西藏南部白垩纪岗巴群的双壳类及其生物地理意义

描述双壳类化石４２种,建立１０新种：Ｇｒａｍｍａｔｏｄｏｎ（Ｎａｎｏｎａｖｉｓ）ｍｉｎｕｍ ｓｐ．ｎｏｖ．,Ｐｒｏｐｅａｍｕｓｓｉｕｍ（Ｐ．）ｔｉｂｅｔｅｎｓｐ ｅｐ．ｎｏｖ．,Ｐｌｉｃａｔｕｌａ ｈｉｍａｌａｙｅｎｓｉｓ ｓｐ．ｎｏｖ．,Ｐｓｅｕｄｏｌｉｍｅａ ｄｕｏｄｅｃｉｃｏｓｔａｔａ ｓｐ．ｎｏｖ．,Ｐｙｃｎｏｄｏｎｔｅ（Ｐｈｙｇｒａｅａ）ｇａｍｂａｅｎｓｉｓ ｓｐ．ｎｏｖ．,Ｎｏｔｏｔｒ     

西藏南部岗巴地区白垩纪中期钙质超微化石带和Cenomanian-Turonian界线

我国西藏南部海相白垩系含有较丰富的钙质超微化石。文中着重研究岗巴地区两个剖面 (即剖面A ,B)Albian Santonian钙质超微化石的分布。根据标志种的存在 ,识别出 5个初现面事件 ,相应地建立 6个钙质超微化石带 ,自下至上是Prediscosphaeracretacea带 ,Eiffellithusturriseiffeli带 ,Lithraphiditesacutum带 ,Gartneragoobliquum带 ,Quadrumgartneri带 ,Lucianorhabduscayeuxii带。同时 ,通过洲际对比 ,建议以G .obliquum初现面作为划分本区Cenomanian和Turonian界线的标志。此外 ,Q .gartneri带和I .cayeuxii带之间缺失多个化石带 ,据此推测Turonian至Santonian期间本区可能存在沉积间断。     

西藏大团囊菌属及其生态分布

首次报道西藏分布的大团囊菌3个种与1个变种：Elaphoopcesgranulatusvar．granulatus,E.granulatusvar．asperulusE.tuberculatus和E.muricatus,讨论了种间和种内的一些特征分化或变异。其中,E．tuberculatus被确认为新种。这些种类均生于林下土中,与冷杉（Abies）、云杉（Picea）、栎属（Quercus）树种共生形成外生苗根,其垂直分布海拔高度可达3600m,然而西藏分布较广的松林下目前尚未发现该属种类的存在。大团囊菌种类在生态适应性上存在很宽的分布幅度,一般认为该类菌物是属于全球广布的热带、亚热带、温带直至亚高山寒温带均有分布的、典型的地下生生态类群。研究的标本全部保存于西藏高原生态研究所标本室（HXZE）。     

Holocene Palynological Records in Lake Selincuo,Northern Xizang

Selincuo (31°34′–31°57′N, 88°31′–89°21′E)is one of the great lakes in northern Xizang surrounded by alpine grassland, composed mainly of Stipa purpurea, S, subssessifolia var. bassipulomosa. A 3.08 m long core has been taken from a water depth of 27 m, 3 km to the north from the lake. Palynological records of the core combined with surface sample results have revealed from the regional as well as local vegetational and environmental history since the last 12 000 a BP, a very low pollen concentration (19–209 grains/g), mainly of airborne pollen, which indicated a treeless alpine sparse vegetation. A great vegetation change took place at Ca. 9 600 a BP when alpine sparse vegetation was replaced by alpine grassland lasting until Ca. 6 000 a BP. Quite a number of tree pollen grains found in this time interval might be explained as a result of expansion of forests somewhere around the Xizang Plateau. These changes must have caused by climatic warming during the Early Holocene. During the last 6 000 years the vegetation had remained as the alpine grassland, although probably more luxurouste than before, but their was an obvious increase of arboreal pollen, such as the increase of Abies during Ca. 6 000–4 000 a BP, Picea 4 000–2 200 a BP, Pinus 2 200–1 000 a BP which indicated continuous expansion of forests growing around the plateaus. During the last 1 000 years both the concentration and proportion of the arboreal pollen decreased and those of Cypraceae pollen increased sharply. This might mean a reduction of the forests around the plateau and an expansion of swamps around the lake.     

The Floristic Characteristics and Geographical Distribution of the Rosaceae in Xizang

