Altitudinal distribution limits of aquatic macroinvertebrates: an experimental test in a tropical alpine stream

1. Temperature and oxygen are recognised as the main drivers of altitudinal limits of species distributions. However, the two factors are linked, and both decrease with altitude, why their effects are difficult to disentangle. 2. This was experimentally addressed using aquatic macroinvertebrates; larvae of Andesiops (Ephemeroptera), Claudioperla, (Plecoptera), Scirtes (Coleoptera) and Anomalocosmoecus (Trichoptera), and the amphipod Hyalella in an Ecuadorian glacier‐fed stream (4100–4500 m a.s.l.). The following were performed: (i) quantitative benthic sampling at three sites to determine altitudinal patterns in population densities, (ii) transplants of the five taxa upstream of their natural altitudinal limit to test the short‐term (14 days) effect on survival, and (iii) in situ experiments of locomotory activity as a proxy for animal response to relatively small differences in temperature (5 °C vs. 10 °C) and oxygen saturation (55% vs. 62%). 3. The transplant experiment reduced survival to a varying degree among taxa, but Claudioperla survived well at a site where it did not naturally occur. In the in situ experiment, Scirtes and Hyalella decreased their activity at lower oxygen saturation, whereas Andesiops and Anomalocosmoecus did so at a low temperature. The decrease in activity from a high to a low temperature and oxygen for the five taxa was significantly correlated with their mortality in the transplant experiment. 4. Together the present experiments indicate that even relatively small differences in temperature and oxygen may produce effects explaining ecological patterns, and depending on the taxon, either water temperature or oxygen saturation, without clear interacting effects, are important drivers of altitudinal limits.     

1991-2017年叶尔羌河流域冰川景观格局时空演变

冰川景观变化是全球环境和气候变化的共同"指示器"。随着全球气候变化加剧，干旱和半干旱地区的冰川景观将进一步变化。科学评估冰川景观格局时空演变特征，为应对冰川景观变化及其影响提供科学参考。基于1991-2017年Landsat TM/ETM+/OLI遥感影像，采用监督分类方法获取叶尔羌河流域冰川景观时空格局及变化数据，利用景观格局指数、质心迁移模型、分形维数等方法分析近26年叶尔羌河流域冰川景观格局时空演变特征。结果表明：（1）1991-2017年叶尔羌河流域冰川斑块面积呈消减趋势，但有所减缓，共减少799.50 km²（-13.09%）。冰川斑块面积消减主要集中在海拔5400-5800 m之间，相较之下，海拔4400 m以下的区域冰川斑块面积消减率最高，达63.68%；不同坡度冰川景观消减率存在差异，陡坡冰川斑块面积消减率最高（15.98%），急陡坡消减率最低（2.87%）；阴阳两坡冰川景观均呈消减趋势，阳坡冰川斑块面积消减速率显著高于阴坡。（2）近26年来，叶尔羌河流域冰川斑块数量、最大斑块指数均减小，而平均形状指数、平均周长面积比、分裂指数均增加，表明冰川景观不断消减，破碎化程度增加。（3）研究期间，叶尔羌河流域冰川景观质心发生迁移，整体呈现东北偏移趋势。（4）通过分形理论对叶尔羌河流域冰川景观空间结构特征进行分析表明，该流域冰川景观消减率略微降低，但仍然处于持续消融状态。     

冰川退缩地15种丛藓科植物茎的比较结构学观察

应用石蜡切片和扫描电镜方法对一号冰川退缩地生长的15种丛藓科植物茎的结构及表面微形态特征进行观察,结果表明：该地区的15种丛藓科植物的茎分为具中轴和无中轴两类,其细胞壁均有不同程度的加厚。而具中轴的丛藓科植物的茎又分为表皮、皮部、中轴三部分,茎表皮细胞短,1层,细胞壁大多向外突出,表面粗糙,表面纹饰多为颗粒状;皮部所占面积最大,大部分有内、外皮部的分化,大多数种的细胞壁由外向内逐渐变薄,细胞由小到大整齐排列;中轴所占的面积也不同,其细胞壁多具角隅加厚;而没有中轴分化的种类,其各自细胞壁加厚的程度基本一致。     

