实验室薄口螨的大量培养及休眠体的诱导

用玉米粉培养基、BY(牛肉膏+酵母膏)软琼脂培养基、BY培养液3种培养基对实验室薄口螨(Histiostoma laboratorium)进行了培养。其最适培养基是玉米粉培养基;该螨在BY软琼脂培养基上也能生长,但生长速度比较缓慢,经过BY软琼脂培养基的培养,能够收集到大量干净的个体,为DNA提取和分子生物学研究提供了方便;在BY培养液中,实验室薄口螨不能进行继代生长,但能够产生大量的卵,可收集卵做更进一步的深入研究。休眠体是该螨生活史中的重要阶段,是借助携播者进行传播的特殊形式。对孳生于培养有果蝇的玻璃指管中的实验室薄口螨产生的休眠体及其在果蝇体表的吸附状况进行了观察,利用较高温度(30～35℃)培养基逐步干燥、较低温度(10～15℃)、BY液体培养3种方法,可以诱导该螨休眠体集中大量地形成,方便收集休眠体,是对其进行生理生化、基因表达、疾病传播机理等方面研究的先决条件。     

恙螨在不同地形和环境中分布的研究

徐秉锟(1959)曾对地里红恙螨Leptotrombidium(L.)akamushi deliensis的数量和分布进行了深入的研究,阐明了它们与恙虫病的关系。路步炎(1976)根据恙螨与疾病的关系,对上海鼠体恙螨作了深入的调查,认为恙螨在不同环境中数量的研究,对疾病的防治具有一定的实践意义。因而我们在苏南恙螨的区系研究中,对恙螨的数量及其在不同地形和环境中的分布也进行了研究。     

蔷薇种子的休眠及解除方法

分析了蔷薇(Rosa L.)种子休眠原因、解除休眠方法以及环境条件对休眠与萌发的影响.蔷薇种子休眠的主要原因有瘦果果皮和种皮的限制作用,胚生理休眠以及果肉、瘦果果皮、种皮和胚中的抑制物质.解除休眠的方法包括去除瘦果果皮限制、解除胚的生理休眠、去除抑制物质等.种子发育过程中及成熟后,环境因子,如温度、水分和光照,对种子休眠和萌发有影响.此外,微生物、果实采集时间也对种子休眠及萌发有较大影响.蔷薇种子的休眠机制复杂,且种间差异很大.     

不同种源的葡萄种子休眠及其解除的研究

为探讨葡萄种子休眠与解除的规律, 我们选择起源于东亚、北美–中美、欧洲–中亚3个分布中心的不同种类及其杂种的20个品种, 研究了它们成熟种子的外部形态与萌发行为, 种子的休眠特性与休眠解除的方法, 并模拟四季温度的交替变化研究了环境温度对种子休眠的影响。结果表明, 不同起源的各类葡萄种子的休眠类型均为生理休眠, 但其休眠程度不同, 休眠解除方式也存在差异。其中欧亚种和东亚种的种子休眠较浅, 美洲种种子休眠较深; 杂交种比亲本所属类别的种子休眠程度浅。对于欧亚种、东亚种及其杂交种(欧山杂种)而言, 5ºC冷层积和变温层积(即20ºC (14 h) /10ºC (10 h)和30ºC (14 h) /20ºC (10 h))2个月能够有效地或部分解除它们的种子休眠; 但对美洲种和欧美杂种而言, 仅5ºC冷层积且层积时间需要延长至6个月才能解除其休眠, 变温层积和25ºC暖层积都不能解除休眠。四季温度的交替变化模拟实验进一步证明了不同起源的葡萄种子的休眠程度不同。这些休眠特性及其解除方式反映了不同起源葡萄种类的环境适应性。本文研究结果为葡萄资源的引种和育种提供了参考数据。     

