我国东北新记录属—树平藓属(Homalio—dendron)及其地理分布

树平藓属(Homaliodendron)隶属于藓类植物的平藓科(Neckeraceae),是由Fleischer于1906年建立的[1]。根据藓类植物索引(Index Muscorum)[2],世界记录有28种,除了有2种分布在非洲,另2种见于拉丁美洲加勒比海地区外,其余各种均分布在亚洲和大洋洲的热带和亚热带地区,其中印度支那地区有16种(Ninh,1984)[3]。1986年Redfearn和吴鹏程在中国藓类植物名录中[4],记录了我国树平藓16种,广泛分布在南部各省区,但在东北地区未曾有过报道[5]、[6]。作者在调查研究辽宁省白石砬子自然保护区的苔藓植物时,发现了核属的刀叶树平藓(Homaliodendron scalpellifolium(Mitt.)Fleisch.),为我国东北地区新记录属种,特作报道并就其地理分布进行探讨。     

秦岭六种提灯藓的染色体研究

本文以藓类植物的幼嫩孢蒴及茎尖为材料,对产于中国秦岭的六种提灯藓的染色体进行了观察计数。首次报道了M．pseudolycopodioides的染色体数目为n＝6;M．marginatum和M．lycopoidioides的染色体数分别为n=12及n＝6,与前人报道的结果一致;M．Laevinerve、M．heterophyllum以及M．thomsoii的染色体数目均为n＝6,与前人的报道不完全相同。本文旨在为本属的研究提供一定的细胞学资料。     

山东苔藓植物新记录

该研究通过对采自山东的苔藓植物标本进行鉴定,首次发现裂齿藓[ Dichodontium pellucidum (Hedw.) Schimp.]和粗疣藓[ Fauriella tenuis (Mitt.) Cardot]在山东的分布,这也是昂氏藓科(Aongstroemiaceae)裂齿藓属( Dichodontium Schimp.)和粗疣藓属( Fauriella Besch.)的苔藓植物在山东的首次发现。文中还详细描述了裂齿藓和粗疣藓的形态特征,绘制了墨线图,并进行了相应的讨论。     

月亮山自然保护区苔藓植物垂直分布初步研究

该研究通过采集、鉴定和测量苔藓植物标本并用SPSS软件进行数据分析,对贵州省月亮山自然保护区苔藓植物的垂直分布规律进行了初步分析。结果表明：月亮山自然保护区苔藓植物共有69科147属374种,苔藓植物呈明显的带状分布;不同海拔苔藓植物科属种所占的百分比均呈先升高后降低,优势科灰藓科( Hypnaceae)和细鳞苔科( Lejeuneaceae)和优势属凤尾藓属( Fissidens)、耳叶苔属( Frullania)、真藓属( Bryum)、疣鳞苔属( CoLoLejeunea)和细鳞苔属( Lejeunea)内种数在不同海拔也呈相同趋势;该地区苔藓植物石生群落和土生群落分布最广,木生群落次之,水生群落分布最少;苔藓植物雌雄异株数量在不同海拔均比同株数量多,比例约为7∶3;随着海拔升高,多种不利环境使长柄绢藓( Entodon macropodus)的叶片显著变小、叶长与叶宽的比显著增大,叶片由卵圆形变为卵状披针形,孢蒴极显著缩短、孢子直径显著增大,孢子的产量逐渐减少,不利苔藓植物的繁殖,蒴柄显著增长,有利于孢子的传播,体现了苔藓植物在不同的海拔的适应性。该研究结果为进一步研究苔藓植物的分布及环境适应性提供了基本资料。     

湖南莽山国家级自然保护区的毒蛇及致伤蛇种

我们从 1 983年至 2 0 0 1年在对莽山蛇类资源调查时发现 ,莽山现有毒蛇资源 3科 1 7属 2 0种(含无毒牙类毒蛇 6种 ) ,其中包括中国特有种——莽山烙铁头蛇。主要致伤蛇种有 8种。符合赵尔宓院士关于中国毒蛇咬伤有关医学地理区划中的低纬地区和中纬地区之间的毒蛇种 [2 ] ,蛇伤发病率也符合赵尔宓院士有关毒蛇咬伤危害区划中的严重蛇害区。现报告如下。1　莽山的毒蛇种类　　莽山地区有蛇类资源 4科 2 7属 5 0种 [1] ,其中毒蛇分隶 3科 1 7属 2 0种 (含无毒牙类毒蛇 5属 6种 ) ,分别是蝰科中的白头蝰、尖吻蝮、蝮蛇、原矛头蝮、竹叶青、山…     

