高黎贡山种子植物物种丰富度沿海拔梯度的变化

物种丰富度沿海拔梯度的分布格局成为生物多样性研究的热点。为探讨中尺度区域物种丰富度沿海拔梯度的分布,本文以高黎贡山为研究对象,利用该地区的地方植物志资料,结合通过GIS生成的区域数字高程模型(DEM)数据,分析了该区域全部种子植物和乔木、灌木、草本三种生活型种子植物物种丰富度的垂直分布格局以及物种密度沿海拔梯度的变化特征。结果表明：(1)全部种子植物和不同生活型植物物种丰富度随着海拔的升高呈现先增加后减小的趋势,最大值出现在海拔1500—2000m的范围;(2)物种密度与海拔也呈现单峰曲线关系;(3)物种丰富度和物种密度分布格局的形成主要受海拔所反映的水、热状况组合以及物种分布的边界影响。     

Elevational variation in diversity and composition of land-snail faunas in a Tanzanian forest

We sampled terrestrial molluscs at fifteen elevations between 400 and 2000 m in Mwanihana Forest Reserve, Tanzania and recorded 84 taxa. Four diversity measures – species density (D_P), species richness (D₂₀) and observed (S_O) and interpolated (S_I) alpha diversity – were measured; beta diversity and abundance were also investigated. Mean elevational range was 470 m. D_P, D₂₀, alpha diversity and mollusc abundance increased with elevation, but alpha diversity peaked at 1695 m (S_O) or 1500 m (S_I) and declined at higher elevations. Maximum beta diversity was at 1000 m. Soil pH was negatively correlated with elevation and D_P. Cluster analysis divided the sites into lowland (400–900 m) and highland (>1000 m) groups. Axis 1 of a canonical correspondence analysis was associated with altitude and suggested a faunal discontinuity at 1000 m. Variation within the highland (>1000 m) and lowland faunal sets was related to elevation and forest structure respectively. The findings indicate that mollusc diversity peaks at intermediate elevations. This may be related to the combined effects of low rainfall conditions at low elevations and increasing effects of soil leaching at high elevations, both of which may limit mollusc diversity and abundance. Diversity at intermediate altitudes may be further elevated because of faunal mixing of lowland and highland groups.     

Distribution of C3 and C4 grasses along an altitudinal gradient in Central Argentina

The distribution pattern of C₃ and C₄ grasses was studied in eight sites located between 350 m and 2100 m along an altitudinal gradient in Central Argentina. Of 139 taxa fifty-nine are C₃ and eighty C₄. Species of the C₃ tribes (Stipeae, Poeae, Meliceae, Aveneae, Bromeae and Triticeae) and C₃ Paniceae species increase in number at higher elevations; only one C₃ species was found below 650 m. C₄ Aristideae, Pappophoreae, Eragrostideae, Cynodonteae, Andropogoneae and Paniceae increase at lower altitudes. The floristic crossover point is at about 1500 m; the ground cover cross-over point is at about 1000 m. Analysis of the relationships between % C₄ species along the gradient and nine climatic and environmental variables showed the highest correlation with July mean temperature, but all temperature variables show highly significant correlations with % C₄. Correlation with annual rainfall is lower but also significant. These results are consistent with previous research showing the relative importance of C₄ grasses as temperature increases. C₃ species make a high contribution to relative grass coverage below the C₃/C₄ floristic crossover point but are rare below 1000 m.     

Small mammals of the Bale Mountains, Ethiopia

A sample of 535 small mammals, caught over a range of altitudes from 1500 to 4000 m in the Bale Mountains, on various expeditions from December 1971 to August 1986, enables the altitudinal zonation of the species to be delimited. The most abundant species, Lophuromys flavopunctatus, ranged from near the lower tree line at 1550 m, right up through the forested zones and onto the Afro-alpine moorland at 3900 m. The endemic Praomys albipes also ranged through the forest from 1550 to 3200 m, but was replaced in open habitats between 2400 and 3900 m by Stenocephalemys griseicauda and between 3000 and 4000 m by S. albocaudata, which was relatively more abundant than its congener at higher altitudes. Other moorland species, including Crocidura fumosa, Otomys typus, Lophuromys melanonyx and Arvicanthis blicki were also commonest at 3800–4000 m, but, like the Stenocephalemys spp., penetrated to lower altitudes in open habitats. Mus mahomet was confined to lower altitudes (1510–3000 m) and open habitats, apparently replaced by Mus triton, not previously recorded from Ethiopia, in forested habitats at middle altitudes (1950–2400 m).     

