沙地云杉和青海云杉种子萌发和幼苗生长对干旱盐碱胁迫的响应

利用控制实验研究了水分、盐分生态因子对沙地云杉和青海云杉种子萌发和幼苗生长的影响,以探索沙地云杉和青海云杉种子对水分、盐分生态因子的适应性。结果表明:(1)水分胁迫和盐分胁迫对沙地云杉和青海云杉种子萌发具有明显的抑制作用,可显著的降低种子的发芽率,两种云杉种子对水分胁迫的临界值和极限值分别是-0.03、-0.15 MPa和-0.5、-0.58 MPa;对盐分胁迫的临界值和极限值分别是78、148 mmol/L和284、345mmol/L;其幼苗长度随着渗透势和NaCl浓度的增加而显著减小。(2)沙地云杉和青海云杉种子恢复发芽率及恢复后的幼苗长度随着渗透势和NaCl浓度的增加先增加后减少。(3)在相同的水势条件下,PEG溶液比等渗的NaCl溶液对沙地云杉和青海云杉种子萌发具有更大的抑制作用,种子萌发过程中渗透胁迫比离子毒害的抑制作用更大。研究发现,沙地云杉和青海云杉种子对水分和盐分胁迫表现出不同程度的耐受性,两者对盐分胁迫的忍耐能力超过对水分胁迫;而且青海云杉种子比沙地云杉更耐旱、耐盐;早期的低盐和充分的水分条件是沙地云杉和青海云杉存活的关键。     

Plasticity in fitness and fitness-related traits at ramet and genet levels in a tillering grass Panicum miliaceum under patchy soil nutrients

Seedling and root sprout recruitment after a volcanic deforestation was examined in a Prunus ssiori population. According to genotypes of five microsatellite (SSR) loci, 44 genets were identified among 188 ramets ≥ 5 cm DBH in a 2.3-ha plot in 2000. The genets formed mutually exclusive patches. Because only one repeat change in an SSR locus distinguished five genets from adjacent genets, there is a possibility that the five genets derived from somatic mutations as well as sexual reproduction. Thus, at least 39 genets originated from seedlings, and at least 144 ramets derived from root sprouts. The seedlings were recruited after the volcanic eruptions in 1739 and before 1972 because trees of 5 cm DBH were 28 years of age, estimated from annual rings. As the largest ramet recruited from a root sprout was estimated to be 94 years old, root sprout recruitment began between 1739 and 1906. Thus, the estimated minimum rates of recruitment from seedlings and root sprouts were 0.167 y^–1 and 0.618-2.182 y^–1, respectively. The clonal diversity of the P. ssiori population (Simpson's D = 0.92) was higher than that of other clonal plant populations. The inbreeding coefficient was significantly negative (Wright's F _IS = −0.069). These results suggest that the frequent seedling recruitment in an outbreeding system maintains the clonal diversity in the population. This revised version was published online in June 2006 with corrections to the Cover Date.     

祁连山排露沟流域青海云杉天然更新与土壤水热的关系

青海云杉是祁连山区森林生态系统的建群种,其天然更新对维持祁连山森林生态系统功能具有重要意义。以祁连山排露沟流域青海云杉林天然更新为研究对象,于2021年6-9月测定海拔2700-3300m的0-40cm土层土壤温度和水分数据,并于7月中旬对样地天然更新进行每木检尺,将天然更新划分为幼苗(第一龄级)阶段和幼树(第二龄级)阶段,通过方差分析探究不同海拔更新苗胸径、株高的差异,再进一步建立回归模型拟合更新苗胸径、株高与各层土壤水热的关系,探讨更新苗胸径、株高对土壤水热的响应。结果表明:(1)更新苗胸径、株高随海拔升高而降低,海拔2700m幼苗胸径与3300m幼苗胸径存在显著性差异(P<0.05),海拔2700m、2800m幼苗、幼树株高与3300m幼苗、幼树株高存在显著性差异(P<0.05),幼树胸径在各海拔均不存在显著性差异,表明更新苗胸径对海拔的敏感性要低于更新苗株高。(2)更新苗胸径、株高与土壤温度呈正相关,与土壤水分呈负相关,幼苗胸径与20cm土壤温度和土壤水分的相关系数最大,幼树胸径与40cm土壤温度和土壤水分相关系数最大,幼树株高与40cm土壤温度及20cm土壤水分相关系数最大。(3)回归模型显示幼苗胸径和株高对土壤水热的利用模式相同,而幼树胸径和株高对土壤水热的利用模式存在差异。(4)青海云杉天然更新随着龄级的增加,影响生长的主要因素由土壤温度逐渐变为土壤水分,更新苗胸径对土壤水热的响应也随着龄级的增加在逐渐减弱。     