明永冰川垂直气候带中可培养低温细菌多样性分析

本研究对位于云南滇西北的明永冰川地区暖温带、中温带和寒温带三个不同垂直气候带中可培养低温细菌的多样性进行了研究。利用四种不同培养基对该地区可培养低温细菌进行了分离纯化,共得到细菌37 513株,根据菌落形态特征分为了391种,其中LB培养基分离到99种,Organic培养基分离到78种,PSG培养基分离到96种,PYGV培养基分离得到118种,可以看出寡营养培养基PYGV分离得到的细菌种类多于LB和Organnic等富营养培养基,表明PYGV针对冰川地区细菌的分离与鉴定更为合适;通过革兰氏染色和扫描电镜观察表明大部分菌株为革兰阴性杆菌;对已分离得到的优势菌进行了16S rRNA基因测序并构建系统发育树,分析得出:假单胞菌属(Pseudomonas)、耶尔森氏菌属(Yersinia)和黄杆菌属(Flavobacterium)在明永冰川不同垂直气候带上均有分布,其中假单胞菌属最多占据35%;而寡养单胞菌属(Stenotrophomonas)是寒温带上特有的菌属。本研究证明明永冰川地区垂直气候带中可培养低温细菌多样性非常丰富,也为下一步了解这一特殊地理生态环境下微生物的群落演替规律、研究冰川环境中微生物群落如何响应气候变化提供了参考。     

冰川退缩地26种丛藓科植物叶中肋细胞结构的研究

该研究应用离析方法,并通过光学显微镜对新疆天山一号冰川退缩地的26种丛藓科植物叶片中肋细胞的形态结构进行比较分析,结果表明:(1)丛藓科植物叶片的中肋细胞的长、宽和细胞壁厚度、纹孔场数目及细胞端尾数目在一定程度上存在着差异,反映出各中肋细胞的功能及导水作用在同属及不同属植物之间存在一定的差异。(2)中肋细胞的端尾多以及细胞壁的波状结构都具有增强细胞间的联系、提高机械固着和支撑作用。(3)不同生境下,中肋细胞侧壁的纹孔场数目能有效控制导水和物质交换的速度。这些特征可能都是冰川地区苔藓植物对恶劣生境的积极响应,具有一定的生态学和分类学意义。     

Microbial dynamics in glacier forefield soils show succession is not just skin deep

All over the world, glaciers are receding. One key consequence of glacier area loss is the creation of new terrestrial habitats. This presents an experimental opportunity to study both community formation and the implications of glacier loss for terrestrial ecosystems. In this issue of Molecular Ecology, Rime et al. ( 2015 ) describe how microbial communities are structured according to soil depth and development in the forefield of Damma glacier in Switzerland. The study provides insights into the contrasting structures of microbial communities at different stages of soil development. An important strength of the study is the integration of soil depth into the paradigm of primary succession, a feature which has rarely been considered by other studies. These findings underscore the importance of studying the interactions between microbial communities and glaciers at a time when Earth's glacial systems are experiencing profound change.     

Climate warming could increase recruitment success in glacier foreland plants

Background and Aims Glacier foreland plants are highly threatened by global warming. Regeneration from seeds on deglaciated terrain will be crucial for successful migration and survival of these species, and hence a better understanding of the impacts of climate change on seedling recruitment is urgently needed to predict future plant persistence in these environments. This study presents the first field evidence of the impact of climate change on recruitment success of glacier foreland plants.Methods Seeds of eight foreland species were sown on a foreland site at 2500 m a.s.l., and at a site 400 m lower in altitude to simulate a 2·7 °C increase in mean annual temperature. Soil from the site of origin was used to reproduce the natural germination substrate. Recruitment success, temperature and water potential were monitored for 2 years. The response of seed germination to warming was further investigated in the laboratory.Key Results At the glacier foreland site, seedling emergence was low (0 to approx. 40 %) and occurred in summer in all species after seeds had experienced autumn and winter seasons. However, at the warmer site there was a shift from summer to autumn emergence in two species and a significant increase of summer emergence (13–35 % higher) in all species except two. Survival and establishment was possible for 60–75 % of autumn-emerged seedlings and was generally greater under warmer conditions. Early snowmelt in spring caused the main ecological factors enhancing the recruitment success.Conclusions The results suggest that warming will influence the recruitment of glacier foreland species primarily via the extension of the snow-free period in spring, which increases seedling establishment and results in a greater resistance to summer drought and winter extremes. The changes in recruitment success observed here imply that range shifts or changes in abundance are possible in a future warmer climate, but overall success may be dependent on interactions with shifts in other components of the plant community.     

