不同耕作方式对旱地全膜双垄沟播玉米产量和水分利用的影响

为明确新型耕作技术--立式深旋耕作对西北黄土高原半干旱区土壤水分含量、玉米产量和水分利用效率的影响,采用随机区组设计,于2016和2017年设置立式深旋耕作40 cm （VRT）、深松40 cm （SS）、旋耕15 cm （TT）和免耕（ZT）4种耕作方式,测定0-300 cm土层土壤含水量、地上生物量、叶面积指数（LAI）和SPAD、产量等指标,计算阶段耗水量、水分利用效率（WUE）等。结果表明,VRT在2017年播前0-40 cm土层的土壤贮水量分别较SS、TT、ZT增加了7.7、8.6、6.6 mm,在0-100 cm土层增加了18.2、22.8、20.2 mm,均达到显著差异。VRT显著促进干旱年的花前耗水和平水年的花后耗水,提高玉米地上生物量、LAI和SPAD,其中地上生物量较SS、TT、ZT分别增加了14.7%-18.3%、12.7%-18.8%和22.8%-29.1%。基于较为优势的植株生长,VRT籽粒产量较SS、TT和ZT分别增加了12.0%-13.0%、13.7%-33.6%、24.0%-47.4%。因此,虽然VRT提高了玉米耗水,并与ZT达到显著差异水平,导致收获后土壤贮水量低于其他三种耕作方式,但2017年播前0-100 cm土层土壤贮水量显著高于其他3种耕作处理;尽管0-300 cm土层土壤贮水量较SS、TT和ZT下降了11.4、14.8、20.5 mm,但它们之间无显著差异。以上结果表明,VRT能够同时促进玉米耗水和降水入渗,维持土壤水分平衡,是一种有效的抗旱增墒耕作方法,可在半干旱区玉米生产中推广应用。     

史前人类对动物骨骼油脂的开发和利用

动物骨骼油脂的开发和利用是史前人类生存活动的重要组成部分。西方学者的研究表明,这一过程可能包含了敲骨取髓和骨脂提取两种不同的人类行为。相较于敲骨取髓,骨脂提取更为复杂,不仅要将骨骼砸碎成较小尺寸,还要加水煮沸骨骼碎片,过程中不断添冷水使水保持温和沸腾的状态,才能获得浮于水面的骨脂。目前,国内学者在此领域的研究多关注于前一行为而对后者鲜有论述。本文通过对相关科学文献的全面梳理,系统介绍了史前人类骨脂提取行为的鉴定分析手段和方法,进而探讨了这一行为在古人类资源利用程度、流动性、用火方式和烹饪技术等方面的指示意义与价值。     

一株红孢囊藻(Rhodosorus sp.SCSIO-45730)总糖和β-葡聚糖的积累特性研究

红孢囊藻(Rhodosorus sp.)可以积累高含量多糖,在医药保健和生物能源领域具有潜在开发价值。为进一步评估红孢囊藻(Rhodosorus sp.)产业化潜力,研究了一株红孢囊藻SCSIO-45730在盐度不同的4种培养基中生长及总糖和β-葡聚糖积累特性,结果表明:改良的ASW培养基相对于其他培养基(f/2、Conway和Erdschreiber)更有利于红孢囊藻SCSIO-45730生物量和总糖的积累。以ASW培养基为基础培养基,研究该藻盐度适应性,结果显示:该藻可在18‰-58‰盐度范围内正常生长,随着盐度增加,藻细胞体积逐渐增大且出现聚团现象;在盐度为38‰时,获得最大生物量、总糖含量和产率以及β-葡聚糖产率,分别为13.70 g/L、48.52%DW、412.58 mg/L·d和119.70 mg/L·d,β-葡聚糖含量随着盐度增加而降低;该藻在户外平板光生物反应器中总糖和β-葡聚糖单位体积产量分别为0.73 g/L和0.23 g/L。结果表明,红孢囊藻SCSIO-45730具有较广的盐度适应性、高产总糖和β-葡聚糖潜力,是生产生物乙醇和β-葡聚糖的理想原料。     