基于形态学特征和分子数据的中国缺齿藓科初步研究

为探讨缺齿藓类与真藓科、提灯藓科的系统关系,理清缺齿藓科的系统位置和中国缺齿藓科分类问题,该研究以中国分布的缺齿藓科植物和相关类群4 000余份标本为材料,进行详细的形态学研究,并选用其中35种、40份样品的4个DNA片段(rps4、trnG、trnL-trnF、atpB-rbcL)联合数据用于分子系统分析,采用邻接法(NJ)和最大似然法(ML)构建分子树。结果表明:(1)在分子树中,缺齿藓类与真藓科植物分别聚在具有高支持率的不同分支上,叶形、叶细胞等形态学特征也有较大差异,缺齿藓类应从广义的真藓科分出。(2)在分子树中,虽然缺齿藓类与提灯藓科植物聚在同一分支中,但无形态学的共源性状,二者不应视为一个单系类群。(3)缺齿藓科是一个自然类群,缺齿藓科内属间存在着密切的系统关系,缺齿藓科的主要识别特征为:植物体小型,茎常分枝;叶形和叶细胞为丝瓜藓型(Pohlia-like),披针形至长椭圆形,中上部细胞狭长,线状菱形或蠕虫形;生殖苞多生于新生枝顶;蒴齿为互生双齿层,常有不同程度的退化或一层蒴齿缺失,稀双层蒴齿缺失。(4)中国缺齿藓科包含有5属,即缺齿藓属(Mielichhoferia)、丝瓜藓属(Pohlia)、拟丝瓜藓属(Pseudopohlia)、合齿藓属(Synthetodontium)和小叶藓属(Epipterygium),目前为止共计34种(含种下分类单位)。     

中国拟缺齿藓属Haplodontium Hampe(真藓科)的分类学研究

报道了中国新记录属--拟缺齿藓属（Haplodontium Hampe）分类学的研究进展。目前本属在中国分布有3种,其中包括1新种：臧氏拟缺齿藓（Haplodontium zangii X.R.Wang&J.C.Zhao）,2个新组合：喜马拉雅拟缺齿藓[H.himalayanum（Mitt.）X.R.Wang&J.C.Zhao]和中华拟缺齿藓[H.sinensis（Dix.）X.R.Wang&J.C.Zhao]。笔者对中国拟缺齿藓属3种植物的形态学特征绘制了墨线图,在光学显微镜和电子显微镜下拍摄显微形态照片,并对每种的主要识别特征、生境和地理分布以及与相似种的形态学比较进行了讨论。     

辽宁省高等植物多样性编目

为给辽宁植物多样性保护提供本底数据, 更准确地评价植物濒危及保护等级, 以及更好地给农学、林学、生态学、系统学等研究提供可靠的基础性数据, 本文首次将几代人在辽宁境内发现的高等植物进行汇总、编目, 包括苔藓植物和维管束植物。苔藓植物根据正式发表的文献和中国科学院沈阳应用生态研究所东北生物标本馆(IFP)馆藏采自辽宁省全域的苔藓植物标本编制。维管束植物主要根据5个方面的信息整理: 作者多年野外调查的一手资料、文献、同行交流、公众提供信息、标本等。编目内容包括辽宁省高等植物总名录、辽宁省栽培植物名录、辽宁省外来植物名录、辽宁省仅有栽培植物的科属目录、辽宁省仅有外来植物的科属目录; 编目中涉及的物种均有科属地位、中文名、拉丁名、生境、产地(县级), 总名录中附有每个物种的信息凭证, 包括标本信息、文献信息或照片依据。本编目共计收录植物254科1,176属3,241种73亚种447变种119变型。其中, 苔藓植物为辽宁地区首次披露名录信息, 计83科205属491种4亚种7变种(含藓类52科156属373种1亚种5变种, 苔类29科46属114种3亚种2变种, 角苔类2科3属4种)。维管束植物虽非首次披露名录信息, 但与以往发布的维管束植物名录相比, 本次收录的种类数最多, 计171科971属2,750种69亚种440变种119变型(含石松类植物2科3属13种, 蕨类植物17科39属83种2亚种7变种, 裸子植物5科19属47种1亚种13变种2变型, 被子植物147科910属2,607种66亚种420变种117变型)。经统计, 辽宁省所有苔藓植物均为本土野生植物。维管束植物中, 野生植物计149科741属2,077种62亚种378变种93变型(含石松类植物2科3属13种, 蕨类植物17科39属83种2亚种7变种, 裸子植物4科8属12种6变种1变型, 被子植物145科133属1,969种60亚种365变种92变型), 栽培植物计104科390属673种7亚种62变种26变型(含裸子植物5科17属35种1亚种7变种1变型, 被子植物99科373属638种6亚种55变种25变型); 本土植物计158科796属2,235种65亚种421变种116变型(含石松类植物2科3属13种, 蕨类植物17科39属83种2亚种7变种, 裸子植物5科14属29种12变种2变型, 被子植物134科740属2,110种63亚种402变种114变型), 外来植物计88科316属515种4亚种19变种3变型(含裸子植物3科10属18种1亚种1变种, 被子植物85科306属497种3亚种18变种3变型)。本编目仅是辽宁省高等植物的阶段性汇总, 尚需要根据野外工作的拓展和研究工作的深入不断完善。     

