气候变化下西南地区植物功能型地理分布响应

以中国西南地区(云南、贵州、四川和重庆)为研究区,基于中国植被图划分植物功能型,筛选影响各植物功能型分布的主导环境因子,进而通过最大熵模型结合未来气候情景(2050年)预测西南地区植物功能型地理分布。结果表明:(1)根据植物冠层特征(针叶/阔叶、常绿/落叶)及对水分和温度的需求,结合研究区实际植被数据,筛选得到15类植物功能型,包含6类乔木、6类灌木和3类草本功能型;(2)影响西南地区热带乔木分布的主导因子为最冷月最低温度和年降水量(贡献率达90.3%),亚热带植物功能型分布主要受到温度变化影响(贡献率达41.7%),温带植物功能型则受降水因子的影响最大(贡献率约40.1%),高寒草甸草和高寒常绿阔叶灌木主要受温度和海拔因子影响,高寒落叶阔叶灌木受降水因子影响大;(3)随CO_2排放量增加,未来西南各植物功能型分布呈现不同变化,其中,热带常绿阔叶乔木适宜区逐渐扩大;亚热带落叶木本类植物功能型的高适宜区面积2050年(RCP8.5)增至10.3%,呈东移趋势;亚热带常绿木本和草本类植物功能型适宜区广(占研究区总面积86.5%),未来气候下分布呈不规则波动;温带植物功能型(除温带灌木类外)适宜区面积减小至2050年(RCP8.5)的13.6%;温带常绿针叶灌木适宜区面积增大,2050年(RCP2.6)高适宜区向西移动且面积增至当前的8.25倍;高寒类植物功能型适宜区面积则呈缩小趋势,高适宜区东移。     

区域尺度的中国植物功能型与生物群区

利用“生态－外貌”原则,中国的现状植被类型及其分布,确定中国的39种优势植物功能型：高山常绿针叶、北方常绿针叶、北方夏绿针叶、冷温带常绿针叶、温带常绿针叶、暖温带常绿阔叶、暖温带硬叶阔叶、暖温带夏绿阔叶、热带常绿阔叶、热带 雨绿阔叶、热带落叶阔叶、暖温带竹、高山／亚高山灌木、温带草原灌木、温带荒漠灌木、冷温带灌木、温带灌木、暖温带灌木、热带灌木、干旱灌木、高山草、荒漠草、温带草原草、温带草、沼泽草、红树、北方农作物、冷温带农作物、温带农作物、暖温带农作物、热带农作物和裸地。再依据优势植物功能型归并中国的21类潜在生物群区：北方（寒温带）落叶林、北方（寒温带）常绿林、冷温带针阔叶混交林、温带落叶阔叶林、暖温带（亚热带）落叶常绿阔叶混交林、暖温带（亚热带）常绿阔叶林、暖温带（亚）常绿阔叶季风林、热带雨林、热带季雨林、热带落叶林、红树林、干旱疏林／稀树草原、;温带草甸／稀树草原、温带草原、温带半草原、温带荒漠、温带半荒漠、高山／高山针叶林、高山／亚高山灌丛／草甸、高山／亚高山草原和高山／亚高山荒漠。如果考虑现状农业植被类型：一年一熟农作物、二年三熟农作物、一年二熟农作物和一年三熟农作物,可归并为25类现状生物群区。这是全球生态学和古生态学研究中区域尺度旧我国植物功能型和生物群区分类的一次尝试。     

天津滨海盐渍土上几种植物的热值和元素含量及其相关性

研究了天津开发区滨海防护圈9种植物的热值,灰分含量和元素含量以及他们之间的相关关系。结果表明：平均干重热值和去灰分热值都表现为乔木（18442．72J/g、19136．23J/g）＞灌木（18138．18J/g、18701．295J/g）＞多年生草本（15643．11J/g、18622．185J/g）＞1年生草本（13119．33J/g、17907．91J/g）。具体数值随植物种和组分的不同而异。从植物的元素含量看,常量元素N、P、K在乔木的根、枝、皮中含量较干高;在灌木中N和P表现为根＞枝,K则反之;而多年生草本地上部分和地下部分含量较接近,对于本研究区土壤主要盐分元素Na,Ca,Mg,Cl^-而言,乔木基本与常量元素N、P、K一致,仍是根、皮、枝含量高于干;灌木均为根＜枝,与K一样,和N、P相反。多年生草本除大米草Ca含量外都是地上部分含量比地下部分高。植物碳含量总体上根的含量低于其他组分。植物的干重热值与碳含量呈极显著的正相关关系,与灰分含量及Na,Mg,Cl^-含量呈极显著的负相关关系,与Ca含量呈显著负相关关系,去灰分热值与碳含量和干重热值呈极显著的正相关关系。     

