硬杂木屑替代桦木屑栽培桦褐孔菌

为获得广泛栽培原料和提高栽培菌核生物学效率,开展了桦褐孔菌人工栽培比较试验,并利用桦褐孔菌常规栽培配方筛选人工栽培管理条件。试验获得桦木屑培养料出核最佳条件:菌袋不割口,无棉盖体封口,温度20～25℃,光照200 lx,基质含水量60%。菌丝粗壮,浓密,生长速度快;菌核出现早,数量多,颜色深,产量高。此管理条件下,通过桦木屑、杂木屑+玉米芯的复方栽培基质比较,获得了代用栽培料配方:杂木屑46%,玉米芯40%,麦麸10%,豆粉2%,白糖1%,石膏1%,水分60%,pH自然。菌核产量27.5 g/袋,生物学效率达30.7%,该配方与桦木屑基质菌核产量差异不显著。     

核心微生物组的研究及利用现状

随着分子生物学和生物信息学的飞速发展,新一代测序技术可以轻松地检测不同样本中复杂的微生物分类单元。面对这些复杂而大量的微生物组数据带来的分析挑战,利用核心微生物组的方法来描述和分析样本中的核心微生物组和关键种是近年来新的研究热点,这些结果将揭示与宿主健康、生长和生产等密切相关的微生物种类,有助于深入认识微生物与宿主间的相互关系,深刻理解微生物对宿主的影响作用,更好地理解微生物组在自然生态系统中的功能。本文阐述了核心微生物组的定义、研究方法、与动植物的关系等方面的研究及利用现状,为更好地利用核心微生物组解决环境、人类健康和农业生产问题提供思路。     

人工饲料饲养的叉角厉蝽对昆虫的捕食能力评价

叉角厉蝽Eocanthecona furcellate(Wolff)是广泛分布于热带亚热带地区的一种重要捕食性天敌昆虫。为评估人工饲料饲养的叉角厉蝽的捕食能力,在实验室采用捕食功能反应的方法,以黄粉虫作为中介猎物饲养的叉角厉蝽为对照,评价了人工饲料饲养的叉角厉蝽3龄若虫、5龄若虫以及雌成虫对黄粉虫Tenebriomolitor(L.)幼虫及斜纹夜蛾Spodoptera litura(Fabricius)3龄幼虫、5龄幼虫的捕食效能。结果表明,两种饲料饲养的不同虫态叉角厉蝽的捕食量均随着猎物密度的增加而上升,当猎物密度增加到一定水平,捕食量趋于稳定,其捕食功能反应均符合HollingII模型。人工饲料组饲养的各虫态叉角厉蝽与对照组的对黄粉虫幼虫的捕食量没有明显差异;在饱和猎物密度条件下,人工饲料饲养的叉角厉蝽3龄若虫、5龄若虫以及雌成虫对斜纹夜蛾3龄幼虫的日最大捕食量分别为7.20、9.20、14.60头,对斜纹夜蛾5龄幼虫的日最大捕食量分别4.20、5.80、6.20头,均略低于对照组,但从取食猎物数量上来看,仍保持较强的捕食能力。     

草地贪夜蛾室内人工饲养技术的研究

草地贪夜蛾Spodoptera frugiperda(J.E.Smith)是一种跨国迁飞性农业重大害虫,目前已入侵我国24个省并对多种农作物造成严重危害。研发草地贪夜蛾标准化饲养技术对开展其防控技术研究及生物学相关基础研究至关重要。通过对草地贪夜蛾室内饲养,从饲养器皿、人工饲料组分、饲养方法及流程、注意事项等方面总结了一套简便实用、长期规模化饲养的标准饲养技术。已利用该标准饲养技术连续饲养草地贪夜蛾5代,其各项生命指标仍保持较高水平。该饲料配方和饲养技术适合草地贪夜蛾的规模化饲养,同时也为其它夜蛾科害虫规模化饲养提供参考。     