Pollen distribution at elevations above 1000 m inSwitzerland

In Switzerland the concentration of allergenic pollendecreases with increasing elevation of the samplingsite of the Swiss pollen measuring network. The aim ofthis study was, to compare the pollen concentrationsof five different localities in the Swiss Alps and inthe Jura mountains, to get an idea of the differencesin the pollen abundance in altitudes above 1000 m. Theinvestigated localities are: La Chaux-de-Fonds(1040 m), Wiesen (1420 m), Davos (1600 m), Samedan(1705 m) and Gütsch (2287 m). These pollen sumswere compared to the Swiss plateau (Basel 273 m).Basel, La Chaux-de-Fonds and Wiesen show clearlyhigher pollen values than Davos, Samedan andGütsch. Pollen concentrations of Corylus,Alnus glutinosa-type and Fraxinus arereduced with increasing altitude and are only a smallproblem for allergies above 1000 m. Betulapollen are also reduced in the higher localities, butthere still occur many days with high pollenconcentrations. Especially Betula pollen frommedium range transport can play an important role forallergies in higher localities. The total grass pollensum does not decrease up to an altitude of 1500 m. Thegrass pollen concentration depends more on factorslike composition of the local grassland, land use andwind situation.Pollen concentrations at higher elevations isinfluenced by the local vegetation, a reduced pollenproduction, land use, topography, exposition, windvelocity and wind direction. These factors modify thepollen concentration considerably. Due to the complextopography of the Prealps and Alps, it is thereforenot possible to propose a general rule of pollenreduction with increasing altitude.     

Variation in invertebrate–bryophyte community structure at different spatial scales along altitudinal gradients

Aim This study assessed changes in diversity and assemblage composition in bryophytes and their associated invertebrates along altitudinal gradients in Australia and New Zealand. The importance of altitude in shaping these communities and for the diversity of both invertebrates and bryophytes was examined at different spatial scales, including local, altitudinal, regional and biogeographical. Location Samples were taken from four Australasian mountain ranges between 42° and 43°S: Mt Field and Mt Rufus, Tasmania, Australia, and Otira Valley and Seaward Kaikoura Mountains, South Island, New Zealand. Methods On both Tasmanian mountains, five altitudes were assessed (250, 500, 750, 1000 and 1250 m). At each location (mountain/altitude combination) two sites were chosen and six samples were taken. Six altitudes were assessed on New Zealand mountains (Otira: 250, 500, 750, 1000, 1250 and 1500 m; Kaikoura: 1130, 1225, 1325, 1425, 1525 and 2000 m). Bryophyte substrate was collected, and all samples were stored in 70% ethanol. Invertebrates were extracted from bryophytes using kerosene‐phase separation and all invertebrates were identified to family. At each location in Tasmania, all bryophyte species within six 25‐cm² grids per site were collected and identified to species. Bryophytes from New Zealand were identified to species from the invertebrate sample substrate because of sampling constraints. Results Altitude did have a significant effect on diversity, however, no general trend was found along the altitudinal gradient on the four mountains. There were distinct differences in diversity between biogeographical regions, mountains, altitudes and sites. In Tasmania, Mt Field had the highest diversity in invertebrates and bryophytes at 750 m. In contrast, Mt Rufus had consistent low invertebrate and bryophyte diversity along the entire altitudinal gradient. There were also distinctive differences between locations in the composition of invertebrate and bryophyte communities in Tasmania. Along the two altitudinal gradients in New Zealand, Otira had highest diversity for both invertebrates and bryophytes at low altitudes, whereas Kaikoura had highest invertebrate and lowest bryophyte diversity at the highest altitude. Main conclusions There was an effect of altitude, however, there were no consistent changes in diversity or composition on the four different mountains. There was considerable local and regional variation, and, despite a strong sampling design, no underlying altitudinal trends were detectable. This study demonstrates the importance of examining a range of spatial scales if patterns in community structure along altitudinal gradients are to be studied. The implications of this study are discussed with reference to survey design, taxonomic resolution, climate change and conservation of habitat.     

