Structural and functional plasticity of<Emphasis Type="Italic"> Quercus ilex</Emphasis> seedlings of different provenances in Italy

Functional and structural leaf traits of Quercus ilex seedlings originated from parent plant acorns from three different localities in Italy were studied. Acorns from three different localities along a gradient from the north to the south of Italy: Nago (site A) in the Garda Lake region at the northernmost limit of holm oak distribution area in Italy, Castelporziano near Rome (site B), at the centre of the distribution area, and Frassanito near Otranto (site C), in a drier area in the south of Italy. Morphological and anatomical leaf traits differed between the provenances with a higher leaf mass area, total leaf thickness and the ratio of palisade to mesophyll thickness in the driest provenance (C seedlings). These traits gave C seedlings a higher water use efficiency, relative water content at predawn and photosynthetic rates than the other provenances in high air temperature conditions. The smaller leaf area of A seedlings seemed to have a higher photosynthetic capacity in low air temperature conditions than B and C seedlings. Growth analysis underlined a higher shoot relative growth rate in B seedlings explaining the highest shoot length and leaf number per shoot. The plasticity index [sensu Valladares et al. (2000) Ecology 81:1925–1936] for physiological traits of the seedlings was higher than morphological and anatomical traits, but the largest differences in plasticity among ecotypes were found for morphological and anatomical traits. The ecotypes of Q. ilex studied here seemed to integrate, at leaf level, functions of growth activity, morphology and physiology related to the climate of the original provenance.     

元江干热河谷植物叶片解剖和养分含量特征

研究了元江干热河谷旱田植物(旱季可浇灌,水分较好)和山坡半萨王纳植被中(自然状况,水分较差)共20种的叶片形态解剖特征,以及7种山坡植物叶片养分含量特征.结果表明,山坡植物叶片比叶重大,气孔密度大,气孔长度小,海绵组织/栅栏组织的值小等.元江干热河谷山坡植物叶片养分含量低,1.3%＞Ca＞N＞K＞1%＞Mg＞P＞S.除氮元素外,其它元素种间差别1～3倍.与热带植物群落叶片养元素含量相比,热带雨林＞元江山坡植物＞东南亚沙地旱生林和巴西矮卡廷加群落,表明元江干热河谷植物叶片具有明显的旱生性形态解剖特征,且叶片养分含量也较低.     

不同光环境下枫香幼苗的叶片解剖结构

落叶阔叶树种枫香是常绿阔叶林的优势种之一。对比研究了重庆丰都世坪林场不同光环境下枫香幼苗叶片的解剖特征,结果表明:1)旷地枫香叶片的厚度大,气孔个体较大且排列紧密,栅栏组织发达,具有明显的旱生叶特征;而林下的枫香叶片明显变薄,气孔小且排列稀疏,海绵组织发达,具有一定的阴生叶特征;2)不同光环境下,气孔密度、栅栏组织的厚度和层数、栅栏细胞长度以及栅栏组织与海绵组织厚度比(P/S)等具有较高的可塑性,表明这些因素对于枫香适应不同光环境具有较大的作用;3)从叶片解剖特征与功能的统一来看,阳性树种枫香幼苗更适合生长在旷地等高光生境中,而不易生长在郁闭的林下;4)落叶阔叶树种在中亚热带常绿阔叶林群落恢复与演替中具有重要作用。     

Winners and losers: tropical forest tree seedling survival across a West African forest–savanna transition