The Rosaceae is one of the five largest families of Xizang flora, consisting of 30 genera with 242 species, the total number of species is slightly less than those of Compositae, Graminae, Leguminosae and Ericaceae in Xizang, amounting to 62.5% of the total number of genera and 28% of the total number of species of the rosaceous flora in China. The four subfamilies of Rosaceae including primitive, intermediate and advanced groups have been found in Xizang. These groups consist of 11 types of floristic elements, i.e. 4 genera belong to cosmopolitan, 9 genera belong to North Temperate, 3, E. Asian-N. American, 3 Sino-Himalayan, 3 Sino-Japanesa, 2 Old World Temperate, 1 Temperate Asian, 2 Mediterranean-W. and O. Asian, 1 C. Asian, I Tropical Asian and 1 endemic to China. It is obvious that Rosaceae in Xizang comprises holarctic, Ancient Mediterranean and paleotropical elements, among which the temperate components are the most dominant. The characteristics of the floristic composition of Rosaceae in Xizang may be summarized as follows: (1) Xizang abounds in both genera and species of the family which are diverse in forms, including the primitive, intermediate and advanced groups, (2) The geographical elements are rather complex, mostly belonging to the temperate, among which the Sino- Himalayan components and the elements endemic to China are dominant, (3) The proportion of plants endemic to China and distributed in Xizang is much higher than those endemic to Xizang itself, but there exist newly arisen species and infraspecific forms or varieties which show that the speciation is apparently still active in Xizang. The rosaceous flora of Xizang is a combination of old and new floristic elements, based on the old floristic components, affected by the upheaval of the Himalayas, the differentiation and speciation have been taking place in the long history. The geographical distribution of Rosaceae in Xizang may be divided into 5 regions, i.e. the northeastern, southeastern, southern, northwestern and northern. The rosaceous plants are most abundant in the southeastern area, next in southern area, fewer in the northeastern and very rare in the northwestern and northern regions. The general tendency of the distribution of Rosaceae in Xizang is that the number of species gradually decreases from the southeast to the northwest and the habit gradually changes from trees, shrubs and herbaceous plants in the southeast to cushion-like scrubs and dwarf perennial herbs in the northwest. These facts clearly show that the uplift of the Himalayas has deeply affected the phytogeographical distribution of Xizang Rosaceae. The rosaceous flora of Xizang has close relationships with those of the adjoring regions, i.e. Yunnan and Sichuan. Besides, it is connected with floras of Nepal, Sikkim, Bhutan nothern Buram and nothern India, but silghtly influenced by the Ancient Mediterranean flora.     

西藏地区有瓣蝇类记述(三)花蝇科七新种描述

本文报道采自西藏的有瓣蝇类7个新种,均属花蝇科。正模标本保存在中国科学院上海昆虫研究所。 银额泉种蝇Pegohylemyia argyrometopa,新种（图1—3） 雄:体长6毫米。复眼裸,额宽约为前单眼宽的2倍,间额黑,间额鬃1,下眶鬃7—8,侧额及侧颜黑色上具银白色粉被,侧颜宽为触角第三节宽的4/3倍,触角黑,第三节长为宽的2倍,芒具毳毛,最长毛与芒基宽相等,颊高为眼高的1/5,银白色粉被明显,上倾口缘鬃3行,下颚须黑,中喙具粉被,长为高的4倍,口上片与额齐,后头背区有小毛。     

Comparison of growth-climate relationship of Sabina przewalskii at different timberlines along a precipitation gradient in the northeast Qinghai-Xizang Plateau,China

为了了解青藏高原东北部不同降水梯度下, 高山林线处的树木径向生长与气候关系是否存在差异, 在青海东北部从西北到东南沿降水梯度设置3个高山林线采样点: 乌兰县哈里哈图国家森林公园(HL, 年降水量217 mm)、都兰县曲什岗(QS, 281 mm)和同德县河北林场(HB, 470 mm), 运用树轮年轮学方法分析林线优势种祁连圆柏(Sabina przewalskii)的径向生长-气候关系随降水梯度的变化规律。结果表明: 不同降水梯度下, 降水对祁连圆柏径向生长的限制作用差异不明显, 但温度对祁连圆柏径向生长的影响存在显著差异。在低降水区域(HL), 冬、夏季最低气温主要限制祁连圆柏径向生长, 并且在不同气候特征年中无明显变化; 在中降水区域(QS), 祁连圆柏的径向生长明显受冬季最低气温影响, 与低降水区域相比, 春、夏季最低气温对祁连圆柏径向生长的限制作用减弱, 并且主要限制因子在不同气候特征年存在显著变化; 在高降水区域(HB), 冬、夏季最低气温对祁连圆柏径向生长的限制作用不显著, 而春、秋季最低气温对祁连圆柏径向生长的抑制作用显著增加, 并且主要集中在高温年和干旱年。该研究结果并未支持干旱(湿润)区高山林线树木径向生长主要由水分(温度)限制的假说, 但是林线处降水量会影响树木生长与温度的关系。随着青藏高原东北部暖湿化加剧, 不同地区林线处树木生长的气候限制因子可能存在复杂化趋势。     

西藏措勤地区早日垩世双壳类新材料

简述措勤地区双壳类的地层分布及组合特征,描述双壳类化石２０属２０种,其中有６新种。非海相双壳类（Ｉｓｏｄｏｍｅｌｌａ,Ｃｏｓｔｏｃｙｒｅｎａ）的发现具有重要意义。     

黑颈鹤(Grus nigricolus)种群生态及濒危等级评估

黑颈鹤的种群总量有５０００～６０００只个体,主要分布在青藏高原和云贵高原,分布区约２２×１０５ｋｍ２,占有面积约５４００ｋｍ２。青藏高原北部和西部为其繁殖区,越冬区主要在雅鲁藏布江河谷中段、喜马拉雅山脉南坡及云贵高原部分区域,青藏高原东部为其迁徙途径之地。越冬时以家族、同种群及混合群（主要与灰鹤Ｇｒｕｓｇｒｕｓ和斑头雁Ａｎｓｅｒｉｎｄｉｃｕｓ）形式集群活动。繁殖期分化为非繁殖群和繁殖对（Ｂｒｅｄｉｎｇｐａｉｒ）两种类型。繁殖对能否成功地占有领域是繁殖成败的关键。笔者认为该物种依ＩＵＣＮ（１９９４）标准应列为易危级（Ｖｕｌｎｅｒａｂｌｅ,ＶＵ）