江西九连山常绿阔叶林主要树种叶建成消耗的比较

叶建成消耗（或叶构建消耗）是指构建单位质量（面积）叶片所需要的葡萄糖当量,是植物碳收获过程中必要的成本投资．反映植物在叶片水平上的能量和碳分配策略。基于热值、灰份含量、叶氮含量和比叶面积的测定,估算了江西九连山常绿阔叶林16个主要树种的叶建成消耗,分析比较了不同树种、不同叶寿命、比叶面积和冠层不同部位对叶建成消耗的影响。结果表明,热值组分的变化对单位质量叶建成消耗的影响最大;树种间单位质量叶建成消耗的差异不大（变化率仅3％～6％）,但其单位面积叶建成消耗则存在显著差异（变化率达27％～28％）;热值和单位质量叶建成消耗与比叶面积密切相关,而比叶面积随取样高度呈显著的降低趋势,最终导致热值及单位质量和单位面积的叶建成消耗均随取样高度呈显著的增加趋势。研究结果指出：（1）较高的叶建成消耗是由于植物叶片内含有较高能量投资的化学组分;（2）叶建成消耗和比叶面积随取样高度的变化综合反映了植物对光照和水分资源垂直梯度变化的可塑性适应。     

华南地区3种入侵植物与本地植物叶片建成成本的比较

生物量建成成本作为衡量植物生物量建成所需能量的指标, 反映了植物的能量利用策略, 较低的建成成本可能会增加入侵种的竞争优势。本研究以华南地区3种危害严重的入侵植物薇甘菊(Mikania micrantha)、三裂叶蟛蜞菊(Wedelia trilobata)和五爪金龙(Ipomoea cairica)为研究对象, 选取与它们伴生或近缘的本地植物鸡矢藤(Paederia scandens)、蟛蜞菊(W. chinensis)和厚藤(I. pescaprae)作为对照, 比较了相同环境下培养的入侵植物和本地植物叶片建成成本的差异。结果表明, 这3种入侵植物的叶片单位质量建成成本(CCmass)和单位面积建成成本(CCarea)均低于它们的本地对照种。将3种入侵植物作为一组, 它们的叶片平均CCmass (1.17 g glucose/g)和CCarea (22.34 g glucose/m2)显著低于本地种的叶片平均CCmass (1.32 g glucose/g)和CCarea (36.93 g glucose/m2)。本研究结果进一步证实, 入侵植物与本地植物相比具有较低的叶片建成成本, 这可能是它们入侵成功的原因之一。同时, 本研究通过分析叶片建成成本与叶片碳浓度、氮浓度、灰分含量(Ash)以及去灰分热值(Hc)的相互关系, 探讨了影响入侵种和本地种叶片建成成本的可能因素。结果显示, 入侵植物具有较低的叶片建成成本是与其较低的碳浓度和氮浓度以及较高的灰分含量相联系的。     

潮虫消耗木本植物凋落物的可选择性试验

近年来,越来越多的学者关注外来植物入侵对土壤生态功能的影响效应及其相应反馈机制的探索与研究,然而本地原生土壤生物群落对不同入侵程度下的外来植物种以及本地原生植物种之间是否存在消耗差异却尚不明了.通过等足目潮虫的选择性喂养试验来测试10个本地种、5个非入侵性外来种和5个强入侵性外来种之间的适口性差异,试图求证外来植物的入侵性是否与植物落叶被消耗率呈现必然联系.数据分析结果显示潮虫对本地种、非入侵性外来种和入侵性外来种的消耗并无显著差异;而潮虫对不同生活型下木本植物的取食却存在显著差异,即灌木消耗率显著高于乔木.其次,通过植物初始性状指标(包括木质素、纤维素、半纤维素、碳、氮含量)与相应消耗率的相关比较,消耗量总体上与植物凋落物的氮含量呈正相关关系(R2 =0.358).由此,研究结论强调植物落叶的降解速率并不一定与植物入侵性或入侵阶段呈绝对相互关连,但是氮含量,抑或各种形式的植物氮元素成分都可能在一定程度上参与并影响着外来植物的入侵进程.     