Forest encroachment into savanna is occurring at an unprecedented rate across tropical Africa, leading to a loss of valuable savanna habitat. One of the first stages of forest encroachment is the establishment of tree seedlings at the forest–savanna transition. This study examines the demographic bottleneck in the seedlings of five species of tropical forest pioneer trees in a forest–savanna transition zone in West Africa. Five species of tropical pioneer forest tree seedlings were planted in savanna, mixed/transition, and forest vegetation types and grown for 12 months, during which time fire occurred in the area. We examined seedling survival rates, height, and stem diameter before and after fire; and seedling biomass and starch allocation patterns after fire. Seedling survival rates were significantly affected by fire, drought, and vegetation type. Seedlings that preferentially allocated more resources to increasing root and leaf starch (starch storage helps recovery from fire) survived better in savanna environments (frequently burnt), while seedlings that allocated more resources to growth and resource‐capture traits (height, the number of leaves, stem diameter, specific leaf area, specific root length, root‐to‐shoot ratio) survived better in mixed/transition and forest environments. Larger (taller with a greater stem diameter) seedlings survived burning better than smaller seedlings. However, larger seedlings survived better than smaller ones even in the absence of fire. Bombax buonopozense was the forest species that survived best in the savanna environment, likely as a result of increased access to light allowing greater investment in belowground starch storage capacity and therefore a greater ability to cope with fire. Synthesis: Forest pioneer tree species survived best through fire and drought in the savanna compared to the other two vegetation types. This was likely a result of the open‐canopied savanna providing greater access to light, thereby releasing seedlings from light limitation and enabling them to make and store more starch. Fire can be used as a management tool for controlling forest encroachment into savanna as it significantly affects seedling survival. However, if rainfall increases as a result of global change factors, encroachment may be more difficult to control as seedling survival ostensibly increases when the pressure of drought is lifted. We propose B. buonopozense as an indicator species for forest encroachment into savanna in West African forest–savanna transitions.     

Fagus sylvatica L. provenances maintain different leaf metabolic profiles and functional response

Most temperate forest tree species will suffer important environmental changes as result of the climate change. Adaptiveness to local conditions could change at different sites in the future. In this context, the study of intra-specific variability is important to clarify the singularity of different local populations. Phenotypic differentiation between three beech provenances covering a wide latitudinal range (Spain/ES, Germany/DE and Sweden/SE), was studied in a greenhouse experiment. Non-target leaf metabolite profiles and ecophysiological response was analyzed in well-watered and water stressed seedlings. There was a provenance-specific pattern in the relative concentrations of some leaf metabolites regardless watering treatment. The DE and SE from the center and north of the distribution area of the species showed a clear differentiation from the ES provenance in the relative concentration of some metabolites. Thus the ES provenance from the south maintained larger relative concentration of some organic and amino acids (e.g. fumaric and succinic acids or valine and isoleucine), and in some secondary metabolites (e.g. kaempferol, caffeic and ferulic acids). The ecophysiological response to mild water stress was similar among the three provenances as a consequence of the moderate water stress applied to seedlings, although leaf N isotope composition (δ¹⁵N) and leaf C:N ratio were higher and lower respectively in DE than in the other two provenances. This would suggest potential differences in the capacity to uptake and post-process nitrogen according to provenance. An important focus of the study was to address for the first time inter-provenance leaf metabolic diversity in beech from a non-targeted metabolic profiling approach that allowed differentiation of the three studied provenances.     

Edaphic and climatic history has driven current dung beetle species pool and assemblage structure across a transition zone in central South Africa

We investigate biogeographical, regional and sub‐regional‐scale responses of scarabaeine dung beetles to late Cenozoic changes in edaphic and climatic character that created a Savanna/Karoo transition zone in the Northern Cape, South Africa. Across a 50 200 km² study area, the Northern Cape species pool comprised six biogeographical groups defined from distribution across southern Africa. These species groups contributed in different proportions to five regional assemblages defined from structural differences across the transition zone. Towards transition zone peripheries, regional assemblage structure was more strongly correlated to sandiness dating from Miocene to Pliocene deposition (Kalahari), aridity dating from Pliocene to Pleistocene climatic change (Bushmanland Karoo), or cooler temperatures dating from Miocene to Pliocene uplift (Upper Karoo). Correlates of sub‐regional assemblages trended to intensification of dominant drivers towards regional peripheries. Drivers of central transition zone, regional assemblages (‘Gariep Karoo’, ‘Gariep Stony Karoo’) showed no dominance. Biogeographically, endemism dominates the Northern Cape transition zone: south‐west arid groups in Nama Karoo regions; Kalahari plus north‐east savanna groups in the Kalahari. Regionally, transition drives assemblage structure: unique variance, 60% in the Kalahari, 21–30% in four Nama Karoo regions; shared variance (overlap), 25–65% between Kalahari and warmer Karoo regions, 11–71% between mainly cooler Karoo regions.     

