Nitrogen cycle of a typical Suaeda salsa marsh ecosystem in the Yellow River estuary

The nitrogen (N) biological cycle of the Suaeda salsa marsh ecosystem in the Yellow River estuary was studied during 2008 to 2009. Results showed that soil N had significant seasonal fluctuations and vertical distribution. The N/P ratio (15.73±1.77) of S. salsa was less than 16, indicating that plant growth was limited by both N and P. The N absorption coefficient of S. salsa was very low (0.007), while the N utilization and cycle coefficients were high (0.824 and 0.331, respectively). The N turnover among compartments of S. salsa marsh showed that N uptake from aboveground parts and roots were 2.539 and 0.622 g/m2, respectively. The N translocation from aboveground parts to roots and from roots to soil were 2.042 and 0.076 g/m2, respectively. The N translocation from aboveground living bodies to litter was 0.497 g/m2, the annual N return from litter to soil was far less than 0.368 g/m2, and the net N mineralization in topsoil during the growing season was 0.033 g/m2. N was an important limiting factor in S. salsa marsh, and the ecosystem was classified as unstable and vulnerable. S. salsa was seemingly well adapted to the low-nutrient status and vulnerable habitat, and the nutrient enrichment due to N import from the Yellow River estuary would be a potential threat to the S. salsa marsh. Excessive nutrient loading might favor invasive species and induce severe long-term degradation of the ecosystem if human intervention measures were not taken. The N quantitative relationships determined in our study might provide a scientific basis for the establishment of effective measures.     

Methanotrophic community structure of aged refuse and its capability for methane bio-oxidation

Aged refuse from waste landfills closed for eight years was examined and found to contain rich methanotrophs capable of biooxidation for methane. Specially, community structure and methane oxidation capability of methanotrophs in the aged refuse were studied. The amount of methanotrophs ranged 61.97 103–632.91 103 cells/g (in dry basis) in aged refuse from Shanghai Laogang Landfill. Type I and II methanotrophs were found in the aged refuse in the presence of sterilized sewage sludge and only Type I methanotrophs were detected in the presence of nitrate minimal salt medium (NMS). The clone sequences of the pmoA gene obtained from the aged refuse were similar to the pmoA gene of Methylobacter, Methylocaldum, and Methylocystis, and two clones were distinct with known genera of Type I methanotrophs according to phylogenetic analysis. Aged refuse enriched with NMS was used for methane biological oxidation and over 93% conversions were obtained.     

Effect of C/N ratio, aeration rate and moisture content on ammonia and greenhouse gas emission during the composting

Gaseous emission (N₂O, CH₄ and NH₃) from composting can be an important source of anthropogenic greenhouse gas and air pollution. A laboratory scale orthogonal experiment was conducted to estimate the effects of C/N ratio, aeration rate and initial moisture content on gaseous emission during the composting of pig faeces from Chinese Ganqinfen system. The results showed that about 23.9% to 45.6% of total organic carbon (TOC) was lost in the form of CO₂ and 0.8% to 7.5% of TOC emitted as CH₄. Most of the nitrogen was lost in the form of NH₃, which account for 9.6% to 32.4% of initial nitrogen. N₂O was also an important way of nitrogen losses and 1.5% to 7.3% of initial total nitrogen was lost as it. Statistic analysis showed that the aeration rate is the most important factor which could affect the NH₃ (p = 0.0189), CH₄ (p = 0.0113) and N₂O (p = 0.0493) emissions significantly. Higher aeration rates reduce the CH₄ emission but increase the NH₃ and N₂O losses. C/N ratio could affect the NH₃ (p = 0.0442) and CH₄ (p = 0.0246) emissions significantly, but not the N₂O. Lower C/N ratio caused higher NH₃ and CH₄ emissions. The initial moisture content can not influence the gaseous emission significantly. Most treatments were matured after 37 days, except a trial with high moisture content and a low C/N ratio.     

Preliminary report on methane emissions from the Three Gorges Reservoir in the summer drainage period

Considerable variations may exist in CH4 emissions from the Three Gorges Reservoir.     

提高煤层气采收率的CO2埋存技术

作为常规油气重要接替补充的非常规天然气,煤层气越来越受到世人的关注.如何提高煤层气采收率是摆在煤层气开发工程师面前迫切需要解决的技术难题.通过向煤层中注入CO2,既可以提高煤层气采收率又能间接地实现CO2减排,即提高煤层气采收率的CO2埋存技术(CO2-ECBM).该项技术已在世界各地迅速发展,并取得一些实质性进展.文...     