城市工业区园林绿地滞尘效应的研究--以武汉钢铁公司厂区绿地为例

在测定武钢工业区园林植物滞尘能力的基础上,结合绿地实地调查和武钢工业区园林绿地GIS,比较分析了园林绿地不同植物种类和层片类型的滞尘能力,并定量研究了武钢厂区园林绿地的滞尘效应.结果表明,不同园林植物的滞尘能力有较大差异,这主要与不同植物的叶表面特性、树冠结构、枝叶密集程度等差异有关.不同层片类型滞尘能力依次为落叶阔叶灌木＞常绿阔叶灌木＞绿篱＞常绿阔叶乔木＞落叶阔叶乔木＞针叶乔木＞草本.武钢厂区园林绿地的日滞尘量是9.51 t,年总滞尘量为3 089.98 t.其中常绿阔叶乔木层片年滞尘量最大,达991.68 t,落叶阔叶灌木层片最小,只有0.0181 t.由于园林绿地的滞尘量取决于所构成植物的滞尘能力及其叶面积绿量,因此,选择滞尘能力强的植物,并以乔灌草不同生活型植物进行合理配置,是提高园林绿地滞尘效应的有效途径.     

亚热带常绿阔叶林荷树-厚壳桂群落的碳、氮及水分状况的垂直分布

亚热带常绿阔叶林荷树-厚壳桂群落乔木层植物叶片的单位面积干重较灌木层植物高。群落植物叶氮含量多为12-20mg/g干重,叶磷含量以0.4-1.0mg/g干重占叶的比例最大。叶氮(单位面积含量)和叶磷(单位干重含量)随群落垂直高度增高而增大。叶片叶绿素含量和光合速率亦随垂直增高而增大。群落乔木层植物较灌木层植物有较低的叶片水势。群落乔木层植物较高的碳氮投资和较高的光合速率,构成群落生产力的主要部分。这种群落结构有利于光及其它资源利用,以达到高的生物效益。     

不同生活型绿化植物叶片碳同位素组成的季节特征

通过测定北京地区不同生活型绿化植物叶片的碳同位素组成(δ13C值),从植物种和生活型两个方面研究植物水分利用效率的自然可变性。结果表明:所测定的75种植物(隶属于35科65属)的叶片的δ13C值变幅,春季为-30.7‰--23.4‰,夏季为-31.5‰--25.1‰,秋季为-31.4‰--23.9‰;落叶灌木种间差异不显著(p=0.114),而常绿乔木(p=0.005)、落叶乔木(p0.001)、常绿灌木(p=0.022)、草本植物(p0.001)和藤本植物(p=0.001)的种间差异显著或极显著;同一生活型植物叶片的δ13C季节差异显著,春季叶片的δ13C值显著大于夏秋两季(常绿乔木除外),不同生活型植物叶片的δ13C值在春、夏、秋3个季节差异都达到了极显著水平(春季p=0.001、夏季p0.001、秋季p0.001),且叶片的δ13C值表现出乔木树种灌木树种藤本植物草本植物、常绿植物落叶植物的规律。因此,植物种和生活型均会引起植物叶片δ13C值的变化,但δ13C受生活型变化的影响较大,表明不同生活型植物的水分利用效率具有明显差异。     

