土壤酶和微生物量碳对土壤低浓度重金属污染的响应及其影响因子研究

土壤酶和微生物量碳是反映土壤健康的重要微生物性质指标。土壤重金属污染能够对土壤微生物性质产生影响,然而土壤酶和微生物量碳对土壤重金属污染的响应受到土壤本身理化性质的影响。通过北京市建成区233个样点的数据监测和实验室模拟,研究了土壤脲酶活性和微生物量碳对土壤低浓度重金属污染的响应以及受土壤理化性质的影响。研究结果表明:在野外主要重金属污染的浓度范围内(Cd 0.003~0.98μg·g-1,Cu 13.4~207.9μg·g-1,Zn 29.4~322μg·g-1,Pb 4.02~174μg·g-1),土壤脲酶活性、微生物量碳(MBC)和有机碳(SOC)的含量与土壤中Cd、Cu、Zn和Pb的浓度正相关,而微生物量碳占有机碳的比率(MBC/SOC)与重金属浓度负相关;脲酶活性、MBC/SOC与重金属浓度建立的相关关系只能解释总变异的5%~10%。实验室模拟试验表明,土壤酶活性受土壤重金属含量和土壤性质联合效应的影响;土壤有机质含量和pH是影响酶活性的主要土壤理化性质。引入土壤有机碳含量和pH两个参数,重新建立脲酶活性、MBC/SOC与土壤中重金属浓度的关系,建立的相关关系的决定系数变大,能够解释总变异的14%~17%。     

Comparison of growth and lipid accumulation properties of two oleaginous microalgae under different nutrient conditions

This study compared the growth and lipid accumulation properties of two oleaginous microalgae, namely, Scenedesmus sp. LX1 and Chlorella sp. HQ, under different nutrient conditions. Both algal species obtained the highest biomass, lipid content and lipid yield under low-nutrient conditions （mBGll medium）. The biomass, lipid content and lipid yield of Scenedesmus sp. LX1 were 0.42g·L^-1, 22.5% and 93.8mg·L^-1, respectively. These values were relatively higher than those of Chlorella sp. HQ （0.30g·L^-1, 17.1% and 51.3mg·L^-1, respectively）. These algae were then cultivated in an SE medium that contained more nutrients; as a result, the biomass and lipid yield of Scenedesmus sp. LX1 reduced more significantly than those of Chlorella sp. HQ. Opposite results were observed in lipid and triacylglycerols （TAGs） contents. The cell sizes of both algal species under low-nutrient conditions were larger than those under high-nutrient conditions. Chlorella sp. HQ cells did not aggregate, but Scenedesmus sp. LX1 cells flocculated easily, particularly under low-nutrient conditions. In summary, low-nutrient conditions favour the growth and lipid production of both algae, but Scenedesmus sp. LX1 outperforms Chlorella sp. HQ.     

浅水湖泊水生植物适宜生物量评估方法的探讨

总结了水生植物对湖泊生态系统的影响、水生植物生物量控制与收割管理的研究,分析了目前浅水富营养化湖泊恢复过程中水生植物生物量确定方法的不足;立足于水生植物生长特点,提出了基于湖泊生态模型的浅水湖泊大型水生植物在生长期和衰亡期的适宜生物量评估方法的研究框架,本文可为指导湖泊生态修复工程及其后续维护,为完善健康湖泊的综合评价标准和湖泊生态修复理论提供科学支撑.     