Clonal spread of invasive Ludwigia hexapetala and L. grandiflora in freshwater wetlands of California

Ludwigia hexapetala and L. grandiflora are recent, aggressive invaders of freshwater wetlands in California. To assess the relative role of sexual versus clonal reproduction in invasive spread, we used AFLP markers to genotype 794 ramets of L. hexapetala sampled from 27 populations in three watersheds of California, and 150 ramets of L. grandiflora from five populations in a fourth watershed. We then used two analytical methods, similarity thresholds and character incompatibilities, to distinguish genotypic variation within genets (clones) from variation between genets. Our analyses revealed extremely limited genotypic and genet variation in invasive L. hexapetala and L. grandiflora within California. Within L. hexapetala, 95% of the ramets analyzed represented a single genet. The genet was the only one detected in 20 populations. The remaining seven populations contained two to nine genets. Within L. grandiflora, all ramets were of only one genotype. Thus, invasive spread within and between populations, and across watersheds, appears to be almost exclusively clonal and brought about by the dispersal of vegetative propagules. The extremely low seedling recruitment indicates that management should target vegetative dispersal and growth.     

SEEDLING RECRUITMENT LIMITATION IN WHITE CLOVER (TRIFOLIUM REPENS; LEGUMINOSAE)

White clover (Trifolium repens L.) is a stoloniferous clonal legume. Dynamics of white clover populations are controlled by the recruitment of both seedlings (genets) and node production (ramets). To understand the role of seedling dynamics in natural populations of white clover, the recruitment and mortality of seedlings in a lawn and pasture clover population were followed and the roles of biotic and abiotic factors in seedling recruitment and survival were assessed. Seedling recruitment was several orders of magnitude less than vegetative recruitment in both lawn and pasture populations. However, at least several new genets are added to these populations on a yearly basis. In both locations, physical disturbances may open sites for seed germination, as disturbed sites had higher seed germination rates than undisturbed sites. However, these sites were not favorable for long-term establishment due to such factors as frost upheaval. Therefore, there are trade-offs in safe site attributes for seed germination and establishment that strongly limit recruitment in natural populations of white clover.     

Changes in Cytisus balansae populations after fire

Abstract. Demographic changes in Cytisus balansae populations were studied during the first 10 yr after a fire, by comparing populations of different ages in which different cohorts were considered. In the study area this species constitutes a monospecific formation which undergoes periodic burning. We distinguished both new genets (seedlings or plants originating from seedlings, after the last fire) and three types of ramets (resprout clumps): rootstock ramets, basal-branch ramets and lateral-root ramets. We found that C. balansae regenerated rapidly after fire. Most seedlings, rootstock ramets and basal-branch ramets emerged in the first year after fire. Lateral-root ramets appeared mainly after 2 - 4 yr and continued to emerge in the following years. The numbers of ramets and new genets decreased with time, mainly during the first six years. Density variations between quadrats within each population also decreased. Survivorship varied between seedlings and type of ramet, and according to time of emergence. Survival curves for seedlings which emerged in the first year were concave, for rootstock ramets convex, and for the remainder of the ramets intermediate. The 10-yr-old population was dominated by rootstock ramets. Some were entirely dead but most of them had only some dead basal branches. At this age new lateral-root ramets were still emerging. The future of C. balansae populations is discussed on the basis of results obtained for old (25 - 30 yr) plants, growing in the prolonged absence of fire.     

Edaphic environment, gall midges, and goldenrod clonal expansion in a mid-successional old-field

During the middle stage of old-field succession, genets of clonal plants vie to take over space from annual and short-lived perennial plants. We studied factors that may influence the relative rates of expansion of Solidago altissima genets in an old-field population attacked by the gall midge Rhopalomyia solidaginis. Genets growing in more clayey soil expanded more slowly, as evidenced by differences in rhizome growth. Edaphic conditions also affected galling frequencies, with genets in more sandy soil having twice as many galls. Gall midges reduced goldenrod stem growth, and stem height was positively correlated with rhizome growth. For a given stem height, galled ramets allocated relatively more biomass to rhizome growth than ungalled ramets. The end result was that galled ramets produced the same number and sizes of rhizomes as ungalled ramets.     

