least one chemical above Long et al.’s [Environmental Management, 19, 1995, 81--97] “Effects Range-Median” (ERM). Seven metals and nine organics exceeded ERM in at least one sample, with mercury showing the most exceedances. The surface 15 cm interval was generally more contaminated with metals than the 15 to 30 cm interval; the reverse was true for semivolatile organic compounds. Twenty taxa of benthic macroinvertebrates were collected, with each location producing from 1 to 9 taxa. Abundance ranged from 11 to 3,889 individuals/m². Number of taxa was moderately (r ² between 0.40 and 0.70) negatively correlated with zinc, beryllium, nickel and arsenic concentrations; no other chemical’s r ² was above 0.25. Diversity was moderately negatively correlated with arsenic and beryllium. These correlations were unexpected: zinc, beryllium, nickel and arsenic were not the chemicals found at the highest concentrations relative to benchmarks. Number of taxa, abundance and diversity were moderately (negatively) correlated with elevation; organic carbon was moderately (positively) correlated with abundance. All other correlations were weak (r ² < 0.35). Live traps captured only one mammal species, the meadow jumping mouse. Bird observations revealed 39 species, dominated by a few common species.     

湿地植物芦苇和香蒲根际微生物特性研究

在人工湿地系统中 ,微生物是系统中有机污染物和氮分解去除的主要执行者 ,植物根系及其分泌物使人工湿地系统中的微生物数量显著增加。本文研究了湿地植物芦苇和香蒲根际微生物的数量、活性等特性 ,结果表明芦苇和香蒲具有明显的根际效应 ,根际微生物活性高于非根际的微生物活性 ,芦苇根际比香蒲更适合亚硝酸细菌的生长     

崇明东滩芦苇湿地温室气体排放通量及其影响因素

通过静态箱-气相色谱法对崇明东滩芦苇群落在生长周期内的3种温室气体——CH₄、N₂O和CO₂的排放、吸收特征进行研究. 结果表明:芦苇群落湿地CH₄排放通量受温度影响较大,夏季排放通量明显高于其他季节,年均排放通量为74.46μg/(m2·h);N₂O年均排放通量为2.22μg/(m2·h),冬季排放通量最大;CO₂的吸收率季节变化明显,年均排放通量为-101.93mg/(m2·h). 温度、芦苇植株光合作用及呼吸作用是影响CH₄产生和排放的主要因素;而沉积物氮素不足和限制,则是促使芦苇群落表现出对N₂O吸收的原因;芦苇的光合作用及土壤呼吸作用随温度和季节的变化是控制芦苇湿地CO₂的排放和吸收的主要因素. 芦苇植株发达的通气组织是CH₄和N₂O由大气向沉积物扩散的通道,同时分子扩散过程也是沉积物产生的CH₄、N₂O和CO₂扩散到大气中的途径和方式.      

The effect of macrophytes on retention times in a constructed wetland for wastewater treatment

Retention times of treated water in a constructed wetland (CW) with horizontal subsurface flow were determined both in the vegetative and non-vegetative periods of 2005. Tracer experiments were performed using fluorescein, an organic compound detectable at extremely low concentrations. Nominal and tracer retention times were determined and compared. Winter tracer retention time (TRT 194 h) and nominal retention time (nHRT 190 h) were nearly exactly equal, while summer TRT (335 h) was approximately twofold higher than nHRT (158 h). Residence time distribution function (RTD) was used to compare retention times obtained for the vegetative and non-vegetative periods. The obtained results document a significant influence of dense common reed vegetation on retention characteristics of the studied system. Common reed can convert a significant volume of water from liquid to gas via evapotranspiration (ET) and thus prolong water retention times in the system. This is very important both technically and ecologically. Longer retention times mean a longer time for microbiological decay of wastewater. Water converted from liquid to gas causes cooling of the microclimate, which is very important, especially in intensively cultivated areas with a lack of water.     

基于小波神经网络的芦苇潜流人工湿地水质预测

人工湿地系统对污水的处理效果好,工艺简单,投资运行费用低,但影响其出水水质的因素很多,并且往往是非线性的,因此目前很难将这些影响因素模型化并用于水质预测. 已有的预测方法不是过于复杂就是预测精度不高. 神经网络是一种具有较强预测能力的新方法,适用于各种非线性模型的预测. 在小试研究的基础上,使用3种不同的、经过训练的小波神经网络,对芦苇潜流人工湿地沿程各采样口的水温,ρ(DO),pH,Eh和ρ(COD_Cr)等水质指标进行了预测. 结果显示,各指标的平均相对误差分别为:水温≤4.21%,pH≤1.36%,ρ(DO)≤9.77%,Eh≤6.50%,ρ(COD_Cr)≤17.76%,表明小波神经网络模型适用于人工湿地模型的预测.      

九寨沟自然保护区4种水深梯度下芦苇分株地上生物量的分配与生长

芦苇是世界自然遗产--九寨沟自然保护区的一种重要的湿地植物.本文对该地区芦苇海4个不同水深梯度下芦苇的无性系地上分株的生物量分配、生长与繁殖策略进行了比较研究.结果表明,在47 cm (水在土层表面上)水深环境中,芦苇单株的平均生物量(4.2 g)最大.在-15 cm (水在土层表面下15 cm)的生境中,叶生物量百分比(叶生物量占单株总生物量的百分比, 46.1%)最大.芦苇地上分株高度、地上分株有分枝的单株百分比(茎上有分枝的分株占样地总分株的百分数)也存在明显的差别.茎的生物量分配百分比和生长速率随水深的增加而增加.在滩地生境中,开花率、花序的生物量百分比明显大于水较深的生境.分株株高与分株生物量、茎生物量与叶生物量都表现出较明显的幂指数异速生长规律.在-15 cm水深的生境中,叶生物量的生长快于茎的增长;在其他水深梯度的生境中,则是茎生物量的增加快于叶生物量的增加.     

滨海区芦苇和香蒲耐盐碱性及除氮磷效果对比研究

滨海河口区水体盐碱含量高,生态景观萧条,亟需筛选既能耐盐碱又能有效去除氮磷的植物.通过水培实验研究了盐碱胁迫下,芦苇、香蒲的耐受性及对水体中氮、磷的去除率.结果表明,芦苇至少能够耐受10‰的盐度和高达8.5的p H,香蒲能耐受的盐度为7.5‰、p H为8.0,结合生长、生理指标(叶片相对电导率、脯氨酸、叶绿素和根系活力)的变化,芦苇耐盐碱性强于香蒲;盐胁迫下,芦苇对氨氮去除率相对较高,由于香蒲生物量较高,对硝氮、总磷去除效果好,分别比芦苇高2.5%、7.3%,对总氮去除两者相当;碱胁迫下,芦苇耐碱性较强,对氨氮、总磷的去除效果较香蒲稍好,而香蒲对总氮的去除率比芦苇高8.2%.综上所述,芦苇、香蒲可作为修复滨海高盐碱水体生态景观的备选植物.