羊草种群年龄结构及无性繁殖对策的分析

天然割草场羊草 ( Aneurolepidium chinense( Trin.) Kitag.)种群的生殖枝中有 87%为冬性植株。羊草分蘖节最老为 4龄 ,其生活时间可达 5个年度。在分蘖节成株的年龄结构中 ,1、2龄株占绝对优势 ,其所占比重达 92 .5 %。 1龄株生产力最高 ,至 3龄株生活力已明显衰弱。割草场羊草种群为增长型与稳定型混合的年龄结构类型。综合分析了羊草以根茎顶端成株调节种群年龄结构的无性繁殖对策 ,以及羊草草地自然持续更新的生物生态学机制     

An Analysis of Seasonal Variation of Vegetative Propagation and the Relationships Between Biomass and Population Density of Aneurolepidium chinense in Songnen Plain of China

Aneurolepidium chinense (Trin.) Kitag. is a perennial rhizome grass with fertile vegetative propagation. According to the field-investigation at fixed locations in fixed period, the seasonal change of vegetative propagation of A. chinense population and the autopopulation were specifically analysed. The results showed that both A. chinense population and the autopopulation could continuously make vegetative propagation in the entire growh season. The vegetative propagation brought more potential into play in the autopopulation of planting tillering than in the autopopulation of planting seedling, and the dynamics conformed to the Logistic curve growth for every experimental autopopulation in the planting growth season. The vegetative propagation of the population and the autopopulation was more seriously affected by the sexual development and the growth. The plant size was rigorously restricted by the population density, and the change of regularity followed–0.6699 power between mean weight per plant and the population density in the period of maximum biomass in the natural cutting grassland. The comprehensive analysis showed that A. chinense population depended on vegetative propagation and the population regeneration of the self-regulation, but the population hadnt far reached the most density which could be accommodated by standing conditions in the natural cutting grassland in the Songnen Plain of China.     

松嫩平原羊草种群营养繁殖的季节动态及其生物量与密度关系的分析

本文根据野外定位定期观测,分析了羊草[Aneurolepidium chinense(Trin.)Kitag.]种群和羊草个体群营养繁殖的特点。结果表明,在整个生长季,羊草能不断地进行营养繁殖。在移植当年,羊草分蘖株个体群的营养繁殖潜力比实生苗个体群的更大,两个实验个体群的数量均符合于逻辑斯谛曲线增长。生殖生长对羊草的营养繁殖有较大的影响。天然割草场上的羊草种群在生物量达最高时期,种群植株的大小受密度的制约,平均单株重量与密度之间遵循-0.6699 幂的规律性变化。综合分析表明,在松嫩平原天然割草场上,羊草种群依靠营养繁殖更新延续、自我调节,但该种群尚未达到环境所能容纳的最大数量。     

松嫩平原两个趋异类型羊草无性系种群特征的比较研究

松嫩平原上羊草(Leymus chinensis(Tzvel.)Tzvel.)有两个趋异类型:灰绿型和黄绿型。两个类型羊草的分蘖节一般均存活2～4年,最多可存活5年;根茎一般存活2～3年,最多可存活4年。两个类型无性系种群的分蘖株均为增长型的年龄结构类型。种群根茎的累积长度,灰绿型为18035cm/m~2,黄绿型为21218cm/m~2,其中,均以1、2龄占绝对比重。两个类型均以1龄分蘖株生产力最大,至3龄分蘖株明显减小;各龄根茎的生物量随着年龄的增加呈直线下降;1龄根茎的营养繁殖力甚强,至8月中旬所形成的芽数均已远远多于地上全部分蘖株数;2龄根茎尚存在较小的营养繁殖潜力,3、4龄根茎均已丧失了营养繁殖力。两个类型羊草无性系种群都是通过根茎芽补充更新。     

星星草(Puccinellia tenuiflora)人工草地氮素积累对松嫩盐碱草地植被演替的影响

通过对星星草(Puccinellia tenuiflora)生长不同年数盐碱土壤氮素营养状况的比较,研究氮素积累作用的机理,并探讨其在植被演替中的可能作用.结果表明:在一维生态位空间(土壤氮含量)星星草和羊草(Leymus chinense)之间具有较小的生态位分离值和较大的生态位重叠值,表明羊草对土壤高含氮量具有较强的竞争能力.这些也许是羊草以及其他植物在星星草生长一定年数后能够侵入碱斑土壤的机制.星星草作为盐碱土壤改良和植被恢复的先锋植物,它的生长增强了盐碱草地土壤氮素的矿质化作用和生物固氮强度,并减弱了氮素随地表径流的损失.最终促进了盐碱草地的氮素沉积,达到了适合于其它物种(如羊草)生长的水平,从而使碱斑植被得以恢复.     

