土壤水分对黄土丘陵区演替序列种种间竞争的影响

种间竞争是不同物种为争夺资源发生的相互关系,对群落植被演替、恢复有重要意义。同时水分是黄土丘陵区植物生长的限制因素,该区多物种种间水资源竞争研究较少,为此选取该区6种演替序列种,采用种对试验法研究其对土壤水分变化的竞争响应。结果表明:(1)除狗尾草外,其他5种植物的生长指标和土壤水分变化趋势基本一致,地下部分变化程度大于地上部分。不同植物最适水分条件不同。(2)单位竞争能力与总竞争能力相似地反映植物种间竞争状况。狗尾草和白羊草在中高水竞争力均高于同组的猪毛蒿、达乌里胡枝子,低水反之。铁杆蒿随着水分减少,竞争力低于茭蒿。受水分胁迫时,达乌里胡枝子、白羊草的竞争力茭蒿、铁杆蒿猪毛蒿、狗尾草,即演替后期种竞争能力演替中期演替初期,符合演替生态位理论。竞争的不对称随着环境生产力的增加而降低。随着演替中土壤水分的减少,物种耐水分胁迫的能力逐渐增强,从而促使演替的继续。     

不同贮藏条件下荷花粉脂质氧化与色泽降解动力学模型

为了减少干燥后荷花粉贮藏过程中品质的劣变,该研究选用可真空和避光的包装材料,分别研究了30 d贮藏过程中温度(4、20、30℃)、光照(避光、非避光)和氧气(真空、常压)对荷花粉黄色度值(b*值)、过氧化氢值(peroxide value,POV)和硫代苯巴比妥酸反应底物值(thiobarbituric acid reactive substances,TBArs)变化动力学的影响;同时,采用零阶和一阶数学模型对试验数据进行模拟。结果表明:贮藏温度对荷花粉贮藏过程中品质劣变具有显著影响。在避光真空包装条件下,温度为20和30℃贮藏30 d,与4℃贮藏条件相比,荷花粉黄色度值显著降低(P0.05),POV值和TBArs值显著上升(P0.05);贮藏温度为4℃,真空包装贮藏发现,光照对荷花粉POV值的影响不显著(P0.05),但明显加快了脂质氧化的传播速度,非避光条件下贮藏30 d,TBArs值上升了7.42 mg/kg;零阶模型可较好的预测荷花粉贮藏过程中脂质TBArs值的变化,一阶模型可较好的预测荷花粉贮藏过程中黄色度和脂质POV值的变化规律。研究结果为脱水后荷花粉贮藏过程中品质劣变规律的探索及贮藏条件的选择提供了一定的基础。     

乙草胺降解菌Y-4的分离鉴定及降解特性研究

从长期经乙草胺污染的污泥中分离到一株能以乙草胺为唯一碳源和能源生长的菌株Y-4,通过生理生化实验和16S rDNA同源性序列分析,鉴定为申氏杆菌属（Shinella sp.）。采用室内培养方法,研究了Y-4对乙草胺的降解特性。结果表明,Y-4能有效地降解浓度为5～200 mg.L-1的乙草胺,在48 h内对50 mg.L-1乙草胺的降解率达到83.3%。菌株Y-4降解乙草胺的最适pH值为8.0,最适温度为30℃,其对丙草胺和丁草胺等农药也有良好的降解效果。     