生命周期评价应用于温室气体排放的研究进展

致使全球气候变暖的温室气体排放问题已经全面引起了人们的广泛关注。生命周期评价作为一种评价环境负荷的评价工具,用于科学定量地估算产品、服务及工艺流程改造等方面的温室气体排放有其独特的优势。文章介绍了估算温室气体排放简化生命周期的技术框架及生命周期评价方法在第一产业(种植业、畜牧业),第二产业(硬纸板加工、橡胶生产、废塑料燃烧的能源再利用)以及第三产业(交通运输、旅游业)的应用情况,并综述了三个产业中的主要系统边界划分原则以及对温室气体排放影响的主要因素;同时,介绍了我国在节能减排方面利用生命周期评价方法的研究与应用实例。     

Effect of a high strength chemical industry wastewater on microbial community dynamics and mesophilic methane generation

A high strength chemical industry wastewater was assessed for its impact on anaerobic microbial com- munity dynamics and consequently mesophilic methane generation. Cumulative methane production was 251 mL/g total chemical oxygen demand removed at standard temperature and pressure at the end of 30 days experimental period with a highest recorded methane percentage of 80.6% of total biogas volume. Volatile fatty acids （VFAs） analysis revealed that acetic acid was the major intermediate VFAs produced with propionic acid accumulating over the experimental period. Quantitative analysis of microbial communities in the test and control groups with quantitative real time polymerase chain reaction highlighted that in the test group, Eubacteria （96.3%） was dominant in comparison with methanogens （3.7%）. The latter were dominated by Methanomicrobiales and Methanobacteriales while in test groups increased over the experimental period, reaching a maximum on day 30. Denaturing gradient gel electrophoresis profile was performed, targeting the 16S rRNA gene of Eubacteria and Archaea, with the DNA samples extracted at 3 different time points from the test groups. A phylogenetic tree was constructed for the sequences using the neighborhood joining method. The analysis revealed that the presence of organisms resembling Syntrophomonadaceae could have contributed to increased production of acetic and propionic acid intermediates while decrease of organisms resembling Pelotomaculum sp. could have most likely contributed to accumulation of propionic acid. This study suggested that the degradation of organic components within the high strength industrial wastewater is closely linked with the activity of certain niche microbial communities within eubacteria and methanogens.     

降解纤维素产甲烷的四菌复合系

自然环境中通常是微生物群落协同完成纤维素的降解,构建可降解纤维素的混菌体系是认识微生物相互作用的关键.利用富集培养法,结合变性梯度凝胶电泳(DGGE)指纹检测技术以及厌氧滚管技术,建立了一种筛选简单降解纤维素产甲烷复合菌系的方法.利用此方法从青藏高原若尔盖高寒湿地分离到一个由4株菌构成的降解纤维素产甲烷的稳定菌系.结果表明,该复合菌系由纤维素水解菌Clostridium glycolicum、非纤维素水解菌Trichococcus flocculiformis和Parabacteroides merdae、产甲烷古菌Methanobacterium subterraneum等具有不同功能的4种菌株组成,且在这4株菌的共同作用下可将纤维素直接转化为CH4.该简单复合系的获得为今后纤维素转化甲烷复合菌系的代谢控制和遗传改造提供了一个平台.     

典型岩溶土壤微生物丰度与多样性及其对碳循环的指示意义

探讨土壤微生物指标的变化规律,用于揭示其在岩溶土壤碳循环中的指示意义.以桂林岩溶试验场洼地、坡地和垭口这3种岩溶地貌形态下的剖面(0~10、10~20、20~30cm)土壤为研究对象,采用聚合酶链式反应-变性梯度凝胶电泳(PCRDGGE)和荧光定量PCR相结合的方法,分析这个典型岩溶土壤剖面中的微生物多样性和丰度变化.数据显示,16S rRNA最高丰度出现在洼地,为1.32×1011拷贝·g-1,而18S rRNA最高丰度出现在垭口,为1.12×1010拷贝·g-1;洼地和垭口剖面的16S rRNA丰度随着深度的增加而降低,3种岩溶地貌形态的18S rRNA丰度均随着剖面深度的增加而降低,与土壤有机碳质量分数的变化趋势一致.但是,在3种岩溶地貌形态中,3个16S rRNA和6个18S rRNA的多样性指数均随土壤剖面深度的增加而增大.由于16S rRNA和18S rRNA的多样性与丰度和土壤有机碳之间总体上表现出相反的变化趋势,说明微生物丰度指标在土壤碳循环中的指示意义比微生物多样性指数更重要.     

需求视角的中国能源消费氮氧化物排放研究

基于经济投入产出生命周期评价(EIO-LCA)模型构建了中国1990—2010年能源消费氮氧化物完全排放矩阵,从需求的角度分析了氮氧化物排放在部门和不同需求间的分布结构,并通过情景模拟深入探讨了最终需求结构变化对氮氧化物排放的综合影响和拉动效应,以期探索中国氮氧化物减排的多元化途径.研究结果显示,1990—2010年中国氮氧化物排放总量从878万t上升到2398万t,历年来由工业部门拉动产生的氮氧化物占总量的比重高达70%左右;由最终消费拉动的氮氧化物排放比重逐年下降,资本形成和出口拉动的氮氧化物排放比重逐年上升.氮氧化物排放强度则从47.0 kg·万元-1降至6.0 kg·万元-1,其中,能源和交通部门的排放强度最高.通过情景模拟可以看出,提高最终消费比重,扩大内需有利于氮氧化物总量减排,尤其是对工业部门的减排效果显著.实现氮氧化物总量减排目标,要求在技术进步之外,积极寻求多元减排措施,以强化减排效果,突出能源和交通等重点部门的氮氧化物防治体系建设,并通过扩大内需优化最终需求结构以促进工业部门氮氧化物减排.