A STUDY OF SPATIAL FEATURES OF CLONES IN A POPULATION OF BRACKEN FERN,PTERIDIUM AQUILINUM (DENNSTAEDTIACEAE)

Allozymes were used to study the spatial attributes of clones (genets) comprising a population of Pteridium aquilinum (L.) Kuhn var. latiusculum (Desv.) Underw. ex Heller (bracken fern) in the Appalachian Mountains of Virginia. Ramets (individual leaves) were sampled at intervals of 165 m (or less in some cases) and genotyped for six polymorphic isozyme loci to produce a map depicting the spatial patterning of genets. Forty-five distinct genotypes were detected, 14 of which were sampled more than once, five of these more than four times. Genotype proportions at all loci except Pgm-1 conformed to Hardy-Weinberg expectations. Estimation of allele frequencies in the population used a “round-robin” approach that removed any upward bias for rare alleles that distinguish genets. Based on these allele frequencies, the probability that each genotype could arise independently and be sampled was calculated. Some genotypes represented by widely separated ramets had very low probabilities of re-encounter, documenting fragmentation of widespread genets. Coarse-scale mapping indicated a population consisting of many small genets and a few very large ones (up to 1,015 m across). The larger genets tended to be irregular in shape, fragmented, and overlapping. Fine scale mapping of individual fronds in spatially discrete patches of ramets revealed extensive intergrowth of genets, indicating that P. aquilinum exhibits a “guerrilla-type” clonal morphology.     

林隙对香樟和枫香幼苗早期生长阶段功能性状的影响

探究林隙对不同需光性树种早期生长特征和功能性状的影响,对揭示林隙微生境影响次生林内幼苗更新机制具有重要意义。以亚热带次生林中耐荫常绿树种香樟和阳性落叶树种枫香幼苗为试验对象,研究大林隙(D/H介于1.5—2.0)、中林隙(D/H介于1.0—1.5)和小林隙(D/H介于0.5—1.0)对不同需光树种幼苗早期(1—3年生)生长特征和功能性状的影响。结果表明：(1)林隙大小对两种幼苗的生长均有显著影响。其中,中林隙可显著促进香樟2—3年生幼苗的生长,大林隙对枫香1—3年生幼苗的生长均具有显著促进作用。(2)对林隙环境因子与幼苗功能性状的关系进行冗余分析表明,香樟幼苗功能性状的变化与林隙土壤有机质含量、水解性氮含量、酸碱度和有效磷含量密切相关,而枫香幼苗功能性状则主要受林隙土壤酸碱度、有机质含量、水解性氮含量、土壤含水率、冠层透光率和土壤有效磷含量的影响。(3)维持较高的根重比、细根比根长、叶碳氮比和叶碳磷比是幼苗应对林隙环境影响的重要生理生态调节机制。     

Reproductive phenology of two co‐occurring Neotropical mountain grasslands

Aim

Climate tends to explain phenological variations in tropical ecosystems. However, water availability and nutrient content in soil strongly affect plant communities, especially those on old, climatically buffered, infertile landscapes (OCBILs), and may impact these ecosystems’ plant reproductive phenology over time. Here, we compare the reproductive phenology of sandy and stony tropical grasslands, two co‐occurring herbaceous communities of the campo rupestreOCBILs. We asked whether flowering, fruiting and dispersal are seasonal in both grasslands, and whether these phenophases differ due to variations in soil properties. We also asked whether the phenological strategies and the number of flowers and fruits differ between these two grasslands as soil conditions vary.

Location

Serra do Cipó, Minas Gerais, Brazil.

Methods

The phenology of herbaceous species of sandy and stony grasslands was monitored monthly over two consecutive years.

Results

Plants on sandy and stony grasslands flowered and fruited throughout the year. We did not find a distinct seasonal pattern at the community level of either studied grassland. However, flowering, fruiting and seed dissemination occurred in stony grasslands mainly during the rainy season, while sandy grassland species flowered in both seasons and fruited and disseminated seed mainly during the dry season, as observed in other savanna vegetation types in the Cerrado. Flower and fruit production was higher in sandy grasslands than in stony grasslands, which may be linked to higher water retention in sandy grassland soils. In both communities, species of Cyperaceae, Eriocaulaceae and Xyridaceae contributed most to overall production, whereas Poaceae and Velloziaceae, two important families in campo rupestre, barely participated in the reproductive phenology during our 2‐yr survey.