南京地区落叶栎林木本植物叶物候研究

叶物候参数长期以来被认为与植物的碳获取的最大化有关,能反映物种的资源利用策略。温带地区因为寒冷冬天的限制,延长叶寿命成为一些物种进行生长发育和繁衍的基础。为探讨叶寿命延长的可能途径(早出叶、晚落叶,或两者兼有),该研究以南京地区两个落叶栎(Quercus spp.)林为研究对象,观测了其中木本植物的出叶物候、落叶物候,并分析了它们与叶寿命之间的关系。结果发现:1)不同物种的出叶开始时间相差较大,出叶早的物种早结束出叶过程;2)不同物种的落叶开始时间相差较大,早开始落叶的物种,落叶持续时间较长,落叶结束时间则相对集中。3)相关分析和回归分析都表明,叶寿命与出叶时间和落叶时间显著关联,但早出叶对叶寿命的延长可能更为重要,因为早出叶相对于晚落叶在物种资源利用上比较具有优势。4)不同物种的出叶时间和落叶时间没有显著相关,可能因为出叶过程和落叶过程是由不同的启动因子引起。这说明延长叶寿命不一定同时通过早出叶和晚落叶来达到。     

喀斯特常绿落叶阔叶林木本植物功能性状变异及其适应策略

叶片功能性状能反映植物对环境的高度适应能力和复杂生境下的自我调控能力,同时也能反映植物的基本特征和对资源的有效利用率。以木论国家级自然保护区喀斯特常绿落叶阔叶林144种优势木本植物为研究对象,测定其叶厚(LT)、叶面积(LA)、比叶面积(SLA)、叶长宽比(L/W)、叶组织密度(LTD)叶片形态性状和12种叶元素性状特征及变异程度,并探讨植物对喀斯特生境的适应策略。结果表明：17个性状变异程度不同,其中叶面积变异系数最大,达到133.31%,叶片碳变异系数最小,为7.73%,叶元素变异程度普遍高于叶形态性状变异程度。不同叶习性物种间叶厚、比叶面积、叶长宽比、叶氮含量性状差异达到显著水平。部分叶性状呈显著相关,得到一系列最佳功能性状组合,体现植物对喀斯特地区特殊生境的适应性。沿着性状贡献率较高的PC1轴,能够定义出叶经济谱,大部分常绿植物采取经济保守策略,而大部分落叶植物则聚集在资源获取的一侧。相较于邻近非喀斯特地区,喀斯特地区植物有较小的LA、SLA。这些结果体现了喀斯特地区植物叶片形成的不同叶性状特征,以及分布于经济谱两端的常绿和落叶植物的不同资源获取策略,揭示了植物对生境的适应策略...     

中国外来植物入侵风险评估研究

对外来植物开展入侵风险评估是防止外来植物入侵最经济有效的措施,能够极大的节约外来种管理的经济和时间成本。研究简述了国内外入侵风险评估系统,从外来物种基础信息缺乏、外来植物的适生区分析不完善、风险评估体系构建不客观、对新近外来种的关注度不够4个方面阐述了我国外来植物风险评估存在的主要问题。并针对存在的问题提出了以下建议：（1）构建外来植物基础信息数据库是风险评估的基础,加强外来植物本底资料的调查与考证,并将外来植物表型数据的积累和分析纳入数据库,使得风险评估有据可依。（2）运用生态位模型进行生态风险分析是风险评估的重点,并将人类活动指标纳入预测模型,揭示人类活动对入侵植物分布格局的影响。（3）建立科学的风险评估系统是核心,包括通过选择风险指标和设置权重来提高评估系统的科学性、构建特定区域或特定生态类型的风险评估体系、根据评估对象的生物学与生态学特征建立符合实际要求的评估标准,实行差别化的风险评估等。（4）加强新近外来植物的管理是关键,应定期野外监测新近外来种的种群动态,定期审查风险评估结果,对高风险的新近外来种进行预警研究将为中国外来植物风险评估体系构建提供重要参考,为入侵植物防控措施的制定提供理论依据。     