鳜春季、夏季和秋季按季节人工繁育模式的研究

为满足不同地区、不同季节鳜(Sinierca chuatsi)养殖需要, 实现均衡上市的苗种供应要求, 研究通过对两批亲鱼在不同季节各进行4次交替人工催产, 按月建立苗种繁育模式。结果显示, 池塘中自然培育的亲鱼, 卵巢成熟系数出现2个峰值, 而网箱中培育的亲鱼, 经过4次人工催产, 出现4个成熟系数峰值, 产卵量和出苗量与成熟系数峰值正相关。以二繁的成熟系数、产卵量和出苗量最高, 显著高于其他三次(P<0.05), 二繁、三繁和四繁的受精率、孵化率和苗种培育成活率均较高, 显著高于一繁(P<0.05), 温度是影响一繁受精率、孵化率和苗种培育成活率的主要因素。产后亲鱼成活率随人工繁殖次数增加而下降, 其中以一繁的成活率最高, 达93.33%, 显著高于三繁和四繁(P<0.05)。综上结果表明, 通过按季节分梯次人工繁育模式解决鳜苗种生产的均衡供应是可行的。这为转变鳜的养殖方式提供了科学依据, 也为其他鱼类苗种的均衡生产提供了借鉴意义。     

人工锌指蛋白介导调控的里氏木霉纤维素酶生产

里氏木霉Trichoderma reesei Rut-C30是目前研究最广泛的纤维素酶生产菌,选育高产纤维素酶的里氏木霉菌株有助于提高木质纤维素资源生物炼制的经济性。利用人工锌指蛋白文库转化T.reeseiRut-C30,筛选获得了两株高产纤维素酶的突变株T. reesei M1和M2,与出发菌株比较,突变株M1和M2滤纸酶活分别提高100%和53%,且M1突变株外泌蛋白量提高69%,M2内切纤维素酶活提高64%。实时定量PCR分析结果表明,与对照菌株相比,突变株M1和M2中主要纤维素酶基因转录均上调,但不同酶基因在两株菌中有不同的变化特征。此外,纤维素酶抑制转录因子基因ace1在两株突变株中都转录下调,而纤维素酶正调控转录因子基因xyr1仅在M1突变株中上调。以上结果表明,不同人工锌指蛋白对纤维素酶活性的影响具有多样性。对这些突变体中人工锌指蛋白靶基因进行深入分析,为进一步深入探究里氏木霉纤维素酶合成调控的机理,以及利用代谢工程选育更高效的产酶菌株提供了基础。     

体外多酶分子机器的现状和最新进展

体外多酶分子机器遵循所设计的多酶催化路径,将若干种纯化或部分纯化的酶元件进行合理的优化与适配,高效地在体外将特定的底物转化为目标化合物。体外多酶分子机器反应系统呈现元件化和模块化的特点,在设计、组装和调控方面具有较高的自由度。近年来,体外多酶分子机器在实现反应过程的精准调控和提高产品得率方面的优势逐渐体现,展示了其在生物制造领域重要的应用潜力。对体外多酶分子机器的相关研究已成为合成生物学的一个重要分支领域,日益受到广泛的关注。文中系统地综述了基于酶元件/模块的体外多酶分子机器的构建策略,以及改善该分子机器中酶元件/模块之间适配性的研究进展,并分析了该生物制造平台的发展前景与挑战。     

