胡杨异形叶结构型性状及其与胸径关系

对胡杨5种类型植株的叶片厚度、叶面积、比叶面积、叶片干重和干物质含量等5个结构型性状指标进行分析,研究叶片的结构型性状与胸径之间及各个结构型性状彼此间相互关系。结果表明:叶面积、叶厚度和叶干重与胸径呈极显著正相关(P0.01),叶片干物质含量与胸径间呈显著正相关(P0.05),比叶面积与胸径之间呈极显著负相关(P0.01),说明随着植株生长发育的进行,叶片的面积、厚度、干重和干物质含量均逐渐增加,而比叶面积逐渐减小。各性状指标间相关性表现为叶面积、叶厚度、叶干物质和叶片干物质含量任意2个指标之间均呈显著或极显著正相关;而比叶面积与这4个指标间均呈显著或极显著负相关。     

中亚热带樟科3种植物幼苗叶结构型性状的种间差异及其相关性

为了揭示植物叶功能性状对全球气候变化的响应和适应规律,以樟科3种植物幼苗为研究对象,将其人工采集的种子经低温沙藏并于温室培育,然后将幼苗移栽到野外同质园中自然生长,研究中亚热带樟科植物刨花楠(Machilus pauhoi)、香樟(Cinnamomum camphora)和闽楠(Phoebe bournei)两年生幼苗生长季节9种叶结构型性状的种间差异及其相关性。结果显示,(1)在3种植物幼苗中,香樟叶面积、叶厚度、叶体积、叶氮磷比最大,叶氮浓度最高,叶组织密度最小;闽楠叶组织密度、叶干物质含量最大,叶磷浓度最高,叶面积、叶体积、比叶面积、叶氮磷比最小,叶氮浓度最低;刨花楠比叶面积最大,叶厚度、叶干物质含量最小,叶磷浓度最低;3种植物幼苗的叶厚度之间均无显著差异。(2)Pearson相关分析和线性回归分析结果表明,樟科3种植物幼苗的叶面积与叶体积间呈极显著正相关(P0.01)、与叶干物质含量间呈极显著负相关(P0.01)、与叶磷浓度间呈极显著负相关(P0.01)、与叶组织密度间呈显著负相关(P0.05)、与叶氮浓度间呈显著正相关(P0.05);叶厚度与比叶面积间呈显著负相关(P0.05)、与叶干物质含量间呈显著正相关(P0.05);叶体积与叶组织密度间呈极显著负相关(P0.01)、与叶氮浓度间呈极显著正相关(P0.01)、与叶磷浓度间呈显著负相关(P0.05);叶组织密度与叶磷浓度间呈显著正相关(P0.05);比叶面积与叶干物质含量间呈极显著负相关(P0.01)、与叶磷浓度间呈极显著负相关(P0.01);叶干物质含量与叶磷浓度间呈极显著正相关(P0.01)。这表明在同质园中生长的刨花楠、香樟和闽楠幼苗的9种叶结构型性状表现出一定的种间差异,不同物种同一叶结构型性状指标的大小顺序、种间差异及其显著性不同;3种植物幼苗不同叶结构型性状之间的相关性及其显著程度也不同。本研究结果为揭示樟科3种植物幼苗叶功能性状对全球气候变化的响应和适应规律提供了基础数据。     