刺藓科在贵州的发现

刺藓科 ( Rhachitheciaceae)为 Robinson1 964年从木灵藓科 ( Orthotrichaceae)中分出来的 1个小科。现知全世界有 7属和 1 5种 ,除刺藓 ( Rhachithecium purpusillum)外 ,均为热带 ,亚热带分布狭窄的属种 ,刺藓科在中国仅刺藓属 1种 ,分布于云南和四川。描述了首次采自贵州刺藓科的种类刺藓 ( Rhachithecium purpusillum)以及刺藓科的形态特征。     

新船叶藓的核型分析

新船叶藓Neodolichomitra robusta(Broth．)Nog．为东亚特有种,其配子体茎尖细胞有丝分裂中期的染色体数为n＝5,核型为K(n)＝5＝4V+1J或K(n)＝5＝4 m+1 sm,在核型分类中属于“2A”型。该研究结果为国内外首次报道。     

The horseradish tree,Moringa pterygosperma (Moringaceae)—A boon to Arid Lands?

The horseradish tree (Moringa pterygosperma,) is being introduced into drought-ridden lands to augment the local food and fodder supply. The tree grows up to 5 m per year. The foliage is high in calcium and has half the oxalates of amaranth. Seeds yield edible oil and the seed meal is used as fertilizer and as a coagulant to clarify turbid water. The philanthropic center, ECHO (Educational Concerns for Hunger Organization), North Fort Myers, Florida, receives many requests for seeds. A missionary in Mali wrote: “The seeds you sent arrived during the worst year of 14 years of dry weather. Only the moringa survived, and they have flourished. ”Another seed shipment resulted, after harvesting a crop, in 25 000 trees being planted by university students and faculty, around laborers’ houses in Maranhao, Brazil. The tree is not limited to tropical lowlands, but thrives at elevations of 800-1200 m in protected mountain areas of southern Mexico. The long-range effects of ingesting various parts of the tree as food or folkmedicine need study. Attention should be given to horticultural improvement, perhaps through hybridization with one or more related species now being compared with M. pterygosperma in India and Africa. ХРеНовое дерево, Moringa pterygosperma F. Gaertn. (Moringaceae), Дар сыхим землям. Хреновое дерево, Moringa pterygosperma, вводится в бездождивые землии чтоб умножить местное снабжение пищи и корма. Дерево растет до 5 метров в год. Листья содержат много кальцию и половину щавелев по сравнени#x044E; с амарантом. Семя дают съедобное масло и семеная мука употребляется как одобрение и как коагулант для очищение мутной воды. Филантропический цэнтэр ECHO (Educational Concern for Hunger Organization, North Fort Myers, Florida) полужает мното просьб чтоб получить семя. Один миссионер из Мали писал “Семя которые вы послали, прибыли в самый сухой год за 14 лет сухой погоды. Только моринга пережила и цвела. Другая отправка семен была совершена после получения урожая и 25000 деревьев были посажены студентами и учителями около домов рабочих в Маранхау, Брразилия. Это дерево не ограаничевается тропическим климатом и преуспевает на уровне 800 до 1200 метров в защищенных горных местах южной Мексики.     