外来植物入侵对陆地生态系统地下碳循环及碳库的影响

生物入侵是当今全球性重大环境问题之一, 是全球变化的主要研究内容.评价外来植物入侵对于生态系统影响的研究多集中在地上部分,对于生态系统地下部分影响的研究相对较少.陆地生态系统地下部分对于生态系统过程的重要性之一体现在它处于生态系统碳分配过程的核心环节.入侵种通过影响群落凋落物的输入数量、质量以及输入时间,影响到对于土壤的碳输入,而入侵种与土著种根系的差异以及入侵种对微生物群落的影响是造成土壤呼吸强度发生变化的主要因素,前者土壤呼吸强度一般比后者高.多数研究表明外来植物入侵对生态系统地下碳循环和碳库产生影响,但由于入侵植物种类较多以及研究地点环境条件的不同,关于外来植物入侵对于土壤碳库和土壤有机碳矿化影响的研究结论并不统一.最后,提出了今后该研究领域应加强的一些建议和方向.     

广东外来入侵植物现状和防治策略

广东省现有外来入侵植物93种,隶属于27科72属,其中种类最多的菊科植物达21种,草本植物有81种,它们分别占广东省入侵植物总数的22.6%和87.1%.依据外来入侵植物目前在野外的生长和扩散状况等分析,发现其中危害严重的有24种,危害中等的有23种,危害较轻的有46种.广东省外来入侵植物中有76种来自于美洲地区,占入侵植物总数的81.7%.比较发现,广东与邻近的香港、厦门、广西在外来入侵植物的数量上以及在各自地区生物多样性造成严重危害的植物种类上比较接近,这可能是由于这些地区地理位置上相毗邻而利于物种之间的传播造成的.本文还提出了对广东省外来植物入侵防治策略.     

不同光照强度对入侵植物薇甘菊（Mikania micrantha）和飞机草（Chromolaena odorata）生长及生物量分配的影响

外来植物入侵严重威胁着当地生物多样性和生态系统功能,引发巨大经济损失,已成为日益严重的全球性问题。光是热带和亚热带森林生态系统植物生长最重要的限制性资源之一,对光的捕获和利用直接影响植物在自然生态系统中的生存和适合度。本研究以华南地区危害严重的入侵植物薇甘菊(Mikania micrantha)和飞机草(Chromolaena odorata)为研究对象,对比二者生长、生物量分配及叶片特征对光照强度变化的响应,从而验证假设:外来植物入侵力受有效光辐射的限制,光照是影响不同演替阶段林型具有不同可入侵性的重要原因之一。研究结果表明,3%—60%全光照下两种外来植物均可存活,并显示较灵活的生物量分配策略,可见其对光照具有广适性,为其广泛分布提供生态学基础。低光严重抑制了两种外来植物的生物量积累,这可能是导致演替后期季风林入侵现象少的主要原因之一。对比两种植物叶片特征对光照强度变化的响应,高光下薇甘菊SLA降低,LAR、LARMR减小,叶片变小变厚,有利于植株保持强光下的水分平衡;低光下薇甘菊增加SLA和LAR,叶片变薄变大,增大对光的截获面积,以实现对光强减弱的适应。相比薇甘菊,3种光照处理对飞机草的SLA、LAR、LARMR无显著影响。以上结果提示:(1)光照影响所在群落对外来植物入侵的抵抗力;(2)攀援植物薇甘菊较丛生型草本飞机草对变化的光环境在叶片水平上具有更高的形态可塑性,有效寻觅光资源。     

Coloration and phenology manifest nutrient variability in senesced leaves of 46 temperate deciduous woody species