色季拉山林线不同生活型植物稳定碳同位素组成特征

通过测定青藏高原东南部色季拉山林线处典型冷湿气候条件下植物叶片δ13C 值,从物种、生活型(常绿乔木、常绿灌木、落叶灌木及草本)两个水平研究该地区植物的水分利用策略是否存在明显的分异,进一步验证生活型能否用来划分林线地区极端环境条件下生理学特征(碳-水平衡)类似的不同植物类群.结果表明,所测定的隶属于18科、28属的31种植物叶片的δ13C值介于-30.24‰和-25.39‰之间,平均值为-27.68‰,表明色季拉山研究区内植物的碳固定均通过C3光合作用途径实现,没在C4植物的分布.常绿灌木黄杯杜鹃与海绵杜鹃δ13C值无显著性差异(P>0.05),落叶灌木西南桦楸、山生柳以及冰川茶藨子也无显著性差异(P>0.05).相反,不同生活型植物之间叶δ13C值差异显著(P<0.01),为常绿乔木(冷杉)(-27.27‰) > 常绿灌木(-27.56‰) > 落叶灌木(-27.93‰)= 草本(-27.91‰).本研究结果表明在色齐拉山高山林线地带,尽管水分相对充足,但不同生活型植被之间存在明显不同的稳定碳同位素分馏.同一生活型的叶δ13C值无显著差异,而不同生活型植物δ13C值差异显著,说明植物水分利用策略的变化主要是由于生活型的变化引起的,即不同生活型植物的叶δ13C值可综合反映不同功能类群植物的水分利用策略变化.     

庐山25hm2森林样地乔木层优势种空间分布格局及关联性

为探究亚热带亚高山地区庐山地带性树种的空间分布格局,参照CTFS技术规范,2021年在庐山仰天坪地区建立了25 hm²森林样地,按叶片形状、是否落叶等植物生活型,将样地乔木树种类分为常绿针叶树种、落叶阔叶树种和常绿阔叶树种,使用空间点格局法分析了不同生活型中优势种的空间分布格局。结果表明：台湾松、四照花、化香树、锥栗、枹栎、灯台树、格药柃、黄丹木姜子、微毛柃等为主要优势种,其中台湾松为样地乔木层建群种。优势种种群空间点格局表现为在一定尺度内聚集分布,随着尺度的增加,逐渐转变为随机分布。常绿针叶树种与落叶阔叶树种、常绿阔叶树种之间呈小尺度内无关联、大尺度下负相关的特点;落叶阔叶树种与常绿阔叶树种之间的负相关关系较为明显;各落叶阔叶树种之间在小尺度内呈正相关或无关联,大尺度下呈负相关;常绿阔叶树种间在小尺度内呈正相关,中间尺度内无关联,大尺度下呈负相关。     

安徽植被带的划分

安徽各地种子植物分布型的统计结果显示其植物区系基本属于温带性质．地理联系广泛．与东亚关系密切。通过对大别山不同区域3个山头(天堂寨、多枝尖和陀尖)的种子植物数目和结构．及属种相似性系数两方面的研究,认为整个大别山植物应归同一植物区系,其植被应归为亚热带常绿阔叶林．在划分亚热带与暖温带的分界线时,大别山应作为一个整体考虑。同时结合对黄山、板桥、天堂寨、琅琊山和皇藏峪的植物区系和生活型谱的统计结果分析,提出暖温带落叶阏叶林与常绿、落叶阔叶混交林的分界线,位于淮河一线;而亚热带常绿阔叶林与暖温带的常绿、落叶阏叶混交林的分界线位于叶集、六安、舒城、庐江、铜陵、宣城至广德一线。     

氮添加对武夷山亚热带常绿阔叶林植物叶片氮磷化学计量特征的影响

该文以福建武夷山亚热带常绿阔叶林为研究对象, 通过设置3个氮(N)添加梯度的野外实验, 研究了群落内乔木植物、灌木植物、草本植物、蕨类植物和苔藓植物叶片N、磷(P)化学计量特征对N沉降的响应, 以及不同功能群和物种化学计量特征对N沉降响应的差异。在已开展5年人工N添加的样地内, 3年的监测结果表明: N添加整体上提高了植物叶片N含量, 草本层植物叶片N含量对N添加的响应比乔木层和灌木层植物更加敏感, 优势种米槠(Castanopsis carlesii)、草本植物砂仁(Amomum villosum)、蕨类植物狗脊(Woodwardia japonica)的叶片N含量显著增加。N添加整体上增加了植物叶片P含量, 乔木层植物和灌木层植物叶片P含量没有显著变化, 草本层植物叶片P含量显著增加, 而苔藓植物叶片P含量显著减少。N添加促使武夷山亚热带常绿阔叶林植物叶片N:P由18.67上升至19.72, 加剧了植物生长的P限制; 乔木物种N:P的变化较灌木和草本物种更加稳定。N添加条件下, 植物叶片N:P的变化主要受到叶片P含量而非N含量变化的影响, N添加对生态系统P循环的影响显著。     