不同石漠化类型喀斯特地区土壤螨类群落结构的差异

【目的】揭示以潜在-轻度石漠化为主体和以中-强度石漠化为主体的喀斯特地区及其不同等级石漠化环境之间土壤螨类群落结构的差异。【方法】分别在以潜在-轻度石漠化为主体的高原山地区和以中-强度石漠化为主体的峡谷区采集潜在、轻度、中度和强度石漠化环境下的土壤螨类,通过标本鉴定和数据分析,判别不同环境下土壤螨类科、属、个体、捕食性螨类和甲螨生态类群以及群落多样性的差异。【结果】共捕获土壤螨类72科132属,甲螨是研究区土壤螨类组成的主体。中-强度石漠化喀斯特地区拥有丰富的螨类科和属;不同石漠化类型喀斯特地区螨类科、属的组成存在季节变化,随着石漠化程度的加剧,螨类科、属总体上逐渐减少;不同喀斯特区拥有不同的优势属群,且优势属的分布存在生境和季节差异;捕食性螨类和甲螨生态类群也随环境与季节的变化而变化;群落多样性指数以中-强度石漠化喀斯特区的稍高,但整体差异并不明显。【结论】不同石漠化主体类型喀斯特地区的土壤螨类群落结构存在差异,石漠化对土壤螨类群落结构造成影响,利用螨类优势属群可以对石漠化土壤环境进行初步指示,捕食性螨类和甲螨生态类群的分布与石漠化等级存在一定的不协调性,这种不协调性的机制有待进一步研究。     

赤霉素解除木本植物季节性休眠机制的研究进展

赤霉素是一种高效能的广谱植物生长调节剂,能够促进植物的生长发育,具有重要的生物学功能。该文主要对国内外近年来有关赤霉素在木本植物季节性休眠解除中的应用、赤霉素解除木本植物季节性休眠的生理机制、赤霉素代谢相关基因在木本植物季节性休眠中的作用以及赤霉素解除木本植物季节性休眠的分子机制等方面的研究进展进行综述,同时对下一步的研究方向进行了展望,以期能够更好地阐述赤霉素解除木本植物季节性休眠的分子机制,为赤霉素在木本植物季节性休眠解除中的应用提供理论依据。     

浙贝母鳞片细胞休眠解除前后超微结构的变化

浙贝母休眠解除后,鳞片近轴面表皮附近的几层细胞首先降解。本文观察了这些细胞在休眠解除前后超微结构的变化。与休眠状态时的细胞相比,解除休眠后的细胞中颗粒和丝状物的数量明显增加,一些细胞中出现了复杂的膜结构。线粒体的数目增加,常聚集在细胞核和细胞壁旁。胞间连丝的直径略有增加。休眠解除前后的细胞中,常可见到各类囊泡、多泡体与壁旁体,一些小囊泡正在进入细胞中。表明两种时期的细胞间都发生着物质和信息的交换     

种子物理休眠研究进展

种子物理休眠是由种皮不透水层引起的一种休眠类型,是植物在长期系统发育进程中获得的一种适应环境变化的特性。该文简述了种子物理休眠的定义与概念;从不透水层、种皮的特殊水孔器结构以及胚的形态特异性等方面,综述了物理休眠种子的形态特征、物理休眠与综合休眠的解除方法以及物理休眠的可能解除机制;利用Angiosperm Phylogeny Group Ⅲ(APG Ⅲ)系统分析了种子物理休眠的植物在系统发育中的位置;最后提出了今后种子物理休眠有待研究的主要问题。     

食物对刺足根螨生长发育、繁殖及休眠体产生的影响

在(25±1)℃、(95±5)%RH、全黑暗条件下,研究了4种食物对刺足根螨生长发育、繁殖及休眠体产生的影响。结果表明:取食马铃薯、马铃薯淀粉及鱼粉后,刺足根螨能完成世代发育,但其取食滤纸不能完成世代发育;在适宜的温湿度条件下,供试的4种食物对刺足根螨休眠体的产生无影响。     

实验室食菌螨的生活史及对果蝇繁殖的危害

观察到实验室食菌螨的生活史有卵、幼螨、第一若螨、第二若螨（休眠体）、第三若螨和成螨6种虫态。从卵至成螨的发育在23～25℃和78％～89％相对湿度下需3．0～4．5天。结果表明：孳生实验室食菌螨能明显降低果蝇的繁殖力,其危害程度随孳生数量不同而呈现明显差异。     

Habitat preference, escape behavior, and cues used by feather mites to avoid molting wing feathers

