东北地区蒙古栎木生大型真菌物种多样性和区系特征

木生大型真菌作为木材的分解者,在维持生态系统的生物地球化学循环中起着重要的作用。蒙古栎Quercus mongolica是我国东北地区主要的成林树种之一。为厘清以蒙古栎为生长基质的木生大型真菌物种组成和区系特征,本文对我国东北地区蒙古栎上的木生大型真菌物种组成、生态习性和区系特征进行比较分析。经调查共发现蒙古栎上木生大型真菌11目39科110属193种,其中优势科为多孔菌科Polyporaceae、锈革孔菌科Hymenochaetaceae、拟层孔菌科Fomitopsidaceae、皱孔菌科Meruliaceae、斯氏菇科Steccherinaceae和木耳科Auriculariaceae,优势科的物种数占比56.99%。优势属为多孔菌属Polyporus、栓孔菌属Trametes、锈革菌属Hymenochaete、多年卧孔菌属Perenniporia和韧革菌属Stereum,优势属的物种占总物种数的15.03%。在腐朽类型方面,89.64%的木生大型真菌能够引起木材的白色腐朽,比例远远高于褐色腐朽;生长在倒木上的木生大型真菌种类最多,生长在基部的种类最少。按照区系组成,可划分为温带分布种(35.75%)、温带-亚热带分布种(33.16%)、寒带-温带分布种(12.95%)和世界广布种(6.22%)等7类,具有明显的温带区系特征。     

中国东北地区木材腐朽菌的多样性(英文)

对中国东北地区木材腐朽菌资源研究进行了总结,给出了每种木材腐朽菌的寄主和在东北的分布。目前中国东北地区共记载木材腐朽菌504种,其中300种为多孔菌,204种为革菌,57种为林木病原菌,69种为药用菌。梨多年卧孔菌Perenniporia pyricola和北方赖特孔菌Wrightoporia borealis为新种,对它们进行了描述和绘图。对所有名称按最新命名法规(维也纳法规)进行了订正。     

辽宁铁岭榛白粉病病原菌研究

榛是辽宁铁岭市最重要的木本经济树种。白粉病是榛生产中的主要病害,导致树体衰弱,减少花芽分化,落果,降低产量。本研究对该病害的发生和危害进行了调查,通过病原菌形态学和rDNA ITS序列分析,确定该病害的病原菌为榛白粉菌(Erysiphe corylacearum)。     

中国木本植物病原木材腐朽菌研究

简要论述了中国木本植物致病木材腐朽菌,报道危害活立木的木腐菌152种,其中49种（占总数的34%）在中国首次报道为林木病原菌。对每个种的寄主、侵染部位、腐朽类型、发生频率及分布进行了报道。它们中有135种（占总数的89%）造成木材白色腐朽,17种导致褐色腐朽;67种为常见种,33种为偶见种,52种为少见种。     

柠条绿虎天牛危害特性及其种群动态研究

柠条绿虎天牛是近年来在宁夏柠条灌丛中大面积暴发的一种钻蛀性害虫,主要以幼虫危害柠条的枝干部。论文调查研究了柠条绿虎天牛的危害特性及种群数量的动态变化。结果表明,幼虫和成虫主要分布在柠条枝干0～100cm范围内,以0～20cm处居多,其数量由基部至顶部逐渐减少。幼虫主要危害4年生以上的柠条植株,以6～8年生受害最重。随着柠条地径的增加,天牛成虫数量逐渐增加,而幼虫数量则呈现先增加再减少的变化趋势。不同时期幼虫数量在枝干上的分布变化较大,幼虫具有转移危害习性,先由基部和顶部向中部转移,随着气温的不断降低,则由顶部不断向基部转移,以0～20cm处的数量最多,可能柠条枝干基部的环境更有利于幼虫的越冬。     

中国平伏多孔菌一新种

平伏多孔菌是多孔菌科(Polyporaceae)中的重要类群。其中有许多种类是重要的木材腐朽菌和树木的病原菌。作者1964年曾报道中国扁平多孔菌属(Poria)平伏多孔菌37种。本文报道平伏多孔菌一新种——栎褐孔菌(Fuscoporia quercina Zhao)。     

中国干腐菌属的研究

中国干腐菌属共有3种,根据中国的材料对每种的担孢子进行测量和统计,并给出了该属种类的检索表,相似干腐菌为中国一新记录种,对该种进行了详细描述和显微绘图。该种的主要特征是担子果有菌盖,担孢子近球形,生长在竹子上。伏果干腐菌在欧洲经常木制房屋腐朽,但该菌在中国所引起的问题没有欧洲严重。     