入侵与本地植物对气候变暖和氮沉降交互效应的动态响应

入侵与本地植物对气候变暖和氮沉降交互效应的动态响应 在全球气候变暖背景下,对入侵物种扩张的预测往往并未考虑到同时出现的氮沉降变化。因此,气候变暖和氮沉降的复杂交互将如何改变入侵物种和本地物种的生长动态尚需进一步探索。在此,本研究假设氮沉降和温度的同时增加可能对入侵植物的生长促进效应大于本地植物。本研究在模拟气候变暖、氮沉降及其交互处理下,对入侵植物加拿大一枝黄花(Solidago canadensis L.)及其本地共存物种艾草(Artemisia argyi Levl. et Van)的生长响应进行温室对照试验。结果表明：由于氮沉降对物种生长的显著促进效应,温度升高和氮沉降的交互作用导致入侵物种和本地物种的生长适应性显著提高,即温氮交互可能使区域微生境更加有利于植物生长。然而,在生物量、高度和直径等生态适应特征方面,入侵物种加拿大一枝黄花的相对增加幅度显著低于本地物种艾草,这表明入侵物种加拿大一枝黄花相对于本地物种艾草的生长优势会在未来气候变暖与氮沉降持续增强的背景下逐渐减弱。因此,纳入氮沉降因素可能会缓解入侵物种加拿大一枝黄花在气候变暖条件下的入侵扩张。     

大青沟自然保护区主要森林群落优势种的叶性状

植物功能性状是近年来生态学研究的热点。其中叶功能性状与植株生物量和植物对资源的获得、利用及利用效率的关系最为密切。大青沟森林植物群落分布于科尔沁沙地,生境条件非常特殊,在沙沟里存在着一片茂密的森林,与周围浩瀚无垠的沙坨景观形成极为鲜明的对照。从沟底到沟顶,虽然海拔高度仅相差六、七十米,但由于距离沟底水源不同,土壤条件差异大,形成了不同的森林植物群落类型。大果榆群落、蒙古栎群落和水曲柳群落分别分布在大青沟自然保护区的沟顶、沟中和沟底。为了对大青沟自然保护区,不同环境梯度下的森林植物群落叶片功能性状进行研究,以大青沟自然保护区大果榆、蒙古栎、水曲柳3种主要森林群落为研究对象,分别测定不同群落优势种的叶厚度、比叶面积、叶干物质含量、叶大小和叶干重等5项叶功能性状,研究叶功能性状之间的关系,并对不同生长型、不同群落叶功能性状进行比较。相关分析结果表明,叶厚度与比叶面积呈极显著负相关,与叶大小和叶干重呈极显著正相关;比叶面积与叶干物质含量、叶干重呈极显著负相关,与叶大小呈显著正相关;叶干物质含量与叶大小呈极显著负相关,与叶干重呈极显著正相关;叶大小与叶干重呈极显著正相关。不同生长型植物叶片性状的分析表明,草本植物的叶干物质含量比乔木和灌木低,而其比叶面积高于乔木和灌木;对不同群落叶功能性状进行比较发现,大果榆群落和蒙古栎群落乔木、灌木叶厚度与干物质含量显著高于水曲柳群落的叶厚度与干物质含量,二者比叶面积显著低于水曲柳群落。大果榆群落和蒙古栎群落从叶功能性状的角度,它们具有较高的叶干物质含量和较低的比叶面积,体现出适应干旱生境叶片的特征。水曲柳群落呈现出低叶干物质含量、高比叶面积的特征,体现出适应湿润、土壤水分较好生境的特征。不同群落通过调节自身的物种组成,形成不同的功能性状组合来适应环境。     