We analyzed the pattern of distribution and the effect of moltingon the escape behavior of feather mites on the wing feathersduring the nonmolting and molting season of the barn swallowHirundo rustica. Feather mites showed consistent preferencefor the second outermost primary, with a steady decrease inproximal distance and avoidance of the outermost primary. Severalexplanations are suggested to explain this unusual distribution.Further, analyzing the escape behavior of feather mites on moltingprimaries, we show that mites avoid the feathers destined tobe dropped next on molting barn swallows, and in the case ofthe outermost primary, mites use the "last moment" strategy,namely, leaving feathers shortly before it is dropped. Next,we performed an experiment in which we simulated shedding feathersor feathers about to be shed on nonmolting barn swallows, inorder to test cues used by feather mites in avoiding moltingprimaries. Both the vibration of the incised feather and thegap of the pulled feather induced mites to leave primaries situateddistally, at two-feathers distance from the manipulated primary,related to the control group. Our results show that feathermites have the ability to perceive the signal produced by thefeather that will drop next and by the gap of the missing feather.It remains to be demonstrated, whether feather mites have theability to perceive the vibration of the feather per se or theyperceive the altered airflow caused by the vibrating feathers.     

A review on the potential effects of environmental and economic factors on sheep genetic diversity: Consequences of climate change

Climate change has a significant effect on the productivity of livestock including milk, meat, and reproduction. This could be attributed to the internal diversion of energy resources towards adaptive mechanisms. Among the climate change variables, thermal stress seems to be the major limiting factor in animal agriculture. A better understanding of the effects of climate change-influenced ecological factors on the genetic diversity of livestock species is warranted. Sheep is an ideal livestock species to be used in investigating environmental adaptation due to its wide range of agroecological habitats, genetic and phenotypic variability. There is a heavy reliance on sheep genetic diversity for future animal protein security, but the implications of climate change on their genetic diversity receive less attention.Here, the potential environmental factors influencing natural selection in sheep populations are presented. We argue that prolonged exposure to these factors plays a major role in influencing the development of adaptation traits in indigenous sheep breeds, consequently leading to the alteration of genetic diversity at specific loci. The factors discussed include hot temperatures (heat stress), insufficient water, low quantity and quality of forage, and prevalence of parasites, pests, and diseases. In addition, genetic diversity, some signatures of selection for adaptation and economic angles of selection are also briefly discussed.A better understanding of environmental factors influencing the genetic diversity of sheep populations will inform breeding and management programs and may offer an opportunity for greater production efficiency with low input costs.     

群体表型性状研究揭示环境与遗传因素对霍山石斛表型及物种分类的影响

石斛属(Dendrobium)种类繁多, 属内物种具有丰富的表型多样性。霍山石斛(D. huoshanense)为我国特有物种, 其与河南石斛(D. henanense)和细茎石斛(D. moniliforme)以及铁皮石斛(D. catenatum)等近缘种表型相似, 在分类处理中存在争议。这种争议很大程度上与植物普遍存在的表型可塑性和代际共存有关。为探究环境和代际间遗传因素对霍山石斛表型性状的影响以及霍山石斛与近缘种的物种边界问题, 本研究观测了安徽省霍山县霍山石斛(野生、林间和温室F₁代、林间和温室F₂代)、野生河南石斛、细茎石斛和铁皮石斛, 共计16个群体2,279株植株的假鳞茎茎长等12个表型性状; 在种内层面, 首次借鉴生态学同质园实验和遗传学代际间性状比较的方法, 对霍山石斛群体表型性状进行差异显著性检验和95%置信区间比较以及主成分和变异系数等统计学分析。在种间层面, 对霍山石斛与河南石斛和铁皮石斛等近缘种群体表型性状进行比较和分析。结果表明, 环境因素对霍山石斛假鳞茎茎长和假鳞茎直径等具有显著的影响, 代际间遗传因素对霍山石斛假鳞茎直径具有显著的影响。霍山石斛与铁皮石斛和细茎石斛等近缘种群体在假鳞茎茎长、假鳞茎直径、花瓣长和花瓣宽等表型性状方面均存在显著性差异和间隔, 但与河南石斛仅在假鳞茎表型性状方面有显著性差异。我们的研究明确了环境和代际间遗传因素对霍山石斛表型性状的影响程度, 为霍山石斛与近缘种等争议物种的分类和鉴定提供了表型证据。     

