青藏高原北部多年冻土区草地植物多样性

研究了青藏高原北部多年冻土区草地群落植物多样性的特征。研究表明 :草地群落间丰富度指数差异不显著 ,均匀度指数和多样性指数差异显著 (P<0 .0 5 )。均匀度指数表现为高山嵩草 (Kobresia pygmaea)草甸 <紫花针茅 (Stipa purpurea)草原 <矮嵩草 (K.humilis)草甸 <青藏苔草 (Carex moorcroftii)草甸 ,多样性指数表现为高山嵩草草甸 <矮嵩草草甸 <紫花针茅草原<青藏苔草草甸。修路时破坏的矮嵩草草甸在次生恢复过程中 ,离公路 10 0 m处群落的丰富度指数 ,均匀度指数和多样性指数大于原生群落 ,而原生群落的多样性又大于 30 m和 5 0 m处群落的多样性。地上草地群落植物多样性伴随地下冻土退化过程表现为 ,以 1m2样方统计时 ,各个演替群落间的丰富度指数差异不显著 ,而以 10 0 m2样条统计时 ,高寒草甸和草原化草甸的丰富度指数显著大于沼泽草甸和稀疏草原 (P<0 .0 5 ) ,但均匀度和多样性指数在两种统计面积时均表现为先增加后下降的变化趋势。     

科尔沁沙地植被恢复系列上群落演替与物种多样性的恢复动态

通过对科尔沁沙地植被恢复系列上不同阶段的群落取样,研究了植被恢复过程中群落物种组成、物种多样性的变化过程.在演替时间分别为1年、3年、5年、12年、20年和30年的群落中,物种丰富度分别为7、11、17、14、28和30种,而物种多样性指数分别为1.458 8、2.610 0、3.108 4、1.696 8、3.738 6、3.639 6.在生活型结构上,一年生植物的种类数量占绝对优势,但随着演替进展,多年生植物的种类数量增加且单种植物的优势度超过了一年生植物,表明多年生植物在群落功能维持中占据重要地位.随演替进展,来自不同科属的植物增加.藜科植物在演替过程中种类数量较为稳定,特别是在演替早期藜科植物占有很高的优势度.禾本科种类随演替进展不断增加,且在群落中的优势度逐渐上升.总体上,随演替进展群落种类组成与物种多样性增加,群落生态优势度下降,而均匀度增加,群落趋向稳定.     

海岛矿区岩质边坡植物群落演替中物种多样性的变化

通过植物群落调查,采用Shannon多样性指数、Simpson优势度指数、Margalef丰富度指数和Pielou均匀度指数,结合DCA排序和一元线性回归分析,考察了舟山海岛矿区岩质边坡植物物种构成特征,研究了植物群落演替过程中生物多样性的变化。结果表明:研究区可划分为3个植物群落演替阶段(草本植物群落阶段、灌丛群落阶段和灌乔群落阶段);演替过程中,物种丰富度指数显著上升,多样性指数和优势度指数逐渐升高;具有矿区特殊生境适应性的植物配置在边坡植被恢复进程中与自然植被表现出一定的差异,演替过程依次为迁入物种生长期、迁入物种与人工导入种竞争期、迁入物种与人工导入种稳定共存期;人工导入群落演替后期的植物种大大加速了群落演替进程;合理的植物配置更能促进群落向正演替方向发展。     

青藏高原高寒草甸植物群落物种组成和生物量沿环境梯度的变化

生物多样性与生态系统功能的关系及其机制是生态学领域的重大科学问题. 人们越来越关注环境因子对多样性-生产力关系的影响. 植物群落组成、物种丰富度、物种特征、生物量的分布结构和植物枯枝落叶对高寒草甸物种多样性和生产力有着重要的影响. 因此, 我们利用2001~2004年中国科学院海北生态系统定位站高寒草甸群落的实测资料, 研究了不同环境梯度(土壤含水量和营养)下, 植物群落生物量, 物种丰富度及组成的变化. 结果表明, 植物群落物种组成的不同反应在生物量的分布上, 以藏嵩草为优势种的藏嵩草沼泽化草甸群落总生物量(地上、地下)最高(13196.96±719.69 g/m²), 次之是以杂类草和莎草科为主的小嵩草草甸(2869.58±147.52 g/m₂), 以禾本科和杂类草为主的矮嵩草草甸最低(2153.08±141.95 g/m²). 藏嵩草沼泽化草甸中, 草本植物枯枝落叶显著高于小嵩草、矮嵩草草甸, 土壤含水量对草本植物枯枝落叶有较大的影响. 不同类型草甸群落中, 地上生物量与土壤有机质、全氮和群落盖度之间均呈显著正相关(P < 0.05); 藏嵩草沼泽化草甸中, 总生物量与物种丰富度呈负相关(r_s = -0.907, P < 0.05)、地下生物量与土壤含水量呈正相关(r_s = -0.900, P < 0.05); 而在小嵩草和矮嵩草草甸中它们之间均没有达到显著水平, 说明不同类型高寒草甸群落生产力除受物种多样性、功能群内物种密度和均匀度的影响, 同时也受物种本身特征和外部环境资源的影响. 不同类型草甸群落生物量的分布与土壤含水量和土壤养分的变化相一致.     

