低温耐盐胶态分散凝胶深部调驱体系的研究

本文采用油田水作为配液用水,研发了低温耐盐胶态分散凝胶深部调驱体系。确定了胶态分散凝胶调驱体系的最佳配方:稠化剂浓度为1 200~2 000 mg/L,有机铝离子交联剂用量为0.4~0.8%;详细地评价了环境因素对胶态分散凝胶体系性能的影响,获得了调驱剂的主要性能指标。体系的交联延迟时间和凝胶强度可满足低温油田深部调驱施工的要求。

耐盐、低温适生芽孢杆菌TS1、TS3的拮抗及降解纤维素活性分析

为获得在高原生态农牧业中具有研究应用潜力的根围促生菌,从极端环境生境筛选出具有耐盐、耐低温适生性的菌株,并对其进行生理生化及分子鉴定。通过gyr B及16S r DNA基因序列分析,将菌株TS1鉴定为萎缩芽孢杆菌(Bacillus atrophaeus),菌株TS3鉴定为解淀粉芽孢杆菌(B. amyloliquefaciens);平板对峙试验发现,菌株TS1、TS3均具有拮抗植物病原真菌及细菌的活性(抑菌圈直径≥8 mm);经Landy培养基发酵提取的菌株脂肽类化合物可在血平板上形成直径≥11 cm的透明圈;通过基质辅助激光解吸附-离子化飞行时间质谱(MALDI-TOF-MS)分析所产生的脂肽类化合物,菌株TS1可产生表面活性素(Surfactin)、泛革素(Fengycin),菌株TS3可产生表面活性素、伊枯草菌素(Iturin A),推测菌株的拮抗活性与脂肽类化合物合成有关;羧甲基纤维素钠(CMC-Na)法检测发现,菌株具有降解纤维素活性; 3,5-二硝基水杨酸(DNS)法测定菌株解纤维素酶活性分别为116. 76、150. 12 U/m L;菌株TS1可在含Na Cl浓度为13%的LB培养基平板上及4、10℃低温条件下正常生长,表现出良好的耐低温及耐盐性。2株耐盐、耐低温适生芽孢杆菌兼具多种功能特性,在高原生态农牧业中具有一定的研究应用潜力,有望进一步研究并开发成为微生物肥料生产菌种。

低温高盐油藏稳油控水冻胶体系配方优化与性能评价

随着油田高强度注水开发持续进行,油田非均质性越来越强,注入水突进、无效循环情况加剧,调剖堵水技术是解决常规油田高含水问题的有效技术之一。在低温高盐油藏方向,调堵技术研究较少。针对这个问题,研制了一种适于低温高盐油藏的以聚丙烯酰胺为主剂的冻胶体系。考察了聚合物质量分数、交联剂质量分数以及矿化度等因素对体系性能的影响。结果表明:室内实验条件下,该体系在50℃成胶时间可调,成胶强度可调,耐盐100000mg/L;同时,该体系具有良好的注入性,封堵率达91%以上,封堵性能较好。

Genetic overlap between salt and low-temperature tolerance loci at germination stage of soybean

Salt and low temperature were both very important factors for soybean production. It was necessary to improve the salt stress and low-temperature tolerance of soybean. The main purpose of this paper was to map the quantitative trait loci(QTL) related with salt tolerance and low- temperature tolerance at germination stage with backcross introgression lines(BILs),and analyze the genetic overlap between them. There were 22 QTL located with BC2 F4 introgression populations after salt stress,and 15 QTL were mapped after low-temperature stress. Seven overlapping QTLs between salt tolerance and low-temperature tolerance were detected on 6 linkage groups at germination stage. In total,there were 31.81 % of salt tolerance and low-temperature tolerance loci existed genetic overlap.