青藏高原疏勒河上游不同类型冻土可培养细菌多样性特征研究

在气候变暖及人类活动的双重干扰下,疏勒河上游冻土发生了显著退化,如活动层厚度加大、植被退化等,而冻土退化对微生物的影响一直是科研人员关注的热点话题。以疏勒河上游不同季节（4月、6月、9月）、不同退化程度冻土为研究对象,研究了可培养细菌多样性特征。通过16S rDNA基因测序及构建系统发育树表明,研究区域可培养细菌归类为27个属,分属于α-变形菌门,γ-变形菌门,放线菌门,厚壁菌门和拟杆菌门,其中放线菌门为优势类群。从属水平来讲,可培养细菌以节杆菌属和微球菌属为主,其含量随冻土退化程度加深分别呈下降和升高趋势。土壤细菌多样性与环境因子的相关性分析表明,可培养细菌多样性与土壤含水量、总氮极显著正相关,与有机碳显著正相关。这些结果表明,伴随着冻土退化而发生的地上植被逆向演替过程中,青藏高原不同类型冻土间已产生较大的环境异质性如土壤碳氮及含水量,进一步可能导致冻土微生物多样性分异。研究结果为利用微生物综合评价青藏高原不同类型冻土的生态环境提供了数据基础。     

浑善达克沙地东南部退化草场植物群落DCCA排序与环境解释

对浑善达克沙地退化草场植物群落进行OAC分类和DCCA排序结果表明,这些植物群落可分为8组:Ⅰ芨芨草(Achnatherum splendens) 星星草(Puccinellia tenuiflora)群落;Ⅱ冷蒿(Artemisia frigida) 冰草(Agropyron cristatum)群落;Ⅲ冰草(Agropyron cristatum) 糙隐子草(Cleistogenes squarrosa)群落,Ⅳ大针茅(Stipa granodis) 冷蒿(Artemisia frigida)群落,Ⅴ苔草(Carix spp.) 狼毒(Stellera chamaejasme)群落,Ⅵ黄柳(Salix gordejevii) 差把嘎蒿(Artemisa halodendron)群落,Ⅶ虎榛子(Ostryopsis davidiana) 耧斗叶绣线菊(Spiraea aquilegifolia)群落,Ⅷ人工林下的杂类草群落.群落DCCA排序及排序轴与环境因素的相关分析表明,土壤有机质、全氮、速效磷、含水量及坡向、坡位对群落的分布与组成有显著影响.植物多样性的回归分析表明,在向阳坡和上坡地段,土壤有机质、全氮、含水量趋于减少,植物多样性趋于下降.     

红树蚬的生态观察

１９９１年４月─１９９３年８月，对广东、广西、海南的红树蚬Ｐｏｌｙｍｅｓｏｄａｅｒｏｓａ（Ｓｏｌａｎｄｅｒ）的生态环境、生活习性与分布等进行了观察。红树蚬分布于热带－亚热带海区，生活在咸淡水交汇的河口和潮间带，生长最适的水温２０—２８℃，盐度５—２０，海水ｐＨ７．２─８．２，底质为软泥、泥砂或砂泥，栖息深度约１０ｃｍ，以底栖硅藻和有机碎屑为食，繁殖期为５—９月。其肉供食用、药用，可发展人工养殖。     

三亚湾浮游动物的昼夜垂直移动

1998年11月和1999年1、4、8月在三亚湾(109°28′6″E,18°13′36″N;水深约15m)进行了24h的浮游动物昼夜连续分层采样。结果表明,浮游动物的昼夜垂直移动季节变化显著,春季在中上层(0—10m)分布,夏季营显著的白天下降、夜晚上升的移动。三亚湾浮游动物的昼夜垂直移动可划分为移动显著和不显著两大类型,前者又可划分为白天下降、夜晚上升,白天上升、夜晚下降,傍晚和清晨上升、白天和夜晚下降3种类型;后者又可划分为中上层分布和各水层均匀分布2种类型。此外,有些种类的昼夜垂直移动无明显的规律。光照是影响浮游动物昼夜垂直移动的重要因素。浮游植物密度与浮游动物的昼夜垂直移动关系不密切。夏季浮游动物的大型种类肥胖箭虫(Sagittaenflata)、亚强次真哲水蚤(Subeucalanussubcrassus)可以穿越温跃层的上界而进入表层。浮游动物昼夜垂直移动的幅度不但与种类的个体大小有关,而且也与水深和种类的习性有关。     