越冬期遮阴条件下3个不同秋眠型紫花苜蓿品种叶片解剖结构与其光生态适应性

在我国南北气候过渡地区, 采用遮阴试验和石蜡切片法, 研究越冬期不同光强对3个不同秋眠型紫花苜蓿(Medicago sativa)品种(‘维多利亚’、 ‘巨人201’和‘游客’)叶片解剖结构的影响。结果表明: 随着光强减弱, 各紫花苜蓿品种表皮结构中上、下表皮角质层厚度, 气孔密度和气孔开度明显下降; 上、下表皮厚度呈上升趋势。随着遮阴强度增加, 叶肉组织中海绵组织细胞宽度显著上升, 栅栏组织厚度、栅栏组织细胞层数、栅栏组织厚度/海绵组织厚度显著下降; 品种间海绵组织厚度和栅栏组织细胞宽度变化趋势不一致。叶片结构整体特征中叶片厚度、叶肉厚度、中脉厚度、组织结构紧密度随光强减弱而显著下降, 组织结构疏松度明显上升, 叶脉突起度变化不明显。品种间各叶片解剖性状变幅及可塑性指数具有明显的差异, 表明其对弱光适应方式不同。Pearson相关分析表明, 各紫花苜蓿品种叶片气孔密度、栅栏组织厚度、叶肉厚度、叶片厚度及栅栏组织厚度/海绵组织厚度与光强呈显著正相关, 可能是紫花苜蓿叶片解剖结构光强敏感特征参数, 其中, ‘维多利亚’叶片敏感特征参数与光强相关程度较低, 与光强相关的性状较少。综合各项分析结果, 初步确定越冬期紫花苜蓿耐阴性与其秋眠性相关, 半秋眠型品种‘维多利亚’ >秋眠型品种‘巨人201’≥非秋眠型品种‘游客’。     

蒙古莸叶片解剖结构的地理种源变异及其对环境变化响应的意义

长期受到生长环境影响而形成的遗传变异对植物生长发育有着显著的影响。叶片是植物对环境变化最敏感的器官, 了解叶片解剖结构在不同环境中产生的适应性变异是探索植物对环境适应的基础。同质园试验是研究遗传与环境因素对植物生长代谢等影响的一种有效方法, 该研究利用同质园试验排除了环境梯度的影响, 通过常规石蜡切片、多重比较、相关性分析、一般线性模型分析等方法, 对7个不同种源地的蒙古莸(Caryopteris mongholica)叶片解剖结构及其影响因素进行了定量比较。结果表明, 7个种源地的蒙古莸叶片均为等面叶, 无海绵组织分化, 其上表皮细胞较下表皮细胞厚, 上栅栏组织较下栅栏组织厚; 叶片各解剖结构参数间存在显著的自相关性, 不同种源叶片解剖结构存在显著差异: 随种源地年平均气温升高, 叶厚度、栅栏组织厚度呈增大趋势, 其中, 最西南部的阿左旗种源蒙古莸叶片的上下栅栏组织、叶厚度及叶片结构紧密度值均最大, 表现出明显的抗旱特征。种源地经纬度、气温、降水等对解剖结构指标有显著的影响, 其解释程度为34.09%-81.43%。同质园试验说明, 种源地气候差异驱动的遗传变异是引起不同种源叶片解剖结构差异的重要因素。     

Relationships between vessel element anatomy and physiological as well as morphological traits of leaves in <Emphasis Type="Italic">Fagus crenata</Emphasis> seedlings originating from different provenances

