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采用单基质及混合基质体系,探讨了白腐菌Pleurotus ostreatusBP对氮杂环化合物的降解规律.结果表明,在弱酸性环境下,白腐菌能有效降解喹啉和吲哚.单基质体系中,喹啉的降解率15d内能达到89.48%,98.17%的吲哚6d内被降解;混合基质体系中,基质(喹啉、吡啶、苯酚及氨氮)的加入能促进白腐菌对吲哚的降解,但(吲哚、吡啶、苯酚及氨氮)却抑制了白腐菌对喹啉的降解.不同基质体系中,白腐菌对喹啉和吲哚的降解分别遵循零级和一级反应动力学.相对单基质而言,混合基质的存在对白腐菌生物学特性产生明显影响,可缩短生长周期,提高生长速率和漆酶活性.漆酶存吲哚的降解中起着重要的作用,但不能完全决定喹啉的降解.图5表2参14 相似文献
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JANINE BOLLIGER THOMAS C. EDWARDS JR. STEFAN EGGENBERG SASCHA ISMAIL IRMI SEIDL FELIX KIENAST 《Conservation biology》2011,25(3):567-576
Abstract: Abandonment of agricultural land has resulted in forest regeneration in species‐rich dry grasslands across European mountain regions and threatens conservation efforts in this vegetation type. To support national conservation strategies, we used a site‐selection algorithm (MARXAN) to find optimum sets of floristic regions (reporting units) that contain grasslands of high conservation priority. We sought optimum sets that would accommodate 136 important dry‐grassland species and that would minimize forest regeneration and costs of management needed to forestall predicted forest regeneration. We did not consider other conservation elements of dry grasslands, such as animal species richness, cultural heritage, and changes due to climate change. Optimal sets that included 95–100% of the dry grassland species encompassed an average of 56–59 floristic regions (standard deviation, SD 5). This is about 15% of approximately 400 floristic regions that contain dry‐grassland sites and translates to 4800–5300 ha of dry grassland out of a total of approximately 23,000 ha for the entire study area. Projected costs to manage the grasslands in these optimum sets ranged from CHF (Swiss francs) 5.2 to 6.0 million/year. This is only 15–20% of the current total estimated cost of approximately CHF30–45 million/year required if all dry grasslands were to be protected. The grasslands of the optimal sets may be viewed as core sites in a national conservation strategy. 相似文献
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用单基质及混合基质体系,探讨了白腐菌Pleurotus ostreatus BP对氮杂环化合物的降解规律.结果表明,在弱酸性环境下,白腐菌能有效降解喹啉和吲哚.单摹质体系中,喹啉的降解率15 d内能达到89.48%,98.17%的吲哚6 d内被降解;混合基质体系中,基质(喹啉、吡啶、苯酚及氨氮)的加入能促进白腐菌对吲哚的降解,但(吲哚、吡啶、苯酚及氨氮)却抑制了白腐菌对喹啉的降解.不同基质体系中,白腐菌对喹啉和吲哚的降解分别遵循零级和一级反应动力学.相对单基质而言,混合基质的存在对白腐菌生物学特性产生明显影响,可缩短生长周期,提高生长速率和漆酶活性.漆酶在吲哚的降解中起着重要的作用,但不能完全决定喹啉的降解. 相似文献
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研究了氧气和震荡条件对酿酒酵母高浓度乙醇发酵的影响.结果表明,震荡是提高发酵液乙醇浓度和产率的最重要因素.与静止培养相比,在不通气情况下震荡培养使乙醇浓度提高了69%(从75.8 g L-1提高到128.1 g L-1),在通气条件下乙醇浓度提高了68.7%(从85.2 g L-1提高到to 143.8 g L-1).在最优条件下,两次补料,经54 h发酵,发酵液中乙醇浓度达到143.8 g L-1,乙醇产率与理论产率的比值为0.471 g/g(即92.20%).经分析,通气和震荡条件提高了发酵液中酿酒酵母的生物量和细胞活力.图5表1参12 相似文献
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农业秸秆在杏鲍菇生产中的应用 总被引:2,自引:0,他引:2
利用花生秸、玉米秸、甘薯藤配以棉籽壳、麸皮作为杏鲍菇栽培基质,以w(棉籽壳)=80%、w(麸皮)=20%作为对照配方,研究了 6种秸杆配方的培养料对杏鲍菇生长发育和产量的影响.结果表明:不同配方培养料对杏鲍菇的菌丝生长速度和生长势、生产周期、产量和生物学效率均有较大影响;玉米秸、花生秸是杏鲍菇优良的营养基质,其中,以玉米秸粉和棉籽壳为主料的培养料更适合杏鲍菇生长,其菌丝生长速度快,生长势最强,出菇较快,且产量最高,生物学效率町达60%以上.综合出菇后菌渣作为动物饲料原料的适口性来考虑,以w(棉籽壳):30%、w(玉米秸粉)=50%、w(麸皮)=20%的配方为最佳. 相似文献
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红豆杉内生真菌发酵培养基和原生质体制备酶系统的筛选 总被引:3,自引:0,他引:3
在对红豆杉内生真菌(Ozoniumsp.)适生碳源、氮源和生长情况研究的基础上,通过正交试验筛选了其发酵培养基和原生质体制备的酶系统;用L9(34)安排了四因素三水平并考虑交互作用的正交试验,对实验结果进行了分析.结果表明,最优的发酵培养基为果糖1%、蔗糖1%、蛋白胨0.2%、酵母粉0.5%、KH2PO40.5%、MgSO4·7H2O0.3%、VB10.001%;分离原生质体的最优酶系统为1.5%溶壁酶 0.5%蜗牛酶 1.5%纤维素酶 1.0%溶菌酶;用此酶系统在30℃条件下酶解3h,原生质体的产量达6.55×107个/mL酶液;经荧光素二醋酸酯(FDA)染色评估原生质体活力,表明该条件下分离的原生质体活力较高,原生质体的再生率为2.56%.该研究为利用生物技术手段改良紫杉醇生产菌奠定了基础.图6表4参32 相似文献