中国4种典型森林中常见乔木叶片的非结构性碳水化合物研究

植物叶片的非结构性碳水化合物(non-structural carbohydrates,NSC)不仅为植物的代谢过程提供重要能量,还能一定程度上反映植物对外界环境的适应策略。以温带针阔混交林(长白山)、温带阔叶林(东灵山)、亚热带常绿阔叶林(神农架)和热带雨林(尖峰岭)4种森林类型的树种为研究对象,利用蒽酮比色法测定了163种常见乔木叶片可溶性糖、淀粉和NSC(可溶性糖+淀粉)含量,探讨了不同森林类型植物叶片NSC的差异及其地带性变化规律。结果显示：（1）从森林类型上看,植物叶片NSC含量从北到南递减,即温带针阔混交林(170.79 mg/g)>温带阔叶林(100.27 mg/g)>亚热带常绿阔叶林(91.24 mg/g)>热带雨林(80.13 mg/g)。（2）从生活型上看,无论是落叶树还是阔叶树,其叶片可溶性糖、淀粉和NSC含量均表现为：温带针阔混交林>温带阔叶林>亚热带常绿阔叶林>热带雨林;北方森林叶片可溶性糖、淀粉和NSC含量均表现为落叶树种>常绿树种,或阔叶树种>针叶树种。（3）森林植物叶片NSC含量、可溶性糖与淀粉含量比值与年均温和年均降水量均呈显著负相关。研究表明,森林植物叶片可溶性糖、淀粉和NSC含量以及可溶性糖与淀粉含量比值均具有明显的从北到南递减的地带性规律;其NSC含量以及可溶性糖与淀粉含量比值与温度和水分均呈显著负相关的变化规律可能是植物对外界环境适应的重要机制之一。该研究结果不仅为阐明中国主要森林树种碳代谢和生长适应对策提供了数据基础,而且为理解区域尺度森林植被对未来气候变化的响应机理提供新的视角。     

Pattern of changes in species diversity,structure and dynamics of forest ecosystems along latitudinal gradients in East Asia

We examined effects of seasonality of climate and dominant life form (evergreen/deciduous, broad-leaf/coniferous) together with energy condition on species diversity, forest structure, forest dynamics, and productivity of forest ecosystems by comparing the patterns of changes in these ecosystem attributes along altitudinal gradients in tropical regions without seasonality and along a latitudinal gradient from tropical to temperate regions in humid East Asia. We used warmth index (temperature sum during growing season, WI) as an index of energy condition common to both altitudinal and latitudinal gradients. There were apparent differences in patterns of changes in the ecosystem attributes in relation to WI among four forest formations that were classified according to dominant life form and climatic zone (tropical/temperate). Many of the ecosystem attributes—Fishers alpha of species-diversity indices, maximum tree height and stem density, productivity [increment rate of aboveground biomass (AGB)], and population and biomass turnover rates—changed sharply with WI in tropical and temperate evergreen broad-leaved forests, but did not change linearly or changed only loosely with WI in temperate deciduous broad-leaved and evergreen coniferous forests. Values of these ecosystem attributes in temperate deciduous broad-leaved and evergreen coniferous forests were higher (stem density was lower) than those in tropical and temperate evergreen broad-leaved forests under colder conditions (WI below 100°C). Present results indicate that seasonality of climate and resultant change in dominant life form work to buffer the effects of energy reduction on ecosystem attributes along latitudinal gradients.     