三种温带树种非结构性碳水化合物的分配

树体中的非结构性碳水化合物(NSC)浓度、含量及其分配反映了树木整体的碳供应状况, 是决定树木生长和存活的关键因子, 也是构建树木碳平衡模型的关键参数。温带树种的NSC尚缺乏系统研究。该文测定了特性各异的3种温带树种在生长盛期的NSC及其组分的浓度和含量以及分配格局的种间种内变异。结果表明, NSC及其组分的浓度在树种和组织之间差异显著, 可溶性糖、淀粉和总NSC浓度分别在0.65-8.45、1.96-5.95和3.00-13.90 g·100 g^-1 DM之间波动。NSC及其组分含量的大小依次为: 兴安落叶松(Larix gmelinii) >蒙古栎( Quercus mongolica) >红松( Pinus koraiensis), 其中叶和根中的浓度较高。树干中的NSC及其组分浓度的纵向变化不显著, 但其心材与边材之间的浓度差异却随树种和NSC组分而异, 表现为心边材的可溶性糖浓度差异不显著, 但其淀粉和总NSC浓度差异显著。不同直径根系的NSC及其组分浓度在2种针叶树种中差异不显著, 但在蒙古栎中差异显著。蒙古栎将可溶性糖主要投资到地上生长, 而2种针叶树将更多的可溶性糖投资到根系生长。淀粉的主要储存库为树干, 其在树体内的分布格局与可溶性糖正相反, 因而使总NSC在树根和树枝中的分配趋于较平衡状态。在树干中, 除了2种针叶树的可溶性糖库以边材为主外, 心材是淀粉和总NSC的主要储存库。在树根中, 粗根是NSC及其组分的优势储存库。该研究中3种温带树种的NSC及其组分的浓度和含量的种间和种内变化, 反映了这些树种的生长对策和体内碳源汇强度的差异。     

嗜肺巴斯德杆菌研究进展

嗜肺巴斯德杆菌(Pasteurella pneumotropica)是一种条件致病菌,人兽共患。主要危害啮齿类动物,特别是免疫缺陷或抑制的动物,可引起炎症和脓肿等症状。该菌是实验动物中感染率最高的病原菌之一,多呈隐性感染,给动物实验带来了极大的干扰。本文针对嗜肺巴斯德杆菌的流行病学、检测和鉴定、分子分型和防治等方面进行综述。     

瓜类白粉病的生物防治研究进展

白粉病是危害瓜类作物最为严重的一种气传病害,引起该病的病原菌为单囊壳白粉菌Podosphaera xanthii(synonym Podosphaera fusca)和二孢白粉菌Golovinomyces cichoracearum(synonym Erysiphe cichoracearum),其中对Podosphaera xanthii的报道较为常见。主要概述了瓜类白粉病病原菌的分类地位、病理特征和生物防治方面的研究进展,重点阐述了微生物源生防制剂和植物源生防制剂对瓜类白粉病的防治成果,并对当前研究与应用中存在的问题进行了探讨,为该病的深入研究和有效防治提供参考。     

The Seedling Community of Tropical Rain Forest Edges and Its Interaction with Herbivores and Pathogens1

Edge effects alter biotic interactions and forest regeneration. We investigated whether edge creation affected the seedling community and its interactions with herbivores and leaf‐fungal pathogens. In forest edges and interior sites in Chiapas, Mexico, we counted all woody seedlings and species (10–100 cm tall) present in 1‐m² plots, measured their size (height and leaf number), and examined them for the occurrence of herbivory and pathogen damage. We investigated relationships between levels of damage and size, species richness and density. Species composition and biotic damage varied greatly among sites and habitats (edge vs interior). Late‐successional species dominated the community, but richness was lower in interior sites and species similarity was greater among edges than among interiors. Nearly all species (95%) present at edges and interiors showed herbivory damage, whereas 76 percent of the species in edge plots and 68 percent in interior plots showed pathogen damage. Although leaf area damaged by herbivores was similar between habitats (average 9.2%), pathogen damage was three times greater in edge plots (1.85%) than in interior plots (0.57%). Size was positively related to biotic damage at both habitats. Relationships between herbivory and pathogen damage and between pathogen damage and leaf number were significant only for edges. Biotic damage was not related to density or species richness. Overall, plant community structure was similar between habitats, but biotic damage was enhanced at edges. Thus, disease spread at edges may arise as a threat to tropical rain forest vegetation.     