Diverging Understandings of Forest Management in Matsutake Science

Diverging Understandings of Forest Management in Matsutake Science. As high-value gourmet mushrooms, the matsutake complex of the genus Tricholoma has been the subject of extensive research. This article reviews two trajectories of matsutake research, showing how distinctive regional nodes may develop within a cosmopolitan modern science. The global center of matsutake research is in Japan, where problems of artificial cultivation and the “orchard-style” enhancement of production under forest conditions stimulate basic research. U.S. Pacific Northwest research forms a contrasting regional node, with a focus on sustainable yields in the context of timber production. Regional differences in research design and results point to the importance of distinctive scientific legacies, in this case formed in relation to divergent histories of forest management. Attention to regional distinctions in the framing of scientific problems is particularly important as scientific frameworks are exported to new places; for example, both Japanese and American forms of matsutake science have been extended to China. 高価なグルメきのこであるマツタケとその近縁種群のTricholoma属は広範囲に渡る科学的研究の対象となってきた。本論では二つの地域特徴的なマツタケ研究の軌跡を概観し、文化的差異を超えて世界的に通用する近代科学においても地域固有の関心に応じて特徴のある知識が結節し発展することを示す。マツタケ研究の世界的な中心地である日本では人工増殖やマツタケを殖やすための「果樹園的」な山林作りへの関心が基礎研究の方向性に刺激を与えてきた。一方日本とは対照的に、米国北西岸州では木材の持続的産出に主眼をおいた山林管理の流れの中で研究が進んできた。こうした研究計画や結果的に得られる知識の違いは、地域ごとに特徴のある科学的遺産 - 本件の場合は森林管理の歴史が多様に枝分かれしていること - に注目することが重要であることを知らせてくれる。近年日本や米国で発展したマツタケ研究の方法や成果が中国での研究にも影響を与えているが、特に新しい研究の場を広げる場合には科学的な関心、問題がどのような枠組で組み立てられるか地域によって多様であることを考慮することが重要である。     

Genome analysis ofElymus angulatus andE. patagonicus (Poaceae) and their hybrids with N. and S. AmericanHordeum spp.

The results of genome analysis of five hybrids, viz.Elymus patagonicus ×Hordeum procerum, E. patagonicus ×H. tetraploidum, E. angulatus ×H. jubatum, E. angulatus ×H. lechleri, andE. angulatus ×H. parodii, are reported. The genomic constitution ofHordeum tetraploidum andH. jubatum is best given as H₁H₁H₂H₂, ofH. lechleri andH. parodii as H₁H₁H₂H₂H₄H₄, ofH. procerum as H₁H₁H₂H₂H₃H₃, and ofElymus patagonicus andE. angulatus as SSH₁H₁H₂H₂.     

Effect of host plants on the infectivity of nucleopolyhedrovirus to Spodoptera exigua larvae

Previous studies have shown that the infectivity of baculovirus to herbivores is affected by phytochemicals ingested during the acquisition of viral inoculum on the foliage of host plants. Here, we measured the effects of 14 host plant species on the infectivity of Spodoptera exigua nucleopolyhedrovirus (SeNPV) to its larvae. The order of the LD₅₀ values of SeNPV among the host plants was Ipomoea aquatica > Brassica oleracea > Raphanus sativus > Amaranthus tricolor > Spinacia oleracea > Vigna unguiculata > Solanum melongena > Capsicum annuum > Apium graveolens > Allium fistulosum > Lactuca sativa > Brassica chinensis > Zea mays > Glycine max, with 940.1 ± 2.26, 424.0 ± 0.60, 295.2 ± 1.13, 147.3 ± 0.63, 138.6 ± 0.22, 119.9 ± 0.07, 119.8 ± 0.02, 109.2 ± 0.18, 104.8 ± 0.62, 102.1 ± 0.66, 97.9 ± 0.22, 89.9 ± 0.32, 79.0 ± 0.13 and 64.0 ± 0.38 OBs per larva, respectively, and the values of mean time to death of virus‐infected larvae were 6.21 ± 0.11, 7.12 ± 0.10, 7.33 ± 0.21, 6.97 ± 0.02, 7.06 ± 0.01, 7.29 ± 0.03, 7.32 ± 0.05, 7.07 ± 0.08, 7.24 ± 0.11, 7.09 ± 0.13, 7.50 ± 0.06, 7.23 ± 0.01, 7.30 ± 0.02 and 7.19 ± 0.07 days, respectively. The mean time to death of larvae decreased with increasing viral dose, and corrected mortality decreased as the larval mean time to death increased. These findings have significance for understanding the effects of host plants on the infectivity of baculovirus to noctuids.     