不同演替阶段东方水韭群落特征初步研究

采用"空间代替时间"的方法,对处于不同演替阶段的东方水韭(Isotes orientalis H. Liu et Q. F. Wang)群落进行了物种组成、群落生态学数量特征、物种多样性及繁殖方式的比较分析,结果表明,在演替初期,群落的多样性(物种丰富度、Shannon-Wiener指数、Pielou均匀度指数和β多样性指数)最低,群落中东方水韭的多度、盖度、重要值和生态位宽度均最大,是明显的优势种;演替中期,东方水韭的多度、盖度、重要值和生态位宽度降低,但群落的物种多样性最高,是东方水韭的顶极群落;演替后期,群落中东方水韭的多度、盖度、重要值和生态位宽度均最低,多年生草本植物细叶芒(Miscanthus sinensis Anderss. )和菰[Zizania latifolia (Griseb. ) Turcz. ex Stapf]等逐渐占据重要地位.随群落的演替,群落中营无性/营养繁殖方式的物种数量逐渐增加,群落的繁殖策略由有性繁殖为主转为以无性/营养繁殖为主.研究结果显示,在东方水韭群落演替过程中,群落物种组成的改变、物种多样性的提高、物种繁殖策略的变化以及生境中生化,可能是导致东方水韭种群衰退的主要原因.     

封育对高寒草甸植物群落构成及生态位特征的影响

封育是天然草地管理的一种有效措施,利于草地生产力提高和退化草地恢复。该研究通过对青藏高原高寒草甸放牧和封育草地物种多样性、植被构成、植物种生态位特征、草地演替度等分析,解析高寒草甸植物种间关系及草地演替方向。结果表明:(1)封育显著降低了草地群落植物物种数以及α和β多样性指数,显著增加了草地1年生植物种数、地面芽植物种数和地上生物量。(2)放牧草地地上生物量以莎草科(59.7%)和禾本科(23.9%)为主,封育草地地上生物量以禾本科(85.0%)为主;放牧草地优势种为矮嵩草(Kobresia humilis)和线叶嵩草(K.capillifolia),封育草地优势种为垂穗披碱草(Elymus nutans)和早熟禾(Poasp.)。(3)放牧和封育草地的群落植物种重要值均与各自的生态位宽度变化规律一致。(4)草地植物种间竞争主要发生在不同科属植物种之间,封育增加了群落植物种整体生态位重叠值和植物种间竞争。(5)草地群落演替度为封育地放牧地,封育群落处于较稳定状态。研究认为,封育促进了高寒草甸由莎草+杂类草群落向禾草+杂类草群落演替。     

黄河首曲湿地退化过程中植物群落组分及物种多样性的变化

黄河首曲湿地是黄河下游生态安全的重要屏障.通过实地调查,采用空间序列代替时间序列的方法,研究了黄河首曲湿地自然退化过程中植物多样性的变化,并用对比分析的方法研究了人工排水对植物多样性的影响.结果表明:在黄河首曲湿地自然退化过程中,经沼泽、沼泽化草甸、高寒草甸到草原化草甸,优势种向中生和旱生种演替,丰富度指数和多样性指数逐渐增大,即草原化草甸>高寒草甸>沼泽化草甸>沼泽,而优势度指数却逐渐减小,均匀度指数先降低后增加,植物物种多样性总体上表现为增加的态势.人为排水后,毒杂草在群落中的比例增加,导致丰富度指数和多样性指数增加,均匀度指数和优势度指数略有降低,群落相似性系数逐渐降低,主要是由于人工排水后,生境相对中生化,部分植物在群落内的零星分布导致多样性指数和丰富度指数增加,而均匀度指数下降.人工排水虽然增加了群落内的植物多样性,但增加的植物多为毒杂草,从而使湿地向杂草型退化方向演替.     