THE RELATIONSHIP BETWEEN AGE,SIZE, AND REPRODUCTION IN TRILLIUM GRANDIFLORUM (LILIACEAE)

The relative importance of age and size as predictors of demographic parameters such as survivorship or reproductive status is generally unknown for herbaceous perennials, due primarily to the difficulty in estimating the age of herbaceous plants. We investigated the relationship between age, size, and reproductive status in Trillium grandiflorum, a rhizomatous perennial herb in which age can be estimated. We measured the leaf area and rhizome volume and estimated the age of plants in a study population that included reproductive and nonreproductive individuals. Reproductive plants were significantly older ( = 22.8 years) than nonreproductive plants ( = 13.3 years). Reproductive plants also had significantly larger total leaf areas and rhizome volumes. Total leaf area, rhizome volume, and age were positively correlated in both groups. Reproduction in this population occurred once plants reached a threshold leaf area or rhizome volume. Both measures of plant size, i.e., total leaf area and rhizome volume, were better predictors of plant reproductive status than was plant age.     

东北盐碱化羊草草地生物治理的研究

 盐碱草地的生物治理包括两种形式：一是人工建立枯草层,改变盐碱土的理化性质,直接种植羊草,恢复植被;二是种植耐盐碱植物,自然积累有机质,逐渐恢复植被。枯草层可改变盐碱土的理化性状,当枯草量达1.5kg·m-2时,与对照区相比,土壤容重由1.71g·cm-3减少 到1.10g·cm-3,土壤孔隙度和空气含量分别提高了41.7％和1.7倍,土壤含水量增加31.7％。土壤pH值由10.05下降到8.5,含盐量和电导率分别下降了34.1％和40％,碱化度由64.59％下降到35.75％。种植虎尾草改良盐碱化草地是一种有效的途径,4年后,光碱斑已全部被植被覆盖,群落产量达450g·m-2,羊草在群落中大量出现,约占总产量的45％以上。实验结果表明当枯草量达1.5g·m-2时,播种羊草即可在盐碱上壤上存活,4年后,羊草群落的产量可达600g·m-2,基本上恢复到了羊草草地。     

永瓣藤的分布现状及其保护

本文从自然环境、分布特征、种群数量和种群繁殖等方面研究了我国珍稀特有植物永瓣藤（Monimopetalum chinense）的分布和保护现状, 并从引种栽培、种子繁殖和无性繁殖等方面总结了近年来对永瓣藤进行迁地保存的初步研究结果, 最后提出了相应的保护建议。     

松嫩平原栽培条件下羊草无性系构件的结构

羊草是长根茎型禾草,是典型的无性系植物,在松嫩平原的生长季末期,栽培条件下羊草无性系分株由分蘖株和分蘖苗组成,在具有充分生长空间而又没有种间竞争的风沙土上,羊草分株的分蘖节在一个生长季内可以繁殖4个世代,按分蘖节的繁殖世代划分龄级,现实与潜在无性系构件的年龄谱均以1龄级比重最大,随着龄级的增加明显减少,呈增长型的年龄结构,羊草无性系分株的生产力主要与分株形成及生长的时间长短有关,形成时间越早、生长时间越长的分蘖株对无性系的物质生产和营养繁殖的贡献越大,羊草无性系在空间扩展与物质贮存上具有一定的可调节性。     

The Effect of Hill-Building Activities of Ants on the Species Diversity of Plant Communitiesin Songnen Grassland 蚂蚁筑丘活动对松嫩草地植物群落多样性的影响

 吉林省长岭县羊草(Aneurolepidium chinense)草地自然保护区内分布的蚂蚁主要为玉米毛蚁(Lasius alienus)和黄墩蚁(Lasius flavus)。蚂蚁是草地生态系统的一个生物干扰因子。通过分析比较该保护区内4个植物群落中玉米毛蚁和黄墩蚁蚁丘上植物的种类组成、优势种的数量特征及群落多样性变化,探讨了蚂蚁筑丘活动对草地生态系统的影响。主要结论如下：1)蚁丘上的植物种类组成与对照显著不同。在蚁丘上分布的植物主要是羊草种组(Aneurolepidium chinense group     

Short-term plant community response to grassland management intended to improve forage quality for the endangered Pampas deer