死猪堆肥处理的通风率选择探讨

针对生产中死猪难处理的问题,作者对死猪堆肥技术进行了试验研究。试验采用箱式堆肥方法,设定处理1、处理2、处理3的通风速率分别为300、200和100L/(m3·min),每个处理设置4个重复;堆肥箱有效容积为0.95m3,每个堆肥箱中间单层放入3头死猪(总质量30～32kg),死猪上、下和四周是由玉米秸秆和猪粪混合的堆肥物料。在北京夏季条件下的运行结果表明,各处理堆肥箱内平均温度超过55℃的时间分别为19、19和34d,处理间差异不显著;试验6周后,死猪仅剩下大部分骨骼,此时3种处理的死猪降解率分别达到(95.5±1.4)%、(94.7±1.7)%和(95.0±0.8)%,仅处理1与处理3的死猪质量(湿基)差异显著(P<0.05);试验14d后粪大肠菌群数即能满足相关标准的无害化要求;各处理堆肥物料的同一特性参数的变化规律一致,且无显著差异,堆肥结束时物料的有机质(干基)质量分数在47%～48%,全氮和全磷(干基)的质量分数达5.7%～6.4%,超过《有机肥料》标准的总养分≥5%的技术指标要求。鉴于以上试验结果,综合考虑运行成本,建议死猪箱式堆肥的通风率不大于100L/(m3·min)和堆肥时间不少于6周。死猪堆肥在无害化处理死猪的同时,将其转化成有机肥料,将为中国规模化猪场的死猪处理提供新的技术选择。     

苯噻草胺光催化和直接光解影响因素和降解途径研究

采用微波辅助光催化降解和直接光解实验方法,研究了苯噻草胺在光催化和直接光解两种体系下的降解情况,并考察了初始pH值、腐植酸浓度以及阿特拉津对其光催化降解和直接光解的影响。结果表明,在光照4min内,苯噻草胺直接光解效率为93．3％,较光催化降解效率高出28．9％;初始pH值从1．88增加至10．28时,苯噻草胺光催化和光解速率常数分别提高了250％和58．6％;添加腐植酸对苯噻草胺的直接光解和光催化均具有抑制效应,并且抑制效应随着腐植酸浓度的增加而增加,当腐植酸浓度增加至40mg·L^-1时,直接光解和光催化降解速率分别降低了51．8％和47．5％;10mg·L^-1的阿特拉津抑制了苯噻草胺的前期降解,整体直接光解速率降低了46．3％,但整体光催化降解速率没有减小。此外,采用GC—MS对苯噻草胺两种降解体系下的主要中间产物进行鉴定,并提出了主要的光降解途径。     

低浓度环糊精强化Fenton试剂降解液相中茚并（1,2,3-cd）芘的试验研究

为了研究Fenton试剂对液相中茚并（1,2,3-cd）芘的降解效果,采用实验室内试验方法,考察并确定了H2O2浓度、FeSO4浓度、反应时间、pH值以及低浓度环糊精等因素对降解的影响。结果表明,使用Fenton试剂可以有效降解液相中的茚并（1,2,3-cd）芘。在降解过程中,对初始浓度为2.5mg·L-1的茚并（1,2,3-cd）芘,当H2O2浓度为20.0mmol·L-1,FeSO4浓度为3.0mmol·L-1时降解较为有效,去除率可达到62.88%,浓度过高或者过低都不利于反应的发生。Fenton氧化降解茚并（1,2,3-cd）芘的反应在60min内可以完成,并且pH值控制在3时更加有利于降解。反应体系中加入低浓度环糊精可以增加茚并（1,2,3-cd）芘在水相中的溶解度,当加入HPCD的浓度为3mg·L-1时,Fenton试剂对茚并（1,2,3-cd）芘的氧化去除率可由62.88%提高至71.24%。     

吴旗柴沟流域植被物种多样性研究

为了解吴旗县植被自然恢复的基本过程及其物种多样性变化,对该县柴沟流域封禁多年的植物群落进行了研究,结果表明:柴沟流域植物种主要以猪毛蒿、达乌里胡枝子、赖草、铁杆蒿为主,阳坡的植被演替规律为猪毛蒿+狗尾草+华虫实→赖草+猪毛蒿(达乌里胡枝子、铁杆蒿、隐子草)→达乌里胡枝子+赖草(百里香、冷蒿、角蒿、铁杆蒿),阴坡植被恢复的演替规律为猪毛蒿(达乌里胡枝子、赖草)→铁杆蒿(冷蒿)。柴沟流域阴坡群落的物种丰富度、多样性、均匀度都较高,阳坡较低,混交林地的丰富度最大、均匀度最小。     

Occurrence of Polycyclic Musks in Sewage Sludge and their Behaviour in Soils and Plants. Part 1: Behaviour of Polycyclic Musks in Sewage Sludge of Different Treatment Plants in Summer and Winter (5 pp)