壳斗科五树种幼苗叶片结构型性状及其相关关系

通过种子的人工采集、低温沙藏和温室培育后,将幼苗移栽到环境条件相同的同质园中自然生长,研究了中亚热带壳斗科丝栗栲(Castanopsis fargesii)、苦槠(C.sclerophylla)、锥栗(Castanea henryi)、板栗(C.mollissima)和麻栎(Quercus acutissima)2年生幼苗生长季节的叶面积、叶厚度、比叶面积、叶干物质含量、叶氮浓度、叶磷浓度和叶氮磷比7种结构型性状的差异及其相关关系。结果表明:(1)在5树种幼苗中,锥栗幼苗的叶面积和比叶面积最大、叶氮浓度最高,其叶干物质含量最低;丝栗栲幼苗的叶面积最小、叶氮浓度和叶磷浓度最低;苦槠幼苗的叶厚度和比叶面积最小,其叶干物质含量最高;板栗幼苗则是叶厚度最小;同时5树种幼苗叶片的氮磷比均无显著差异(P0.1)。(2)Pearson相关和线性回归分析表明,壳斗科5树种幼苗的叶面积与叶氮浓度极显著正相关(P0.01),并与比叶面积显著正相关(P0.05);叶厚度与比叶面积极显著负相关(P0.01),其与叶干物质含量显著正相关(P0.05);比叶面积与叶干物质含量极显著负相关(P0.01),并与叶氮浓度极显著正相关(P0.01),同时与叶磷浓度显著负相关(P0.05);叶氮浓度与叶干物质含量、叶磷浓度分别为显著负相关(P0.05)和显著正相关(P0.05)。该研究结果表明壳斗科5树种幼苗叶片的7种结构型性状表现出了一定的种间差异性,但同一结构型性状的大小顺序和种间差异的显著性不同;同时所有树种幼苗叶片各结构型性状间的相关性及其显著程度不同。     

猫儿山铁杉相邻植株冠层机械磨损对枝叶性状的影响

机械磨损是邻体植物冠层接壤区域的重要生态过程之一, 对枝叶生理和形态特征具有重要影响。但是, 当前非常缺乏邻体植物冠层机械磨损对枝叶功能性状影响特征和权衡机制的深入研究。该研究以广西猫儿山的铁杉(Tsuga chinensis)为对象, 通过比较邻体冠层间机械磨损区优势枝、劣势枝与非机械磨损区的叶面积、叶长、叶宽、叶厚、比叶面积、叶干物质含量、叶干质量、末端枝含水率和枝直径的差异, 分析枝叶功能性状在机械磨损影响下的变异和权衡关系。结果显示: 机械磨损显著影响邻体冠层叶干物质含量、比叶面积和叶干质量。具体而言, 机械磨损区优势枝叶干物质含量显著大于劣势枝和非机械磨损区, 优势枝比叶面积显著低于劣势枝和非机械磨损区, 劣势枝叶干质量显著低于优势枝和非机械磨损区。其次, 机械磨损对枝叶性状关系的影响格局不同。叶面积-叶长在机械磨损区优势枝、劣势枝和非机械磨损区间表现出一致的正向关系; 叶面积-叶宽、叶面积-叶干质量、叶宽-叶厚、叶厚-末端枝直径和叶长-叶宽仅在机械磨损区优势枝显著正相关; 叶面积-末端枝直径和末端枝直径-末端枝含水率仅在劣势枝显著负相关; 叶干物质含量-叶厚仅在劣势枝显著正相关。其余性状关系在机械磨损区优势枝、劣势枝和非机械磨损区均不显著。以上结果表明, 森林植物邻体间的冠层机械磨损可显著改变枝叶功能性状的权衡关系。     

格氏栲天然林林窗植物群落功能性状的变异

林窗是森林更新演替的重要环节, 揭示林窗环境下功能性状变异来源及其相对贡献, 有助于阐明植物对林窗环境的响应。该研究以中亚热带格氏栲(Castanopsis kawakamii)天然林为对象, 设置9个不同大小的林窗样地, 运用方差分解探讨林窗、物种和个体对叶性状变异的相对贡献, 采用线性回归分析不同大小林窗下群落性状变化及种间和种内性状变异的重要性。研究发现: (1)格氏栲天然林林窗植物比叶面积、叶干物质含量、叶厚和叶绿素含量由种间性状变异主导, 叶氮含量由种内性状变异主导, 叶磷含量受林窗大小影响最大。(2)群落叶磷含量与林窗大小具有显著正相关关系, 土壤温度和水解氮含量对群落叶磷含量具有显著正效应, 土壤有效磷含量具有显著负效应。(3)沿林冠开放度的群落叶磷含量变化主要由种内性状变异引起, 优势种扮演着重要角色。结果表明, 格氏栲天然林林窗环境下植物功能性状仍以种间性状变异为主(平均41%), 但沿林窗环境梯度的群落性状变化主要源自种内性状变异, 通过植物表型可塑性响应环境改变, 优势种作用明显。     