颜色和物候表明46种温带落叶木本植物衰老叶片的养分变异 不同共生植物的叶片养分含量差异显著,反映了不同的叶片养分利用策略。然而,衰老叶片养分的种间变异及其驱动因素尚不清楚。本研究旨在探讨衰老叶片养分的种间变异及其驱动因素。我们在中国东北的帽儿山森林生态系统研究站测定了46种共存温带落叶木本植物新鲜落叶的碳、氮、磷浓度。 采用随机森林模型量化10个生物因素(菌根类型、固氮类型、生长形态、耐阴性、叶片质地、变色程度、变色类型、叶片变色峰期、落叶峰期和落叶末期)的相对重要性。研究结果表明,落叶氮浓度种间变化为4倍,磷浓度变化达9倍。较高的氮和磷平均浓度(15.38和1.24 mg g⁻¹)表明该森林氮和磷限制较弱。功能群仅对特定养分及其比值有显著影响。磷浓度、氮磷比与外生菌根树种的落叶高峰日和落叶结束日呈负相关。颜色鲜艳的叶片(红色＞棕色＞黄色＞黄绿色＞绿色)倾向于比绿色叶片氮和磷浓度更低而碳氮比和碳磷比较高。随机森林模型表明,秋季叶变色和落叶物候贡献了80%的种间变异解释量。这些结果增加了我们对温带森林木本植物营养策略之衰老叶片养分变异性的理解。     

Evidence for facultative deciduousness in Colophospermum mopane in semi‐arid African savannas

Leaf phenology dictates the time available for carbon assimilation, transpiration and nutrient uptake in plants. Understanding the environmental cues that control phenology is therefore vital for predicting climate‐related changes to plant and ecosystem function. In contrast to temperate systems, and to a lesser degree, tropical forest systems, the cues initiating leaf drop in tropical savannas are poorly studied. We investigated the cues for leaf fall in a tropical monodominant arid savanna species, Colophospermum mopane, using an irrigation experiment. We tracked soil moisture, solar radiation, air temperature, leaf water status, leaf health and leaf carbon balance through the dry season in both irrigated and control plants. Water was the primary cue driving leaf loss of C. mopane rather than temperature or light. Trees watered throughout the dry season retained their canopies. These leaves remained functional and continued photosynthesis throughout the dry season. Leaf carbon acquisition rates did not decline with leaf age but were affected by soil moisture availability and temperature. Leaf loss did not occur when leaf carbon gain was zero, or when a particular leaf carbon threshold was reached. Colophospermum mopane is facultatively deciduous as water availability determines leaf drop in this widespread arid savanna species. Obligate deciduosity is not the only successful strategy in climates with a long dry season.     

Determinants of some leaf characteristics of Australian mangroves

Leaf characteristics reflecting the size, lifespan (longevity), moisture content (degree of succulence) and complexity of structure of 20 mangrove species were studied over several years at 13 locations along the tropical and subtropical Australian coast. These characteristics were found to fall generally within the ranges of those for woody species from other ecosystems. With the exception of one species, it was found that leaf longevity was related inversely to leaf moisture content, increasing from nearly 6 months in more succulent species to over 2 years in less succulent species. This suggested that more succulent leaves are less complex in their structure because they have less well‐developed ability to compartmentalize salt. There was a tendency also for leaf longevity to increase in species with larger leaves. These findings were consistent with the general view for land plants that leaf longevity is greater in species that have developed tolerance to environmental stress, salt particularly in the case of mangroves. Leaf tissue in such species is more robust or complex and requires greater metabolic resources in its construction; the plant is then advantaged by retaining the tissue for longer periods. Classification of the species considered here, based on their leaf longevity, moisture content and complexity, identified phylogenetically related species groupings that reflected these leaf longevity effects.     

南京地区落叶栎林主要木本植物的展叶动态研究

 植物的展叶过程是由自身遗传因子决定的,同时又受到多种生态因子的调节,反映了植物的生活史对策和群落物种多样性的维持机制。在2001和2002年的3～6月间,不定期记录了南京地区三个落叶栎(Quercus spp.)林中主要木本植物的展叶情况,包括被标记标准枝的叶数、叶的长度、宽度、叶面积、叶干重等参数。结果表明在所调查的落叶栎林中,林冠层物种的成熟叶面积和单位叶面积干重都显著大于林下层物种;最早展叶的物种为林下层物种,但林冠层展叶顺序与林下层无显著差异。叶面积越大、单位叶面积干重越小的物种展叶越晚;林冠层物种展叶较林下层快,物种成熟叶面积越大,展叶速率越大。最后对展叶顺序和展叶速度的生态学意义作了讨论。     