黄河首曲湿地退化过程中植物群落组分及物种多样性的变化

黄河首曲湿地是黄河下游生态安全的重要屏障.通过实地调查,采用空间序列代替时间序列的方法,研究了黄河首曲湿地自然退化过程中植物多样性的变化,并用对比分析的方法研究了人工排水对植物多样性的影响.结果表明:在黄河首曲湿地自然退化过程中,经沼泽、沼泽化草甸、高寒草甸到草原化草甸,优势种向中生和旱生种演替,丰富度指数和多样性指数逐渐增大,即草原化草甸>高寒草甸>沼泽化草甸>沼泽,而优势度指数却逐渐减小,均匀度指数先降低后增加,植物物种多样性总体上表现为增加的态势.人为排水后,毒杂草在群落中的比例增加,导致丰富度指数和多样性指数增加,均匀度指数和优势度指数略有降低,群落相似性系数逐渐降低,主要是由于人工排水后,生境相对中生化,部分植物在群落内的零星分布导致多样性指数和丰富度指数增加,而均匀度指数下降.人工排水虽然增加了群落内的植物多样性,但增加的植物多为毒杂草,从而使湿地向杂草型退化方向演替.     

松嫩平原南部主要群落植物多样性的比较研究

应用Ｍａｒｇａｌｅｆ（Ｒ１）和Ｍｅｎｈｉｎｉｃｋ（Ｒ２）丰富度指数、Ｈｉｌｌ多样性指数（Ｎ１,Ｎ２）和Ｐｉｅｌｏｕ均匀度指数（Ｅ）比较研究了松嫩平原南部１４个主要群落的植物多样性、生活型多样性及植物多样性与群落演替的关系结果表明,分布于低平原的羊草－蔓萎陵菜群落的植物多样性和丰富度指数最大,Ｒ１为１１．９６,Ｒ２为５．２４,Ｎ１为１３．９２,Ｎ２为８．７６,分布于固定砂丘的榆树疏林和贝加尔针茅等４个群落有较高的植物多样性,而分布于碱化草甸的角碱蓬等群落植物多样性最小,Ｒ１为１．３１,Ｒ２为０７１,Ｎ１为１．８４,Ｎ２为１．４６．具有较高植物多样性的群落其植物生活型多样性指数也较高．在演替系列中,羊草群落的植物多样性指数介于演替初期和中期阶段之间．     

秦岭南坡松栎林群落演替过程中物种组成及多样性动态分析

为揭示秦岭南坡植物群落演替与物种多样性之间的复杂关系,采用空间代替时间的方法在秦岭南坡油松林、松栎混交林和锐齿栎林群落典型分布区域设置45个样地进行了群落学调查,统计分析了油松林→松栎混交林→锐齿栎林这一演替序列过程中草、灌、乔3层的物种组成和α物种多样性动态。结果表明:(1)秦岭南坡油松林、松栎混交林和锐齿栎林3种群落共有维管植物312种,隶属于73科183属,其中草本植物136种,灌木(含木质藤本)98种,乔木78种;油松林群落包含52科117属190种,松栎混交林群落含有60科95属129种,锐齿栎林群落则为50科109属178种。(2)沿油松林→松栎混交林→锐齿栎林群落演替序列,草本层物种均匀度和物种多样性显著降低,物种丰富度呈"V"形变化趋势;灌木层物种丰富度、均匀度以及物种多样性均无显著差异;乔木层物种多样性呈明显的单峰型变化,其中松栎混交林群落物种多样性指数最高。研究表明,秦岭南坡松栎林群落物种多样性随演替进展总体上呈现单峰型变化,与中期物种多样性假说一致;物种多样性可能仅仅是群落稳定的一个基础或前提条件。     

A Unique Protease Cleavage Site Predicted in the Spike Protein of the Novel Pneumonia Coronavirus (2019-nCoV) Potentially Related to Viral Transmissibility

正Dear Editor,In December 2019, a novel human coronavirus caused an epidemic of severe pneumonia(Coronavirus Disease 2019,COVID-19) in Wuhan, Hubei, China(Wu et al. 2020; Zhu et al. 2020). So far, this virus has spread to all areas of China and even to other countries. The epidemic has caused 67,102 confirmed infections with 1526 fatal cases     

Curcuminoids as inhibitors of thioredoxin reductase: A receptor based pharmacophore study with distance mapping of the active site

Curcumin is the yellow pigment of turmeric that interacts irreversibly forming an adduct with thioredoxin reductase (TrxR), an enzyme responsible for redox control of cell and defence against oxidative stress. Docking at both the active sites of TrxR was performed to compare the potency of three naturally occurring curcuminoids, namely curcumin, demethoxy curcumin and bis-demethoxy curcumin. Results show that active sites of TrxR occur at the junction of E and F chains. Volume and area of both cavities is predicted. It has been concluded by distance mapping of the most active conformations that Se atom of catalytic residue SeCYS498, is at a distance of 3.56 from C13 of demethoxy curcumin at the E chain active site, whereas C13 carbon atom forms adduct with Se atom of SeCys 498. We report that at least one methoxy group in curcuminoids is necessary for interation with catalytic residues of thioredoxin. Pharmacophore of both active sites of the TrxR receptor for curcumin and demethoxy curcumin molecules has been drawn and proposed for design and synthesis of most probable potent antiproliferative synthetic drugs.     

