银杏幼苗叶片转化酶活性及其动力学

采用波钦诺克XH法研究了田间和室内栽培的银杏幼苗叶片转化酶的活性及其动力学性质。结果表明:银杏幼苗叶片转化酶在pH值5.0、温度55℃时活性最强;该酶的米氏常数为3.7×10-2mol·L-1;室内盆栽的银杏幼苗叶片转化酶的活性显著高于田间栽培的同龄银杏幼苗叶片转化酶的活性。     

Enantioselective degradation kinetics of metalaxyl in rabbits

Metalaxyl [methyl-N-(2′-methoxyacetyl)-N-(2,6-dimethylphenyl)-d,l- alaninate] is a potent phenylamide fungicide. The (−)-(R)-isomer accounts for most of the fungicidal activity. A possible stereo and/or enantioselective kinetics of metalaxyl in rabbits was investigated by intravenous injection. The concentrations of (−)-(R)- and (+)-(S)-metalaxyl in plasma, liver, and kidney tissue were determined by HPLC with a cellulose-Tris-(3,5-dimethylphenylcarbamate)-based chiral stationary phase and gas chromatography-mass spectroscopy. After intravenous administration of racemic metalaxyl (40 mg/kg), the (+)-(S)-enantiomer levels in plasma, liver, and kidney decreased more rapidly than the (−)-(R)-isomer. The area ratio of the (−)-(R)-/(+)-(S)-enantiomer under the concentration-time curve (AUC_0 → ∞) in plasma after drug application was 1.62. The total plasma clearance value of the (+)-(S)-enantiomer was 1.53 and higher than that of the (−)-(R)-enantiomer. The [R]/[S] ratio in plasma was >1 for standard rac-metalaxyl at each time point. The other pharmacokinetic parameters of the enantiomers were also different. The results indicate substantial stereoselectivity in the degradation of metalaxyl enantiomers in rabbits.     

Comparative studies of acetylcholinesterases purified from two field populations of the oriental migratory locust (Locusta migratoria manilensis): implications of insecticide resistance

Acetylcholinesterase (AChE) was purified by affinity chromatography from two populations of the oriental migratory locust, Locusta migratoria manilensis (Meyen), collected from Huanghua and Pingshan Counties, Hebei Province of China. The purification factors and yields were 1661-fold and 19.3%, respectively, for the Huanghua population, and 3897-fold and 39.6% for the Pingshan population. Both the purification factor and yield were significantly lower in the Huanghua population than in the Pingshan population. AChE activity was almost completely inhibited by 10⁻⁶ M eserine and BW284C51, but ?5.8% of AChE activity was inhibited by ethopropazine at the same concentration, suggesting that purified AChE from either population was a typical insect AChE. However, AChE purified from the Huanghua population was 62-, 2.0-, and 1.6-fold less sensitive to inhibition by the three organophosphate compounds, chlorpyrifos oxon, demeton-S-methyl, and paraoxon, respectively, than that from the Pingshan population. Significantly lower purification factor and low yield associated with reduced sensitivity of AChE to inhibition by the organophosphates indicated that AChE purified from the Huanghua population was biochemically and pharmacologically different from that of the Pingshan population. Reduced sensitivity of AChE appeared to contribute to organophosphate resistance in the locust from Huanghua County, where insecticides have commonly been used to manage outbreaks of the locust.     

新时代土壤化学前沿进展与展望

土壤化学是重要的土壤学基础分支学科。在回顾了土壤化学发展历程的基础上,梳理了土壤化学的四个前沿交叉方向,并展望了土壤化学与其他相关学科的交叉发展趋势,以期寻求新的学科增长点。土壤化学经历了从恒电荷到可变电荷土壤学说演变,我国在土壤电化学、根际土壤化学、土壤化学-物理-微生物界面反应等方向逐步领跑。新时代中国已经发展成为国际土壤化学的研究中心之一,尤其在土壤化学与微生物学、地球化学、矿物学、环境化学等交叉领域取得了突破性发展。同时,发展并运用同步辐射、微流控联用光谱能谱、高分辨显微镜、光谱电化学等实时、原位、高精度研究方法,推动土壤化学研究取得了长足的进步。新时代的土壤化学具有三个重要发展趋势,首先系统揭示地球表层系统中物质循环与能量交换的土壤化学机制,实现"0到1"的土壤化学原创性成果的突破;其次需要综合运用地球表层系统理论,从多界面、多要素、多过程的"三多"交互耦合;再次,需要加强与地球宜居性这一人类重大命题的交叉融合,为生态文明建设、土壤污染防治攻坚战、全球变化等国家重大需求提供理论支持。     

玉米生长对石灰性土壤无机碳与有机碳释放的根际效应

利用IsoSource模型三源区分玉米根际土壤CO2释放来源(根源呼吸、土壤无机碳与有机碳释放),研究玉米根际效应对石灰性土壤无机碳与有机碳释放的影响.在玉米拔节期(24～53 d)、抽穗期(54～66 d)和灌浆期(67～99 d)末分别破坏性取样,测定根系、土壤有机碳和无机碳的13C含量等指标;自拔节期开始至生育期...     