The basis for variation in leaf longevity of plants

Any theory of leaf phenology must predict leaf longevity, leaf habit, leaf expansion and its timing among other variables. These phenological traits may be important keys to understand the response of trees to climatic change. Here I concentrate on and review two of these critical phenological traits, leaf longevity and leaf habit. Theories of leaf longevity were re-evaluated and leaf longevity is concluded to be optimized to maximize plant carbon gain. From this perspective, three points are predicted. Leaf longevity is short when the photosynthetic rate of the leaf is high, when the photosynthetic rate decreases rapidly through time, or when the construction cost of the leaf is small. These predictions are well supported by empirical as well as experimental results on various plant species. The theory, which is extended to seasonal environments, is general and applicable to seasonal as well as aseasonal environments. The theory simulated the bimodal geographic distribution of evergreenness.     

A parameterization of leaf phenology for the terrestrial ecosystem component of climate models

Leaf phenology remains one of the most difficult processes to parameterize in terrestrial ecosystem models because our understanding of the physical processes that initiate leaf onset and senescence is incomplete. While progress has been made at the molecular level, for example by identifying genes that are associated with senescence and flowering for selected plant species, a picture of the processes controlling leaf phenology is only beginning to emerge. A variety of empirical formulations have been used with varying degrees of success in terrestrial ecosystem models for both extratropical and tropical biomes. For instance, the use of growing degree‐days (GDDs) to initiate leaf onset has received considerable recognition and this approach is used in a number of models. There are, however, limitations when using GDDs and other empirically based formulations in global transient climate change simulations. The phenology scheme developed for the Canadian Terrestrial Ecosystem Model (CTEM), designed for inclusion in the Canadian Centre for Climate Modelling and Analysis coupled general circulation model, is described. The representation of leaf phenology is general enough to be applied over the globe and sufficiently robust for use in transient climate change simulations. Leaf phenology is functionally related to the (possibly changing) climate state and to atmospheric composition rather than to geographical boundaries or controls implicitly based on current climate. In this approach, phenology is controlled by environmental conditions as they affect the carbon balance. A carbon‐gain‐based scheme initiates leaf onset when it is beneficial for the plant, in carbon terms, to produce new leaves. Leaf offset is initiated by unfavourable environmental conditions that incur carbon losses and these include shorter day length, cooler temperatures, and dry soil moisture conditions. The comparison of simulated leaf onset and offset times with observation‐based estimates for temperate and boreal deciduous, tropical evergreen, and tropical deciduous plant functional types at selected locations indicates that the phenology scheme performs satisfactorily. Model simulated leaf area index and stem and root biomass are also compared with observational estimates to illustrate the performance of CTEM.     

Variation in leaf longevity of Pistacia lentiscus and its relationship to sex and drought stress inferred from leaf δ13C

1. Leaf formation, loss, retention, longevity and biomass on male branches of the evergreen mediterranean shrub Pistacia lentiscus , L. correlated strongly with water-use efficiency inferred from leaf δ¹³C across a gradient of precipitation on the island of Mallorca, Spain.
2. The correlations suggest that the leaf phenology is under control of drought-induced constraints on the carbon balance.
3. In fruiting female branches, the correlations between the inferred water-use efficiency and number of formed and retained leaves, leaf biomass and leaf longevity were non-significant. Leaf formation was strongly reduced by fruiting and the females compensated the reduced photosynthetic capacity by retaining older leaves for a longer time than male plants.
4. It is suggested that leaf longevity in females is under strong control of resource allocation to fruit formation which is 'overlaid' on the drought-induced carbon stress, which led to the observed longer leaf longevity in females than in males.     

Leaf Phenology and Seasonal Carbon Gain in the Invasive Plant, Bunias orientalis L.