氮沉降对不同入侵程度加拿大一枝黄花化感作用的影响

为探究全球氮沉降影响外来植物入侵扩张的作用机制,该文通过受控模拟试验,以入侵植物加拿大一枝黄花(Solidago canadensis)为对象,研究了三种氮水平(N0、N5和N12)下五种不同入侵程度(种内及种间竞争)的加拿大一枝黄花凋落叶浸提液对本地植物莴苣(Lactuca sativa)种子萌发和幼苗生长化感作用的影响。结果表明:(1) N0、N5和N12处理下的不同入侵程度加拿大一枝黄花凋落叶浸提液均显著抑制莴苣的萌发和生长,其中N5土壤入侵初期(S1A3)处理浸提液的化感作用最显著,其发芽速度指数、发芽活力指数、根长、株高和叶长比对照分别降低了61%、79%、84%、68%和13%,此时凋落叶中的总酚和总黄酮含量最高,分别为0.48 mg·g^-1和1.50 mg·g^-1。(2)相同氮添加下,入侵程度对加拿大一枝黄花化感作用有显著影响,随着入侵程度的增加,加拿大一枝黄花化感作用显著减弱,入侵初期(S1A3)凋落叶化感作用显著高于入侵后期(S3A1)。(3)相同入侵程度下,氮添加对加拿大一枝黄花化感作用有显著影响,N5处理的加拿大一枝黄花...     

檫木叶片性状沿海拔梯度的响应特征

植物叶片性状是植物与环境长期互作的结果,对环境变化具有敏锐的捕捉力,而且植物叶片性状影响植物的"投资-收益"关系。本文以天目山不同海拔的檫木叶片为材料,分析檫木叶面积、叶长宽比、叶片干重和比叶面积等叶片形态性状以及叶绿素含量和叶氮含量(N_(area))等叶片生理性状对海拔的响应。结果表明,不同海拔亚群体间叶面积具有显著差异,比叶面积、叶长宽比和叶片干重存在极显著差异;叶长宽比和叶片干重在亚群体内的变异系数小于叶面积和比叶面积,说明檫木叶片形态性状在亚群体间存在着不同程度的变异。比叶面积与叶面积和叶长宽比具有显著正相关,与叶片干重呈显著负相关;叶绿素含量与N_(area)呈显著正相关;通过檫木叶片性状与温度的线性回归表明,叶面积、比叶面积、叶绿素含量和N_(area)随着温度下降而下降,与之相反,叶片干重和叶长宽比则逐渐增加。     

大气和土壤增温对杉木幼苗叶片功能性状的影响

为了探讨杉木幼苗叶片功能性状对全球气候变暖的响应与适应机制,在福建三明森林生态系统与全球变化研究站陈大观测点,设置大气增温(开顶箱被动增温,不增温)×土壤增温(电缆增温4℃,不增温)双因子试验,对杉木幼苗叶片生理代谢、形态属性、化学计量学特征等功能性状进行为期1年的研究。结果表明,虽然土壤增温和大气增温对4月和7月的叶片净光合作用速率和水分利用效率没有显著影响,但土壤增温对11月的叶片净光合作用速率有显著促进作用,而大气增温和土壤增温对11月的水分利用效率有显著促进作用。大气增温显著增加比叶面积和叶含水率,并降低叶厚度;而土壤增温则对其均没有显著影响。土壤增温、大气增温均显著增加杉木叶氮浓度,但只有同时大气增温和土壤增温处理才显著提高叶磷浓度。研究结论表明,从叶功能性状角度看,同时大气增温和土壤增温可能更有利于促进杉木幼苗生长。     