Correspondence of environmental tolerances with leaf and branch attributes for six co-occurring species of broadleaf evergreen trees in northern California

 For the angiosperm dominants of northern California’s mixed evergreen forests, this study compares the display of photosynthetic tissue within leaves and along branches, and examines the correspondence between these morphological attributes and the known environmental tolerances of these species. Measurements were made on both sun and shade saplings of six species: Arbutus m e n z i e s i i (Ericaceae), C h r y s o l e p i s c h r y s o p h y l l a (Fagaceae), L i t h o c a r p u s d e n s i f l o r u s (Fagaceae), Quercus c h r y s o l e p i s (Fagaceae), Quercus w i s l i z e n i i (Fagaceae), and Umbellularia c a l i f o r n i c a (Lauraceae). All species had sclerophyllous leaves with thick epidermal walls, but species differed in leaf specific weight, thickness of mesophyll tissues and in the presence of a hypodermis, crystals, secretory idioblasts, epicuticular deposits, and trichomes. The leaves of Arbutus were 2 – 5 times larger than those of C h r y s o l e p i s, L i t h o c a r p u s and Umbellularia and 4 – 10 times larger than those of both Quercus species. Together with differences in branch architecture, these leaf traits divide the species into groups corresponding to environmental tolerances. Shade-tolerant C h r y s o l e p i s, L i t h o c a r p u s, and Umbellularia had longer leaf lifespans and less palisade tissue, leaf area, and crown mass per volume than the intermediate to intolerant Arbutus and Quercus. Having smaller leaves, Quercus branches had more branch mass per leaf area and per palisade volume than other species, whereas Arbutus had less than other species. These differences in display of photosynthetic tissue should contribute to greater growth for Quercus relative to the other species under high light and limited water, for Arbutus under high light and water availability, and for C h r y s o l e p i s, L i t h o c a r p u s, and Umbellularia under limiting light levels. Accepted: 22 March 1996     

Influence de la teneur en oxygène sur la sensibilité de certains stades juvéniles deSitophilus oryzae etS. granarius au dioxyde de carbone

Résumé Certains stades juvéniles de charançons des céréales du genreSitophilus ont été soumis à un séjour prolongé dans des compositions gazeuses modifiées par le dioxyde de carbone (CO₂).Les auteurs se sont placés dans des conditions de teneur en CO₂ constante (50%), associée à des teneurs en oxygène comprises entre 4 et 20%, pour étudier les conditions d'une synergie entre l'effet spécifique du CO₂ et la présence d'une forte teneur résiduelle en oxygène. Les effets ont été observés sur les stades juvéniles les plus évolués (larves et nymphes) des espècesS. oryzae (L.) etS. granarius (L.), (Coleoptera: Curculionidae).L'accroissement de la vitesse de mortalité chezS. oryzae est significative avec l'augmentation de la pression partielle d'oxygène. Cet effet de synergie provoqué par l'oxygène n'est pas significatif avecS. granarius, bien qu'il existe aussi avec cette espèce une tendance à l'amélioration de l'efficacité insecticide à court terme avec les mélanges à forte teneur résiduelle en oxygène.Il en est déduit des hypothèses sur les effets des mélanges gazeux à composition modifiée par le CO₂ au niveau de la physiologie générale de ces insectes, qui est très difficile à appréhender directement à cause du mode de développement des stades juvéniles des charançons (formes cachées dans le grain).     