Abstract: In two potentially competing herbaceous plants, the invasive Bunias orientalis L. (Brassicaceae) and the native Picris hieracioides L. (Asteraceae), seasonal changes in leaf CO₂ gas exchange and plant growth were studied over an entire growing season from February 1998 to December 1998 in two experimental fields. The study was motivated by the hypothesis that pre-adaptive phenological displacement of alien species relative to the native flora may be an important reason for the observed expansion of B. orientalis in central Europe. We quantified the importance of phenological differences for annual carbon gain in both species by estimating total leaf carbon gain from the results of leaf CO₂ exchange and changes in plant leaf area. Bunias orientalis achieved almost half of its annual carbon gain in the time between early September and December, when competition for light by other species, like P. hieracioides , is low. Our quantitative approach corroborates the notion that the phenological shift of a relatively poor competitor, such as B. orientalis , could be of great importance for the success as an invasive species.     

Longevity, lignin content and construction cost of the assimilatory organs of Nepenthes species

Background and Aims

This study examined level of causal relationships amongst functional traits in leaves and conjoint pitcher cups of the carnivorous Nepenthes species.

Methods

Physico-chemical properties, especially lignin content, construction costs, and longevity of the assimilatory organs (leaf and pitcher) of a guild of lowland Nepenthes species inhabiting heath and/or peat swamp forests of Brunei, northern Borneo were determined.

Key Results

Longevity of these assimilatory organs was linked significantly to construction cost, lignin content and structural trait of tissue density, but these effects are non-additive. Nitrogen and phosphorus contents (indicators of Rubisco and other photosynthetic proteins), were poor predictors of organ longevity and construction cost, suggesting that a substantial allocation of biomass of the assimilatory organs in Nepenethes is to structural material optimized for prey capture, rigidity and escape from biotic and abiotic stresses rather than to light interception. Leaf payback time – a measure of net carbon revenue – was estimated to be 48–60 d. This is in line with the onset of substantial mortality by 2–3 months of tagged leaves in many of the Nepenthes species examined. However, this is a high ratio (i.e. a longer minimum payback time) compared with what is known for terrestrial, non-carnivorous plants in general (5–30 d).

Conclusions

It is concluded that the leaf trait bivariate relationships within the Nepenthes genus, as in other carnivorous species (e.g. Sarraceniaceae), is substantially different from the global relationship documented in the Global Plant Trait Network.Key words: Botanical carnivory, carbon gain, functional traits, leaf chemistry, leaf lifespan, leaf mass per unit area, Nepenthes, pitcher, payback time     

The role of fruit traits of bird-dispersed plants in invasiveness and weed risk assessment

Aim  Birds play a major role in the dispersal of seeds of many fleshy-fruited invasive plants. The fruits that birds choose to consume are influenced by fruit traits. However, little is known of how the traits of invasive plant fruits contribute to invasiveness or to their use by frugivores. We aim to gain a greater understanding of these relationships to improve invasive plant management.
Location  South-east Queensland, Australia.
Methods  We measure a variety of fruit morphology, pulp nutrient and phenology traits of a suite of bird-dispersed alien plants. Frugivore richness of these aliens was derived from the literature. Using regressions and multivariate methods, we investigate relationships between fruit traits, frugivore richness and invasiveness.
Results  Plant invasiveness was negatively correlated to fruit size, and all highly invasive species had quite similar fruit morphology [smaller fruits, seeds of intermediate size and few (< 10) seeds per fruit]. Lower pulp water was the only pulp nutrient trait associated with invasiveness. There were strong positive relationships between the diversity of bird frugivores and plant invasiveness, and in the diversity of bird frugivores in the study region and another part of the plants' alien range.
Main conclusions  Our results suggest that weed risk assessments (WRA) and predictions of invasive success for bird-dispersed plants can be improved. Scoring criteria for WRA regarding fruit size would need to be system-specific, depending on the fruit-processing capabilities of local frugivores. Frugivore richness could be quantified in the plant's natural range, its invasive range elsewhere, or predictions made based on functionally similar fruits.