基于能值分析的煤炭矿区复合生态系统评价

煤炭矿区复合生态系统评价是对其进行有效管理及调控的手段之一。研究了煤炭矿区复合生态系统内涵,剖析了煤炭矿区复合生态系统的典型特征,论述了运用能值分析方法评价复合生态系统的特殊性;进而,构建了煤炭矿区复合生态系统及其子系统的能值评价指标。选择山东省龙口矿区北皂煤矿为研究对象,进行了实证研究。应用实际数据,测算了2006—2012年复合生态系统及子系统各个能值评价指标。研究结果表明,能值理论与能值分析是评价煤炭矿区复合生态系统的有效方法,各项指标变化反映了复合生态系统的演进趋势;不可再生煤炭资源的过度消耗、可再资源利用率低是这一系统的典型特征;能值评价指标的测算结果表征环境子系统负荷较小。研究结果可为实施有效的煤炭矿区复合生态系统管理提供智力支持和决策参考依据。     

煤粉尘沉降对鄂尔多斯高原优势植物羊柴幼苗生长的影响

随着鄂尔多斯煤矿开采的日益加剧,开采和运输过程中产生的煤粉尘沉降已成为影响当地植物生长的一个重要影响因子。通过近自然生境条件下的控制实验,以鄂尔多斯高原优势植物羊柴(Hedysarum laeve)为研究对象,探究不同梯度煤粉尘沉降量(0—3.5 mg/cm2)对其幼苗的光合生理特性和生长的影响。研究结果表明,随着煤粉尘沉降量的增加,羊柴叶片的气孔导度(Gs)、胞间二氧化碳浓度(Ci)、叶片水分饱和水汽压亏缺(Vpdl)等因子发生了不同程度的改变,导致净光合速率(Pn)和蒸腾速率(Tr)降低,使得幼苗的植株高度、叶片数、地上和地下生物量降低。因而,积累到一定程度的煤粉尘颗粒通过影响叶片气孔的水汽交换过程和降低叶片表面的光照强度,影响了叶片的光合生理过程,从而抑制了羊柴幼苗的生长。     

GI引导下的采煤塌陷地生态恢复优先级评价

生态恢复优先级评价是恢复生态学研究的热点之一,而退化生态系统被恢复为何种类型是确定生态恢复优先级的前提和重点。以徐州市为研究区,将城市绿色基础设施(GI)作为塌陷地生态恢复的目标,在GIS技术支撑下,从塌陷斑块恢复为GI的适宜性及其对维持GI景观连接度的重要性两个方面,综合评价了采煤塌陷地生态恢复优先级。研究结果表明,徐州市超过半数的采煤塌陷斑块具有较高的GI生态适宜性,相对集中在5个片区;各塌陷斑块维持景观连接度的重要性分布不均匀,贾汪片区中部及北部塌陷斑块对维持景观连接度的作用非常显著;二者叠加后各塌陷斑块的综合适宜度具有明显差异,将其划分为5个生态恢复优先等级,较高优先等级分布于贾汪片区中部、董庄片区北部、庞庄西片区中部,建议将其纳入城市绿色基础设施予以优先恢复并立法保护。     

东部草原露天矿区粘土改良模拟研究

以我国东部草原露天矿区粘土为研究对象,采用盆栽试验方法,以粘土与表土和沙土混合物为培养基质,三叶草(Trifolium repens Linn)为供试植物,研究不同比例下三叶草生物量、养分吸收量、土壤理化和生物学性状的差异,为寻找最佳配比提供依据。结果表明:不同混合比例显著影响三叶草生物量,粘土+表土(1∶1、1∶2和1∶3)生物量最高(26.5—40.0 g/盆),平均为31.2 g/盆,粘土+沙土(1∶1、1∶2和1∶3)次之(14.9—20.3 g/盆),平均为18.9 g/盆,粘土、沙土和表土平均分别是9.0、5.4 g/盆和41.7 g/盆,同样地,粘土+表土混合基质上三叶草氮吸收量平均为1071 mg/盆,分别是粘土+沙土、粘土和沙土氮吸收量660、321 mg/盆和190 mg/盆的1.62、3.34倍和5.64倍,磷和钾吸收量具有相似变化规律,这与三叶草根直径、根长、根表面积和根尖数有显著关联性;粘土和表土与粘土和沙土混合基质的容重和最大持水量分别显著下降7.4%—21.5%和24.5%—71.8%,饱和入渗率、孔隙度和标准化平均重量直径分别显著增加26.9%—96.3%、45%—218%和34%—72%;全氮、有机质、速效磷、速效钾、饱和电导率显著增加23.0%—88.3%、25.1%—146%、44.0%—91.5%、70.3%—114.8%和3.5%—59.3%;磷酸酶、脲酶、蔗糖酶、硝酸还原酶和固氮酶活性显著提高45.5%—105%、65.2%—172.3%、160%—252%、53.4%—62.7%和197%—374%;真菌、细菌和放线菌数量增幅为119%—142%、93.5%—107%和83%—147%。相关性分析表明,生物量与土壤理化性状、酶活性和微生物数量呈显著或极显著正相关,表现为粘土+表土=表土粘土+沙土粘土沙土。因此,表土或沙土均能改良粘土性状,其中粘土和表土1∶2配比效果最优。     

Mountaintop removal mining alters stream salamander population dynamics

Aim

Population dynamics are often tightly linked to the condition of the landscape. Focusing on a landscape impacted by mountaintop removal coal mining (MTR), we ask the following questions: (1) How does MTR influence vital rates including occupancy, colonization and persistence probabilities, and conditional abundance of stream salamander species and life stages? (2) Do species and life stages respond similar to MTR mining or is there significant variation among species and life stages?