长期咸水灌溉对土壤酶活性及反应动力学的影响

为了探讨咸水灌溉导致土壤质量下降的原因,研究了5个含盐量水平(1.25(对照)、2.50、5.00、7.50d S·m~(-1)和10.00 d S·m~(-1))的咸水长期田间污染对0~20 cm和20~40 cm土壤水解酶活性及酶促反应动力学性质的影响。结果表明:咸水灌溉导致土壤脲酶、β-葡糖苷酶和碱性磷酸酶活性呈现不同程度的降低,与对照相比,10d S·m~(-1)咸水灌溉下0~20 cm土壤层三种酶活性分别下降45.5%、50.8%和24.9%,20~40 cm土壤层三种酶活性分别下降37.44%、32.1%和21.8%;咸水灌溉改变了土壤酶的催化动力学特性,与对照相比,10 d S·m~(-1)咸水灌溉下脲酶、β-葡糖苷酶和碱性磷酸酶的最大反应速度V_(max)分别下降47.77%、44.62%和15.01%,Km分别下降57.12%、保持不变和下降14.64%,β-葡糖苷酶V_(max)/K_m下降39.63%,脲酶和碱性磷酸酶的V_(max)/K_m没有显著变化。数据表明咸水灌溉对不同的酶抑制机制不尽相同。     

不同菌剂对栽参土壤中莠去津降解效果的影响

从多年施用莠去津的栽参土壤中分离出降解效果良好的2株细菌、2株真菌和3株放线菌,制成混合菌剂,代号分别为AM、AF、AS,对其在田间土壤中的定殖情况和降解效果进行了研究。结果表明：细菌接种后经过20．0d的延缓期菌体细胞开始增殖,而真菌和放线菌没有明显的延缓期。土壤中莠去津降解过程符合一级反应动力学方程,细菌和放线菌菌剂对栽参土中莠去津有明显的降解效果,其半衰期分别为20．0,17．6d,真菌的降解效果较差,其降解半衰期为31．4d。     

石油烃类污染物降解动力学和微生物群落多样性分析

为了探讨不同初始浓度石油污染土壤堆腐化修复机制,以石油降解菌剂和腐熟鸡粪为调理剂,研究了初始浓度分别为5 000（T1）、10 000（T2）和50 000 mg/kg（T3）的石油污染土壤堆腐化修复过程石油烃类污染降解动力学特征和微生物群落多样性。结果表明：堆腐化修复过程石油烃类污染物降解符合一级反应动力学,反应常数分别为0.012、0.094和0.050 d-1,半衰期分别为6.79、7.37和13.86 d。整个堆腐过程石油烃类污染物平均降解速率分别为112.08、230.05和887.93 mg/(kg·d)。3个处理的孔平均颜色变化率（average well color development）和碳源利用率（除芳香烃类化合物外）随堆腐进程的推进逐渐升高,在堆腐中、后期达到最大,T3处理显著高于T1、T2处理。多聚物类和糖类代谢群是堆腐体系中的优势菌群。主成分分析表明3个处理的微生物群落差异显著（除第9天外）,起分异作用的碳源主要是糖类和羧酸类。微生物群落的丰富度指数和均一度指数随堆腐进程的推进逐渐升高并在堆腐后期达到最大,与T1处理相比,T3处理分别高了0.21%和17.64%,差异达到显著水平（P<0.05）。微生物群落优势度指数在中期达到最大,T1处理分别比T2、T3处理高2.12%和9.44%,3个处理间差异不显著（P>0.05）。堆肥结束时3个处理的种子发芽指数（seed germination index, SGI）分别比堆腐初期提高了18.26%、20.42%和36.41%。该研究结果为黄土高原不同程度石油污染土壤堆腐化修复的应用提供参考依据和理论基础。     

甘油超临界水气化制氢过程参数和动力学研究

为研究甘油超临界水气化制氢过程及转化动力学,采用正交试验和单因素试验,在连续式反应器中,分析不同工艺参数对甘油超临界水气化气体产物分布和气化转化效率的影响,对气体产物进行气相色谱分析。利用集总动力学研究方法,优化甘油超临界水气化转化动力学模型,增加CO₂甲烷化反应路径,探讨甘油超临界水气化过程中动力学参数和气相产物生成及消耗路径。结果表明：甘油超临界水气化制氢的最佳工况为温度600 ℃、甘油浓度0.015 mol/L、压力27 MPa和停留时间18 s,此时H₂产量为2.411 mol/mol,气化效率为76.49 %。单因素试验结果可知,较高反应温度和压力、较低原料浓度和适当延长停留时间有利于提高H₂产量和甘油气化效率。反应速率常数随着温度的升高而增加,甘油热解路径Ⅱ和中间体蒸汽重整路径Ⅰ的活化能分别高于甘油热解路径Ⅰ和中间体蒸汽重整路径Ⅱ。H₂主要通过甘油热解和水气变换反应生成,CO₂主要通过甘油热Ⅰ和水气变换反应生成,CO₂甲烷化是H₂和CO₂消耗的主要路径。中间体热解是CO和CH₄的主要生成路径,CO的主要消耗路径是水气变换反应。     

Streptomyces spiroverticillatus生产变构霉素发酵动力学研究

在15 L发酵罐内,对Streptomyces spiroverticillatus生产变构霉素的分批发酵动力学特性进行了研究。在发酵过程中在线检测了发酵液的pH、溶氧以及温度,还对发酵产物量、菌体量、总糖含量进行离线检测。基于Logistic方程和Luedeking-Piret方程,建立了变构霉素分批发酵动力学模型。根据发酵试验数据确定了模型参数,得到菌体生长动力学模型、变构霉素生产动力学模型以及总糖消耗动力学模型。在相应的条件下,经验证,实验值与模型的拟合值接近,拟合度分别为0.9922,0.9897,0.9934,表明该动力学模型在初始总糖浓度67.2606～74.8759 g/L、接种量8% (V/V)、搅拌速率150 r/min以及通气量1.1 vvm的发酵条件下能较正确描述变构霉素发酵过程。