The distribution and availability of phosphorus fractions in restored cut slopes soil aggregates: a case study of subalpine road,Southwest China

● There was no significant difference in soil aggregates TP along altitude gradient. ● Overall, PAC dropped steadily as aggregate size increased. ● In soil aggregate sizes, TPi > TPo > R-P at 3009,3347 and 3654 m except 3980 m. ● Active NaHCO₃-Pi was the main AP source. ● Proportion of small aggregate sizes was emphasized to increase AP storage. The distribution and availability of phosphorus (P) fractions in restored cut slope soil aggregates, along altitude gradients, were analyzed. Samples were collected at 3009, 3347, 3654 and 3980 m of altitude. We examined soil aggregates total phosphorus (TP), available phosphorus (AP) and phosphorus activation coefficient (PAC), and discovered that there was no significant difference in TP levels between all four altitudes samples (p > 0.05). However, there was a significant difference in AP at 3009, 3347 and 3980 m of altitude (p < 0.05). At the altitudes of 3009, 3347 and 3654 m, the AP accumulation in small size aggregates was more advantageous. Overall, PAC dropped steadily as soil aggregates sizes increased, as shown: PAC (3654 m) > PAC (3347 m) > PAC (3009 m) > PAC (3980 m). In all particle size soil aggregates, the distribution of the P fractions was as follows: total inorganic phosphorus (TPi) > total organic phosphorus (TPo) > residual phosphorus (R-P), at 3009, 3347 and 3654 m, but a different registry was observed at 3980 m of altitude: TPo > TPi > R-P. Through correlation and multiple stepwise regression analysis, it was concluded that active NaHCO₃-Pi was the main AP source. It was also suggested that more attention should be given to the ratio of small particle size aggregates to increase soil AP storage. In order to improve the activation capacity and supply of soil P, along with promotion of the healthy development of soil ecosystem on slope land, it was suggest that inorganic P fertilizer and P activator could be added to soil at both low (3009 m) and high altitudes (3980 m).     

大气二氧化硫浓度的光学测定方法

介绍了测定二氧化硫浓度的几种光学方法 ,指出了目前一些化学方法的局限性 ,特别对紫外荧光法的原理、二氧化硫的吸收光谱以及荧光光谱进行分析探讨 ,设计了实验分析系统 ,得出该方法具有操作简单、灵敏度高、可实时在线的智能化优点 ,将会成为今后研究的主导方向。     

酚类物质对厌氧生物降解性的影响研究

通过厌氧间歇试验,研究了4种酚类物质在不同浓度下的累积产气量,并将其归纳为两类8种不同降解性影响的典型曲线.试验表明,4种酚类物质中,苯酚和邻甲酚可被厌氧微生物降解,而对甲酚和五氯酚不能被厌氧微生物降解.     

光合细菌对高浓度味精废水处理效果的影响

主要是在改进型SBR反应器中利用光合细菌来处理味精废水,即在传统的SBR反应器中加入半软性填料,研究光合细菌的两种代谢方式对味精废水COD的去除率影响和从味精废水生物处理反应器活性污泥和生物膜中富集分离光合细菌,结合光合细菌的细胞结构特点和代谢方式讨论其对活性污泥絮凝性能的影响。研究结果表明:在黑暗系统中,处理味精废水活性污泥絮凝性能较光照系统中的活性污泥絮凝性能相对有较大的提高;在黑暗条件下,光合细菌被强制进行有氧呼吸代谢方式,这样可以提高味精废水生物处理构筑物的有机物降解速率,出水COD优于光照好氧条件下的出水也比较清亮,有机物的去除率也有所提高。     

基于STIRPAT模型的黑龙江省碳排放影响因素研究

2005年以来,黑龙江省社会经济持续稳步发展,截至2017年,全省GDP达到15903亿元,增长近3倍,人均GDP增长2.89倍,城镇化率达到60%,第三产业占全省生产总值比重达到55.82%。与此同时,全省碳排放量从19095万吨增加到27251万吨,增长1.43倍。通过对黑龙江省13年间社会经济数据的系统分析研判,人均GDP、城镇化率、碳排放强度等因素对全省碳排放量影响显著。     