亚热带不同树种组成森林中土壤甲螨群落结构特征: 以江西新岗山为例

在全球环境变化的大背景下, 生物多样性丧失日益加剧。土壤动物作为生物多样性重要组成之一, 受到广泛的关注。位于我国江西省新岗山的亚热带森林生物多样性与生态系统功能实验样地(BEF-China)是全世界25个森林生物多样性控制实验样地之一。本研究自2019年9月至2022年4月在BEF-China两个不同树种组成的样地(A样地和B样地)内采样, 共获得甲螨23,704头, 隶属于34科50属61种。本文分析和对比了两个样地内甲螨群落结构的差异, 及其多度、物种丰富度、Shannon多样性指数的季节性差异; 通过Pearson检验探讨了甲螨多度与环境因子的关系。结果表明: 在A、B两个不同树种组成的森林生态系统内, 土壤甲螨群落结构及其季节动态具有显著差异。具体表现在: A样地奥甲螨科、罗甲螨科、若甲螨科和尖棱甲螨科的相对多度高于B样地; B样地菌甲螨科、盖头甲螨科和礼服甲螨科的相对多度高于A样地。A样地中夏季和秋季甲螨多度、物种丰富度和Shannon多样性指数显著低于春季和冬季; 而B样地中秋季甲螨多度和物种丰富度与春季差异不显著。Pearson检验结果显示, 凋落物木质素含量与单翼甲螨科和菌甲螨科多度呈负相关关系, 而与奥甲螨科多度呈正相关关系。菌甲螨科多度与土壤和凋落物同一理化因子的相关性基本相同(碳氮比除外), 但与凋落物碳氮比呈正相关关系而与土壤碳氮比呈负相关关系。     

新疆天山森林公园土壤螨类群落多样性与环境因子的相关性

为探讨西北干旱区森林土壤螨类群落和环境因子的相互关系,于2014年对新疆天山森林公园七种不同生境进行土壤螨类群落调查与环境因子测定,并采用除趋势对应分析法(DCA)和冗余分析法(RDA)对土壤螨类群落结构和多样性特征及其与环境因子之间的关系进行相关分析。结果表明,共捕获土壤螨类成体标本24399只,隶属4目56科108属(包括9个中国新记录属),其中小甲螨属Oribatella为优势类群。方差分析表明,在7种不同生境之间土壤螨类群落多样性指标均存在显著差异(P<0.05),Shannon-Wiener多样性指数(H)依次为针叶林>苗圃林>阔叶林>灌木林>针阔混交林>草甸草原>林中草地。RDA分析结果表明,第一主轴和第二主轴分别解释了土壤螨类主要群落总变量的34.8%和27.3%,所有环境因子共解释了土壤螨类群落物种组成变异的82.1%。蒙特卡罗置换检验显示,十种环境因子与全部排序轴(F=7.355,P=0.002)均存在极显著的相关性。研究表明,海拔、土壤含水量和有机质含量对螨类群落结构和多样性的影响显著。     

Does Feather Corticosterone Reflect Individual Quality or External Stress in Arctic-Nesting Migratory Birds?

The effects of environmental perturbations or stressors on individual states can be carried over to subsequent life stages and ultimately affect survival and reproduction. The concentration of corticosterone (CORT) in feathers is an integrated measure of hypothalamic–pituitary–adrenal activity during the molting period, providing information on the total baseline and stress-induced CORT secreted during the period of feather growth. Common eiders and greater snow geese replace all flight feathers once a year during the pre-basic molt, which occurs following breeding. Thus, CORT contained in feathers of pre-breeding individuals sampled in spring reflects the total CORT secreted during the previous molting event, which may provide insight into the magnitude or extent of stress experienced during this time period. We used data from multiple recaptures to disentangle the contribution of individual quality vs. external factors (i.e., breeding investment or environmental conditions) on feather CORT in arctic-nesting waterfowl. Our results revealed no repeatability of feather CORT within individuals of either species. In common eiders, feather CORT was not affected by prior reproductive investment, nor by pre-breeding (spring) body condition prior to the molting period. Individual feather CORT greatly varied according to the year, and August-September temperatures explained most of the annual variation in feather CORT. Understanding mechanisms that affect energetic costs and stress responses during molting will require further studies either using long-term data or experiments. Although our study period encompassed only five years, it nonetheless provides evidence that CORT measured in feathers likely reflects responses to environmental conditions experienced by birds during molt, and could be used as a metric to study carry-over effects.     