Inducible defense against pathogens and parasites: optimal choice among multiple options

Defense against pathogen, parasites and herbivores is often enhanced after their invasion into the host's body. Sometimes different options are adopted depending on the identity and the quantity of the pathogen, exemplified by the switch between Th1 and Th2 systems in mammalian immunity. In this paper, we study the optimal defense of the host when two alternative responses are available, which differ in the effectiveness of suppressing the growth of pathogen (parasite, or herbivore), the damage to the host caused by the defense response, and the magnitude of time delay before the defense response becomes fully effective. The optimal defense is the one that minimizes the sum of the damages caused by the pathogen and the cost due to defense activities. The damage by pathogens increases in proportion to the time integral of the pathogen abundance, and the cost is proportional to the defense activity. We can prove that a single globally optimal combination of defense options always exists and there is no other local optimum. Depending on the parameters, the optimal is to adopt only the early response, only the late response, or both responses. The defense response with a shorter time delay is more heavily used when the pathogen grows fast, the initial pathogen abundance is large, and the difference in time delay is long. We also study the host's optimal choice between constitutive and inducible defenses. In the constitutive defense, the response to pathogen attack works without delay, but it causes the cost even when the pathogen attack does not occur. We discuss mammalian immunity and the plant chemical defense from the model's viewpoint.     

Monodominance in an African Rain Forest: Is Reduced Herbivory Important?1

Tropical monodominant forests in which one tree species dominates the canopy occur in all three major tropical regions, but few studies have focused on the mechanisms responsible for dominance. This study tests the hypothesis that relative to other species in the community, dominant species are well defended and escape herbivore and pathogen damage. We surveyed the rate of damage on young expanding leaves of seedlings and saplings belonging to eight species within both monodominant Gilbertiodendron dewevrei forests and adjacent mixed–species forests in eastern Congo. Results showed that escape from herbivore and pathogen damage is not a mechanism by which Gilbertiodendron achieves dominance, as it suffered the highest damage level of any species surveyed. Similarly, other sub–dominant common species also suffered high rates of damage. These results are discussed in relation to the phenolic, fiber, and nitrogen content of leaves, and in the context of current theories pertaining to plant–herbivore interactions.     

Herbivore and pathogen effects on tree growth are additive,but mediated by tree diversity and plant traits

Herbivores and fungal pathogens are key drivers of plant community composition and functioning. The effects of herbivores and pathogens are mediated by the diversity and functional characteristics of their host plants. However, the combined effects of herbivory and pathogen damage, and their consequences for plant performance, have not yet been addressed in the context of biodiversity–ecosystem functioning research. We analyzed the relationships between herbivory, fungal pathogen damage and their effects on tree growth in a large‐scale forest‐biodiversity experiment. Moreover, we tested whether variation in leaf trait and climatic niche characteristics among tree species influenced these relationships. We found significant positive effects of herbivory on pathogen damage, and vice versa. These effects were attenuated by tree species richness—because herbivory increased and pathogen damage decreased with increasing richness—and were most pronounced for species with soft leaves and narrow climatic niches. However, herbivory and pathogens had contrasting, independent effects on tree growth, with pathogens decreasing and herbivory increasing growth. The positive herbivory effects indicate that trees might be able to (over‐)compensate for local damage at the level of the whole tree. Nevertheless, we found a dependence of these effects on richness, leaf traits and climatic niche characteristics of the tree species. This could mean that the ability for compensation is influenced by both biodiversity loss and tree species identity—including effects of larger‐scale climatic adaptations that have been rarely considered in this context. Our results suggest that herbivory and pathogens have additive but contrasting effects on tree growth. Considering effects of both herbivory and pathogens may thus help to better understand the net effects of damage on tree performance in communities differing in diversity. Moreover, our study shows how species richness and species characteristics (leaf traits and climatic niches) can modify tree growth responses to leaf damage under real‐world conditions.     

Individual tree traits shape insect and disease damage on oak in a climate‐matching tree diversity experiment

Diversifying planted forests by increasing genetic and species diversity is often promoted as a method to improve forest resilience to climate change and reduce pest and pathogen damage. In this study, we used a young tree diversity experiment replicated at two sites in the UK to study the impacts of tree diversity and tree provenance (geographic origin) on the oak (Quercus robur) insect herbivore community and a specialist biotrophic pathogen, oak powdery mildew. Local UK, French, and Italian provenances were planted in monocultures, provenance mixtures, and species mixes, allowing us to test whether: (a) local and nonlocal provenances differ in their insect herbivore and pathogen communities, and (b) admixing trees leads to associational effects on insect herbivore and pathogen damage. Tree diversity had variable impacts on foliar organisms across sites and years, suggesting that diversity effects can be highly dependent on environmental context. Provenance identity impacted upon both herbivores and powdery mildew, but we did not find consistent support for the local adaptation hypothesis for any group of organisms studied. Independent of provenance, we found tree vigor traits (shoot length, tree height) and tree apparency (the height of focal trees relative to their surroundings) were consistent positive predictors of powdery mildew and insect herbivory. Synthesis. Our results have implications for understanding the complex interplay between tree identity and diversity in determining pest damage, and show that tree traits, partially influenced by tree genotype, can be important drivers of tree pest and pathogen loads.     