Conclusions

Despite a strong seasonal climate, there was no reproductive seasonal pattern at the community level in campo rupestre. This first investigation of Neotropical grassland phenology indicates that the differences in soil content may constrain the grassland reproductive phenology and restrict reproduction of stony grassland species to the most favourable season. Further studies of grassland phenology are necessary to disentangle the relative importance of soil, climate and other triggers, especially fire.     

南方红豆杉水浸提液对喜树种子发芽和幼苗生长的化感作用

化感作用是影响人工混交林种间关系的重要因素之一。已有研究表明：喜树南方红豆杉混交对喜树生长有明显促进作用,并从混交改善混交林地微气候角度解释了这种促进作用,但未从种间化感作用角度探讨这种作用。为了探究南方红豆杉是否对喜树具有潜在的化感促进作用,从而更全面了解喜树南方红豆杉混交林种间关系,考察了不同浓度（25、50 g/L和100 g/L）的南方红豆杉（Taxus chinensis var.mairei）鲜叶、凋落叶、枝和根水浸提液对喜树（Camptotheca acuminata）种子发芽和幼苗生长的影响。结果表明：（1）南方红豆杉凋落叶浸提液对喜树种子发芽和幼苗生长无显著影响（P>0.05）,而鲜叶、枝和根浸提液对喜树发芽和幼苗生长均具有不同程度的促进作用（P<0.05）,且作用强度大体与浓度呈正相关;（2）100 g/L的南方红豆杉鲜叶、枝和根浸提液浸泡的喜树种子,其发芽率比对照组分别提高8.1%、14.9%和25.6%;（3）南方红豆杉鲜叶浸提液只有在高浓度（100 g/L）时,对喜树幼苗基径生长具有促进作用（P<0.05）,而对其株高、全株干重和净光合速率无显著影响;南方红豆杉根和枝浸提液对喜树幼苗株高、基茎、干重和净光合速率均具有促进作用（P<0.05）,与对照组相比,100 g/L的根和枝浸提液浇灌喜树幼苗,可以使喜树幼苗株高分别提高14.2%和8.4%,基径分别提高19.0%和15.3%,干重分别提高23.1%和15.9%,净光合速率分别提高11.6%和6.1%。研究结果表明,在喜树南方红豆杉混交林中,南方红豆杉对喜树的正向化感作用可能是促进喜树生长的重要因素之一。     

喷施硅对蒙古黄芪抗氧化酶活性以及产量和品质的影响北大核心CSCD

以蒙古黄芪为试验材料,设置大田随机区组试验,研究苗期、开花期和根茎伸长期叶面喷施不同浓度硅(500、1000、2000和4000 mg/L)对蒙古黄芪生长发育、抗氧化酶活性、药材产量和品质的影响,并检测施硅对黄芪白粉病、根腐病的防治效果,以揭示硅对增强黄芪抗病性、提升品质和产量的影响机理,为生产中蒙古黄芪的高效栽培提供理论依据。结果表明:(1)在不同生育时期,喷施不同浓度硅能增加蒙古黄芪株高、茎粗、株幅和叶绿素含量,促进蒙古黄芪生长,并以2000 mg/L硅处理效果较佳。(2)不同生育时期喷施硅能提高蒙古黄芪叶片SOD、CAT、POD和APX等抗氧化酶活性,降低MDA含量,以开花期、根茎伸长期2000 mg/L硅处理较佳。(3)施硅能有效降低蒙古黄芪白粉病、根腐病的病情指数,当施硅浓度为2000 mg/L时防效均达到最高,并分别达到47.05%和39.08%。(4)施硅处理能有效提高蒙古黄芪单株干、鲜生物量、产量以及可溶性浸出物和黄芪甲苷含量等品质指标,并在2000 mg/L硅浓度处理下均达到最佳水平,此时可溶性浸出物和黄芪甲苷含量分别比对照显著提高了16.48%和31.96%。研究发现,叶面喷施适宜浓度硅可显著增强蒙古黄芪对白粉病、根腐病的抗性,促进植株生长,进而显著提高药材产量,改善药材品质,并以硅浓度为2000 mg/L时效果最佳。     

Comparison of phenotypic and genetic clone delineation in quaking aspen, <Emphasis Type="Italic">Populus tremuloides</Emphasis>

Key message

Clonal delineation at nuclear microsatellites and phenotypic traits showed high correspondence and revealed an important role of both sexual and clonal reproduction for stand genetic structure.

