水氮添加条件下高寒草甸主要植物种氮素吸收分配的同位素示踪研究

资源利用方式的分化可以减小物种间对相同资源的竞争,是群落物种多样性维持的主要机制。在全球变化背景下,土壤温度和水分条件的变化可能影响高寒草甸生态系统植物的氮素(N)营养。该实验在经N、水处理3年的高寒草甸开展,通过15NH415NO3的15N稳定性同位素注射,比较高寒草甸主要植物种对N、水处理的响应方式,以及N吸收能力、分配和根冠比特点,研究其营养吸收和资源分配方式的分化。结果发现不同植物种对N、水处理响应差异显著,N吸收能力、根N含量和根冠比等功能性状种间差异显著;回归分析发现植物种N吸收能力和根N含量之间的关系不显著,和根冠比之间呈显著线性负相关。说明高寒草甸生态系统不同植物种间N吸收具有生态位分化,并且存在N营养吸收能力和资源分配策略的权衡。     

Vegetation Recovery in Slash‐Pile Scars Following Conifer Removal in a Grassland‐Restoration Experiment

A principal challenge to restoring tree‐invaded grasslands is the removal of woody biomass. Burning of slash piles to reduce woody residues from forest restoration practices generates intense, prolonged heating, with adverse effects on soils and vegetation. In this study, we examined vegetation responses to pile burning following tree removal from conifer‐invaded grasslands of the Oregon Cascades. We quantified the longevity and magnitude of fire effects by comparing ground conditions and the cover and richness of plant species in burn‐scar centers (higher‐intensity fire) and edges (lower‐intensity fire) with adjacent unburned vegetation 7 years after treatment. We interpreted patterns of recovery through the responses of species with differing growth forms, habitat affinities, and clonality. Cover of bare ground remained elevated at the centers, but not at the edges of scars; however, much of this effect was due to gopher disturbance. Total plant cover, consisting entirely of native species, was comparable in and adjacent to scars. However, richness remained depressed at the scar centers. Cover of grass, meadow, and non‐clonal species was comparable in and adjacent to scars, but cover of forb, sedge, residual forest, and clonal species was reduced at the centers. Although scar centers had a simpler community structure (fewer but more abundant species) than the adjacent vegetation, they remained free of exotics and recovered quickly, aided by the soil‐disturbing activities of gophers and the regenerative traits of native, disturbance‐adapted species. Pile burning can be a viable and efficient approach to fuel reduction in the absence of exotics.     

Community species diversity mediates the trade‐off between aboveground and belowground biomass for grasses and forbs in degraded alpine meadow,Tibetan Plateau

Although many empirical experiments have shown that increasing degradation results in lower aboveground biomass (AGB), our knowledge of the magnitude of belowground biomass (BGB) for individual plants is a prerequisite for accurately revealing the biomass trade‐off in degraded grasslands. Here, by linking the AGB and BGB of individual plants, species in the community, and soil properties, we explored the biomass partitioning patterns in different plant functional groups (grasses of Stipa capillacea and forbs of Anaphalis xylorhiza). Our results indicated that 81% and 60% of the biomass trade‐off variations could be explained by environmental factors affecting grasses and forbs, respectively. The change in community species diversity dominated the biomass trade‐off via either direct or indirect effects on soil properties and biomass. However, the community species diversity imparted divergent effects on the biomass trade‐off for grasses (scored at −0.72) and forbs (scored at 0.59). Our findings suggest that plant communities have evolved two contrasting strategies of biomass allocation patterns in degraded grasslands. These are the “conservative” strategy in grasses, in which plants with larger BGB trade‐off depends on gigantic roots for soil resources, and the “opportunistic” strategy in forbs, in which plants can adapt to degraded lands using high variation and optimal biomass allocation.     

The intensity of respiration and heat emission from seedlings of Festuca pratensis (Hud.) and Hordeum vulgare L. during pathogenesis caused by Bipolaris sorokiniana (Sacc.) Shoem

The presented work was conducted on seedlings of spring barley and meadow fescue which differ in the degree of sensitivity to leaf spot pathogen Bipolaris sorokiniana (Sacc.) Shoem. The seedling reaction to inoculation with mycelium and conidia was examined in glasshouse conditions on the basis of respiration intensity and heat production. The leaf respiration was measured using Clark-type electrode, while heat emission was evaluated by means of isotermic microcalorimeter. The measurements were performed after 1, 3, 6, 10, 24, 48, 72, 168 and 240 hours since the inoculation moment. Leaves of meadow fescue were characterized by the most intense respiration at the 6^th hour, while barley leaves at the 24^th and 72^nd hour after inoculation. In the case of meadow fescue the greatest heat production was noted in the period between 24 and 168 hours after inoculation. Simultaneously, at the 48^th hour the smallest rate of respiration was observed. Barley leaves emitted the greatest amount of heat only in the first 3 hours of the pathogenesis. In these hours the smallest respiration rate was noted. The observed, opposing reaction of respiration intensity and heat emission in the infected seedlings of both species may illustrate a disorder in metabolic processes in plants during pathogenesis. The plants studied differed in the time of their reaction to pathogen attack: barley responded earlier in heat production, while fescue extended respiration rate in the first hours after inoculation. This is clearly observable, when coefficients of metabolic inefficiency (heat rates per mole O₂) are compared. In the case of barley the highest rates were noticed just after inoculation, whereas in fescue at the 48^th hour. In both species attack of pathogen caused high metabolic efficiency.     