Nitrogen fertilization effects on leaf morphology and evaluation of leaf area and leaf area index prediction models in sugar beet

In a two-year experiment (2002–2003), five N application rates [0, 60, 120, 180, and 240 kg(N) ha⁻¹, marked N₀, N₆₀, N₁₂₀, N₁₈₀, and N₂₄₀, respectively] were applied to sugar beet cv. Rizor arranged in a Randomized Complete Block design with six replications. Leaf shape parameters [leaf area (LA), maximum length (L), maximum width (W), average radial (AR), elongation (EL), and shape factor (SF)] were determined using an image analysis system, and leaf area index (LAI) was non-destructively measured every two weeks, from early August till mid-September (four times). Years, samplings, and their interaction had significant effects on the determined parameters. Fertilization at the highest dose (N₂₄₀) increased L and sampling×fertilization interaction had significant effects on LA, L, W, and SF. For this interaction, W was the best-correlated parameter with LA and LAI meaning that W is a good predictor of these parameters. Two proposed models for LA estimation were tested. The model based on both leaf dimensions [LA = 0.5083 (L×W) + 31.928] predicted LA better than that using only W (LA = 21.686 W − 112.88). Instrumentally measured LAI was highly correlated with predicted LAI values derived from a quadratic function [LAI = −0.00001 (LA)² + 0.0327 LA − 2.0413]. Thus, both LA and LAI can be reliably predicted non-destructively by using easily applied functions based on leaf dimensions (L, W) and LA estimations, respectively.     

不同模拟增雨下白刺比叶面积和叶干物质含量的比较

以荒漠生态系统典型植物白刺(Nitraria tangutorum)为研究对象,根据内蒙古磴口多年平均降水量和植物生长规律,设计两个增雨时段(生长季前期与生长季后期),每个增雨时段设置两个增雨梯度(72.5mm/a(50%)、145mm/a(100%)),对天然白刺灌丛进行增雨实验,研究了不同模拟增雨处理下2012年与2013年生长季白刺叶片的比叶面积(SLA)与叶干物质含量(LDMC)的变化。结果表明,增雨处理可以增加白刺叶片的SLA及LDMC,同时期增雨100%处理对SLA及LDMC的影响大于50%处理,但同时期增雨的两个处理之间无显著差异;白刺叶片SLA在生长季前期对水分响应明显,LDMC则在生长季后期对水分反应敏感;相同增雨处理,2012年白刺叶片SLA及LDMC的净增加值高于2013年;SLA与LDMC在2012年呈显著负相关,在2013年虽呈负相关,但相关性不显著。在未来降雨增加的背景下,荒漠植物白刺叶片SLA与LDMC对增雨具有较强的协调适应能力,在不同生长季节可以通过改变不同的叶片性状来适应环境变化。     

Development of plants from leaf discs of variegatedColeus and its relation to patterns of leaf chlorosis

Summary Leaf discs approximately 8 mm in diameter taken from green and from chlorotic areas of variegated leaves ofColeus were grown in light under sterile conditions in a mineral salt, sucrose, vitamin medium supplemented with auxin and cytokinin. Green shoots, which later formed roots, grew from both green and chlorotic discs in media containing suitable amounts of auxin and cytokinin. None developed in media supplemented with auxin alone or with cytokinin alone. Discs with young plants were transferred to soil. Plants that grew varied widely from those with no chlorosis to those with more chlorosis than the original variety from which the discs were taken. Plants grown from discs taken from green areas of leaves with chlorosis varied in patterns of chlorosis as much as those that grew from discs from chlorotic areas of leaves. This research was supported, in part, by The Conservation and Research Foundation.     