不同干扰模式对受害马尾松人工纯林林分结构的影响

在浙江安吉选择松材线虫病危害的马尾松人工纯林,分别进行暂不采伐直至10年后统一伐除受害木的集中干扰、采伐受害松木的适度干扰、采伐受害松木与周边松木及生长势弱松木的强度干扰,探讨不同干扰模式使受害马尾松林恢复健康的可能性.16年后的试验结果表明: 3种模式下受害林分马尾松的重要值为集中干扰>适度干扰>强度干扰,阔叶树的重要值则正好相反;与集中干扰相比,适度和强度干扰后的马尾松、阔叶树的平均胸径分别提高1.2、1.7倍和1.3、1.9倍,平均树高分别提高了1.5、2.0倍和1.2、1.8倍,林分每公顷蓄积量分别是集中干扰样地的5.2和3.8倍;适度和强度干扰的各径阶株数均远高于集中干扰样地,胸径结构近似于反J型曲线,也形成了复层林,物种丰富度和多样性指数均显著高于集中干扰样地,林木个体差异及林分复杂性指数均表现为适度干扰>强度干扰>集中干扰.适度和强度干扰下单层马尾松同龄纯林均演替为复层马尾松-阔叶树混交异龄林.3种模式均是正向阔叶化演替,演替速度为强度干扰>适度干扰>集中干扰.表明适度干扰更有利于病害马尾松林分恢复,间伐马尾松纯林能加快阔叶混交化进程以抵御松材线虫病的入侵.     

Contaminant Removal of Domestic Wastewater by Constructed Wetlands： Effects of Plant Species

A comparative study of the efficiency of contaminant removal between five emergent plant species and between vegetated and unvegetated wetlands was conducted in small-scale （2.0 m×1.0 m×0.7 m, lengthxwidthxdepth） constructed wetlands for domestic wastewater treatment in order to evaluate the decontaminated effects of different wetland plants. There was generally a significant difference in the removal of total nitrogen （TN） and total phosphorus （TP）, but no significant difference in the removal of organic matter between vegetated and unvegetated wetlands. Wetlands planted with Canna indica Linn., Pennisetum purpureum Schum., and Phragmites communis Trin. had generally higher removal rates for TN and TP than wetlands planted with other species. Plant growth and fine root （root diameter ≤ 3 mm） biomass were related to removal efficiency. Fine root biomass rather than the mass of the entire root system played an important role in wastewater treatment. Removal efficiency varied with season and plant growth. Wetlands vegetated by P. purpureum significantly outperformed wetlands with other plants in May and June, whereas wetlands vegetated by P. communis and C. indica demonstrated higher removal efficiency from August to December. These findings suggest that abundance of fine roots is an important factor to consider in selecting for highly effective wetland plants. It also suggested that a plant community consisting of multiple plant species with different seasonal growth patterns and root characteristics may be able to enhance wetland performance.     

Molecular Population Genetics of Rice Domestication

Domestication is a selection process that genetically modifies species to meet human needs. A most intriguing feature of domestication is the extreme phenotypic diversification among breeds. What could be the ultimate source of such genetic variations? Another notable outcome of artificial selection is the reduction in the fitness of domesticated species when they live in the wild without human assistance. The complete sequences of the two subspecies of rice cultivars provide an opportunity to address these questions. Between the two subspecies, we found much higher rates of non‐synonymous (N) than synonymous (S) substitutions and the N/S ratios are higher between cultivars than between wild species. Most interestingly, substitutions of highly dissimilar amino acids that are deleterious and uncommon between natural species are disproportionately common between the two subspecies of rice. We suggest strong selection in the absence of effective recombination may be the driving force, which we called the domestication‐associated Hill‐Robertson effect. These hitchhiking mutations may contribute to some fitness reduction in cultivars. Comparisons of the two genomes also reveal the existence of highly divergent regions in the genomes. Haplotypes in these regions often form highly polymorphic linkage blocks that are much older than speciation between wild species. Genes from such regions could contribute to the differences between indica and japonica and are likely to be involved in the diversifying selection under domestication. Their existence suggests that the amount of genetic variation within the single progenitor species Oryza rufipogon may be insufficient to account for the variation among rice cultivars, which may come from a more inclusive gene pool comprising most of the A‐genome wild species. Genes from the highly polymorphic regions also provide strong support for the independent domestication of the two subspecies. The genomic variation in rice has revealing implications for studying the genetic basis of indica‐japonica differentiation under rice domestication and subsequent improvement.