Culture Independent Diversity of Bacterial Communities Indigenous to Lower Altitude at Laohugou Glacial Environment

Abstract

High-throughput sequencing approach of the 16S rRNA gene was employed to evaluate the bacterial diversity inhabit in melted water, snow, soil, and rocks samples at the lower altitudes of the Laohugou glacial environment. Bioinformatics tools were used to process millions of Illumina reads for alpha and beta diversities of bacterial communities. The diversity indices such as Chao, Shannon, and Simpson were different in the collected samples and solid samples (soil and rocks) showed higher taxon richness and evenness. Taxonomic diversity was unexpectedly higher and the major portion of sequences was assigned to Proteobacteria, Actinobacteria, and Acidobacteria. Higher variation in community structure was reported at the class level and Alphaproteobacteria was dominant. The solid niches were occupied by a higher number of phyla compared with liquid. The physicochemical variables acted as spatial gradients and associated with the bacterial structural communities of the glacial ecosystem. Findings showed that both Proteobacteria and Actinobacteria in solid samples influenced the bacterial community structure in downstream liquid samples. Interestingly, the metagenomic biomarkers were higher in liquid samples. This study provides precious datasets to understand the bacterial community in a better way under the influence of spatial, physical and environmental factors.     

冰川细菌冷杆菌属的多样性研究进展

冰川作为地球主要的冰冻圈环境之一,蕴藏着丰富的低温微生物资源。1976年,Inoue Komagata从南极分离出一株嗜冷细菌,直到1997年,以这株嗜冷菌为模式物种,建立了冷杆菌属(Cryobacterium),同时该菌株被命名为嗜冷冷杆菌(Cryobacterium psychrophilum)。冷杆菌属物种主要分布于南北极、青藏高原冻土、冰川等低温环境,但与冰川等环境中其他常见类群相比丰度较低,属于稀有类群。目前,该属已有15个有效描述种,其中包含严格的嗜冷菌,但不同种对温度的耐受性有差异,因此是研究低温环境细菌进化和物种形成的良好材料。该属菌株可产生β-类胡萝卜素、低温酶等生物活性物质。本文综述了冷杆菌属的分布、生物学特征;通过对GenBank中冷杆菌属纯培养菌株的全基因组序列进行平均核酸序列一致性(average nucleotide identity,ANI)计算和聚类分析,明确其精确的分类地位,评估了该类群物种多样性;并讨论了冷杆菌在食品加工、医药卫生所需的生物活性物质的应用潜力。     

藏北申扎地区下石炭统永珠组下部孢子组合的特征及意义

报道藏北申扎永珠区德日昂玛—下拉剖面的永珠组孢子组合,发现孢子43属,70余种(包括未定种)。组合特征如下:1)缺乏欧美植物地理区早石炭世典型的石松类植物的小孢子Lycospora属及早石炭世晚期(维宪期)重要孢子属;2)出现较多早石炭世早期(杜内期),甚至泥盆纪晚期分子。呈现出新老化石的混合现象;3)北半球和南半球孢子的混合组合,同时也是冷、暖微古植物群混合,既有相当于中国早石炭世晚期大塘期以及西欧维宪期典型属种,又有南半球澳大利亚(包括巴西和非洲大陆)的维宪期的典型种。从孢子化石混合现象看,永珠组应为近岸浅水或滨海条件下的沉积,下伏地层的孢子化石再沉积现象说明当时有一次很大的海平面下降,在邻近地区出现了大面积的剥蚀区。说明杜内期末期—维宪期初期,申扎地区出现一次由冈瓦纳大陆冰川发育造成海平面相对下降。形成区域上不整合界面———洛工组或“巴日阿朗寨段”底部的不整合界面。混合孢子组合中的寒冷气候条件下的孢子化石的发现,印证了杨式溥、范影年和林宝玉推断的冈瓦纳冰川自早石炭世维宪期(大塘期)开始就影响到西藏申扎的推论。