免耕和秸秆还田对小麦生长期内土壤酶活性的影响

利用中国科学院封丘农业生态实验站保护性耕作定位试验平台,研究全翻耕、常规耕作、免耕、全翻耕+秸秆还田、常规耕作+秸秆还田和免耕+秸秆还田6种耕作方式对小麦生长期内土壤酶活性的影响。结果表明:(1)在小麦整个生育期,土壤碱性磷酸酶、转化酶、脲酶活性表现为免耕处理大于常耕处理,翻耕处理小于常耕处理,有秸秆处理大于无秸秆处理,3种酶活性以免耕+秸秆还田处理为最高,翻耕处理最低。(2)在小麦成熟期,土壤脱氢酶活性表现为免耕处理小于常耕处理,其他生育期土壤脱氢酶活性表现为免耕处理大于常耕处理,有秸秆处理大于无秸秆处理。(3)在小麦不同生育期,各处理土壤酶活性表现出不同的规律性:碱性磷酸酶活性在苗期较低,至孕穗期达到峰值,至成熟期又有所降低;转化酶活性呈现在拔节期大幅升高而后降低的变化趋势;脲酶活性分别在苗期和孕穗期较高;脱氢酶活性在整个生育期一直增加,成熟期达到峰值。(4)4种土壤酶活性之间相关性均达显著水平,聚类分析表明,按照土壤总体酶活性水平可将6个处理划分为3组,酶活性水平最高的为免耕+秸秆还田处理,免耕结合秸秆还田能较好地提升土壤酶活性。     

Substance flow analysis for an urban drainage system of a representative hypothetical city in China

This paper discusses the use of substance flow analysis (SFA) as a tool to support quantified research on urban drainage systems. Based on the principle of mass balance, a static substance flow model is established to describe and examine the routes and intensities of water, chemical oxygen demand (COD), total nitrogen (TN) and total phosphorus (TP) for a representative hypothetical city (RH city) in China, which is a devised and scaled city using statistical characteristics of urban circumstances at the national level. It is estimated that the annual flux of water, COD, TN and TP through the urban drainage system in 2010 was 55.1 million m³, 16037.3 t, 1649.5 t and 209.7 t, respectively. The effluent of wastewater treatment plant (WWTP) was identified as the most important pathway for pollutant emissions, which contributed approximately 60% of COD, 65% of TN and 50% of TP to receiving water. During the wastewater treatment process, 1.0 million m3, 7042.5 t, 584.2 t and 161.4 t of the four studied substances had been transmitted into sludge, meanwhile 3813.0 t of COD and 394.0 t of TN were converted and emitted to the atmosphere. Compared with the representative hypothetical city of 2000, urban population and the area of urban built districts had expanded by approximately 90% and 80% respectively during the decade, resulting in a more than threefold increase in the input of substances into the urban drainage system. Thanks to the development of urban drainage systems, the total loads of the city were maintained at a similar level.     

Genotype variations in accumulation of cadmium and lead in celery (Apium graveolens L.) and screening for low Cd and Pb accumulative cultivars

To help reduce risks of heavy metal pollution, two pot experiments were conducted to investigate the variations, transfer potential, and stability of Cadmium (Cd) and Lead (Pb) accumulations in celery (Apium graveolens L.) and to screen for low Cd and Pb accumulative cultivars. The maximum differences in shoot Cd concentration were 4.7-fold under low-Cd exposure and 3.3-fold under high-Cd exposure. These genotype variations in Cd accumulation are sufficiently large to help reduce Cd contamination risk in soil by using the Low-Cd-Accumulative genotypes. Cd accumulation of the Low-Cd-Accumulative genotypes is significantly positive correlated with Pb accumulation. Evidence obtained proves that Cd and Pb accumulations in celery are stable and genotype-dependent at the cultivar level. The presence of high-Pb contamination in soil promoted Cd accumulation in shoots of celery. Celery is considered a species with high risks in Cd pollution and low risks in Pb pollution. Among the tested cultivars, cv. Shuanggangkangbing (SGKB) had the lowest shoot Cd and Pb accumulating abilities, and thus is the most important material for breeding of pollution-safe cultivars (PSCs) to minimize Cd and Pb accumulations in celery.     

潖江蓄滞洪区洪灾风险分析及避难转移安置研究

以潖江蓄滞洪区洪灾避难转移安置为研究对象,利用Mike21技术,建立潖江蓄滞洪区洪水演进数值模型,模拟北江遭遇300年一遇洪水时,在潖江口泄洪,潖江蓄滞洪区内洪水演进,分析潖江蓄滞洪区洪灾风险.通过实地调查,结合历史洪水情况,利用潖江蓄滞洪区DEM数据、Google地图及最快避难转移安置时间分析法,详细设计了潖江蓄滞洪区内各行政村落遭遇洪灾时避难转移与人员安置,为潖江蓄滞洪区启用预案科学编制及防洪减灾提供科学依据.     

