Sludge concentration dynamic distribution and its impact on the performance of UNITANK

UNITANK is a biological wastewater treatment process that combines the advantages of traditional activated sludge process and sequencing batch reactor, which is divided into Tank A, B and C. In this study, the sludge distribution and its impact on performance of UNITANK were carried out in Liede Wastewater Plant （WWTP） of Guangzhou, China. Results showed that there was a strong affiliation between Tank A and B of the system in sludge concentration distribution. The initial sludge concentration in Tank A could present the sludge distribution of the whole system. The sludge distribution was mainly influenced by hydraulic condition. Unsteady sludge distribution had an impact on variations of substrates in reactors, especially in decisive reactor, and this could lead to failure of system. Settler could partially remove substrates such as COD and NO3-N, but there was adventure of sludge deterioration. The rational initial sludge concentration in Tank A should be 4000-6000 mg/L MLSS.     

Spatial distribution of aerosol pollution based on MODIS data over Beijing, China

With the help of regression analysis,the relationships were detected between aerosol's contribution to apparent reflectance(ACR) derived from Moderate Resolution Imaging Spectroradiometer(MODIS)on board Terra and hourly PM_(10)mass concentration measured at 30 ground-based locations in Beijing for the August of 2003 and 2004.It was shown that there was a good correlation between the ACR and PM_(10)(linear correlation coefficient,R=0.56).On the basis of this relationship,spatial distribution and possible sources of PM_(10)derived from MODIS were analyzed and two frequently heavily-polluted regions were found,namely downtown of the city and the district near Xishan Mountain.These two regions coincidently are also urban heat island centers.The foundings of this paper will be greatly useful for environmental monitoring and urban planning for Beijing,especially for the 2008 Olympic game to be held in Beijing.     

Characterizing ionic species in PM2:5 and PM10 in four Pearl River Delta cities, South China

PM_(2.5)and PM_(10)samples were collected at four major cities in the Pearl River Delta(PRD),South China,during winter and summer in 2002.Six water-soluble ions,Na~ ,NH_4~ ,K~ ,Cl~-,NO_3~- and SO_4~(2-)were measured using ion chromatography.On average,ionic species accounted for 53.3% and 40.5% for PM_(2.5)and PM_(10),respectively in winter and 39.4% and 35.2%,respectively in summer. Secondary ions such as sulfate,nitrate and ammonium accounted for the major part of the total ionic species.Sulfate was the most abundant species followed by nitrate.Overall,a regional pollution tendency was shown that there were higher concentrations of sulfate, nitrate and ammonium in Guangzhou City than those in the other PRD cities.Significant seasonal variations were also observed with higher levels of species in winter but lower in summer.The Asian monsoon system was favorable for removal and diffusion of air pollutants in PRD in summer while highly loading of local industrial emissions tended to deteriorate the air quality as well.NO_3~-/SO_4~(2-) ratio indicated that mobile sources have considerably contribution to the urban aerosol,and stationary sources should not be neglected. Besides the primary emissions,complex atmospheric reactions under favorable weather conditions should be paid more attention for the control of primary emission in the PRD region.     

中国雾霾空间分布特征及影响因素分析

近年来我国雾霾天气频发,以PM_(10)和PM_(2.5)为核心的大气污染物对人体健康和大气环境质量造成了严重威胁,已经成为当前不容忽视且亟需解决的重大民生问题和环境问题,深入分析雾霾污染的形成原因和影响因素对于科学制定切实有效的治霾政策具有重要的现实意义。本文基于我国288个地级以上城市2015年1月—2017年2月的月均空气质量AQI数据,首先采用空间统计方法对雾霾污染空间分布的季节特征进行可视化描述,其次通过空间自相关指数对雾霾污染的空间集聚特征进行了实证检验,最后在此基础上建立空间计量模型对影响雾霾污染的社会经济因素进行了经验识别。结果表明:(1)我国雾霾污染的季节性特征明显,夏季空气质量状况最好,春季和秋季次之,冬季污染最严重且波及范围广,其中河北南部、河南北部、山西南部和陕西关中地区是污染重灾区,季均空气质量均为中度污染以上。(2)雾霾污染存在显著的空间正相关特征,我国东部沿海地区表现为显著的低低集聚,华北平原及周边地区呈现显著的高高集聚特征。(3)空间回归结果显示,我国雾霾污染与经济增长的关系在一定程度上与EKC曲线假说相符,其中二产畸高的产业结构、民用汽车保有量的增多和省会城市均对雾霾污染有显著的正向促进作用,但人口密度和绿化水平对雾霾污染的影响并不显著。因此,治霾政策应坚持城市内部以促进产业结构转型升级、鼓励使用新能源汽车和共享单车、疏散省会城市的职能为主,城市外部应以区域联防联控为主,从而达到缓解和改善大气环境的目的。     

西藏"一江两河"地区人口空间分布的动态演变

人口分布的空间演变是人口发展过程中在时间和空间上的表现形式,人口的集聚与扩散是诠释区域人口空间分布格局与形态的重要方面.对其研究有助于揭示人口分布现状的本质、理解区域空间结构特征及演变趋势.本研究运用局部空间自相关方法,并结合GIS技术,以县域为基本单元,人口密度为衡量指标,对西藏"一江两河"地区1990-2008年间人口分布空间格局的演变进行了分析.分析结果表明,"一江两河"地区各县市(区)人口总量和密度均有明显增长,人口分布总体上呈现出不断集中的态势.局部自相关分析揭示"一江两河"地区开始显现以拉萨市和日喀则市为中心的两个显著的人口高密度区,显示出该区域人口分布的多中心空间结构特征.对以拉萨市、日喀则市和乃东县为中心的区域密度函数进行拟合.多中心区域密度函数的估计结果显示,"一江两河"地区空间发展正逐步由20世纪90年代单中心(拉萨市城关区)阶段,向目前的多中心向心集聚阶段转变,除拉萨市城关区外,日喀则市和乃东县集聚能力开始显现.     