Location

Freshwater and terrestrial habitats in Central Appalachia (South‐eastern Kentucky, USA).

Methods

We conducted salamander counts for three consecutive years in 23 headwater stream reaches in forested or previously mined landscapes. We used a hierarchical, N‐mixture model with dynamic occupancy to calculate species‐ and life stage‐specific occupancy, colonization and persistence rates, and abundance given occupancy. We examined the coefficients of the hierarchical priors to determine population variation among species and life stages.

Results

Over 3 years, reference sites had greater salamander abundances and were occupied at a much higher rate than streams impacted by MTR. At sites impacted by MTR mining, most salamander species and life stages exhibited reduced initial occupancy, colonization rates, persistence rates and conditional abundance relative to reference stream reaches. Furthermore, the rates in MTR sites showed low variance, reinforcing that species and life stages were responding similar to MTR.

Main conclusions

Salamander populations in landscapes modified by MTR mining exhibited significantly reduced vital rates compared to reference sites. Yet, similarity in responses across species suggests that management or restoration may benefit the entire salamander assemblage. For example, reforestation could reduce landscape resistance, repair altered hydrologic regimes and allow for higher rates of colonization and persistence in streams impacted by MTR.

     

Molecular dynamics simulations of interaction between sub-bituminous coal and water

The high moisture content of sub-bituminous coal is associated with the interactions between coal and water. Because of complex composition and structure, the graphite surface modified by hydroxyl, carboxyl and carbonyl groups was used to represent the surface model of sub-bituminous coal according to XPS results. Density profiles for oxygen atoms and hydrogen atoms indicate that the coal surface properties affect the structural and dynamic characteristics of the interfacial water molecules. The interfacial water exhibits much more ordering than bulk water. The results of radial distribution functions, mean square displacement and local self-diffusion coefficient for water molecule related to three oxygen moieties confirmed that the water molecules prefer to absorb with carboxylic groups, and adsorption of water molecules at the hydroxy and carbonyl is similar.     

半干旱地区煤矸石山生态分类研究

半干旱地区煤矸石山生态分类研究张军,杨芳,林华（辽宁省阜新矿务局林业处,１２３００３）ＥｃｏｌｏｇｉｃａｌＣｌａｓｓｉｆｉｃａｔｉｏｎｏｆＣｏａｌＧａｎｇｕｅＨｉｌｌｓｉｎＳｅｍｉ－ＡｒｉｄＲｅｇｉｏｎｓ．￥ＺｈａｎｇＪｕｎ;ＹａｎｇＦａｎｇ;Ｌｉｎ...     

Contribution of sucrose synthase, ADP-glucose pyrophosphorylase and starch synthase to starch synthesis in developing pea seeds

Using genetic variability existing amongst nine pea genotypes (Pisum sativum L.), the biochemical basis of sink strength in developing pea seeds was investigated. Sink strength was considered to be reflected by the rate of starch synthesis (RSS) in the embryo, and sink activity in the seed was reflected by the relative rate of starch synthesis (RRSS). These rates were compared to the activities of three enzymes of the starch biosynthetic pathway [sucrose synthase (Sus), ADP-glucose pyrophosphorylase and starch synthase] at three developmental stages during seed filling (25, 50 and 75% of the dry seed weight). Complete sets of data collected during seed filling for the nine genotypes showed that, for all enzyme activities (expressed on a protein basis), only Sus in the embryo and seed coat was linearly and significantly correlated to RRSS. The contribution of the three enzyme activities to the variability in RSS and RRSS was evaluated by multiple regression analysis for the first two developmental stages. Only Sus activity in the embryo could explain, at least in part, the significant variability observed for both the RSS and the RRSS at each developmental stage. We conclude that Sus activity is a reliable marker of sink activity in developing pea seeds.     

Biodesulfurization of water-soluble coal-derived material by Rhodococcus rhodochrous IGTS8

Rhodococcus rhodochrous IGTS8 was previously isolated because of its ability to use coal as its sole source of sulfur for growth. Subsequent growth studies have revealed that IGTS8 is capable of using a variety of organosulfur compounds as sources of sulfur but not carbon. In this article, the ability of IGTS8 to selectively remove organic sulfur from water-soluble coal-derived material is investigated. The microbial removal of organic sulfur from coal requires microorganisms capable of cleaving carbon-sulfur bonds and the accessibility of these bonds to microorganisms. The use of water-soluble coal-derived material effectively overcomes the problem of accessibility and allows the ability of microorganisms to cleave carbon-sulfur bonds present in coal-derived material to be assessed directly. Three coals, two coal solubilization procedures, and two methods of biodesulfurization were examined. The results of these experiments reveal that the microbial removal of significant amounts of organic sulfur from water-soluble coal-derived material with treatment times as brief as 24 h is possible. Moreover, the carbon content and calorific value of biotreated products are largely unaffected. Biotreatment does result, however, in an increased hydrogen and nitrogen content and a decreased oxygen content of the coal-derived material. The aqueous supernatant obtained from biodesulfurization experiments does not contain sulfate, sulfite, or other forms of soluble sulfur at increased concentrations in comparison with control samples. Sulfur removed from water-soluble coal-derived material appears to be incorporated into biomass. (c) 1992 John Wiley & Sons, Inc.