Paleoclimatic Analysis of Paleogene Flora in Yilan County,Heilongjiang

Plant fossils were collected from the sand-shale above the lower coal seam and the upper oil shale above the upper coal seam in the Yilan coal mine, Heilongjiang. The floras contained 2 species of pteridophytes, 10 species of gymnosperms and over 58 species of angiosperms assigned to 46 genera and 34 families. The fossils were divided into two floras, one of which was in lower sand-shale beds, with the age assigned to the Eocene, and the other was in the upper part of oil shales considered to belong to the Oligocene. The floras were complicated in composition and rich in species, and were studied by means of floristic analysis, foliar architectural and physiognomical analysis. The Eocene flora consisted of many evergreen broad-leaved species, which indicated that the flora belonged to north subtropical evergreen broad-leaved forest or subtropical coniferous and broad-leaved mixed forest. The foliar physiognomical analysis of the floristic composition showed that the species with entire leaf margines made up 38.3 percent of the total. The climate in the Eocene was estimated by means of climatic nomogram as follow: The mean annual temperature was 13.2 ℃ and annual temperature deviancy was 20℃. In the Oligocene flora, deciduous broadleaved trees were dominant, which indicated that the vegetation was of temperate deciduous broad-leaved forest or warm temperate coniferous and deciduous broad-leaved mixed forest. The species with entire leaf margines were 30. 8 percent with an estimated mean annual temperature of 11 ℃ and mean annual temperature deviancy of 25 ℃. The floristic aspect and climate in the Paleogene of Yilan region were very different from the present ones.     

中国四种森林类型主要优势植物的C:N:P化学计量学特征

为了评价不同森林类型的生态化学计量特征的差异, 以吉林长白山温带针阔混交林、广东鼎湖山亚热带常绿阔叶林、云南西双版纳热带季雨林和江西千烟洲亚热带人工针叶林为研究对象, 通过对2007年4月-2008年5月4种典型区域森林植物叶片和凋落物的碳(C)氮(N)磷(P)元素质量比与N、P再吸收率的分析, 探讨了4种森林类型N、P养分限制和N、P养分再吸收的内在联系。结果表明: 1)从森林类型上看, 温带针阔混交林叶片的C : N : P为321 : 13 : 1, 亚热带常绿阔叶林叶片的C : N : P为561 : 22 : 1, 热带季雨林叶片的C : N : P为442 : 19 : 1, 亚热带人工针叶林叶片的C : N : P为728 : 18 : 1; 凋落物的C : N : P也是亚热带人工林最高, 达1 950 : 27 : 1, 温带针阔混交林的最低, 为552 : 14 : 1, 热带季雨林的为723 : 24 : 1, 亚热带常绿阔叶林的为1 305 : 35 : 1, 不同森林类型凋落物的C : N : P的计量大小关系与叶片的结果一致; 2)从植物生活型上看, 常绿针叶林叶片的C : N均显著高于常绿阔叶林及落叶阔叶林; 叶片C : P与森林类型的关系并不十分密切; 常绿阔叶林叶片的N : P最高, 常绿针叶林次之, 落叶阔叶林最低; 3)植物叶片的N : P与月平均气温有显著的负相关关系, 但叶片的C : P基本不受月平均气温影响, 叶片的C、N、P计量比与降水的线性关系不显著; 4)高纬度地区的植物更易受N元素限制, 而低纬度地区植物更易受P元素的限制; 但受N或P限制的植物并不一定具有高的N或P再吸收率。研究结果表明, 不同类型森林的叶片与凋落物的化学计量特征具有一致性, 但是环境因子对不同类型植物化学计量比的影响并不相同。     

The effects of vegetation types and microhabitats on carabid beetle community composition in cool temperate Japan

The effects of vegetation types and environmental factors on carabid beetle (Coleoptera: Carabidae) communities were studied. Carabid beetles were collected using pitfall traps (total 2844 trapping days) and seven microenvironmental factors were measured in four vegetation types: grassland, natural evergreen coniferous forest (Pinus densiflora), deciduous broad-leaved natural forest (Quercus crispula, Betula platyphylla, Alnus japonica, or Fagus crenata), and deciduous coniferous plantation (Larix kaempferi) in cool temperate Japan. These four vegetation types provided a novel comparison between natural forests and plantations because the vast majority of related studies have investigated only deciduous broad-leaved natural forests and evergreen coniferous plantations. PERMANOVA indicated that vegetation types affected carabid community composition. Ordination plots showed that community composition differed greatly between grassland and forest vegetation types, but that community composition in the plantation forest overlapped with that of natural forest types. Characteristics differentiating the grassland included a high proportion of winged species and a low mean carabid body weight. Among the examined environmental factors, litter depth, soil water content, and depth of the soil A-horizon had large effects on carabid communities. These results suggest that the effect of afforestation on carabid communities in cool temperate Japan might be insignificant compared with the effects of cover types (deciduous vs. evergreen) and microenvironmental factors.     