The Pampas deer is a medium-sized neotropical cervid whose population has been affected by the advancement of the agricultural frontier, poaching and depredation by introduced species. As a consequence, the population of the deer has dramatically decreased and its distribution has contracted. At present, Samborombón Bay remains one of the last populations of this deer in Argentina. The management of natural pastures to improve forage quality is one of the policies adopted by authorities at this site for the conservation of this cervid species. In this study, we assessed the efficacy of grassland management practices (burning and cutting) to promote better forage quality for Pampas deer. The work was carried out in the Campos del Tuyú National Park where two plots were managed to improve the available natural pastures. These plots were burned at the beginning of autumn and intensely defoliated at the end of spring, followed by mechanical cuts in the following autumn and late spring. Multivariate analyses revealed that structure and composition varied between treatments. Green biomass, total plant cover, and forage quality of grasses increased in the plots under management for winter pastures, although no significant differences were detected between summer pastures. The results indicate that grassland management would be a useful tool to improve habitat quality for Pampas deer; however, managed grassland also lost structural heterogeneity. Despite the fact that this study reveals a short-time response of grassland to management, our study shows promising results to continue and expand this practice for the improvement of the habitat quality for Pampas deers.     

Chronosequential change in a butterfly community after clear-cutting of deciduous forests in a cool temperate region of central Japan

Transect counts of butterflies were conducted in the northern part of Ibaraki, central Japan, from 1997 to 2001 at 11 census sites, composed of successive stages of deciduous forest development: grassland (one site, early abandoned stage); cutover land (one site, 1–5 years after clear‐cutting); secondary forests (very young (two sites, 6–9 years), middle (two sites, 16–22 years) and old (two sites, 47–51 years)) and old‐growth natural forests (three sites, ≥124 years old). A total of 86 species and 8858 individual butterflies were recorded by 29 sets (406 times) of transect counts. The species richness (number of species), abundance (number of individuals) and diversity indices (Shannon–Wiener H′ and Simpson's 1–λ) of butterflies were high in the early stages (grassland, cutover land and very young secondary forests) of secondary succession. Typical natural forest species increased with the progress of succession, and the old secondary forests and old‐growth natural forests had similar species composition. In contrast, most of the typical natural grassland species were recorded only in the grassland site. In the cutover land site, the number of individuals of grassland species considerably decreased from the first to the second year; furthermore, only one typical natural grassland species was recorded. Thus, the suitable stage for grassland butterfly species lasts for only 1–2 years after clear‐cutting. Old secondary forests (approximately>50 years old) would be able to give refuge to the forest butterfly species, including typical natural forest species. Based on the results, a practical, forestry‐based plan to conserve butterfly diversity was proposed.     

Effects of Severing Rhizome on Clonal Growth in Rhizomatous Grass Species Psammochloa villosa and Leymus secalinus

A field experiment was conducted in Inner Mongolian dune to investigate the contribution of clonal integration to genet expansion and ramet establishment in clonal plants in semi-arid inland dune. In the experiment, the developing parts (plant observing unit) of two rhizomatous grass species Psammochloa villosa (Trin.) Bor and Leymus secalinus (Georgi.) Tzvel. were subjected to the treatment of severing rhizomes. The 7 characters relevant to the elonal growth of the plant observing units were investigated such as total length of shoots, number of shoots, number of rhizomes, length of main rhizome, total length of rhizomes, number of main rhizome nodes and total number of rhizome nodes. The results showed that the increments in those plant characters were reduced by the treatment in P. villosa, while no effect of the treatment was observed in L. secalinus. The results suggest an interspecific difference in clonal integration and in its contribution to clonal growth. In P. villosa, clonal integration and clonal growth offer great contributions to the survival of the plants in the sandy grassland characterized where water shortage, strong transevaporation, infertility, habitat patchiness and frequent disturbance were most characteristic.     