曝气生物滤池快速启动和活性保持性能研究

研究了两级曝气生物滤池处理生活污水时各级的快速启动和在低负荷下活性保持的能力,考察了出水中主要污染物和生物滤池内生物量随时间的变化情况。结果表明,碳氧化生物滤池从低负荷恢复时,所需要的时间与活性保持时的负荷大小有关,负荷越小,所需要的时间越长。在极端情况下,恢复时间接近一次完全启动的时间,因此碳氧化生物滤池的低负荷维持并没有太大的实际意义。而硝化生物滤池在低负荷下活性保持良好,重新启动仅需要完全启动1/10的时间,这就有可能以低成本实现硝化生物滤池的活性保持。     

三峡库区典型消落带土壤微生物生物量碳、氮的变化特征及其影响因素探讨

本文以三峡库区王家沟一典型消落带为研究对象,选择180、175、165和155 m这4个高程以探讨水位变化对土壤微生物生物量碳(SMBC)和微生物生物量氮(SMBN)的影响.其中,175、165和155m高程坐落在消落带内,分别表现为短、中和长期淹水,180 m高程作为对照,为永不淹水的陆地.土壤样品的采集深度为0~20 cm,每周采集一次.结果表明,180 m高程处土壤有机碳(SOC)和全氮(TN)均无明显的季节变化,而175 m高程处SOC和TN季节变化明显,表现为春夏季高于秋冬季;各高程上的SMBC和SMBN及其分配比例呈现出秋高夏低的季节变化形态,表明消落带夏季高温低湿的土壤环境限制了微生物活性及土壤有机碳氮的周转速率.数据分析表明,与180 m高程相比,消落带上的175 m和165 m高程SOC、TN、SMBC及微生物商、SMBN及其分配比例均得到不同程度的升高,而155 m高程除了SMBN及其分配比例与对照无显著差异外,其他指标均显著低于对照,表明与未淹水对照点相比较,中短期淹水有利于提高消落带土壤碳氮含量及周转速率和微生物生物量,而长期受到江水淹没胁迫的土壤则会抑制土壤碳氮以及SMBC含量,并降低SOC的周转速率.相关分析表明,SMBC和SMBN均与地下5 cm处温度和p H呈极显著负相关,说明地下5cm处的温度以及p H对土壤微生物生物量有强烈的影响.     

面向污水资源极尽利用的污水精炼技术与模式探讨

针对现有城镇污水处理系统存在的高投入、高产污和低效率等问题,提出了面向污水资源(wastewater resource)极尽利用的“污水精炼(wastewater refining)”新理念,剖析了实现污水精炼的关键技术和可能的技术途径。污水精炼的核心理念是将污水视为资源,改变以污染物分解和去除为基础的现有处理技术原理,通过污水中有价值物质的精细化筛分和定向增值转化,实现污水中水、有机质和无机盐等资源的安全、高效和极尽利用。污水精炼主要包括筛分、转化和利用3个关键环节。基于技术分析,针对不同的场景,提出了污水精炼生态模式(wRefine-E)和污水精炼高端模式(wRefine-S)2种技术途径,并对污水精炼关键技术(wastewater refining technology)进行了较为系统的分析;同时指出,再生水安全高效利用是污水精炼技术发展的重要推动力,污水再生与资源能源转化耦合是未来的必然发展方向。     

剑麻纤维基多孔炭材料的制备及其吸附氯苯的研究

以剑麻纤维为原料,通过简易的一步炭化活化法制备了一系列多孔炭材料,分别探究了3种温和的金属盐活化剂、活化剂与剑麻纤维的质量比和活化温度对炭材料的氯苯吸附量的影响,并通过BET、SEM、XRD、Raman、FT-IR、元素分析等手段表征其物理化学性质.结果表明,当采用CuCl₂为活化剂、CuCl₂与剑麻纤维的质量比为10∶1及活化温度为800℃时,制备得到的剑麻纤维基多孔炭(PCC)吸附性能最佳,其在氯苯浓度为1560 mg·m^-3时,吸附量达到856 mg·g^-1,而未经CuCl₂活化的炭材料(PC)的氯苯吸附量仅为15 mg·g^-1.氯苯吸附性能的提升主要归因于比表面积、孔容、无序性和表面含氧官能团的增加.此外,采用巨正则系综蒙特卡洛(GCMC)方法模拟氯苯分子在制备的多孔炭材料中的吸附行为,结果表明,该材料中孔径为0.5 nm的孔对氯苯分子的吸附能力最强,且对氯苯吸附起主导作用的为苯环中心和Cl原子与炭材料上连接含氧官能团的H原子之间的静电作用力.     