表达透明颤菌血红蛋白基因对酿酒酵母生长及细胞内氧化状态的影响*

透明颤菌血红蛋白基因vgb在多种研究和工业发酵菌中异源表达很好的解决了高密度发酵中的溶氧率问题。酿酒酵母是经典的真核模型,且在发酵工业中具有重要的应用价值,但vgb在酿酒酵母中异源表达对细胞生长的影响并不清楚。以ADH1为启动子构建了含透明颤菌(Vistreoscilla)血红蛋白基因vgb的异源表达质粒YEplac195-ADH1pr-vgb,并转化至酿酒酵母BY4741。通过生长敏感性实验,发现在发酵碳源和非发酵碳源中,vgb的异源表达均抑制了菌株生长。接着,通过2',7'-二氯荧光黄双乙酸盐和PI染色和脂质过氧化产物检测分析,发现过表达vgb的酿酒酵母细胞中活性氧(ROS)的积累、细胞膜通透性改变以及脂质过氧化。结果表明,酿酒酵母中过表达vgb改变细胞的氧化状态促进活性氧的累积,氧化应激导致菌株的生长抑制。     

针叶树病原菌异担子菌属的物种多样性及相关检疫建议

异担子菌属Heterobasidion种类是北半球针叶树最严重的森林病原菌,在世界范围内能侵染27种针叶树,对欧洲和北美洲的经营林已造成重大损失。基于传统形态学研究,认为异担子菌属有2个种,即多年异担子菌H. annosum和岛生异担子菌H. insulare,然而单孢交配实验研究证明2个种为复合种。分子系统发育分析研究表明：异担子菌属包括15个种,其中5个种为森林病原菌[冷杉异担子菌H. abietinum、多年异担子菌（狭义）H. annosum s. str.、变孔异担子菌H. irregulare、西方异担子菌H. occidentale和小孔异担子菌H. parviporum];10个种为腐生菌（淀粉孢异担子菌H. amyloideum、南洋杉异担子菌H. araucariae、阿曼德异担子菌H. armandii、南方异担子菌H. australe、岛生异担子菌H. insulare、林芝异担子菌H. linzhiense、东方异担子菌H. orientale、拟岛生异担子菌H. subinsulare、拟小孔异担子菌H. subparviporum和西藏异担子菌H. tibeticum）。多年异担子菌（狭义）H. annosum s. str.、小孔异担子菌H. parviporum和冷杉异担子菌H. abietinum分布于欧洲,分别是松属、云杉属和冷杉属林木的病原菌。变孔异担子菌H. irregulare和西方异担子菌H. occidentale分布于北美洲,前者侵染松属和柏属树木,后者侵染冷杉属、铁杉属、黄杉属和巨杉属树木。虽然广义的多年异担子菌H. annosum sensu lato曾在我国报道,但基于目前研究结果表明该种为拟小孔异担子菌H. subparviporum。目前世界上最具侵染力的5种病原菌即狭义的多年异担子菌H. annosum s. str.、小孔异担子菌H. parviporum、冷杉异担子菌H. abietinum、变孔异担子菌H. irregulare和西方异担子菌H. occidentale还未在我国发现,也未列为对外检疫对象,因此建议将其列为进境植物检疫性有害生物。RNA聚合酶II大亚基序列（RPB1）在异担子菌属种类鉴定中敏感性和特异性最高,研究证明该分子方法可应用于鉴别不同异担子菌种类的有效基因标记,在海关部门进行原木和木质产品的检疫中可运用该分子标记进行林木病原异担子菌的检测。     

中国苹果病害病原菌物名录

苹果为我国主要栽培水果,苹果产业在我国农业生产中占有重要地位。病原菌物是苹果病害的主要病原物,对我国苹果产量和品质造成严重损害。国际上病原菌物为苹果主要病原类型,其数量占苹果病原物的93.4%。我国植物病理学家和菌物学家对苹果病害的病原学进行了长期研究,描述与记载了大量国外已报道的病原真菌和病原卵菌,也描述了一些国外尚未记载的病原菌。随着菌物分类研究的深入、分类系统及菌物命名规则变化等,许多病害的病原名称发生了较大变化,对名称的使用造成了诸多不便,影响了苹果病害相关知识的交流。本文汇总了我国已经描述的苹果菌物病害的病原种类,其中病原真菌149种,病原卵菌6种,病原菌物占苹果病原物种类的90.6%。依据最新分类系统、菌物命名法规和汉语名称规则,对相关病原菌物的拉丁学名、中文名称以及病害汉语名称等进行了整理和修订。该项工作有利于相关植物病理学研究者、植保工作者、园艺工作者、管理人员及基层推广工作者对苹果病原菌物名称的检索和规范使用,促进学术交流和科学普及等。     