Estimating photosynthetic rate and annual carbon gain in conifers from specific leaf weight and leaf biomass

Summary Canopy photosynthesis is difficult to measure directly or to predict with complex models demanding knowledge of seasonal variation in environmental and physiological properties of the canopy. Trees in particular offer a challenge with their large, aerodynamically rough and seasonally-changing canopy properties. In this paper we assess the possibility of using specific leaf weight to predict seasonal and annual net photosynthetic rate in deciduous (Larix sp.) and evergreen (Picea abies) conifers.Annual photosynthetic rate and specific leaf weight of different positions of the crown in both species were highly correlated (r ²=0.930). Annual carbon uptake by different segments in a mature P. abies crown was closely related to leaf biomass. The relationship was improved by adjusting the leaf biomass of each segment in regard to its specific leaf weight relative to the maximum found in the canopy. The adjustment accounted for associated differences in photosynthetic activity. This combined structural index (leaf biomassxrelative specific leaf weight) could, when calibrated, predict the total annual carbon uptake by different parts of the crown. If direct measurements of photosynthesis are not available, the combined structural index may still serve as a comparative estimator of annual carbon uptake.     

Spatial variation in sapwood area to leaf area ratio and specific leaf area within a crown of silver birch

Spatial variation in sapwood area to leaf area ratio (Huber value, HV) and specific leaf area (SLA) was examined in branches of closed-canopy trees of silver birch (Betula pendula Roth). HV increased basipetally within a crown and decreased with increasing branch order, but exhibited no significant radial trend along a primary branch. HV was primarily determined by branch position in a crown and branch diameter at the sampling point, being independent of the size of the tree and branch. Greater HV in the lower-crown branches is considered a means to mitigate differences in hydraulic transport capacity between the branches located in different canopy layers. Beside branch position and sampling location on a branch, SLA depended significantly on several other variables characterising tree and branch size. SLA increased basipetally within a crown and along a primary branch, but exhibited no significant trend with branch orders. Because height caused leaf area (A_L) to diminish more rapidly than leaf dry weight, A_L primarily determined the vertical variation in SLA.     

中国看麦娘属植物叶表皮微形态研究

看麦娘属是禾本科早熟禾亚科的重要类群,中国分布有8种。该研究采用光学显微镜和电子扫描电镜,对中国看麦娘属7种植物的叶下表皮(含叶鞘下表皮)微形态特征进行观察并探讨其分类学意义。结果表明：(1)看麦娘属叶鞘下表皮长细胞的形状呈长筒状或短筒状,深波状弯曲的细胞壁,脉间短细胞密布,单生或对生,形状多为新月形或椭圆形,脉区硅细胞为椭圆形,平行形或低圆屋顶形的气孔器,看麦娘属叶鞘下表皮特征高度一致,分类价值不大。(2)看麦娘属植物叶下表皮和叶鞘下表皮的显微结构存在很大不同,看麦娘属植物叶下表皮长细胞多为长筒状或短筒状或长菱形,平周壁平直或不明显弯曲,脉间区短细胞分布或无,脉区刺毛密布,脉间区有或无刺细胞的分布,平行形的气孔器,脉区分布的硅细胞多为长方形边缘呈波状弯曲。看麦娘属植物叶下表皮的不同主要体现在脉间区长细胞的形状及平周壁的弯曲与否,脉间区短细胞出现或无,脉间区刺细胞的分布数量以及气孔器的列数。7种植物的叶表皮微形态的分类检索表据此列出。依据叶表皮微形态划分的组与根据外部特征划分的组并不完全一致。但是,由于该文仅研究了7种,叶表皮微形态对于看麦娘属的分类意义还需要更深入的研究。     

