Efficacy of Si fertilization to modulate the heavy metals absorption by barley (Hordeum vulgare L.) and pea (Pisum sativum L.)

Silicon-based fertilizers and soil amendments can have direct and indirect positive influences on cultivated plants. The solid forms of Si-based substances, the most widespread in use, are efficient only at high application rates due to their low level of solubility. Several types of Si-based substances such as fumed silica, slags from the iron and steel industry, modified slags, and a Si-rich product were tested using barley and pea as silicon accumulative and non-accumulative plants, respectively, at two application rates. The plants were grown under toxic concentrations of heavy metals in a greenhouse. Si-rich materials high in water-soluble Si had a positive effect at both the low and high application rates, and for both plant species. This type of substance can be regarded as Si fertilizer, demonstrating greater efficiency at a low application rate and lessened efficiency at a high application rate for protection of the cultivated plants against accumulation of the heavy metals.

     

Experimental assessment on the moving capabilities of mobility-impaired disabled

To take into account reasonably the safety requirements of the disabled on emergency evacuation in the design, usage, management and emergency response of public places, the authors of this paper organized on-site experiments for 100 disabled individuals (40 people with no supporting tools, 20 people using a single crutch and 40 people two crutches) and 17 healthy people at a subway station in Beijing. The experiments were designed to measure the unimpeded free walking speed of the participants during horizontal and stair ascending/descending movement, and to assess the possible impact of passage width on movement speed. Based on the results of the tests, the authors systematically analyzed the speed variation patterns with disability grade, gender and passage width. The validity of the value of an important parameter for evacuation safety design in the prescribed fire codes in mainland China, the width of a single stream of people, is assessed. Finally the results of the experiments are compared with that from other researches to identify the similarities and differences between them.     

PCR-DGGE技术在水解酸化-缺氧法处理采油废水的微生物研究中的应用

采用PCR-DGGE技术直接从水解酸化和缺氧反应器中的污泥样品提取DNA,测定部分菌种的16S rDNA V3区片段序列,通过NCBI基因库比对,初步确定不同生物反应器内优势菌种,并进行了多样性指数分析.结果表明,水解酸化反应器中的生物膜与缺氧反应器中悬浮污泥微生物种群结构存在较大的差异,显示了在不同环境条件下,微生物群落结构的连续动态变化过程.     

水解酸化-缺氧法处理采油废水的污染物迁移降解试验研究

水解酸化．缺氧法对采油废水有较好的处理效果，采用GC／MS技术对水解酸化-缺氧法处理采油废水过程中污染物的迁移降解进行的研究表明：水解酸化段和缺氧段对采油废水中碳原子为C6-C9、分子量为100—140的有机物均有较好的降解能力。其中，在水解酸化段中酮类、芳烃得到较好的降解，缺氧段中酚类和醚类化合物降解明显。水解酸化-缺氧工艺对于采油废水中的甲苯和二甲苯具有较好的降解能力。     

化学镀镍废液的处理及再生技术研究进展

介绍了化学镀镍废液的产生和危害,综述了近年来国内外采用化学沉淀法、电解法、氧化还原法、萃取法、离子交换法、电渗析法等对化学镀镍废液进行处理及净化再生的技术研究进展,对各种方法的实用性进行了评价,并指出今后的发展方向。     

木麻黄根区土壤理化特性及酶活性与青枯病发生关联分析

为探究木麻黄(Casuarina spp.)根区土壤理化特性及酶活性与青枯病发生的关系,进而为加强生物防治提供参考.选取位于广东省潮州市饶平县大埕镇、湛江市吴川市塘尾镇和湛江市徐闻县前山镇的3个木麻黄人工林为研究对象,在每个林分下分别设置3个样地,每个样地采集木麻黄青枯病感病植株和健康植株根区土壤各3份,共54个土壤样...     