Within population genetic differentiation in traits affecting clonal growth: Festuca rubra in a mountain grassland

Festuca rubra , a clonal grass of mountain grasslands, possesses a considerable variability in traits related to spatial spreading (rhizome production, length and branching; tussock architecture). Since these traits highly influence the success of the species in a spatially heterogeneous system of grasslands, a combined field and growth chamber approach was adopted to determine the within-population variation in these parameters. Clones were sampled in a mountain grassland (The Krkono?e Mts., Czech Republic); the environment (mean neighbour density) of individual clones varied highly. Before the clones were collected, shoot demography and tussock architecture within these clones were recorded in the field for four seasons. Their clone identity was determined using DNA RAPD. Vegetatively propagated plants from these clones were cultivated in a common garden experiment to demonstrate variation in tussock growth and architecture. Their response to change in red/far red light ratio was determined in the growth chamber. Highly significant variation among clones was found in almost all parameters. In the common garden, the clones differed in tussock growth (mean tillering rate), architecture (mean shoot angle, mean tussock density) and proportion of flowering shoots. In the growth chamber, both the aboveground parameters and parameters of the rhizome system were strongly affected by red/far red ratio; among-clone variation was also almost always significant. The genotype × environment interaction was significant for tillering rate and rhizome architecture. The structure of the rhizome system (which is the major component of clonal spread in space) is a complex result of several components whose inter-clone variations differ: (i) genetically determined mean rhizome system size, (ii) overall plasticity in rhizome system size (with no significant genetic variation in plasticity), and (iii) genetically determined plasticity in rhizome architecture. Because of the variation in plasticity in rhizome architecture, some c lones seemed to possess the ability to exploit a favourable habitat patch by producing short branches when there; whereas the remaining clones appeared to possess only a simple escape mechanism from unfavourable patches. Environmental variation in the light levels in the studied grassland is fine grained; horizontal growth rates of F. rubra are sufficient to make genets experience different patches in their lifetime. The high variation in both genotype means and plasticities is likely to be due to selection early in genet life in an environment which is heterogeneous at a fine scale.     

Experimental demography of rhizome populations of establishing clones of Solidago altissima

1 Solidago altissima forms large compact below-ground rhizome systems. The rhizome systems of 30 genets in a population that had colonized an old-field in 1984 were mapped yearly in situ from 1988 to 1992. Branching angles, lengths and survival of rhizomes, and production of daughter rhizomes, were calculated from digitized maps.
2 We hypothesized that genets of S. altissima would prevent intraclonal crowding by producing longer but fewer rhizomes as they increased in size. In addition, we tested the effects of environmental factors on rhizome dynamics by (i) mowing in late summer, (ii) cutting of rhizome connections, and (iii) removal of close neighbour plants.
3 Most rhizomes were initiated at an angle of 60°−65° relative to the parent rhizome. Subsequent growth tended towards the parent axis and towards more centrifugal growth. Rhizome angles were not influenced by any treatment.
4 In control genets, rhizome density increased 1.3-fold from March 1988 to March 1992. The number of newly produced rhizomes per genet decreased and their length increased from 1988 to 1992. Longer rhizomes had a higher survival probability than shorter rhizomes did. The number of newly produced rhizomes per parent rhizome was positively correlated with mean rhizome length per genet.
5 Mowing strongly decreased rhizome density from 1988 to 1992, mainly due to reduced production of new rhizomes.
6 Rhizome cutting led to a slight decline in the rhizome population and to shorter lengths of rhizomes in their second year compared with controls.
7 The removal of close neighbour plants led to increased rhizome densities. These rhizomes grew longer than controls in unmown plots and shorter in mown plots and had higher probabilities of surviving into their second year.
8 Yearly mowing could successfully prevent the further spread of S. altissima because it acts on rhizome and shoot dynamics as well as on seed output.     

松嫩平原光稃茅香无性系种群的营养繁殖特征

光稃茅香是典型的无性系禾草 .分蘖节可繁殖 2个世代 ,最多存活 3个年度 .根茎最多存活 2个年度 .无性系种群的分蘖株和根茎均有 2个龄级 ,并均以 1龄级占较大比重 .无性系潜在种群由冬性苗和根茎芽所组成 .以潜在种群的数量估计 ,在割草场混生群落中将保持现有的地位和作用 ,在放牧场的优势种群落中将增强其地位和作用 .     

人工和自然羊草种群的高生长及生物量季节动态的研究

本文所研究的人工羊草草地是在内蒙古锡林河中游南岸羊草草原的基础上建成的。此项研究试就人工种植的羊草(Aneurolepidium chinensis)和原生群落建群种羊草在高生长和生物量增长方面作一比较。 （1）从返青后四十天开始,人工羊草种群的高生长表现为曲线 种群平均高度最大值达52.98cm,并在垂直结构上控制着群落的中层和上层;原生群落中羊草的高生长曲线为：种群平均高度最大值为40.61cm。(2) 人工羊草种群的生物量按方程增长,植物地上部分的干物质含量依直线CA=27.4874+0.2245t变化。生物量峰值(172.00g／m2)和干物质含量极值 (58.24%)都超过了天然生长的羊草。目前人工草地适于作为割草场使用,可获得优质高产的牧草。     