Abstract

Quaking aspen (Populus tremuloides Michx.) grows throughout the northern and central portions of North America. Reproduction occurs both sexually via seeds and clonally from root suckers. Clonal delineation using morphological/phenological traits, and more recently, highly variable nuclear microsatellites have shown considerable variation in the size of clonal assemblies, and the relative importance of sexual versus clonal reproduction across the species range. In order to provide reliable estimates of genet size (N/G; ramets per sampled genet) and genotypic diversity (G/N; genets/ramets), and to compare genetic and phenotypic clone delineation, we characterized 181 sampled stems (ramets) at seven nuclear microsatellites, and morphological and phenological traits from six clones (genet size ≥11). Genotypic diversity was moderate (G/N = 0.18) and within the range reported in other studies across North America. Multivariate statistics revealed a high correspondence between genetic and phenotypic clone delineation, both with and without predefined genetic groups (94.2 %, 81.7 %). Moderate average genet size (5.6 ramets per genet) and the occurrence of genetically distinct single-ramet genets surrounded by larger genets suggested intermediate levels of sexual reproduction contributing to the genetic structure of this stand. Significant differences among genets were found for phenological and morphological traits such as bark thickness and leaf shape. However, most clones showed no significant differences in diameter growth which was likely caused by poor drainage in this high clay soil that inhibited the expression of genetic differences in growth.

     

Control of shrub establishment by springtime soil water availability in an annual grassland

Summary Previous studies have shown that the shrub, Baccharis pilularis spp. consanguinea, invades annual grasslands in the San Francisco Bay region in a sporadic manner. Invasion was shown to be positively correlated with the amount of rainfall received in the spring. Here we show that, although Baccharis seeds are dispersed near the beginning of the winter rainy season, seedling root growth is extremely slow until spring. At this time, cessation of the winter rains and transpiration by the grassland annuals results in drying of the upper soil profile. We conclude that establishment of Baccharis seedlings at our study site usually fails because seedling roots cannot reach depths of permanently moist soil, below the depth of the grass roots, before this soil drought occurs. The continuation of rains into the warmer spring months provides a window of time when favorable temperatures and adequate soil moisture allow shrubs to establish.     

核桃青皮分解对小白菜生长及生理特性的影响

采用盆栽试验,研究了不同剂量核桃(Juglans regia L.)青皮在土壤中分解过程中对受体植物小白菜(Brassica rapa L.var.chinensis)幼苗生长及其生理特性的影响,探讨核桃青皮的化感作用机理。结果表明:(1)核桃青皮在施入土壤的75d内,显著抑制了小白菜地上部分生物量的积累。(2)各剂量青皮处理小白菜叶片的叶绿素含量在施入20d时均较CK降低,且随着处理时间延长总体呈减少趋势。(3)各剂量青皮处理小白菜叶片超氧化物歧化酶(SOD)、过氧化物酶(POD)活性在施入20d和75d时大多比对照显著升高,且有随剂量增加而增强的趋势,但过氧化氢酶(CAT)活性则随添加量增大或处理时间延长多无显著变化。(4)小白菜叶片可溶性糖(SS)含量在施入20d时随青皮添加量的增加而增加,后期则表现为显著下降,而可溶性蛋白(SP)和脯氨酸(Pro)含量在整个处理期则呈减少趋势。研究认为,核桃青皮在土壤中分解可能对小白菜的生长和抗性生理指标产生了明显的化感作用,其化感作用强度随其分解时间延长呈先强后弱的变化趋势,且高添加量产生的效应比低添加量快而且强。     

Speedy blooming in Cerrado after fire is not uncommon: New records of Cyperaceae species flowering 24 h after burning

Fire-stimulated flowering has long been a subject of investigation in tropical grasslands and savannas. Still, speedy blooming (i.e. flowering in <24 h after fire) had only been recently described for a single species of Cyperaceae common in Cerrado open ecosystems. Here, we described two new species displaying this unique feature of producing flowers <24 h after fire, suggesting that this fast phenological response might be more common than previously thought. Rhynchospora confusa F.Ballard and Rhynchospora terminalis Nees ex Steud. var. terminalis are two widely distributed species in grasslands and savannas at Chapada dos Veadeiros (a World Natural Heritage by UNESCO). Yet, there is a paucity of herbarium collection for both species and no registration of the quick bloom after fire passage or other aspects of their ecology. Understanding the diversity of phenological patterns and vegetation responses to fire is key to uncovering the functioning and singularities of the tropical open ecosystems.     