南雄优质适产烤烟因土施肥技术研究

采用田间试验方法,探明南雄县烟区三种土壤类型氮、磷、钾养分的供应特性,烤烟在各生育期吸收养分的规律,不同土壤类型氮、磷、钾肥的不同配比对烤烟产量和质量的影响。根据三年试验结果进行统计,提出优质适产烤烟因土施肥技术方法,为南雄烤烟生产的发展提供了科学的施肥依据。     

Thermal defluorination behaviors of PFOS,PFOA and PFBS during regeneration of activated carbon by molten salt

• New method of mineralizing PFCs was proposed. • Activated carbon was regenerated while mineralizing PFCs. • Molten NaOH has good mineralization effect on PFOS and PFBS. Current study proposes a green regeneration method of activated carbon (AC) laden with Perfluorochemicals (PFCs) from the perspective of environmental safety and resource regeneration. The defluorination efficiencies of AC adsorbed perfluorooctanesulfonate (PFOS), perfluorooctanoic acid (PFOA) and perfluorobutanesulfonate (PFBS) using three molten sodium salts and one molten alkali were compared. Results showed that defluorination efficiencies of molten NaOH for the three PFCs were higher than the other three molten sodium salts at lower temperature. At 700°C, the defluorination efficiencies of PFOS and PFBS using molten NaOH reached to 84.2% and 79.2%, respectively, while the defluorination efficiency of PFOA was 35.3%. In addition, the temperature of molten salt, the holding time and the ratio of salt to carbon were directly proportional to the defluorination efficiency. The low defluorination efficiency of PFOA was due to the low thermal stability of PFOA, which made it difficult to be captured by molten salt.The weight loss range of PFOA was 75°C–125°C, which was much lower than PFOS and PFBS (400°C–500°C). From the perspective of gas production, fluorine-containing gases produced from molten NaOH-treated AC were significantly reduced, which means that environmental risks were significantly reduced. After molten NaOH treatment, the regenerated AC had higher adsorption capacity than that of pre-treated AC.     

酸碱度对生活垃圾焚烧厂沥滤液蒸发处理效果的影响

采用蒸发法处理城市生活垃圾焚烧厂垃圾沥滤液,着重考察了不同沥滤液初始pH值对蒸发去除COD和氨氮效果的影响,并采用GC-MS对蒸发冷凝液中有机物成分进行了分析鉴定.结果表明,生活垃圾沥滤液的初始pH对冷凝液中COD、氨氮含量及有机污染物分布产生了决定性的影响.沥滤液在酸性条件下(pH ≤ 6)蒸发,随着pH的增加,冷凝液中COD的含量线性降低,而氨氮的含量线性增加.当沥滤液的初始pH值从6增加到11,冷凝液中COD的含量呈对数函数降低,而氨氮的含量表现出显著增加趋势.从冷凝液中鉴定出38种有机污染物,多为沸点较低的醇、酸、酚和酯类.在酸性条件下(pH=3),冷凝液中挥发性有机酸和低碳醇的相对丰度接近90%.在近中性条件下(pH=6.2),冷凝液中的有机污染物以酚、酸和杂环类化合物为主.在碱性条件下(pH=11),冷凝液中酚和杂环类化合物占比较高,而酸的含量极少.     

外源有机酸对小飞扬草(Euphorbia thymifolia L.)修复镉污染土壤的影响

植物修复有许多优点,但当用于重金属含量较高的土壤时,通常修复效率较低。研究了添加外源柠檬酸、草酸、苹果酸对镉超积累植物小飞扬草(Euphorbia thymifolia L.)富集Cd的影响,以及3种外源有机酸对土壤pH、Cd形态及小飞扬草根系生理生化特性的影响,探讨利用有机酸强化小飞扬草修复镉污染土壤的可能性及其作用机制。结果表明,土壤Cd含量为247 mg/kg时,种植15 d后,3种有机酸均提高了小飞扬草根和地上部Cd含量,强化效果:草酸>柠檬酸>苹果酸,10 mmol/kg草酸的加入使小飞扬草地上部分Cd含量达最大值77.21 mg/kg,比对照组提高87.72%。加入有机酸使土壤pH从7.65下降至6.01~7.45,BCR三步提取法分析土壤Cd形态结果表明,酸溶态Cd含量增加,残渣态Cd含量减小。加入20 mmol/kg苹果酸降低了根系的活力和ATP酶活性,根细胞膜透性与对照组无显著性差异,而加入5、10和20 mmol/kg的柠檬酸、草酸和5、10 mmol/kg的苹果酸均显著增加了小飞扬草根系的活力和ATP酶活性,减小了根细胞膜透性。说明添加3种外源有机酸能强化小飞扬草修复Cd污染土壤,利用外源有机酸很有可能成为提高重金属污染土壤植物修复效率的有效途径。