人参皂苷β-葡萄糖苷酶的分离纯化及其酶学特性

通过硫酸铵分级沉淀、透析和高效液相色谱等技术分别从两株黑曲霉Aspergillusniger 4 8g和A .niger 84 8g中分离纯化出了具有水解人参皂苷葡萄糖苷键的 β 葡萄糖苷酶 ,并对其酶学特性进行了研究 .结果表明 :两株黑曲霉A .niger 4 8g和A .niger 84 8g所产的 β 葡萄糖苷酶的表观分子量不同 ,分别为 34× 10 3 和 31× 10 3 kD ;两株菌所产的 β 葡萄糖苷酶的反应特性基本相同 .图 4表 4参 15     

Enrichment and characterization of an effective hexavalent chromium-reducing microbial community YEM001

Environmental Science and Pollution Research - Chromium (Cr) is one of the most widely used heavy metals in industrial processes, resulting in water and soil pollution that seriously threaten...     

西安市第五污水处理厂设计进水水质水量的分析与确定

对拟建污水处理厂服务区域内的水质、水量进行调查分析,结合区域内的人口密度、工业企业现状及发展前景,提出按实测水质浓度90%保证率确定污水处理厂设计进水水质,同时依据实测水量对可行性研究报告提出的处理规模进行核算,并按修正后的水质和水量进行工程设计,此方法可作为工程技术人员设计城市污水处理厂时参考。     

Vc二步发酵新菌系生长代谢的调节

研究了培养基和培养条件对新菌系大、小菌生长地代谢的影响。结果表明：培养基的碳源、葡萄糖/山梨糖浓度比、氮源、生长因子以及起始pH值、通气量等，可以有效地调节2-酮基-L-古龙酸的代谢产生数量，规范新菌系B529-Go.V.6的行为、生理状态，促进大小菌之间的协调，使其达到最佳状态。图2表6参5     

滇池流域蔬菜地土壤氮素分布与转移特征

选取滇池流域蔬菜设施保护地油麦菜（Lactuca sativa var.ramosa）种植区进行研究,分为高量组和低量组两个组别进行,每组分别设置9个施肥处理。试验结果表明：土壤总氮在各水平处理之间并没有规律性变化,在垂直梯度上（0-20、20-40、40-60cm）,土壤养分随深度增加而递减;高量组和低量组在生长期和成熟期,土壤总氮积累量和施氮量表现出了显著正向线性相关,相关系数R分别为0.9873、0.9901、0.9881和0.9880;适量施氮,土壤氮积累量表现出减少,而过量施氮则表现出了盈余;高量组氮损失量均大于低量组,且高量组在不同生育期的氮损失量与施氮量表现出极显著的线性正相关,相关系数R分别为0.9823、0.9719。高量组与低量组氮素损失率生长期均高于成熟期,而各处理之间未表现出明显的变化规律,最大损失率为39.79%,在适宜施肥量的处理中,损失率也达到了20%以上。     

Preliminary Estimation of the Realistic Optimum Temperature for Vegetation Growth in China

The estimation of optimum temperature of vegetation growth is very useful for a wide range of applications such as agriculture and climate change studies. Thermal conditions substantially affect vegetation growth. In this study, the normalized difference vegetation index (NDVI) and daily temperature data set from 1982 to 2006 for China were used to examine optimum temperature of vegetation growth. Based on a simple analysis of ecological amplitude and Shelford’s law of tolerance, a scientific framework for calculating the optimum temperature was constructed. The optimum temperature range and referenced optimum temperature (ROT) of terrestrial vegetation were obtained and explored over different eco-geographical regions of China. The results showed that the relationship between NDVI and air temperature was significant over almost all of China, indicating that terrestrial vegetation growth was closely related to thermal conditions. ROTs were different in various regions. The lowest ROT, about 7.0 °C, occurred in the Qinghai-Tibet Plateau, while the highest ROT, more than 22.0 °C, occurred in the middle and lower reaches of the Yangtze River and the Southern China region.