We attempted to observe differences in vessel element anatomy, and physiological and morphological traits of leaves in Fagus crenata seedlings originated from seven different provenances grown under the uniform environmental conditions. We also investigated the relationships between the anatomical characteristics of the vessel elements and physiological plus morphological traits of leaves in Fagus crenata seedlings. To carry out the experiments, Fagus crenata samples were prepared from Chichibu Research Forest of Tokyo University. For anatomical studies of the vessel elements, vessel number per mm², average vessel area, and the percentage of vessel area from the pith to the bark side were measured. We also measured transpiration rate, stomatal conductance, leaf area, leaf thickness, leaf dry mass per unit leaf area and leaf density for foliar studies. The anatomical characteristics of the vessel elements as well as the physiological and morphological traits of leaves were noticeably different among provenances. In addition, we found significant correlations between the foliar characteristics not only with vessel number per mm², but also with vessel area percentage and sum of the (vessel area)², theoretical hydraulic conductivity, from the pith to the bark side. Therefore, we concluded that variations in physiological and morphological traits of leaves in response to provenance variation were in correspondence with vessel number per mm² as a parameter that determines the total vessel area and consequent water hydraulic conductance in Fagus crenata as a diffuse porous hardwood.     

不同地理种源桔梗种子性状及苗期生长分析

对来源于不同产地的43份桔梗[Platycocon grandiflorus（Jaeq．）A．DC．]种子的地理变异、种子特性及幼苗生长状况进行了分析。根据不同种源桔梗种子的特性、发芽率及幼苗的生长状况,利用聚类分析方法可将供试的桔梗种源大致分为南方和北方2个地理种源,其中北方种源的种子颗粒较大,千粒重达1．21～1．35g;南方种源的种子发芽率高（65％～71％）,种子千粒重为1．15～1．20g,幼苗生长健壮,根系较发达。此外,桔梗种子的发芽率与纬度呈明显的负相关,桔梗幼苗地上部分的生长与根茎的生长存在显著的相关性,可作为早期间苗及幼苗筛选的标准。研究结果表明,来源于安徽毫州及安徽太和的桔梗种源适合在浙江富阳地区栽培。     

不同杉木无性系叶片解剖结构对大气增温的响应

以10个不同杉木无性系幼林叶片为研究对象,在对研究地气候因子进行分析基础上,采用微波石蜡快速切片法制作叶片解剖结构,通过观测比较叶片8项解剖结构指标的差异规律,研究不同杉木无性系叶片解剖结构在大气增温背景下的响应特征。结果表明：（1）研究地2020年度夏季气温呈先上升后下降的趋势,降水量变化与之相反,呈现出明显的高温干旱现象。（2）不同杉木无性系叶片解剖结构相似,叶肉组织分化为栅栏组织和海绵组织,为典型异面叶;解剖结构指标除下表皮厚度外,其余指标在无性系间呈现出不同程度的改变,表现出对大气增温响应的形态可塑性差异。（3）相关性分析结果表明,叶片解剖结构指标之间存在一定自相关关系;气候因子中,月平均气温与栅栏组织呈极显著正相关关系（P<0.01）,月均降水量与栅栏组织、海绵组织、栅海比均呈极显著正相关关系（P<0.01）。（4）根据主成分分析结果,筛选出海绵组织、栅栏组织、叶片厚度、表皮组织和角质层为表征杉木叶片解剖结构的典型指标,反映出在大气增温背景下杉木叶片解剖结构变化特征以抵抗强烈光照和减少水分散发的特性。（5）不同杉木无性系叶片可塑性指数均值排序结果为W2 > P11 > S4 > P32 > P41 > P17 > P18 > S22 > S23 > 洋061,表明不同杉木无性系对大气增温的生态适应性与之相对应。综上可见,不同杉木无性系对环境的适应能力存在差异,叶片具有较强的形态可塑性变化,当气温改变时,杉木可通过叶片解剖结构调整以应对不断增加的大气温度带来的高温干旱复合逆境胁迫,未来应充分重视气候变化对杉木人工林生长发育的影响。     

Life-span growth dynamics and xylem anatomical patterns of diffuse-porous Afzelia africana Sm. (Fabaceae) in different ecological zones in Burkina Faso