A new species of Hemibrycon (Characiformes,Characidae) from the upper San Juan River drainage,Pacific versant,Colombia

Hemibrycon sanjuanensis, new species, is described from the upper San Juan River drainage, Pacific versant, Colombia. It is distinguished from Hemibrycon boquiae, Hemibrycon brevispini, Hemibrycon cairoense, Hemibrycon colombianus, Hemibrycon mikrostiktos, Hemibrycon metae, Hemibrycon palomae, Hemibrycon rafaelense and Hemibrycon tridens by the presence of a circular or oblong humeral spot that is located two scales posterior to the opercle (vs. 3–4 scales in Hemibrycon palomae, Hemibrycon rafaelense, Hemibrycon brevispini and Hemibrycon cairoense, and 0–1 scales, in Hemibrycon metae and Hemibrycon boquiae). It further differs from Hemibrycon colombianus in having a round or oblong humeral spot (vs. rectangular). It differs from Hemibrycon beni, Hemibrycon dariensis, Hemibrycon divisorensis, Hemibrycon helleri, Hemibrycon huambonicus, Hemibrycon inambari, Hemibrycon jabonero, Hemibrycon jelskii, Hemibrycon mikrostiktos, Hemibrycon polyodon, Hemibrycon quindos, Hemibrycon raqueliae, Hemibrycon santamartae, Hemibrycon surinamensis, Hemibrycon taeniurus, Hemibrycon tridens, and Hemibrycon yacopiae in having melanophores on the posterior margins of the scales along the sides of body (vs. lacking melanophores on margins of scales along entire length of the sides of body). The new species differs from all congeners mentioned above in having, among other features, six teeth in the outer premaxillary row arranged in a straight line (vs. five or fewer teeth not arranged in straight line except Hemibrycon cairoense with two to six teeth in the outer premaxillary row).     

Synthesis of p-nitrophenyl sulfated disaccharides with beta-D-(6-sulfo)-GlcNAc units using beta-N-acetylhexosaminidase from Aspergillus oryzae in a transglycosylation reaction

When α-d-GlcNAc-OC₆H₄NO₂ -p and β-d-(6-sulfo)-GlcNAc-OC₆H₄NO₂-p (2) were used as substrates, β-N-acetylhexosaminidase from Aspergillus oryzae transferred the β-d-(6-sulfo)-GlcNAc(unit from 2 to α-d-GlcNAc-OC₆H₄NO₂ -p to afford β-d-(6-sulfo)-GlcNAc-(1→4)-α-d-GlcNAc-OC₆H₄NO₂-p (3) in a yield of 94% based on the amount of donor, 2, added. β-d-(6-sulfo)-GlcNAc-(1→4)-α-d-Glc-OC₆H₄NO₂-p (4) was obtained with α-d-Glc-OC₆H₄NO₂ -p as acceptor in a similar manner. With a reaction mixture of 2 and β-d-GlcNAc-OC₆H₄NO₂-p (1) in a molar ratio of 6:1, the enzyme mediated the transfer of β-d-GlcNAc from 1 to 2, affording disaccharide β-d-GlcNAc-(1→4)-β-(6-sulfo)-d-GlcNAc-OC₆H₄NO₂-p (5) in a yield of 13% based on the amount of 1 added.     

An unstable gene controlling developmental variegation in okra (Abelmoschus esculentus (L.) Moench)

Summary Genetic studies on radiation-induced chlorina and variegated mutants of okra (Abelmoschus esculentus (L.) Moench) revealed the existence of an unstable gene. The normal green color of the leaves is controlled by duplicate genes C₁ and C₂, either of which produces the green colour. The chlorina plants are C ₁ C ₁ C ₂ C ₂. The allele c ₁ ^v is dominant to both C ₁ and C ₂ but is unstable. The homozygote c ₁ ^v c ₁ ^v c ₂ c ₂ is a normal green while the heterozygote c _i ^v c ₁ c ₂ c ₂ has a variegated phenotype as a result of the mutation of c ₁ ^v to c ₁ during development. In green plants with a c ₁ ^v c{sh1/v}c ₂ c ₂ genotype, the autonomous mutation of one of the c ₁ ^v alleles to c ₁ may take place at the pre-meiotic stage. In the variegated genotype (c ₁ ^v c ₁ c ₂ c ₂), the mutation of c ₁ to c ₁ ^v may take place in early ontogeny, thus producing green plants. The allele C ₁, when associated with c ₁ ^v in a heterozygous condition, mutates to c ₁ at the pre-meiotic stage even in the presence of the allele C ₂.