The effects of current water management practices on methane emissions in Japanese rice cultivation

Cultivated wetland rice fields are a source of methane (CH₄) emissions. To estimate CH₄ emissions and develop policies to reduce such emissions, information on water management at the farm level is crucial. It is known that farmers implement midseason drainage (MD) to increase rice yields and save water. However, little is known about whether MD is carried out in soils where CH₄ emissions are high and how part-time status will influence management. The objective of this study is to identify factors that determine MD implementation using a binomial logistic regression model based on a farm-level survey in Japan and to indicate possible changes in estimates of CH₄ emissions, accounting for current water management practices. The implementation rates were significantly higher where the soil types were classified as having the potential for high CH₄ emissions. Under current water management practices, the duration of MD and the percentage of continuous flooding were 5 to 7 days longer and approximately 7 % higher, respectively, than the values used by the Greenhouse Gas Inventory Office of Japan, which in turn are used to report greenhouse gas emissions to the United Nations Framework Convention on Climate Change. By accounting for current water conditions with the Tier 2 method, this study indicates that national estimates of CH₄ emissions from rice straw application areas could be lowered by 12.7 %. These results may contribute to the development of a mitigation policy that will help to further reduce CH₄ emissions.     

小球藻吸附重金属离子的试验研究

分析了影响小球藻吸附Cu2 ,Cd2 和Zn2 三种重金属离子的主要因素 ,并对不同金属离子之间的吸附抑制开展了初步试验研究 .结果显示 ,小球藻吸附重金属离子的速度快 ,吸附容量大 ,适宜的pH值在 3 0— 5 0之间 ,其吸附等温线与Freundlich方程拟合良好 .另外 ,小球藻对Cd2 的吸附性能明显高于其它离子 .由于电子云分布和轨道杂化等结构因素 ,三种金属离子在小球藻上的吸附选择顺序为 :Cu2 >Cd2 >Zn2 .     

Fast transformation of roxarsone into toxic arsenic species with ferrous iron and tetrapolyphosphate

Environmental Chemistry Letters - Organoarsenic compounds have been widely used as feed additives in livestock and poultry breeding. They are excreted in manure and thus cause environmental...     

开关型高压电网故障限流装置研制

针对日趋严重的电网短路电流超标问题,采用基于爆炸式快速开断载流桥体的大容量高速开关装置(Fast Switching Release,FSR)与限流电抗器一体技术研制了“节能型限流装置”,并在宁夏220 kV步桥变电站成功运行;基于高速大遮断容量真空断路器技术、短路电流快速识别技术、相控技术与限流电抗器相结合研制了“330 kV 开关型零损耗电网限流装置”,并在宁夏330 kV迎安I线成功进行2次短路试验。现场运行及试验结果表明:2种开关型高压电网故障限流装置从根本上解决了电网故障限流技术实用化中面临的安全性、可靠性以及经济性等关键问题,标志着电网故障限流技术取得了一个突破性的进展。     

红斑体虫的污泥减量效果

为了实现红斑顠体虫捕食污泥减量化,对不同条件下红斑顠体虫的污泥减量效果进行实验研究。实验结果表明:红斑顠体虫的污泥减量速率随初始MLSS及温度的增大而增大,初始MLSS越高,污泥减量速率越大。污泥减量速率随红斑顠体虫密度变化率的增大而逐渐增大,当红斑顠体虫的密度增长率出现下降时,污泥减量速率也呈下降趋势。采用间歇曝气(12 h曝气,12 h停曝)方式,红斑顠体虫的污泥减量速率会显著下降。在污泥好氧消化时,红斑顠体虫能捕食污泥中的有机碎片和细菌,达到污泥稳定化的指标要求。