Tropical West African savannas are exposed to high climatic variability with potential impacts on tree growth, forest dynamics and ecosystem productivity. In such context, understanding the long-term ecological responses of savanna trees to changing environmental conditions is of great relevance for taking appropriate conservation actions. We conducted the first study on tree-ring analysis and quantitative wood anatomy on Afzelia africana Sm. in Burkina Faso, to investigate the life-span growth trajectories and wood anatomical adjustment to site and to climate variations. A total of 24 stem discs was collected in four protected forests along the Sudano-sahelian and the Sudanian climatic zones. Wood samples were analyzed using standard dendrochronological methods and quantitative wood anatomy. The mean annual growth rates varied from 1.002 (± 0.249) mm. year⁻¹ in the Sudanian zone to 1.128 (± 0.436) mm. year⁻¹ in the Sudano-sahelian zone. Analysis of growth trajectories showed high variations within sites and between climatic zones. Wood anatomical traits significantly varied between sites. Principal Component Analysis revealed strong relationships between ring width, wood density and vessel traits, with 82.81 % of the total variance explained. Vessel size significantly increased from the pith to the bark, highlighting the ontogenetic effects on xylem anatomical variations. Inverse relationships were found between vessel size and vessel density across the driest site and the wettest site, suggesting that the higher the rainfall, the taller the tree, the larger vessel size, but the lower vessel density. By contrast, more arid conditions and high evapotranspiration lead to smaller vessel sizes and higher vessel density. Such anatomical adjustments highlight the trade-offs between water conductance efficiency and hydraulic safety, and emphasize physiological responses to climate variability. These variations on the long-term dynamics and xylem anatomical patterns underline complex interactions between ontogenetic effects and contrasting environmental factors that affect the eco-physiological functioning of A. africana throughout the Sudanian region.     

New evidence for hybrid zones of forest and savanna elephants in Central and West Africa

The African elephant consists of forest and savanna subspecies. Both subspecies are highly endangered due to severe poaching and habitat loss, and knowledge of their population structure is vital to their conservation. Previous studies have demonstrated marked genetic and morphological differences between forest and savanna elephants, and despite extensive sampling, genetic evidence of hybridization between them has been restricted largely to a few hybrids in the Garamba region of northeastern Democratic Republic of Congo (DRC). Here, we present new genetic data on hybridization from previously unsampled areas of Africa. Novel statistical methods applied to these data identify 46 hybrid samples – many more than have been previously identified – only two of which are from the Garamba region. The remaining 44 are from three other geographically distinct locations: a major hybrid zone along the border of the DRC and Uganda, a second potential hybrid zone in Central African Republic and a smaller fraction of hybrids in the Pendjari–Arli complex of West Africa. Most of the hybrids show evidence of interbreeding over more than one generation, demonstrating that hybrids are fertile. Mitochondrial and Y chromosome data demonstrate that the hybridization is bidirectional, involving males and females from both subspecies. We hypothesize that the hybrid zones may have been facilitated by poaching and habitat modification. The localized geography and rarity of hybrid zones, their possible facilitation from human pressures, and the high divergence and genetic distinctness of forest and savanna elephants throughout their ranges, are consistent with calls for separate species classification.     

Edge influence on plant litter biomass in forest and savanna in the Brazilian cerrado

Edge influence, characterized by differences in ecosystem characteristics between the edge and the interior of remnants in fragmented landscapes, affects a variety of organisms and ecosystem processes. An important feature that may be affected by edges is the amount of plant litter, which provides important habitat for a large variety of organisms and influences ecological processes such as fire dynamics. We studied edge influence on plant litter and fine woody debris in the cerrado of São Paulo state, south‐eastern Brazil. We collected, sorted, dried and weighed plant litter along 180 m‐long transects perpendicular to three savanna and eleven forest edges adjacent to different anthropogenic land uses, with four to five transect per edge. There tended to be less biomass of the finer portions of fine woody debris at both savanna and forest edges. Graminoid litter at savanna edges was greater than in the corresponding interior areas, whereas other litter portions were either unaffected by edges or did not show consistent patterns in either savanna or forest. Edge influence was usually restricted to the first 20 m from the edge, was not influenced by edge characteristics and exhibited no clear differences between savanna and forest areas. Several mechanisms may have led to the variable patterns observed including variation in the plant community, plant architecture, and invasive species. The edge‐related variation in plant litter may putatively lead to, for example, increased fire frequency and intensity at the savanna edges and altered trophic dynamics at forest edges; the mechanisms and consequences of this edge influence should be addressed in future studies.     