CD8 T cell-mediated lung damage in response to the extracellular pathogen pneumocystis is dependent on MHC class I expression by radiation-resistant lung cells

Pneumocystis, a fungal, extracellular pathogen causes a life-threatening pneumonia in patients with severe immunodeficiencies. In the absence of CD4 T cells, Pneumocystis infection results in vigorous CD8 T cell influx into the alveolar and interstitial spaces of the lung. This response results in lung damage characterized by low pO2 and albumin leakage into the bronchoalveolar lavage fluid similar to other CD8 T cell-mediated interstitial lung diseases. How this extracellular pathogen elicits a CD8 T cell response is not clear, and it was the aim of our study to determine the Ag specificity of the recruited CD8 T cells and to determine whether MHC class I (MHC I) expression was necessary to initiate lung damage. Using an adoptive T cell-transfer model with either polyclonal wild-type CD8 T cells or transgenic influenza virus-specific CD8 T cells we found that CD8 T cell recruitment is Ag-specific and requires the continuous presence of the Pneumocystis pathogen. Bone marrow chimera experiments using Rag-1 and beta2-microglobulin-deficient mice as hosts demonstrated a requirement for MHC I expression on nonbone marrow-derived cells of the lung. This suggests either direct processing of Pneumocystis Ags by nonbone marrow-derived cells of the lung or the induction of lung damage triggered by a lung-specific autoantigen. Using perforin-, Fas-, and IFN-gamma-deficient animals, we showed that these molecules are not directly involved in the CD8-mediated lung damage. However, CD8 T cell-mediated lung damage is Ag-specific is induced by a MHC I-expressing nonbone marrow-derived cell in the lung and is dependent on the continued presence of live Pneumocystis.     

Drought effects on damage by forest insects and pathogens: a meta‐analysis

In the context of climate change, the effects of prolonged or more severe droughts on pest and pathogen damage are a major concern for forest ecosystems. To date, there is great uncertainty about the direction, magnitude and sources of variation in responses to drought by insects and fungi. We report the outcomes of a meta‐analysis of 100 pairwise comparisons of insect pest or pathogen damage to water‐stressed and control trees from 40 publications. The type of feeding substrate for insects and fungi and the water stress severity emerged as the main factors influencing the level of damage in water‐stressed trees. Overall, primary damaging agents living in wood caused significantly lower damage to the water‐stressed trees compared with the control, whereas primary pests and pathogens living on foliage caused more damage to water‐stressed trees, in all cases irrespective of stress severity. In contrast, damage by secondary agents increased with stress severity, which was best estimated by the ratio between the predawn leaf water potential in stressed trees and the xylem pressure inducing 50% loss in hydraulic conductance due to cavitation, a species‐specific index of drought tolerance. Insect and fungus feeding behaviour, affected tree part, and water stress severity are therefore proposed as three important predictors of forest damage in drought conditions.     

病原菌逃避宿主细胞防御的策略

病原菌对宿主致病是病原菌与宿主复杂相互作用的结果。病原菌与宿主相互作用可造成宿主在细胞、组织及器官不同水平的损伤。病原菌对宿主的致病性及毒力,一方面在于病原菌,另一方面在于宿主因素以及宿主与病原菌的相互作用。病原菌-宿主在细胞水平的相互作用是病原菌感染致病的重要环节。结合本课题组对猪链球菌的研究,从黏附与定殖、侵袭、逃避与扩散等方面概述病原菌逃避宿主细胞防御的机制。     

Interactions of Apple and the Alternaria alternata Apple Pathotype

Apple is one of the most cultivated tree fruits worldwide, and is susceptible to many diseases. Understanding the interactions between the host and pathogen is critical in implementing disease management strategies and developing resistant cultivars. This review provides an update on the interactions of apple with Alternaria alternata apple pathotype, which causes Alternaria blotch, with a brief history about the discovery of the disease and pathogen and its damage and epidemiology. The focus of the review is placed on the physiological and genetic response of the host to pathogen infection, including resistance and susceptibility, and the molecular markers associated with them. Of the response of the pathogen to the host, the emphasis is placed on the role of the selective toxins on pathogenicity and their genetic controls and regulations. The review ends with a perspective on future directions in the research on the apple-A. alternata pathosystem in the era of genomics and post genomics, particularly on how to identify candidate genes from both host and pathogen for potential genetic engineering for disease resistant cultivars.