Distribution and ecology ofCystopteris (Athyriaceae) species within the Flora Iranica region

The distribution ofCystopteris fragilis andC. dickieana in Afghanistan within the Flora Iranica region is studied. The latter species, for some ecological reason, occurs more frequently at higher altitudes. In both taxa higher polyploid levels also occur at high altitudes. The phenomenon can be correlated with the boreal-arctic distribution pattern. Polyploidism and spore-size classes are briefly mentioned as well as possible ecological adaptations. Evolutionary differentiation within both taxa are complex and still unknown.Dedicated to Univ.-Prof. DrK. H. Rechinger on the occasion of his 80th birthday and in recalling historical trips to the marvellous Afghan flora and vegetation.     

Features of the population and genetic structure of Norway spruce (Picea abies (L.) Karst.) from the Ukrainian Carpathian Mountains and Polesie

Genetic differences between a lowland, island, and sparse population (2 ha) of Norway spruce (Picea abies (L.) Karst.) from Polesie and two populations at different altitudes in the Ukrainian Carpathian Mountains (in the range 1000–1500 m above sea level) are identified on the basis of an analysis of the variability of 20 allozyme loci. Despite the different sizes of the samples, different altitude location, and geographic remoteness, these populations are characterized by very low genetic differentiation (D _N = 0.002–0.005). Recombination variability analysis demonstrated that, in terms of the structure of double-locus genotypes, the Polesie population possesses lesser affinity than do the individual Carpathian populations with respect to each other.     

Somatic characteristics and reproduction of common vole, <Emphasis Type="Italic">Microtus arvalis</Emphasis> (Microtus arvalis

Reproduction potential and biometry of somatic characteristics of the common vole Microtus arvalis were evaluated and discussed. The results were processed on the basis of an extensive material (2,171 individuals) from the whole territory of Slovakia (315 sites situated at altitudes from 100 to 1500 m above sea level). Among the somatic characteristics studied, the highest variability was found in body length and the smallest in hind foot length. Highly significant differences were also found between the foot length of adult males and females. Populations of M. arvalis at low altitudes were less numerous than at higher altitudes. Altitudinal differences in average embryo numbers in female uteri as well as differences in follicle length in males during the reproductive season were also observed.     

Altitudinal trends in climate change result in radial growth variation of Pinus yunnanensis at an arid-hot valley of southwest China

Climate change has already had observable impact on the biophysical environment, and lead to the different sensitivity of vegetation to climate factors on spatio-temporal scale. Therefore, understanding how the radial growth respond to climate at different spatio-temporal scales is crucial to recognize forest growth dynamic and make scientific management decisions under the background of climatic change. In the present study, the tree ring of Pinus yunnanensis at six altitudes gradients between 1300 m and 2500 m from a typical arid-hot valley in Jinsha River, were collected. We analyzed the relationship between radial growth and climate at different altitudes, and the sensitivity of growth to climatic factors over time. The results showed that the mean width of tree rings decreased as the altitude increasing. The relationship between climatic factors and radial growth at low or high altitudes was different with that at mid altitudes. Radial growth was negatively correlated to the temperatures from February to July at both low altitudes (1300–1500 m) and at high altitudes (2200–2500 m), but positively correlated to the temperatures in October of the previous year to April at mid altitudes (1700–1900 m). Precipitation in October of the previous year, May, and June in growing year had a positive effect on radial growth at all altitudes. Temperature and precipitation in the previous year showed a time-lag effect on radial growth. A moving correlation analysis of the tree ring index and climate variables showed that the limiting factors for tree growth at different altitudes varied over time. The influence of drought on the tree growth increased gradually as the climate warming. In future research, evaluating the dynamic relationship between vegetation growth and climate warming at spatio--temporal scale will be particularly important to guide forest management.     