Long-Term Variation in Small Mammal Abundance in Forest and Savanna of Bolivian Cerrado

Small mammals were trapped annually in two savanna and two forest plots in cerrado habitats of Noel Kempff Mercado National Park, Santa Cruz, Bolivia, for 5–10 yr. Eighteen species were captured in forest and seven species in savanna. Species numbers and total number of individuals captured were tightly correlated. In forest, species and abundance varied interannually by up to fourfold in one plot and to 100-fold in the other, and showed alternating highs and lows as is typical for small mammals. The largest faunal differences were due not to site differences, but to year differences, with markedly different patterns in forests and savannas. Abundance was not correlated with rainfall overall, but showed correlation in exceptional years of rainfall and ENSO drought. In savanna, species and overall abundance declined without recovery during 3 yr after reaching minimum numbers in 2004. One species, Cavia aperea , became extinct on both plots, and subsequently, apparently on the entire savanna. Both herbivorous and insectivorous species declined together. Rainfall, fire, and flooding do not seem to account for savanna rodent declines. I propose the novel hypothesis that smoke from anthropogenic burning raises nocturnal temperatures and prevents dew formation, and that a decrease in nightly dry season dewfall has been instrumental in rodent declines. Anecdotal and climatic data are consistent with this hypothesis, but it cannot yet be tested.     

南亚热带不同海拔常绿阔叶林树种叶性状的比较分析

南亚热带地带性植被是季风常绿阔叶林(海拔300～600 m;简称季风林),在中山地带则分布为山地常绿阔叶林(海拔1 000～1 500 m;简称山地林)。山地林的生态价值日益受到重视,但是对其树种的环境适应性仍缺乏足够了解。该研究基于南亚热带典型山地林(广西大明山)和季风林(广东鼎湖山)的固定样地,共测定57种代表性树种的叶形态解剖特征、机械强度和水力学性状,比较不同海拔常绿阔叶林树种叶性状以及多类性状关联性的差异。结果表明,与季风林树种相比,山地林树种叶较厚、比叶面积较小、机械强度较高,有利于提高对较高海拔山区冬季冰冻的适应能力。在2022年夏季持续高温干旱时期,季风林树种的叶水势和水力安全边界均低于山地林。但是大部分树种水力安全边界为正值且种间变异较大,表明不同海拔常绿阔叶林的水力风险较低。不同海拔常绿阔叶林的叶性状网络不同,山地林树种叶水力安全性和效率性无权衡关系,而季风林树种叶经济学性状(如比叶面积)与其他指标的关联性较弱。基于叶性状的研究揭示了南亚热带不同海拔常绿阔叶林树种适应策略的差异性和多样性。     

Which Extent is Plasticity to Light Involved in the Ecotypic Differentiation of a Tree Species from Savanna and Forest?