The taxonomy and morphological and anatomical differentiation of populations ofLeiothrix crassifolia (Eriocaulaceae)

The morphological and anatomical leaf and scape differentiation ofLeiothrix crassifolia is analysed and classified into seven types (I, II, III, IV, V, VI, VII). The species has a relatively wide distribution in the campo rupestre of Minas Gerais in Brazil. Variation in the isolated populations on different mountain ranges is complex, does not follow a clear geographical pattern, and defies taxonomic classification.L. nubigena andL. obtusifolia are included inL. crassifolia.     

Dynamics of distribution and performance of ramets constructing genets: a demographic�Cgenetic study in a clonal plant, Convallaria keiskei

Background and Aims

In clonal plants producing vegetative offspring, performance at the genet level as well as at the ramet level should be investigated in order to understand the entire picture of the population dynamics and the life history characteristics. In this study, demography, including reproduction and survival, the growth patterns and the spatial distributions of ramets within genets of the clonal herb Convallaria keiskei were explored.

Methods

Vegetative growth, flowering and survival of shoots whose genets were identified using microsatellite markers were monitored in four study plots for 3 years (2003–2005). The size structures of ramets in genets and their temporal shifts were then analysed. Their spatial distributions were also examined.

Key Results

During the census, 274 and 149 ramets were mapped in two 1 × 2 m plots, and 83 and 94 ramets in two 2 × 2 m quadrats. Thirty-eight genotypes were identified from 580 samples. Each plot included 5–18 genets, and most ramets belonged to the predominant genet(s) in each plot. Shoots foliated yearly for several years, but flowering ramets did not have an inflorescence the next year. A considerable number of new clonal offspring persistently appeared, forming a bell-shaped curve of the size structure of ramets in each genet. Comparing the structures modelled by the normal distributions suggested variation among ramets belonging to a single genet and variation among genets. Furthermore, spatial analyses revealed clumped and distant distributions of ramet pairs in a genet, in which the distant patterns corresponded to the linearly elongating clonal growth pattern of this species.

Conclusion

Characteristics of ramet performances such as flowering and recruitment of clonal offspring, in addition to growth, played a large part in the regulation of genet dynamics and distribution, which were different among the studied genets. These might be characteristics particularly relevant to clonal life histories.Key words: Clonal plant, Convallaria keiskei, demography, genet, genetic identification, growth pattern, life history, ramet, spatial distribution     

Fine‐scale asexual and sexual reproduction in Quercus crispula var. horikawae,a stunted shrub oak,on a mountain with deep snow in central Japan

Quercus crispula var. horikawae, a stunted shrub oak, occurs on mountains with deep snow on the Sea of Japan side of Japan. This oak generates patches of multiple creeping stems. It is unclear whether these patches are the result of asexual or sexual reproduction, or both. We therefore aimed to describe the clonal structure and gene flow in Q . crispula var. horikawae on Mount Nasu in central Japan by using nuclear microsatellites. Genotypes of 331 stems with no distinct connection with roots and creeping stems above the ground were determined using nine loci in two study plots, and 64 acorns from three mother genets in a plot were determined using eight loci. The results of the clonal identification indicated that the patches consisted of 51 genets; at least 85% of the stems may have been derived from asexual reproduction through sprouting and layering. The prominence of asexual reproduction may be a result of adaptation to the snowy environment. In contrast, 15% of the ramets in the study plots probably originate via sexual reproduction by seedling regeneration. Analyses of the spatial genetic structure and paternity showed that limited ability of the pollen and seeds to disperse might result in the spatial aggregations of closely related offspring at a relatively short distance (<10 m), and inbreeding, a factor that might reduce sexual reproduction, was not observed. Thus, sexual reproduction could be reduced by ecological rather than genetic factors, namely the hindrance of seedling regeneration by the dense coverage of dwarf bamboo (Sasa) on the forest floor.     

宁夏贺兰山青海云杉根系共生真菌的分离与鉴定

[背景]青海云杉(Picea crassifolia)是中国特有植物,具有极高的生态价值,是西北地区重要的森林更新树种和荒山造林树种,其生长发育及其抗逆性与根系共生真菌多样性密切相关.[目的]从青海云杉根系分离并鉴定定殖的可培养共生真菌,阐明青海云杉根系可培养共生真菌的种类组成,为共生真菌在青海云杉育苗、造林及生态恢复...