Seasonal flight activity of Platycerus caprea (Coleoptera, Lucanidae) in the Moravskoslezské Beskydy Mts (Czech Republic)

The seasonal flight activity of Platycerus caprea was studied at two sites in the Moravskoslezské Beskydy Mts in 2002–2004 using bark beetle pheromone traps of Theysohn® type. Platycerus caprea occurred at altitudes of 400 m up to 1200 m a.s.l. Seasonal flight activity in both males and females started at the beginning of May and continued until mid-June. At lower altitudes (up to ca 900 m a.s.l.), adults flew in the first half of May, at altitudes about 1000 m a.s.l. in the second half of May and in the highest sites more than 1200 m a.s.l. in the first half of June.     

基于遥感生态指数的道路网络生态效应分析——以福州市为例

以2000年和2016年两期Landsat影像为基础数据源,借助遥感生态指数（RSEI）对福州市生态环境进行评价,在此基础上,从道路缓冲区、城乡梯度带、剖面线三种不同取样方法定量探讨RSEI对路网的响应机制;再以500 m×500 m、1000 m×1000 m、1500 m×1500 m、2000 m×2000 m、2500 m×2500 m、3000 m×3000 m不同尺度的网格划分空间单元,运用全局空间自相关、地理加权回归分析等方法分析了道路核密度（KDE）和RSEI及其之间关系的空间异质性。结果表明：从2000年到2016年,福州市生态环境好的区域面积增幅大于生态环境差的区域面积,生态环境质量向好的方向发展。各类型道路缓冲区的RSEI变化规律都是呈从0 m到3000 m逐渐上升的趋势,其中国道、省道、县道、乡镇道路影响的阈值分别在900、900、450、750 m左右。在城乡梯度分析中,RSEI曲线的变化规律都是随着与行政中心距离的增大而增大,到达一定阈值后趋于平缓,甚至还有小幅度的下降,区级的影响阈值在20 km左右,县级的影响阈值在12 km左右;而KDE曲线的变化规律与RSEI相反,其变化阈值与RSEI正好对应。剖面线所经过的行政中心处,其RSEI为低值,KDE为高值,西北方向的内陆地区RSEI高于东南方向的沿海地区。在多尺度的地理加权回归分析中,1500 m×1500 m和2000 m×2000 m这两个网格单元采样下的空间集聚性较强,空间异质性明显,总体上来看,RSEI与KDE呈现负相关关系,且相关关系存在空间分异,负回归系数主要分布在研究区的中心区域。研究结果可为福州市生态建设和路网规划提供参考依据。     

Three new species of the genus Leucon Kröyer, 1846 (Crustacea: Cumacea) from the continental slope off Surinam

Three new, and apparently closely related, species of cumacean are described from the continental slope off Surinam: Leucon turgidulus sp.nov. from about 500 m depth, L. medius sp.nov. from about 1000m and about 1500m, and L.jonesi sp.nov from about 1500m and about 2000m. The species have not been found in extensive collections from other parts of the deep Atlantic. Leucon pallidus G.O. Sars, 1865 is the most closely comparable of the previously known members of the genus.     

基于碳氮稳定同位素技术研究辽东湾海蜇的食性和营养级

应用稳定同位素技术分析了渤海辽东湾海蜇及其可能摄食饵料生物的碳、氮稳定同位素比值,对其食物组成和营养级进行了研究.结果表明： 辽东湾海蜇的δ¹³C值范围是-20.27‰～-23.06‰,跨度为2.79‰,平均值为-21.33‰;δ¹⁵N值范围是6.82‰～10.03‰,跨度为3.21‰,平均值为8.25‰.海蜇的饵料生物主要包括悬浮物、浮游植物、鱼卵、≤1000 μm 浮游动物、1000～1500 μm 浮游动物和＞1500 μm 浮游动物,其中以≤1000 μm 浮游动物为主,贡献率高达71%～88%;其他饵料生物的重要性由高到低依次为>1500 μm浮游动物、1000～1500 μm浮游动物、悬浮物、浮游植物和鱼卵,其平均贡献率分别为6%～19%、0%～22%、0%～10%、0%～8%、0%～2%.经检验发现,海蜇伞径长与δ¹⁵N的相关性不显著(P >0.05),而与δ¹³C呈显著负相关(P<0.05).以悬浮物为基准的辽东湾不同伞径组海蜇的营养级范围为2.79～3.88,平均营养级为3.28.本研究结果说明,海蜇作为大型浮游动物在辽东湾生态系统中对小型浮游动物的能量传递起着关键的调控作用,研究结果将为深入研究辽东湾生物群落的营养结构及整个生态系统的物质循环与能量流动提供基础资料.     