中国主要森林生态系统水文功能的比较研究(英文)

 基于中国不同区域生态站的观测资料,着重从降雨截留（林冠截留、枯枝落叶层截持和土壤蓄水）、调节径流和蒸散等3个方面对我国主要森林生态系统的水文生态功能进行了比较研究。各生态系统林冠年截留量在134～626 mm间变动,由大到小排列为：热带山地雨林,亚热带西部山地常绿针叶林,热带半落叶季雨林,温带山地落叶与常绿针叶林,寒温带、温带山地常绿针叶林,亚热带竹林,亚热带、热带东部山地常绿针叶林,寒温带、温带山地落叶针叶林,温带、亚热带落叶阔叶林,亚热带山区常绿阔叶林,亚热带、热带西南山地常绿针叶林,南亚热带常绿阔叶林,亚热带山地常绿阔叶林。枯落物持水量可以达到自身干重的2～5倍,但也因林型而异。土壤非毛管持水量变动在36～142 mm之间,平均89 mm。常绿阔叶林的非毛管持水量通常高于100 mm,而寒温带/温带落叶阔叶林和常绿针叶林通常低于100 mm. 土壤的非毛管持水量通常占生态系统中截持水量的90%,其次是枯落物和林冠层。这说明,森林土壤在调节降雨截留中占有重要地位,其水文功能的大小取决于土壤结构和空隙度,而这些恰恰又受枯落物和森林植被特征的影响。森林皆伐后,一般地表径流会显著地增加,而适当抚育措施则对地表径流影响不大。流域径流受诸多因素的影响,包括植被、土壤、气候、地形、地貌以及人类影响导致的流域景观变化,比较研究表明森林变化对流域径流的影响尚未得到一致的规律性的结果。通过对比研究不同森林的蒸散变化,发现随降雨量的增加,森林蒸散量略有增加,而相对蒸散率却在下降,相对蒸散率在40%～90%间变动。     

Ecology of subtropical evergreen broad-leaved forests of Yunnan,southwestern China as compared to those of southwestern Japan

Subtropical evergreen broad-leaved forests of Yunnan, China, including mid-montane moist, monsoon, and semi-humid categories, were studied in terms of ecological attributes of pertinent species, diversity, structure, dynamics and succession, as compared with the subtropical/warm-temperate evergreen broad-leaved rain forest of southwestern (SW) Japan. The genera and species of the forests of Yunnan and SW Japan are East Asian elements and indicate a very close relationship between the respective floras, though different assemblages of species occur in the two regions. Diversity indices and numerical data on taxon richness at family, genus and species level were similar in both regions. Four types of gap-regeneration behaviors among the major tree species were recognized in the two areas. In both, as a result of long-term human activity, the plant communities ranged from pioneer deciduous broad-leaved and/or pioneer coniferous stands to late-successional evergreen broad-leaved stands. Succession in the two regions followed parallel paths, beginning with pioneer Alnus in Yunnan and Alnus, Mallotus and Styrax in Japan, accompanied by coniferous Pinus in the two areas, and with late-successional evergreen broad-leaved Cyclobalanopsis and Castanopsis as their final stage. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