南极中山站-Dome A断面表层雪稳定同位素空间分布及环境影响因素分析

中山站-Dome A断面是表层雪稳定同位素组成分析的理想区域,沿线进行δ18O、δD和d的空间分布及环境影响因素研究对反映东南极地区的气候变化和物质来源具有关键意义。因而,本文基于线性回归及相关性分析方法,详细探究了断面上多种环境因素与表层雪稳定同位素分布的空间关系。结果表明,温度和地理因素与同位素比值之间有显著相关关系,且海拔是地理因素中的主要影响因素,随海拔上升表层雪的δ18O呈线性下降趋势。另外,通过断面上δ-T斜率与南极其他断面对比,发现斜率可能具有冰盖近岸和内陆地区较低的区域性特征,而造成这一现象的原因是水汽源区的改变和低温条件下水汽过饱和时的同位素动力分馏。最后,d的空间分布在沿海区域和内陆区域也有不同,推测主控因素分别是水汽源区条件和温度。     

STUDY ON CLIMATIC CHARACTERISTICS OF CHINA-INFLUENCING TYPHOONS AND THE INTERRELATIONS BETWEEN THEM AND THEIR ENVIRONMENTAL FACTORS

Climatic characteristics of China-influencing typhoons (CIT) were analyzed in this paper. Main characteristics include: (1) CIT season is May-November, especially from July to September. (2) Frequency of the CIT shows a decreasing trend during 1951-2004, especially after the late period of the 1960s. (3)Strong CIT also shows an obvious decreasing trend. Meanwhile, there exist obvious interdecadal variations in the CIT genesis, being more southward and eastward than normal in 1960s-1970s, and more northward and westward than normal in the 1980s. In addition, the interrelations between CIT and its environmental factors show that CIT has close relationships with sea surface temperature and East Asian summer monsoon; the structure of the circulations in frequent CIT years is much different from that in infrequent CIT years.     

海洋浮游植物粒度生理的效应及其影响因素

生物学家一直对生物个体的粒度很感兴趣,认为粒度是影响生物个体的新陈代谢速率、生物个体在生态系中的地位、以及生态系的生物多样性的决定因素。许多生理学家对生物个体粒度的功能做了验证和说明。     

COMBINED EFFECTS OF TEMPERATURE, IRRADIANCE AND SALINITY ON GROWTH OF DIATOM SKELETONEMA COSTATUM

3-factor experiment was used to study the combined effects of temperature, irradiance and salinity on the growth of an HAB species diatomSkeletonema costatum (Grev.) Cleve. The results showed that temperature (12, 19, 25, 32 °C), irradiance (0.02, 0.08, 0.3, 1.6)×10¹⁶ quanta/(s·cm²)) and salinity (10, 18, 25, 30, 35) significantly influenced the growth of this species. There were interactive effects between any two of and among all three physical factors on the growth. In the experiment, the most optimal growth condition forS. costatum was temperature of 25°C, salinity of 18–35 and irradiance of 1.6×10¹⁶ quanta/(s·cm²). The results indicatedS. costatum could divide at higher rate and were more likely to bloom under high temperature and high illumination from spring to fall. It was able to distribute widely in ocean and estuary due to its adaptation to a wide range of salinities. This study was supported by the PREPP and National Key Basic Research Project (2001CB4097) NNSFC No. 39950001, 20177023, 49576301, 49906007 and KZCX2-206.     

Autumn living coccolithophores in the Yellow Sea and the East China Sea

An investigation was carried out on living coccolithophores(LCs) distribution in the Yellow Sea and the East China Sea from October 17 to November 24, 2011. A total of 223 samples from different depths were collected at 48 stations. Totally 18 taxa belonging to coccolithophyceae were identified using a polarized microscope at the 1 000× magnification. The maximum species abundance was found at the outside of Transect P. The dominated species were Gephyrocapsa oceanica, Emiliania huxleyi, Helicosphaera carteri, and Algirosphaera robusta. The abundance of coccoliths and cells ranged 0–2 965.73 coccoliths/mL, and 0–119.16 cells/mL, with the average values of 471.00 coccoliths/mL and 23.42 cells/mL, respectively. The LCs in surface layer were mainly observed on the coastal belt and middle part of the survey area. The comparison among Transects A, F, P and E indicated lower species diversity and less abundance in the Yellow Sea than those of the East China Sea. The highest abundance of LCs was found in transect F and P. The coccolith abundance increased slightly from surface to bottom in the water column, but the highest value of the cell abundance was observed in the depth of 10–30 m. Temperature, depth and nutrient concentration were suggested as the major environmental factors controlling the distribution and species composition of LCs in the studying area based on canonical correspondence analysis(CCA).