简易生活垃圾填埋场综合治理工程设计

随着越来越多标准化生活垃圾填埋场的建成和投入运行,原有简易生活垃圾填埋场的环境综合治理被各级环境管理部门日益重视,成为改善环境急需解决的问题。以西北某市简易生活垃圾填埋场综合整治工程为例,通过分析简易垃圾填埋场存在的主要环境隐患,有针对性地提出了解决垃圾渗沥液、填埋气、边坡安全等环境和安全问题的具体工程措施,尽量将简易垃圾填埋场对周围环境的影响降到最低程度。     

基于自然保护区属性的管理成本分析

从自然保护区的管理成本构成入手,分析了自然保护区属性对不同尺度上管理成本的影响方式,在分类总结自然保护区管理成本的分析方法基础上,提出基于自然保护区属性的管理成本分析流程。该研究结果可为准确掌握自然保护区管理成本规模与构成、科学评估与预测资金投入后的使用效率与保护效果提供支持,并可为揭示自然保护区复合生态系统格局与过程提供新思路。     

氯丹和灭蚁灵污染场地土壤对陆生生物的毒性效应

为向污染土壤的监测、生态毒理诊断及修复提供方法和数据,以氯丹、灭蚁灵污染场地土壤为供试土壤,测定了氯丹、灭蚁灵复合污染对蚯蚓的急性毒性效应以及对小麦、小白菜、玉米和水稻4种植物种子发芽率和根伸长抑制率的影响.结果表明,蚯蚓对本场地污染响应十分敏感,处理d 3高浓度组开始出现死亡,此后死亡率随污染物浓度增大而上升,d 14部分高浓度组死亡率达到100%;同一浓度下,氯丹和灭蚁灵对4种植物种子根伸长抑制率均显著大于对种子发芽的抑制率,植物的根生长比种子发芽对有机污染物的毒性更为敏感.4种植物种子对污染场地土壤的敏感性为小麦>小白菜>水稻>玉米.氯丹和灭蚁灵对蚯蚓的毒性要大于对这几种植物的毒性,蚯蚓对氯丹和灭蚁灵的响应更加敏感.因此,蚯蚓作为指示生物,其急性毒性试验可作为氯丹和灭蚁灵污染场地的诊断指标,诊断周期以14 d为宜.     

重金属污染土壤属性区间识别模型的赋权分析

土壤重金属污染评价为土壤重金属污染的及时防范和综合治理提供重要的理论依据。文章在属性区间识别理论的基础上,构建土壤重金属污染评价的属性区间识别模型：选取土壤重金属污染中普遍存在的Hg、Cd、As、Pb、Cu、Zn作为评价指标,采用均化系数将各评价指标的属性测度区间转化为综合属性测度;为避免主观因素,利用主成分分析法、熵权法、CRITIC法对各评价指标进行3次客观赋权;最后根据置信度准则和分级标准进行土壤重金属污染的综合评价。对3种赋权法得到的权重和评价结果进行比较,表明：属性识别模型在土壤重金属污染评价中适用且有利于评价结果准确性的提高;3种客观赋权法算得的权重合理,且其优异程度为主成分分析法〈熵权法〈CRITIC法。     

土壤跳虫(Folsomia candida)对食物中铜污染物的吸收和排泄

重金属污染物在生物体内的累积、迁移和传递已成为当今的研究热点。土壤弹尾目昆虫作为土壤生态系统的重要组成部分,针对其对重金属的吸收、积累和排泄的动态过程以及相应解毒机制的研究意义重大。本研究通过弹尾目跳虫(Folsomia candida)对Cu的吸收-排泄效率实验发现,跳虫体内Cu含量随暴露时间的延长而显著增加(r~2=0.8878,F_(1,5)=29.59,P<0.01);跳虫体内Cu含量随排泄时间的延长而明显逐渐降低(r~2=0.7836,F_(1,3)=7.13,P<0.01)。跳虫对Cu的吸收-排泄Budget实验表明,只有少量的Cu被跳虫摄取到体内,其中小部分被体内组织消化吸收,大部分则可能通过中肠细胞的褪皮作用和产卵等方式排出体外。可见,褪皮和排卵是跳虫排泄重金属Cu的重要途径,跳虫对Cu具有较低的吸收率(8.13%)和较高的排泄率(57.3%),表明跳虫对Cu可能有较高的耐受性。     

涉及自然保护区河道的建设项目环境准入存在的问题及对策

由于河道水体的线性特征,使得涉及自然保护区河道的建设项目难以避绕,所在区域的内河运输航道、跨河桥梁和防洪设施等建设项目都面临着不同程度的法律障碍,河道水体的保护与合理利用难以兼顾.从促进水生生物多样性保护、河道两岸经济社会建设和民生协调发展的角度出发,就当前涉及自然保护区河道的建设项目环境准入中存在的下列问题进行分析:《自然保护区条例》未考虑河道水体的特殊性,自然保护区功能区划的规定不适用于河道水体类型的自然保护区,以及与河道水体相关的法律法规缺少涉及自然保护区的规定.提出包括有条件地允许一些基础建设和民生项目进入保护区缓冲区和核心区、完善涉及自然保护区建设项目的环境准入制度以及加强涉及河道水体自然保护区建设项目的环境管理的相关对策建议.