太白山南坡吸血虻类的垂直分布及区系分析

太白山南坡的吸血虻类有2亚科,5属、46种。分布于8个垂直带,以1000-1500m的松栎林带最多,600-1000m的常绿阔叶林和落叶林混交林带次之, 1500-2000m的杂木林带第三,600m以下,2000m以上较少。 其区系为古北界与东洋界过渡地带,以古北界为主,600-2000m为过渡中心,1000-1500m为两界分界地带。     

Distribution and phenology of climbers of Kumaun in Central Himalaya,India

A total of 105 climber species were recorded and studied for their altitudinal distribution and phenology. Relatively higher percentage (54%) of deciduous species was recorded. In general, the climbers were distributed throughout the region between altitudes of 300–3500 m. However, maximum (more than 60%) species were confined either below or at around 1500 m altitude. Species richness declines gradually towards the higher altitudes, the decline was more sharp in evergreen species. The different phenological activities were usually governed by the seasonal variations in a year. Seasonality of flowering suggested the prevalence of insect pollination. Whereas, fruit types indicated equal sharing of biotic and abiotic dispersal. Study concludes, the distribution and nature of various climber species of Kumaun in Indian Central Himalaya, depends largely upon altitude and its climatic variable temperature. Whereas, the seasonality of rains plays an important role in seasonal progression of phenophases.     

Spatial and temporal variation of secondary metabolite profiles in Ginkgo biloba leaves

Terpene trilactones (TTLs) are the main bioactive constituents of Ginkgo biloba used for the preparation of drugs for several ailments. Flavonoid glycosides (FGs) are the significant group of compounds found in Ginkgo leaves used in food and healthcare products. The variation in the content of bioactive constituents, as well as antioxidant activity, with respect to change in altitude and the time of sample collection was investigated. The amount of TTLs varied from 0.218-0.709% w/w, whereas FGs were observed in the range of 0.130-0.209% w/w. Ginkgolides J and A showed significant variation (p ≤ 0.05) with the change in altitude, while other components remained more or less unaffected. The amount of TTLs and FGs were not affected significantly by the time of sample collection. The antioxidant capacity (by using DPPH, ABTS, and FRAP assays) of ginkgo extracts was highly dependent on the altitude, and was at maximum in the samples collected from 1000-2000 m, followed by the samples collected from altitudes lower than 1000 m and higher than 2000 m. Thus, Ginkgo harvested from 1000-2000 m of altitudinal range irrespective of the season could provide better nutraceutical formulations, whereas that from below 1000 m may yield a terpene trilactone-enriched fraction.     

Potential migration routes and barriers for vascular plants of the Neotropical Guyana Highlands during the Quaternary