Background, Aim and Scope   Part 1: Behaviour of Polycyclic Musks in Sewage Sludge of Different Treatment Plants in Summer and Winter Part 2: Investigation of Polycyclic Musks in Soils and Plants -  Preamble. In Part 1 of the study, screening tests were performed to investigate the occurrence of PCMs in sewage sludges. For a preliminary risk assessment, further information is needed about their behaviour in the terrestrial environment. Hence, Part 2 examined the adsorption of PCMs to soil, their dissipation and leaching in soil and their uptake by plants. Background, Aim and Scope   Polycyclic Musks (PCMs) enter the environment via the waste water system. Because of their persistence, they can accumulate in different matrices like sewage sludge or biota. By the use of sewage sludge as a fertilizer, PCMs are transferred to agricultural soils. Therefore, in Part 1 of the study, screening tests were performed to investigate the occurrence of PCMs in sewage sludge. For a preliminary risk assessment, further information is needed about their behaviour in the terrestrial environment. Hence, Part 2 of the study examined the adsorption of PCMs to soil, their dissipation and leaching in soil, and their uptake by plants. Materials and Methods: In the screening study, samples of activated sewage sludge were taken both in summer and in winter at 21 treatment plants. In order to get an overview of the contamination situation, sampling covered different types of treatment plants (in rural, urban, industrial areas). Analytical methods for the determination of HHCB, AHTN, ADBI, ATTN, AHDI and ATII in the sludge samples were developed and applied. Results: The analytical screening of PCMs showed their presence in activated and dried sewage sludge samples. HHCB and AHTN represented about 95% of the PCMs investigated. Their concentrations in the activated sludge samples varied between 2.9 and 10.4 mg/kg dry mass (dm) and 1.1 to 4.2 mg/kg dm, respectively. Although different types of sewage treatment plants were investigated, similar PCM levels were found, showing the widespread input of these compounds into domestic waste water. Discussion: PCM concentrations in activated sludge varied widely. The variation drops substantially when concentrations are related to the varying dry mass. In dehydrated sludge, PCM concentrations were up to 24 mg/kg dm for HHCB and up to 6.9 mg/kg dm for AHTN. These high values are comparable to those obtained in other investigations analysing PCMs. If the degradation of organic mass during anaerobic decomposition is included in the evaluation, the figures obtained are comparable to those for activated sludge. Elimination in sewage sludge was higher in summer than in winter. Therefore, the contamination of the sludges in winter reached higher levels compared to the summer. Conclusions: The results show that PCMs are widespread contaminants in sewage sludge. Recommendations and Perspectives: PCM should be considered in a risk assessment as potential contaminants of sewage sludge destined for agricultural use. Due to the high PCM levels in sewage sludge, further investigations into the degradation and elimination behaviour in sewage sludge have to be carried out, including that involving PCM metabolites such as lactone derivatives.     

塔里木河下游环境退化的因子分析

 为了研究土地荒漠化及其影响因子,对塔里木河下游沿河道布设的39个样地,进行环境退化因子分析。通过数学变换,8个观测指标被转换为3个综合指标(水分指标、沙化指标、盐化指标)。根据本地区的实际,对3个综合指标进行环境解释。依据这3个主分量的贡献率,计算塔里木河下游39个样地的因子得分,并据此进行环境退化程度(荒漠化)的分类。从因子得分结果看,塔里木河下游地区呈明显的随距大西海子水库距离的增加荒漠化程度加重的特点,引起这一结果的主要原因,是水、盐条件逐渐恶化带来的植被衰败。从分类的结果看,与该地区的实际基本相符合。这说明因子分析的方法综合了多指标的综合影响,划分的结果更加客观。     

土壤侵蚀退化研究

土壤退化是全球性的重大环境问题之一,直接威胁人类的生存。在引起土壤退化的诸因素中,土壤侵蚀是最普遍和最重要的因素。在前人土壤侵蚀退化研究成果的基础上简单回顾了其发展现状,重点综述了土壤侵蚀退化机理,并针对性地提出了土壤侵蚀退化防治措施。