小绒泡菌生活史及其形态建成期显微结构的观察

在完成小绒泡菌Physaum pusillum生活史的同时,观察了小绒泡菌P. pusillum生活史不同阶段显微结构的形成。生活史研究结果表明：小绒泡菌P. pusillum的孢子萌发方式为裂式,黏变形体具两根鞭毛,较短一根不易观察到,原质团类型为显型原质团,子实体形态建成过程约需12-13h。显微结构观察结果表明：石灰结和孢丝结构在原质团隆起约6h后开始形成,孢子在原质团隆起约9h后开始形成,石灰结和孢丝先于孢子形成。     

Effective methods for isolation and purification of extracellular vesicles from plants

Plant extracellular vesicles (EVs) play critical roles in the cross-kingdom trafficking of molecules from hosts to interacting microbes, most notably in plant defense responses. However, the isolation of pure, intact EVs from plants remains challenging. A variety of methods have been utilized to isolate plant EVs from apoplastic washing fluid (AWF). Here, we compare published plant EV isolation methods, and provide our recommended method for the isolation and purification of plant EVs. This method includes a detailed protocol for clean AWF collection from Arabidopsis thaliana leaves, followed by EV isolation via differential centrifugation. To further separate and purify specific subclasses of EVs from heterogeneous vesicle populations, density gradient ultracentrifugation and immunoaffinity capture are then utilized. We found that immunoaffinity capture is the most precise method for specific EV subclass isolation when suitable specific EV biomarkers and their corresponding antibodies are available. Overall, this study provides a guide for the selection and optimization of EV isolation methods for desired downstream applications.     

Diversity of Culturable Bacteria Isolated from Highland Barley Cultivation Soil in Qamdo,Tibet Autonomous Region

The soil bacterial communities have been widely investigated. However, there has been little study of the bacteria in Qinghai-Tibet Plateau, especially about the culturable bacteria in highland barley cultivation soil. Here, a total of 830 individual strains were obtained at 4°C and 25°C from a highland barley cultivation soil in Qamdo, Tibet Autonomous Region, using fifteen kinds of media. Seventy-seven species were obtained, which belonged to 42 genera and four phyla; the predominant phylum was Actinobacteria (68.82%), followed by Proteobacteria (15.59%), Firmicutes (14.29%), and Bacteroidetes (1.30%). The predominant genus was Streptomyces (22.08%, 17 species), followed by Bacillus (6.49%, five species), Micromonospora (5.19%, four species), Microbacterium (5.19%, four species), and Kribbella (3.90%, three species). The most diverse isolates belonged to a high G+C Gram-positive group; in particular, the Streptomyces genus is a dominant genus in the high G+C Gram-positive group. There were 62 species and 33 genera bacteria isolated at 25°C (80.52%), 23 species, and 18 genera bacteria isolated at 4°C (29.87%). Meanwhile, only eight species and six genera bacteria could be isolated at 25°C and 4°C. Of the 77 species, six isolates related to six genera might be novel taxa. The results showed abundant bacterial species diversity in the soil sample from the Qamdo, Tibet Autonomous Region.     

Analysis of the impact of ancient city walls on urban landscape patterns by remote sensing

As the most important construction features of ancient Chinese cities, the city walls nowadays have lost their function of enemy defense and turned to affect the urban structure and development. To clarify the impact of ancient city walls on modern urban development, this work was conducted to measure the differences of landscape types and levels between the inner and outer walls of three typical ancient Chinese cities with the help of geoinformatics materials and landscape ecology indices. The results of this research proved that city walls have great impact on landscape pattern. Specifically, the aggregation, fragmentation, diversity and evenness of landscape were strongly affected by well-preserved ancient city walls. By sorting out and consulting historical documents and China's “City Walls Protection Regulations”, we also found that city walls help the old city to retain its original style and design characteristics. The findings of this quantitative-analysis-based historical study can provide a theoretical basis for the protection of historical heritage and landscape design.