Patterns of diversity and abundance of fleas and mites in the Neotropics: host‐related,parasite‐related and environment‐related factors

The effects of host‐related, parasite‐related and environmental factors on the diversity and abundance of two ectoparasite taxa, fleas (Insecta: Siphonaptera) and mites (Acari: Mesostigmata), parasitic on small mammals (rodents and marsupials), were studied in different localities across Brazil. A stronger effect of host‐related factors on flea than on mite assemblages, and a stronger effect of environmental factors on mite than on flea assemblages were predicted. In addition, the effects of parasite‐related factors on flea and mite diversity and abundance were predicted to manifest mainly at the scale of infracommunities, whereas the effects of host‐related and environmental factors were predicted to manifest mainly at the scale of component and compound communities. This study found that, in general, diversity and abundance of flea and mite assemblages at two lower hierarchical levels (infracommunities and component communities) were affected by host‐related, parasite‐related and environmental factors, and compound communities were affected mainly by host‐related and environmental factors. The effects of factors differed between fleas and mites: in fleas, community structure and abundance depended on host diversity to a greater extent than in mites. In addition, the effects of factors differed among parasite assemblages harboured by different host species.     

Tree hybridization and genotypic variation drive cryptic speciation of a specialist mite herbivore

Few studies have investigated the roles that plant hybridization and individual plant genotype play in promoting population divergence within arthropod species. Using nrDNA sequence information and reciprocal transfer experiments, we examined how tree cross type (i.e., pure Populus angustifolia and P. angustifolia x P. fremontii F(1) type hybrids) and individual tree genotype influence host race formation in the bud-galling mite Aceria parapopuli. Three main findings emerged: (1) Strong genetic differentiation of mite populations found on pure P. angustifolia and F(1) type hybrids indicates that these mites represent morphologically cryptic species. (2) Within the F(1) type hybrids, population genetic analyses indicate migration among individual trees; however, (3) transfer experiments show that the mites found on heavily infested F(1) type trees perform best on their natal host genotype, suggesting that genetic interactions between mites and their host trees drive population structure, local adaptation, and host race formation. These findings argue that hybridization and genotypic differences in foundation tree species may drive herbivore population structure, and have evolutionary consequences for dependent arthropod species.     

Interaction between genetic and inductive factors controlling the expression of dispersal and dormancy morphs in dimorphic astigmatic mites

Some astigmatic mites display dimorphic deutonymphs (hypopus) which are facultatively intercalated in their development cycle between protonymph and tritonymph. Such species, among them Glycyphagus privatus and Glycyphagus ornatus show three potential developmental pathways: (1) to bypass the hypopus stage and develop directly from the protonymph to the tritonymph and the subsequent reproductive stage when conditions are favorable; (2) to leave the original site and disperse by means of a phoretic hypopus morph; or (3) to survive inimical life conditions in the natal environment by means of a sedentary hypopus morph. By producing both dispersing (and afterwards at the arrival site reproducing) and sedentary (drought-hardy and dormancy-prone) progeny each single parent attains a selective advantage through a risk-reducing insurance against irregularly fluctuating and often fatal life conditions of their temporary patch habitats. Both genetic heterogeneity and ecological plasticity for hypopus production adapt the Glycyphagus species to cope with variation in the environment. Both traits (for dispersal and survival) are extremely polymorphic with genotypes ranging from low to high propensities for production of each hypopus type. There is a substantial environmental effect on genetic expression such that expression of both morphs depends on the quality of food. This ecological response allows a fast reaction of the mite to the current trophic environment. Phoretic morphs are predominantly expressed at favorable trophic conditions and sedentary morphs at poor trophic conditions. Ecological influences may override genetic propensities and vice versa. Although selection imposed by changing environmental patterns adjusts the frequencies of genotypes over generations and provides for long-term adaptation, the short-term process of environmental induction adapts the population within a generation to transient-habitat disturbances. The interaction of genetic and ecological determinants explains the varying proportions of directly developing mites, phoretic hypopodes, and sedentary hypopodes, in a population at any moment.