不同人为干扰条件下毒药树种群数量特征的比较

云南是毒药树(Sladenia celastrifolia)的分布中心,日益严重的人为干扰不可避免地影响毒药树种群的数量特征。基于毒药树年龄与胸径之间的关系,初步分析了受人为干扰程度不同的两个种群的年龄结构、静态生命表和存活曲线,并对这两个种群进行了比较。严重受干扰的种群的幼苗库相对不足,Ⅰ龄级个体数比例为12.7%,Ⅱ、Ⅲ、Ⅳ龄级个体数所占比例为80.3%,种群衰退趋势明显;未受干扰的种群幼苗库相对充足,年龄结构呈现稳定种群的特征。这两个种群的生命表也存在差异,其中最明显的就是严重受干扰的种群的Ⅰ龄级和Ⅱ龄级的死亡率为负,这是幼苗库不足的一个直接反映。两个种群的存活曲线都表现出低龄级个体死亡率高的特征,但未受干扰的种群各龄级个体的死亡率的变化幅度较小。毒药树种群的各项特征与鹅掌楸(Liriodendron chinense)及其它几种濒危植物的相关特征相似。虽然毒药树还未被列为受威胁的物种,但它已具备IUCN所定义的受威胁物种的特点,因此,对它的保护已十分必要,除了在野外建立相应的毒药树保护点之外,在植物园中培植人工种群也是必须的。     

湖北河岸带植物中华蚊母树遗传多样性的SRAP分析

利用SRAP分子标记技术,对湖北省河岸带植物中华蚊母树的4个自然居群和1个迁地居群的遗传多样性和遗传结构进行了分析。结果表明,中华蚊母树物种具有较高水平的遗传多样性,7对SRAP引物进行PCR扩增的多态性位点百分率(PPF)为80.43%,每个位点的等位基因数(A)为2,有效等位基因数(Ae)为1.34,总遗传多样性Nei’s基因多样性指数(Hp)为0.215 9,Shannon信息多样性指数(I)为0.350 9。在居群水平上,5个居群总的遗传变异Ht为0.218 8,居群内的遗传变异Hs为0.193 4,居群间的遗传分化系数Gst为0.116 1,表明在总的遗传变异中有88.39%变异存在于居群内,仅11.61%存在于居群间,居群间的基因流Nm为3.807 2,表明居群间有较大程度的基因交流。UPGMA聚类分析和主成分分析显示中华蚊母树主要分为两个居群组,在长江三峡沿岸香溪和乐天溪由于遗传距离比较近聚为一小类再与高家堰聚为一大类,而沿渡河和三峡植物园居群聚为另一大类,表明迁地居群三峡植物园的中华蚊母树与来自巴东沿渡河居群的样本亲缘关系最近,且三峡植物园迁地保护居群基本保育了其遗传多样性总水平。同时在分析讨论了中华蚊母树遗传多样性与其繁育系统、生境及其起源进化的关系的基础上,评价了中华蚊母树的保护策略,并在评价保护成果的基础上,提出了今后进一步保育的策略。结果还表明SRAP标记是分析中华蚊母树遗传多样性和遗传结构非常可靠的一种标记,而且这是使用SRAP标记研究中华蚊母树的首次报道。     

长江三峡地区典型灌丛的生物量及其再生能力

 灌丛是三峡地区典型的退化生态系统类型。本文采用收获法和模拟砍伐实验研究了三峡地区铁仔灌丛、椎木灌丛、荆条灌丛和黄栌灌丛的生物量及黄栌灌丛、椎木灌丛地上部分砍伐后的再生能力。研究结果表明,这4种类型的灌丛总生物量分别为22.5±5.1、21.0±3.7、16.9±7.5和13.6±2.4t·hm-2,相当于同纬度地带性生态系统常绿阔叶林(30年林龄)的10％一25％ 4种灌丛灌木层占总生物量、地上部分生物量和地下部分生物量的90％以上。在生物量—物种序列中,前5种植物占总生物量的84％ 以上。不同地点灌丛生物量的比较表明,同一种类型灌丛,亚热带和暖温带地区总生物量没有明显差异。通过模拟砍伐实验,黄栌灌丛、被木灌丛地上部分全部砍伐后1年地上部分生物量就可以恢复到对照的42.7％和62.0％,说明这些灌丛类型具较高的生长速度和很大的恢复潜力。