亚热带不同次生林地凋落物持水特性及季节变化

为了解亚热带不同演替阶段次生林地的凋落物持水特性规律,选取湖南大山冲森林公园保存完好的三种亚热带典型次生林地,按两月一次采集新近的凋落物并采用水浸泡法测定凋落物持水量、持水率和吸水速率,对比分析不同森林类型凋落物持水性差异及其与凋落物碳氮凋落量的关系。结果表明：（1）三种次生林地凋落物量及组成均表现出特有的变化规律。针叶林和常绿阔叶林凋落物量以夏季5-9月最大,落叶阔叶林凋落物则以春、秋两个季节最大;（2）三种次生林地凋落物的饱和持水量、半饱和时间以及与水亲和力均呈现显著季节性变化特征。针叶林凋落物饱和持水量在5-7月达到最高为（59.68±2.91） g/m²,常绿阔叶林凋落物饱和持水量则在9月达到最高,落叶阔叶林凋落物饱和持水量在11月份达到最高为（190.60±8.81） g/m²;三种次生林凋落物的半饱和时间均以11月份为最低,且落叶阔叶林凋落物半饱和时间比其他两种次生林地更低,全年平均（0.62±0.12） h;凋落物的水亲和力系数,全年均以落叶阔叶林最大为142.72±26.12;（3）落叶阔叶林凋落物饱和持水率全年显著高于其他两种次生林（P<0.01）,且针叶林和落叶阔叶林凋落物饱和持水率均在11月份达到最大值;（4）落叶阔叶林凋落物吸水速率A值显著低于其他两种次生林（P<0.01）,而针叶林凋落物吸水速率系数B值显著高于其他两种次生林（P<0.01）;（5）凋落物饱和持水量与凋落物水亲和力和饱和持水率存在显著正相关关系,与凋落物凋落碳氮总量同样存在显著正相关关系;凋落物饱和持水率与凋落物半饱和时间、吸水速率系数A和B值存在显著负相关,与凋落物碳含量和C/N比极显著负相关,与凋落物氮含量极显著正相关（P<0.01）。综上,不同次生林类型凋落物持水性存在显著差异,凋落物持水性与凋落物碳氮量存在显著联系,该研究为深入探讨森林生态环境效应提供了支撑,丰富了森林凋落物持水特性的研究理论。     

Resorption Efficiency of Four Cations in Different Tree Species in a Subtropical Common Garden

High rainfall in subtropical regions can leach cation elements from ecosystems, which may limit plant growth. Plants often develop efficient resorption patterns to recycle elements, but there is relatively little available information on this topic. In February 2012, a common garden was established in a subtropical forest by planting dominant trees from the area. Green and senescent leaves were sampled from 11 tree species. The concentrations of potassium (K), calcium (Ca), sodium (Na) and magnesium (Mg) were determined, and the resorption efficiencies were calculated. The results showed significant K, Na and Mg resorption in most of the investigated tree species, while Ca mainly displayed accumulation. Evergreen coniferous and evergreen broad-leaved trees (such as Cunninghamia lanceolata, Pinus massoniana, Cinnamomum camphora, and Michelia macclurei) exhibited relatively higher resorption efficiencies of K (39.0%–87.5%) and Na (18.3%–50.2%) than deciduous broad-leaved trees. Higher Mg resorption efficiencies (>50%) were detected in Liriodendron chinense, C. lanceolata and P. massoniana than in other trees. Overall, evergreen coniferous and evergreen broad-leaved trees could show higher cation resorption than deciduous broad-leaved trees. K and Mg resorption efficiencies and Ca accumulation decrease with increasing nutrient concentrations in green leaves. Our results emphasize that nutrient resorption patterns largely depend on elements and plant functions, which provides new insights into the nutrient use strategies of subtropical plants and a reference for the selection of suitable tree species in this region.     

Altitudinal distribution of evergreen broad-leaved trees and their leaf-size pattern on a humid subtropical mountain,Mt. Emei,Sichuan, China

Altitudinal distribution of evergreen broad-leaved trees and changes in their leaf sizes were studied on a humid subtropical mountain, Mt. Emei (3099 m a.s.l., 29°34.5 N, 103°21.5 E), Sichuan, China. Among the total woody flora of ca. 540 species, evergreen broad-leaved trees account for 88 species in 39 genera and 23 families, corresponding to the northern limit of subtropical evergreen broad-leaved trees. The number of evergreen broad-leaved tree species greatly decreased from the low-altitudinal, evergreen broad-leaved forest zone (600–1500 m) to the mid-altitudinal, mixed forest zone (1500–2500 m), and to the high-altitudinal, coniferous forest zone (2500–3099 m). The overall trend of reduced leaf size toward upper zones was analyzed and documented in detail. The 88 species were assigned to three leaf-size classes: notophylls (48%), microphylls (36%), and mesophylls (16%). The leaf size was relatively small and the specific leaf weight (SLW, mg cm^–2) was much larger in high altitude as compared to low altitude. No overall correlation was found between leaf size and SLW, but leaf size decreased as SLW increased toward high altitude for certain species having relatively wide altitudinal ranges. Moreover, leaf size varied with forest stratification: canopy trees were predominantly notophyllous species, while subcanopy and understorey trees were mainly microphyllous species. The tendency is compatible with the trend found in other mountains of East Asia.