Light intensity and heterogeneity are some of the main environmental factors that differ between forest and savanna habitats, and plant species from these habitats form distinct functional types. In this study, we tested the hypothesis that not only differences in morphological and physiological traits but also phenotypic plasticity in response to light are involved in adaptation to forest and savanna habitats by investigating ecotypic differentiation between populations of Plathymenia reticulata (Leguminosae: Mimosoideae), a tree from the Brazilian Atlantic Forest and the Brazilian Cerrado (savanna). Seeds from four natural populations (one from each biome core area and two from ecotonal regions) were grown in a common garden with four light treatments. Fifteen morphological and physiological characteristics were evaluated until individuals reached 6 mo old. Comparisons among populations showed differences for seven traits in at least one light treatment. These differences pointed to local adaptation to different biomes. Populations showed different levels of phenotypic plasticity in response to light in seven traits. Higher plasticity was found either in the forest core population or ecotonal populations; lower values were found in the cerrado core population. Lower plasticity in the cerrado population emphasizes the stress resistant syndrome, as lower plasticity is probably advantageous in a habitat where a conservative resource use is crucial. Higher plasticity in forest individuals suggests higher ability in exploiting the light heterogeneity in this habitat. Also, higher plasticity in ecotonal populations can be important to ensure the maintenance of P. reticulata in these temporally and spatially dynamic areas. Abstract in Portugese is available at http://www.blackwell‐synergy.com/loi/btp .     

Post‐Establishment Seedling Success in the Brazilian Cerrado: A Comparison of Savanna and Forest Species1

Due to frequent fire, low nutrient availability, and prolonged drought, tropical savanna is a stressful environment for the survival and growth of woody plant seedlings. To understand why forest species do not succeed in this environment while savanna species are able to persist, the effects of fire and woody cover on seedlings of these two functional groups were investigated in the Brazilian Cerrado. Seedlings were established in experimental plots under three densities of woody cover, in sites protected from fire and sites to be subjected to fire. There was a clear difference in the ability of savanna and forest species to survive fire. None of the three forest species were able to survive fire during the first two years of life, whereas eight of the nine savanna species were able to resprout following fire. The small seed size of the ninth savanna species, Miconia albicans, predisposed its seedlings to be sensitive to fire, because there was a strong positive correlation between seed size and survivorship. Savanna species were less dependent on woody cover than were forest species, which exhibited higher growth and survival under tree canopies than in open grassland. The low rates of establishment and survival of forest trees in savanna, combined with high sensitivity to fire, appear sufficient to prevent the expansion of forest into savanna under current fire regimes in the Cerrado.     

Productive leaf functional traits of Chinese savanna species

The river valleys in Southwest China are characterized by a dry?Chot climate and relatively rich soils, and host valley-type savannas that are dominated by deciduous species. However, little is known about the ecological adaptations of Chinese savanna plants to the local environments. We hypothesize that Chinese savanna species mainly possess a drought-avoiding strategy by having a deciduous leaf habit and have productive leaf traits. To test this hypothesis, we measured 26 anatomical, morphological, physiological, and chemical traits for 33 woody species from a valley savanna in Southwest China and compared them with the literature data of other dry and wet tropical tree species and a global dataset. We found that Chinese savanna species showed drought avoidance adaptations and exhibited productive leaf traits, such as thin and dense leaves with high ratio of palisade to spongy mesophyll, leaf nutrient concentrations and photosynthetic capacity. Correlations of photosynthetic capacity with N, P, and stomatal conductance across Chinese savanna species were consistent with global patterns reported for seed plants. However, the Chinese savanna species had consistently greater carbon gain at a given specific leaf area, N, P, and stomatal conductance, suggesting higher nutrient- and intrinsic water use efficiencies. These results suggest that paradoxically, Chinese savanna species are adapted to the stressful dry?Chot valley habitat by having productive leaves.     

The Discussion on the Border Line of Vegetational Regions of Xinganling Mountain in China

The present paper described the border line of vegetation regions of Xinganling Mts. in China. The border line between the larch (Larix dahurica) forest region and pine (Pinus koraiensis) broalleaved mixed forest region determined according to the materials of survey of field work are Aihui-Naheko-Menluhe. The main reasons for the line are as follows: (1) pine broal-leaved mixed forest as the zonal vegetation of lesser Xinganling Mrs. is mainly covering in the south of the line, but Oak (Quereus mongolica)-larch forest in the north of the line; (2) Though Oak forest is widely distributed in both the south and the north of the line, there are well-marked differences in constitutions, structures, originations as well as growth between them; (3) differences in floristic compositions between the south and the north of the line; (4) different artificial vegetation between to regions. Such differences are caused by climatic, earth elevation and glacial activity, etc.