Comparative morphology of the carpel in the Liliaceae: Hewardieae, Petrosavieae, and Tricyrteae

The young pistils in the melanthioid tribes, Hewardieae, Petrosavieae and Tricyrteae, are uniformly tricarpellate and syncarpous. They lack raphide idioblasts. All are multiovulate, with bitegmic ovules. The Petrosavieae are marked by the presence of septal glands and incomplete syncarpy. Tepals and stamens adhere to the ovary in the Hewardieae and the Petrosavieae but not in the Tricyrteae. Two vascular bundles occur in the stamens of the Hewartlieae and Tricyrtis latifolia. Ventral bundles in the upper part of the ovary of the Hewardieae are continuous with compound septal bundles and placental bundles in the lower part. Putative ventral bundles occur in the alternate position in the Tricyrteae and putative placental bundles in the opposite. position in the Petrosavieae. The dichtomously branched stigma in each carpel of the Tricyrteae is supplied by a bifurcated dorsal bundle.     

Enterovirus 71 3C proteolytically processes the histone H3 N-terminal tail during infection

Highlights
1. The N-terminal tail of histone H3 is specifically cleaved during EV71 infection.
2. Viral protease 3C is identified as a protease responsible for proteolytically processing the N-terminal H3 tail.
3. Our finding reveals a new epigenetic regulatory mechanism for Enterovirus 71 in virus-host interactions.     

Detection of EBV and HHV6 in the Brain Tissue of Patients with Rasmussen’s Encephalitis

Rasmussen’s encephalitis (RE) is a rare pediatric neurological disorder, and the exact etiology is not clear. Viral infection may be involved in the pathogenesis of RE, but conflicting results have reported. In this study, we evaluated the expression of both Epstein-Barr virus (EBV) and human herpes virus (HHV) 6 antigens in brain sections from 30 patients with RE and 16 control individuals by immunohistochemistry. In the RE group, EBV and HHV6 antigens were detected in 56.7% (17/30) and 50% (15/30) of individuals, respectively. In contrast, no detectable EBV and HHV6 antigen expression was found in brain tissues of the control group. The co-expression of EBV and HHV6 was detected in 20.0% (6/30) of individuals. In particular, a 4-year-old boy had a typical clinical course, including a medical history of viral encephalitis, intractable epilepsy, and hemispheric atrophy. The co-expression of EBV and HHV6 was detected in neurons and astrocytes in the brain tissue, accompanied by a high frequency of CD8⁺ T cells. Our results suggest that EBV and HHV6 infection and the activation of CD8⁺ T cells are involved in the pathogenesis of RE.     

Perinatal Vertical Transmission of Chikungunya Virus in Ruili,a Town on the Border between China and Myanmar

正Dear Editor,Chikungunya virus (CHIKV), an arbovirus in the family of Togaviridae, genus Alphavirus, is transmitted by the A.aegyptii or A. albopictus mosquito, and causes disease in humans characterized by fever, rash, and arthralgia (Silva and Dermody 2017; Suhrbier 2019). It was first reported in 1953 in Tanzania, and caused only a few outbreaks and sporadic cases in Africa and Asia in last century. However, in the epidemic in 2004, CHIKV acquired mutations that conferred enhanced transmission by the A. albopictus mosquito(Schuffenecker et al. 2006). Since then, it has successively caused outbreaks in Africa, the Indian Ocean, South East Asia, the South America, and Europe (Zeller et al. 2016).     

Development of a Novel Reverse Transcription Loop-Mediated Isothermal Amplification Method for Rapid Detection of SARS-CoV-2

In conclusion, the novel visual RT-LAMP assay is a simple, rapid, and sensitive approach for detection of SARS-CoV-2, and it is ready for application in primary care and community hospitals or health care centers, and even patients' own houses in response to the current SARS-CoV-2 epidemic because the assay does not require sophisticated equipment and skilled personnel. Furthermore, it is also ready to be used in fields for screening samples from wild animals and environments to facilitate the identification of potential intermediate hosts that mediate the cross-species transmission of SARS-CoV-2 from bats to humans.