唐古特白刺叶功能性状沿气候梯度的变异特征

叶功能性状与植物的生长对策及资源利用效率密切相关,研究叶功能性状沿气候梯度的变异特征能为理解植物对气候变化的响应机制提供一种简便可行的测定指标。以我国西北荒漠地区广泛分布的唐古特白刺（Nitraria tangutorum）为研究对象,对其比叶面积（SLA）、单位质量和单位面积叶氮含量（N_mass、N_area）、单位质量和单位面积叶建成成本（CC_mass、CC_area）进行测定,分析这些叶功能性状及性状相关关系沿气候梯度的变异特征。结果表明,唐古特白刺叶功能性状（CC_area除外）在气候梯度下存在显著差异,其中,温度是决定唐古特白刺SLA变化的主要因子,SLA随着温度的增加而增加;降水和温度对唐古特白刺N_mass、N_area和CC_mass均有显著影响,N_mass和N_area随着降水和温度的增加而降低,而CC_mass呈增加趋势。沿气候梯度,唐古特白刺SLA-N_mass、CC_mass-N_mass和CC_area-N_area的线性正相关关系发生平移,导致在相同SLA、CC_mass和CC_area下,降水和温度较低的地区具有更高的N_mass和N_area。这一结果表明唐古特白刺能通过调节叶功能性状之间的关系来适应气候的变化,并形成性状间的最佳功能组合。     

Leaf responses to soil water deficits: Comparative sensitivity of leaf expansion rate and leaf conductance in field-grown sunflower (Helianthus annuus L.)

The relative importance of changes in leaf expansion rate (LER) and leaf conductance (g₁) in the control of crop transpiration depends primarily on their sensitivity to soil water deficits. The aim of this paper was to quantify the responses of LER and g₁ to soil water deficits in sunflower (Helianthus annuus L.) under conditions of moderate (spring) and high (summer) evaporative demand. Soil water content, g₁, and LER were measured in dryland (DRY) and daily-irrigated (WET) crops established on a deep sandy-loam (Typic Xerofluvent) in a Mediterranean environment. There was no difference between g₁ of DRY and WET plants (p>0.20) in contrast with a highly significant difference in LER (p<0.001). Even under the harsh conditions of the summer experiment, g₁ did not respond to water deficit in a ten-day period in which LER of DRY plants was reduced to approx. 30% of that measured in WET controls. This field study indicates that g₁ plays at most a minor role in the control of sunflower transpiration in the pre-anthesis period and confirms the importance of leaf expansion in the regulation of gas exchange of expanding canopies subjected to soil water deficits.     

Morphological study on early ontogeny of theGinkgo leaf

The early ontogeny of theGinkgo leaf was studied by scanning electron microscope. The lamina of the leaf is derived from the protuberance of the adaxial side of a leaf buttress. The protuberance shows successive bifurcations. The second bifurcation occurs approximately at a right angle to the first. Thus, the abaxial surface of the leaf is derived from the outer surface of the protuberance and the adaxial is derived from the depressed inner surface of the protuberance formed by the first and second bifurcations. It is supposed that thick veins along both edges of the lamina are differentiated by an uneven dichotomous branching system of procambia caused by positional relationships: both edges of the lamina are derived from the parts of the protuberance just above a pair of procambia which come from the stem. On the shoot apex, there are a central cell group, which consists of only a few cells, and radially-arranged cell files. The leaf primordium is initiated from a sector area which consists of several files among radially-arranged cell files.     

Effects of leaf shape plasticity on leaf surface temperature

干旱区植物叶片形态可塑性是植物适应高温干旱环境的重要生存策略, 但目前仍缺乏直观的数据予以证明。该研究应用热成像技术和图像分析技术, 同步测定真实叶片与模拟叶片的叶温、形态及风速、辐射和温度等环境参数。研究结果显示: 在干旱、高温环境下, 除了蒸腾, 叶片形态变化也是调控叶温的重要因子。干旱区植物叶片变小, 有利于加速叶片与环境的物质及热量交换, 从而达到降低叶温的目的。样地数据显示, 在高温、低风速环境下, 叶片宽度每减少1 cm, 叶片表面温度降低约2.1 ℃, 而模拟叶片叶宽度每减少1 cm, 叶片表面温度降低0.60-0.86 ℃。该研究对深入理解植物生存策略与环境适能力具有重要意义。