Hydrology of Dutch Cirsio‐Molinietum meadows: Prospects for restoration

Abstract. Fen meadows (Cirsio dissecti‐Molinietum) are seriously threatened by desiccation, acidification and eutro‐phication. In The Netherlands several projects were launched to restore damaged fen meadows. This review describes how successes and failures of these restoration projects depend on hydrological systems. Six hydrological systems have been distinguished, which all provide the site conditions required by this community. Nowadays, the best developed fen meadows are found in the higher Pleistocene landscape of The Netherlands, where they depend on base‐rich groundwater discharging from local or large groundwater systems. Fen meadows of the lower Holocene landscape usually occur in man‐made surface water systems. Almost all stands have been severely deteriorated. Restoration of fen meadows in the Pleistocene landscape is promising when the hydrology is only slightly disturbed or when hydrological measures are taken in combination with sod cutting. Restoration prospects of fen meadows in the Holocene landscape are low. Until now a complete regeneration of Cirsio‐Molinietum meadows has not been realized. Restoration measures failed to restore high pH values in the top soil. It is hypothesized that viable seeds of many target species lack in the soil seed bank. In addition, the dispersal capacities of these species seem to be limited.     

高原鼠兔对小嵩草草甸的破坏及其防治

1997～2000 年在青海省果洛州达日县, 通过测定不同程度退化草地、人工草地和除杂草地中高原鼠兔种群数量的变化以及对草地的破坏程度, 分析了草地植物群落变化对高原鼠兔种群数量的影响。结果表明: 随草地退化程度的加重, 高原鼠兔种群数量相应升高, 重度退化草地中高原鼠兔种群数量降低, 是由食物资源不足引起。不同程度退化草地之间高原鼠兔种群数量差异极显著( t_{未退化与轻度}= 25.369 7 , t_{未退化与中度}= 25.55 ,t_{未退化与重度}= 36.406 0 , t_{轻度与中度}= 23.279 4 , t_{轻度与重度}= 14.343 9 , t_{中度与重度}= 20.178 5 , df = 3 , p < 0.001) 。高原鼠兔对草地的破坏面积与平均单坑面积呈显著的相关关系( F = 220146 , df = 3 , P < 0.001) 。在草地达到重度退化以前, 高原鼠兔的种群密度升高, 对草地的危害则加重。草地植物群落空间结构的变化直接影响高原鼠兔的种群数量, 当植物群落高度增加时, 其种群数量开始减少, 反之则增加。     

不同演替状态下高寒草甸土壤物理性质与植物根系的相互关系

采用空间代时间的方法,以高寒嵩草草甸不同退化演替状态土壤物理性质(土壤机械阻力、温度、湿度)为变量,探讨高寒草甸不同退化阶段土壤物理性质同植物根系生长特质的相互关系。结果表明:高寒嵩草草甸根系分布具有明显的"V"型垂直构型特征;高寒嵩草草甸根系以细根为主,直径0.5 mm的根系占全剖面根系总长的90.8%—93.6%。土壤紧实度和土壤湿度与植物根系直径细化具有显著的正相关关系(P0.05);土壤温度与根系细化之间具有显著的负相关关系(P0.05),且其对高寒嵩草草甸根系生长特性形成的贡献率最高,说明高寒嵩草草甸植物根系生长构型特征的主控因子为温度。高寒嵩草草甸根系细化及表聚现象与土壤物理性质之间具有一定程度的互馈效应。低温、高紧实度和较高的土壤湿度有助于形成高密度和细根构型的草毡表层,这种土壤根系构型也是高寒草甸植物群落为适应放牧干扰及恶劣环境的应激性改变。该发现对明晰草地退化演替过程中生态系统构件对外界干扰改变的响应和适应过程及为制定合理有效的退化高寒草甸恢复措施提了供理论依据。     

三江源区高寒坡地退化植物群落多样性和地上生物量沿海拔梯度的变化特征

山地生态系统退化对生物多样性和地上生物量,以及相互关系在海拔高度梯度上的格局影响,是认识全球变化和人类干扰引起自然生态系统变化的重要内容。以青藏高原三江源区高寒坡地退化草甸和灌丛为研究对象,探讨退化草甸、灌丛群落物种多样性与地上生物量关系及其沿海拔梯度的变化规律。结果表明:(1)坡地退化的上坡位植被盖度显著大于下坡位(P＜0.05)。坡地退化高寒草甸和高寒灌丛,植物物种多样性沿海拔梯度变化规律一致,均呈现"单峰"分布格局。坡地退化高寒草甸Shannon-wiener指数和Simpson指数二次回归方程解释度达到80%和70%以上(P＜0.05)。(2)坡地退化高寒草甸和高寒灌丛的地上生物量与海拔梯度的变化规律一致,即随海拔升高高寒坡地地上生物量呈先增加后降低的变化趋势。海拔梯度对退化高寒山地地上生物量的解释度达到85%以上(P＜0.05)。(3)物种多样性和地上生物量的关系在两个坡地上表现出一致的规律,呈线性增加的变化趋势。高寒草甸坡地回归方程解释度达到70%,高寒灌丛坡地达到60%(P＜0.05)。坡地退化高寒灌丛植物群落多样性和地上生物量高于高寒草甸植物群落。高寒坡地退化草甸和灌丛植物群落物种多样性以及其与地上生物量之间的关系沿海拔梯度的变化规律一致,海拔梯度造成的环境差异对植物群落物种多样性和地上生物量影响仍较大。该研究对认识三江源区退化山地形成生态学机制,及提出有效的生态恢复措施具有重要参考价值。