用“条件”水分平衡法分析湖北省干旱的时空分布规律

从“条件”水分平衡角度和农业生产实际情况出发，提出了一个综合考虑水分盈亏和同期作物需水量的干旱指标，并用此指标分析了湖北省１９６１－１９９０年３０年来的主要干旱类型的时空分布规律及对农业生产的影响。     

The Response of Hydrophytes to Environmental Pollution with Heavy Metals

The effects of Cu²⁺, Cd²⁺, and Ni²⁺ at low and high concentrations (0.025 and 0.25 mg/ml) on the accumulation capacity, the state of the pigment complex, and photosynthesis rate have been studied in model experiments with three floating hydrophytes (Hydrocharis morsus-ranae L., Lemna gibba L., and Potamogeton natans L.) and four submerged hydrophytes (Elodea canadensis Michx., Lemna trisulka L., Ceratophyllum demersum L., and Potamogeton lucens L.). Copper and cadmium are especially toxic at the concentrations studied. The effect of Cu²⁺ was the strongest in hydatophytes, and the effect of Cd²⁺, in pleustophytes. It is hypothesized that the differences between hydrophytes with respect to accumulation of metals and decrease in photosynthesis rate may cause predominant elimination of submerged species. Therefore, changes in the species structure of hydrophyte communities may be expected in waters polluted with metals.     

赣江一级支流浮游植物群落动态特征分析——以袁河为例

2009年6、11月和2010年4月共3个水情期（即丰、枯和平水期）对赣江下游一级支流袁河的浮游植物群落结构特征开展河流生态学调查分析。调查共发现浮游植物109种,隶属于6门61属。其中绿藻门物种种类数最多,共27属54种,其次为硅藻门,共15属30种,第三是蓝藻门11属12种。此外,裸藻门3属6种,甲藻门3属4种,隐藻门2属3种。调查样点的浮游植物丰度均处于1.12×105～129.20×105 ind./L,丰水期和枯水期浮游植物以蓝藻为优势类群,平水期则硅藻占绝对优势。丰水期浮游植物优势属为脆杆藻属和席藻属,枯水期为栅藻属,针杆属,蓝隐藻属和小环藻属,到了平水期小环藻属占绝对优势。3个水情期中优势种钝脆杆藻和小席藻（丰水期）;尖尾蓝隐藻和双头针杆藻（枯水期）;梅尼小环藻（平水期）等均为污水指示种。通过生物多样性指数分析发现藻类Shannon-Wiener指数、Simpson指数、Pielou均匀度指数和Margalef丰富度指数的变化范围分别为：1.14～2.92、0.45～0.93、0.36～0.92和0.42～2.78。通过指示生物群落法和生物多样性指数法对袁河进行水质评价发现两种评价结果基本一致,袁河处于α-β-中污染状态,不同采样点间污染程度差异性较大。     

三峡库区森林植被恢复与可持续经营研究

系统的野外调查数据和历史资料分析结果表明,三峡库区森林植被在空间上发展不均匀,无明显垂直分带,且分布分散,人为干扰严重。目前,在70多个植被类型中,森林类型占25个,江岸两侧海拔800 m以下地区森林已经很少。森林类型中,马尾松、柏木林的分布面积最大,并在许多疏林中成为主要树种,主要是飞播或人工种植。库区大于25°的坡耕地占耕地面积的17.5％。库区薪炭林仅能满足农村用能总需求量的10.78％。不合理的土地利用方式和对森林的不合理砍伐导致脆弱的土壤系统和森林生态系统的严重退化、生产力下降和严重的水土流失。库区土壤年侵蚀量达到2.9亿t。三峡工程建设和移民安置对库区森林生态系统的压力和影响将是长期的。调查结果同时表明,库区植物生物多样性丰富,植物种类在5 032种以上,而且乡土树种多。分析认为,只要抓住三峡工程建设的契机,紧密结合国家天然林保护和退耕还林工程建设,充分利用良好的生物学基础,科学地封山育林,分带逐步恢复,同时,因地制宜,退耕还林,发展森林能源,建设多目标复合和多种模式并存的林业经营体系,发展经济,就能从根本上改善森林经营环境,实现森林恢复,形成合理布局的水库森林防护系统,促进三峡库区生态环境建设和可持续发展。     

湖北宣恩七姊妹山天师栗(Aesculus wilsonii)群落特征

天师栗（Aesculus wilsonii）是我国特有的珍稀树种,其天然分布比较零散,极少有大面积的自然群落存在。对湖北宣恩七姊妹山天然分布的天师栗群落采用相邻格子法进行调查,研究了群落的物种多样性、空间格局、群落结构和种群径级结构等群落特征。结果表明：（1）天师栗是群落的主要优势树种,其重要值为22.7,远大于重要值排在第二位的红枝柴（重要值为13.7）,且在群落中呈聚集分布类型;（2）群落物种比较丰富,相对于灌木层和草本层,乔木层丰富度指数和均匀度指数较低,优势度指数较高,说明乔木层物种没有灌木层和草本层多,且分布不均匀,但优势种作用显著,成层现象明显;（3）群落的年龄〖JP2〗结构显示,该群落虽然目前处于稳定阶段,但群落中5个优势种群的幼年个体补充都严重不足,潜在的影响群落以后的生存和发展。应采取保护措施,促进群落的自然演替.