生物膜法污水处理工艺中微生物量的对比研究

采用生物膜法污水处理工艺,对深圳布吉秀峰工业城污水进行现场中试研究.出水中有机物BOD₅,COD_Cr及悬浮物去除率一般在80%以上,曝气生物滤池工艺中的污泥质量浓度2倍于生物接触氧化工艺,曝气生物滤池中的原生动物及后生动物密度比生物接触氧化工艺高出1～2个数量级.试验中曝气生物滤池的去除效果比生物接触氧化工艺稍好,从反应器中污泥质量浓度(ρ(MLSS))及原生动物、后生动物数量的比较进一步证实这一结论.      

Differences in nitrous oxide fluxes from red soil under different land uses in mid-subtropical China

Red soil may play an important role in nitrous oxide (N₂O) emissions due to its recent land use change pattern. To predict the land use change effect on N₂O emissions, we examined the relationship between soil N₂O flux and environmental determinants in four different types of land uses in subtropical red soil. During two years of study (January 2005-January 2007), biweekly N₂O fluxes were measured from 09:00 to 11:00 a.m. using static closed chamber method. Objectives were to estimate the seasonal and annual N₂O flux differences from land use change and, reveal the controlling factors of soil N₂O emission by studying the relationship of dissolved organic carbon (DOC), microbial biomass carbon (MBC), water filled pore space (WFPS) and soil temperature with soil N₂O flux. Nitrous oxide fluxes were significantly higher in hot-humid season than in the cool-dry season. Significant differences in soil N₂O fluxes were observed among four land uses; 2.9, 1.9 and 1.7 times increased N₂O emissions were observed after conventional land use conversion from woodland to paddy, orchard and upland, respectively. The mean annual budgets of N₂O emission were 0.71-2.21 kg N₂O-N ha⁻¹ year⁻¹ from four land use types. The differences were partly attributed to increased fertilizer use in agriculture land uses. In all land uses, N₂O fluxes were positively related to soil temperature and DOC accounting for 22-48% and 30-46% of the seasonal N₂O flux variability, respectively. Nitrous oxide fluxes did significantly correlate with WFPS in orchard and upland only. Nitrous oxide fluxes responded positively to MBC in all land use types except orchard which had the lowest WFPS. We conclude that (1) land use conversion from woodland to agriculture land uses leads to increased soil N₂O fluxes, partly due increased fertilizer use, and (2) irrespective of land use, soil N₂O fluxes are under environmental controls, the main variables being soil temperature and DOC, both of which control the supply of nitrification and denitrification substrates.     

绿地再生水灌溉土壤微生物量碳及酶活性效应研究

再生水灌溉引起了土壤理化性质的变化,其对土壤生物活性的影响备受关注.以再生水利用较典型的北京为研究区,分层采集了不同再生水灌溉历史的城区公园绿地与城郊农田表层土壤样品,测定并分析了一些常规理化指标、土壤微生物量碳及5种土壤酶（脲酶、碱性磷酸酶、蔗糖酶、脱氢酶和过氧化氢酶）活性,探讨长期再生水灌溉下土壤微生物量碳和酶活性的变化.结果表明,再生水灌溉下公园绿地土壤微生物量碳和酶活性均高于其自来水对照灌区,农田上升不明显.与对照相比,公园绿地与农田再生水灌区0～20 cm土层土壤微生物量碳平均含量分别上升了60.1%和14.2%,公园绿地再生水灌区0～20 cm土层中土壤酶活性平均增幅为36.7%,而农田为7.4%.调查区土壤微生物量碳及酶活性均随土壤深度的增加而降低,其中公园绿地0～10 cm与10～20 cm土层间差异极显著.因此,北京地区城市绿地使用再生水长期灌溉有助于提高土壤生物活性.