Aim To reconstruct in detail the potential migration routes and barriers for vascular plants from the summits of the Guyana mountains during the Quaternary, in order to test the possibility of migration among them during the glaciations. These changes in connectivity are predicted based on the altitudinal migration of plant communities associated with glacial cooling. To examine the effects of these cycles, the extent of the potential biotic interchange and its influence on patterns of endemism was modelled. Location The summits of the tepuis or table mountains of the Neotropical Guyana Highlands, which constitute the peculiar and discontinuous Pantepui phytogeographical province (total surface 5000 km², altitudinal range 1500–3014 m a.s.l.), and is characterized by a unique and diverse flora with a high degree of endemism. Methods GIS‐based palaeotopographical reconstruction using a high‐precision digital elevation model, combined with phytogeographical analysis by means of a data base built up from the Flora of the Venezuelan Guyana, which includes the geographical and altitudinal ranges for each Pantepui species. Results During the Last Glacial Maximum, which serves as a representative of a standard Quaternary glaciation, most migration pathways among tepuis were open for species with lower altitudinal levels (LAL) ≤ 1500 m (1678 species or c. 69% of the total Pantepui species), and closed for species with LAL ≥ 2300 m altitude (c. 3%). The species in between these altitudes have intermediate migratory possibilities, depending on the district and the tepui considered. If these local factors are considered, the number of species with no possibility of glacial interchange increases to 202 or c. 8% of the total. The strongest topographical barrier separated eastern locations above 1600–1700 m elevation from all others. The highest possibility of interchange was among the tepuis of the eastern sector, in which internal topographical barriers were only effective for species with LALs at or above 1900 m. Main conclusions The Quaternary evolution of the vascular flora from the Guyana Highlands took place in a predominantly migration‐prone, glacial‐era landscape, in which more than 70% of the flora (maximum estimate) was able to move from one tepuian district to another, thanks to the downward bioclimatic shift caused by cooling. Interglacials were too short to drive significant evolutionary diversification. A number of present high‐altitude local endemics are species that were unable to migrate, even during glaciations. However, some endemic species do appear to have been able to migrate among regions, suggesting that topographical isolation alone is not enough to explain patterns of endemism. Other factors such as tepui summit area, habitat heterogeneity or pre‐Quaternary evolution are considered. These studies should be complemented with palaeoecological and phylogeographical surveys.     

Effect of altitude on male parental expenditure in Mountain Bluebirds ( Sialia currucoides ): are higher-altitude males more attentive fathers?

Male investment of time and energy in caring for offspring varies substantially both between and within bird species. Explaining this variation is of long-standing interest to ornithologists. One factor that may affect male care is breeding site altitude, through its effects on climate. The harsher, less predictable abiotic conditions at higher altitudes are hypothesized to favour increased male investment of time and energy in offspring care. We tested this hypothesis by comparing male parental behaviour in Mountain Bluebirds (Sialia currucoides) nesting at 1500 and 2500 m a.s.l. in the Bighorn Mountains of Wyoming, USA. We compared rates of prey delivery to nestlings at these two altitudes at two times: 1–2 days after hatching, when females spend much of their time brooding young, and 12–13 days later, when brooding has ended and nestling energy demands are peaking. High-altitude males fed nestlings 18 and 28% more often than low-altitude males early and later in the nestling stage, respectively, but only the difference in late-stage feeding rates were significant. Like males, females at the high site also fed nestlings significantly more often than females at the low site later in the nestling stage (45% difference in feeding rates). Consequently, the proportion of all feeding trips made by males at the high site (40%) did not differ significantly from that at the low site (44%). Parents at the high altitude may feed nestlings more often to compensate for their greater thermoregulatory costs. Parents may also be attempting to assist nestlings in storing fat and/or attaining a large size and effective homeothermy as quickly as possible to enhance nestling ability to survive bouts of severe weather which are common at high altitudes.     

A Floristic Study of Flora of Seed Plants of the Chaqia-GongheBasin and Its Contiguous Zone in Qinghai,China

The Chaqia-Gonghe Basin and its contiguous zone is situated in eastern Qinghai of China, between latitude 34°45′- 37°00′N and longitude 98°45′- 101°30′E . Ranging from 2 800m to 5 305 m in altitude, the total area is about 38 300km2 . Its climate is continental or plateau-continental one . There are 854 species of native seed plants belonging to 59 families and 277 genera there , which occupied 37. 37% of the total species, 54 . 53% of the total genera and 65. 56% of the total families in Qinghai respectively . The floristic characteristics of the native seed plants are as follows : ( 1) Number of species and woody ones there are poor . (2) At generic level, the flora is temperate in nature, dominated by north temperate elements especially the typical elements from the warm and cold zone of Eurasia , but also with some elements of warm, cold warm and alpine ones . (3 ) The area is a margin of distribution for many species or genera especially for tropical ones, and thus , the flora of the area is clearly marginal in nature . (4) Floristic-geographically , it is a converged and transitional region for the Qinghai-Tibetan Plateau Alpine Flora , Loess Plateau Warm Flora , as well as East Asia Alpine Desert Flora. (5 ) It is a part of the Tangute Flora . (6 ) It is a key area to divide the subregions in the flora of Qinghai on the Tangute Area .