强化供氧条件下潜流型人工湿地运行特性

针对潜流型人工湿地中溶解氧浓度和脱氮率偏低的问题,试验研究了强化供氧对植物和微生物的影响及人工湿地内溶解氧浓度、净化效率的变化规律.结果表明,强化供氧宜在湿地前端进行,最佳气水比为6左右,可采用连续供氧方式.供氧对湿地植物生理特性无明显不良影响,可显著增加湿地中硝化菌、反硝化菌数量,硝化菌可比供氧前高出1～2个数量级,反硝化菌高出1个数量级.强化供氧有效改善了湿地内氧环境,供氧前湿地内溶氧浓度普遍低于0.6 mg/L,供氧后氧浓度上升至1 mg/L以上.强化供氧有利于各类污染物质尤其是有机物和氮类物质的去除,有机物去除率比原湿地高出10％左右, TN去除率能够达到60％以上.因此,强化充氧措施具有较好的研究和应用价值.     

下行流人工湿地去除生活污水中氮磷的研究

用下行流人工湿地处理生活污水,分析了系统对TP,TN的处理效果,并将有无植物2种系统对污染物的去除效果进行对比.研究结果表明:下行流人工湿地对N,P都有很高的去除率;进水中TN,TP的浓度变化对出水中N,P含量影响不大,系统对N,P有一定的抗冲击能力;植物在污染物去除过程中起了一定的作用.     

增施CO2对C3和C4植物根际氯氰菊酯残留浓度的影响

CO2减排和土壤污染修复是我国实现经济和环境可持续发展必须解决的两大难题.基于生物固碳对根际微环境的影响,本研究提出通过增施CO2强化土壤有机污染的植物修复过程,为同时解决CO2减排和土壤污染植物修复面临的困境提供新思路.在模拟的CO2增施环境中,以C3植物菜豆和C4植物玉米为供试植物,以氯氰菊酯为目标污染物,研究增施CO2对C3和C4植物根际氯氰菊酯残留浓度的影响.结果表明,增施CO2可显著增加C3植物菜豆的地上和地下干重,在氯氰菊酯添加浓度为0、20、40 mg.kg-1时地下干重分别比自然CO2水平时增加了54.3%、31.9%和30.0%.增施CO2提高了未添加氯氰菊酯土壤的菜豆根际微生物数量,但降低了添加氯氰菊酯土壤的菜豆根际微生物数量.增施CO2对未添加氯氰菊酯土壤的菜豆根际氯氰菊酯残留浓度没有显著影响,但降低了菜豆根际氯氰菊酯的残留浓度,分别比自然CO2水平时下降24.0%（20mg.kg-1）和16.9%（40 mg.kg-1）.然而,对C4植物玉米而言,增施CO2对植物生物量、根际微生物、根际氯氰菊酯残留浓度下降没有明显促进作用,甚至有抑制作用.本实验表明,增施CO2降低了C3植物根际氯氰菊酯残留浓度,可以考虑将增施CO2作为C3植物修复土壤污染的强化措施,但对C4植物的影响还有待进一步研究.     

日本森林大气中过氧化物的浓度及其对森林植物的影响

为了研究森林衰退的原因,于2000,2001和2002年的8月,分别选择出现森林衰退的日本奥日光白根山落叶树森林和未出现森林衰退的长野县大芝高原红松森林设立监测点,对光化学氧化剂臭氧(O3)和过氧化物的浓度进行监测,同时利用人工气候室对森林植物山毛榉和白桦进行了50′10-9O3、100′10-9O3和50′10-9O3+2′10-9~3′10-9过氧化物(过氧化氢(H2O2)及甲基过氧化氢(MHP))的暴露实验.野外监测结果表明,监测期间奥日光和长野的O3平均浓度相同,奥日光的H2O2及MHP平均浓度均高于长野;大气中的H2O2和MHP总是与O3共存,并且其浓度随O3浓度的增加而增加.暴露实验结果表明,暴露于50′10-9O3+2′10-9~3′10-9过氧化物的山毛榉和白桦出现了不同于O3暴露的叶片伤害症状;与100′10-9O3相比,50′10-9O3+2′10-9~3′10-9过氧化物导致植物出现了严重的叶片伤害和显著的光合速率下降.研究结果表明,除O3外,大气中的过氧化物也是导致森林衰退的原因之一.     

Phosphorus utilization and microbial community in response to lead/iron addition to a waterlogged soil

Constructed wetlands have emerged as a viable option for helping to solve a wide range of water quality problems. However, heavy metals adsorbed by substrates would decrease the growth of plants, impair the functions of wetlands and eventually result in a failure of contaminant removal. Typha latifolia L., tolerant to heavy metals, has been widely used for phytoremediation of Pb/Zn mine tailings under waterlogged conditions. This study examined e ects of iron as ferrous sulfate (100 and 500 mg/kg) and lead as lead nitrate (0, 100, 500 and 1000 mg/kg) on phosphorus utilization and microbial community structure in a constructed wetland. Wetland plants (T. latifolia) were grown for 8 weeks in rhizobags filled with a paddy soil under waterlogged conditions. The results showed that both the amount of iron plaque on the roots and phosphorus adsorbed on the plaque decreased with the amount of lead addition. When the ratio of added iron to lead was 1:1, phosphorus utilized by plants was the maximum. Total amount of phospholipids fatty acids (PLFAs) was 23%–59% higher in the rhizosphere soil than in bulk soil. The relative abundance of Gram-negative bacteria, aerobic bacteria, and methane oxidizing bacteria was also higher in the rhizosphere soil than in bulk soil, but opposite was observed for other bacteria and fungi. Based on cluster analysis, microbial communities were mostly controlled by the addition of ferrous sulfate and lead nitrate in rhizosphere and bulk soil, respectively.     

环境污染监测中的植物光谱效应研究

介绍了健康植物光谱特征及各波段反射率的影响因子,以及植物受到污染胁迫后其光谱特征的变化情况,如可见光、近红外波段光谱反射率升高或降低,红边漂移等,同时指出污染物质主要通过改变植物叶片的色素含量而对植物光谱产生影响。阐述了污染植物光谱信息提取方法,及植物光谱效应在环境污染遥感监测中的应用情况,提出了今后高光谱遥感在植物监测应用方面需要进一步解决的问题。     

土壤重金属污染的植物修复技术

土壤重金属污染的植物修复技术是土壤重金属污染治理的重要方法.分析了土壤重金属污染植物修复的必要性、土壤重金属污染的植物修复技术(植物萃取技术、根际过滤技术、植物固化技术、植物挥发技术)、重金属超累积植物的筛选与植物修复技术的应用,以及云南省开展土壤重金属污染的植物修复工作的前景.     

Elemental sulfur effects on Pb and Zn uptake by Indian mustard and winter wheat

A pot experiment was conducted to investigate the influence of elemental sulfur to contaminated soil on plant uptake by a heavy metal hyperaccumulator, Indian mustard( Brassica juncea ) and a field crop, winter wheat( Triticum. aestivum). Elemental sulfur(S) with different rates was carried out, they were 0(S0 ), 20(S20 ), 40(S40 ), 80(S80 ), and 160(S160 ) mmol/kg respectively. Extra pots with the same rates of S but without plants were used for soil sampling to monitor pH and CaCl2-extractable heavy metal changes. The results showed that S enhanced phytoextraction of Pb and Zn from contaminated soil. Application S effectively decreased soil pH down to 1.1 as the most at the rate of Sl60. The concentrations of CaCl2-extractable Pb and Zn in soil and uptake of Pb and Zn by the plants were increased with soil pH decreased. A good correlation between CaCl2-extractable Pb/Zn and soil pH was found( Rpb^2 = 0.847 and RZn^2 = 0,991, n = 25). With S application, soil CaCl2-extractable Pb and Zn concentrations, concentration of Pb and Zn in plants and the amount of removal by plant uptake were significanfly higher than those without S. Under the treatment of S160, the highest CaCl2-extmctable Pb and Zn were observed, they were 4.23 mg/kg and 0.40 mg/kg, 2.7 and 2.0 times as that of the control(So ) respectively. At the highest rates of S( Sl~0 ), both Indian mustard and winter wheat reached the highest uptake of Pb and Zn. The highest Pb concentrations in wheat and Indian mustard were 32.8 mg/kg and 537.0 mg/kg, all 1.8 times as that of the control, and the highest Zn concentrations in wheat and Indian mustard were 215.5 mg/kg and 404.0 mg/kg, 2.4 and 2.0 times as that of the control respectively. The highest removals of Pb and Zn from the contaminated soil were 0.41 rag/pot and 0.31 nag/pot by Indian mustard in the treatment of S160 through 50 days growth.     

重金属污染土壤螯合诱导植物修复研究进展

土壤重金属污染来源广泛、危害严重,已经成为环境污染治理中的热点、难点问题。重金属污染土壤螯合诱导植物修复技术是在化学修复、植物修复的基础上发展起来的,具有绿色环保、经济高效等优点,在重金属污染土壤修复领域具有很大的发展空间。本文在综合螯合诱导植物修复技术发展概况的基础上,系统介绍了螯合剂种类、螯合剂施入时间、施入方式、浓度与剂量、不同富集植物以及土壤理化性质等对重金属污染土壤修复效果的影响及国内外研究概况,综述了螯合诱导植物修复技术的作用机理及其环境风险研究进展。最后,提出了重金属污染土壤螯合诱导植物修复技术还有待深入研究的有关问题。