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1.
神农架海拔梯度上4种典型森林的乔木叶片功能性状特征 总被引:3,自引:0,他引:3
研究植物群落叶片功能性状沿环境梯度的变化可以更好地认识群落对环境的适应机制,海拔梯度在较小的空间范围内浓缩了不同的群落类型和环境梯度,是研究和理解群落与环境关系的理想场所。以神农架海拔梯度上4种典型森林为研究对象,分析了4种典型森林优势乔木树种的LMA、LDMC、Narea、Nmass、叶片厚度及叶片叶绿素含量等主要叶片功能性状随海拔的变化规律及各功能性状之间的相关性,以期从叶片功能性状角度揭示群落适应环境的机制。研究结果表明:在780-1970 m范围内,神农架海拔梯度上典型森林乔木优势种叶片的、Narea和叶片厚度随海拔升高而下降,而海拔2570 m的亚高山针叶林的LMA、Narea和叶片厚度最高,分别为187.37 g/cm2、1.92 g/m2和385.31 um,且针叶林的LMA是常绿阔叶林的2倍、落叶阔叶林的3.7倍;除常绿落叶阔叶混交林的Nmass小于落叶阔叶林外,Nmass随海拔升高(780-2570 m)而下降;海拔最高(2570 m)的针叶林和海拔最低(780 m)的常绿阔叶林的LDMC和叶绿素含量最高,分别为454.93 g/kg、407.64 g/kg和48.84、44.12;而海拔介于二者之间的常绿落叶阔叶混交林和落叶阔叶林的LDMC和叶绿素含量则最低,分别为338.93 g/kg、337.3 g/kg和38.73、38.19。叶片各功能性状之间存在着显著的相关性:叶片厚度与LMA/LDMC及LMA显著正相关。叶片叶绿素含量与Narea显著正相关。LMA与LDMC、Narea、叶片厚度、叶绿素含量显著正相关,LDMC与Narea、叶绿素含量、叶片厚度显著正相关,Narea与叶片厚度、叶绿素含量显著正相关,叶片厚度、叶绿素含量显著正相关。本研究进一步表明,随着海拔梯度上升环境条件的变化,森林群落不同物种功能性状间的相互作用共同决定着森林群落对环境的适应性。 相似文献
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依据红树植物在潮间带的分布,将其分为真红树植物和半红树植物两大类。但对一些过渡地带种类的归属问题一直存在争议。该研究选取国内大部分红树植物,比较其成熟叶片中的Cl含量、肉质化程度、比叶面积(SLA)、单位重量叶氮含量(Nmass)和单位面积叶氮含量(Narea),并对争议树种重新进行界定。结果表明:1)真红树植物叶片中Cl含量和肉质化程度远高于半红树植物;2)真红树植物具有低SLA和高Narea的特点,除水芫花(Pemphis acidula)外半红树植物具有高SLA和低Narea的特点。3)争议的7种红树植物中,银叶树(Heritiera littoralis)、海漆(Excoecaria agallocha)、卤蕨(Acrostichum aureum )和尖叶卤蕨(Acrostichum speciosum)归为半红树植物更合适;老鼠(Acanthus ilicifolius)和小花老鼠(Acanthus ebrecteatus)归为真红树植物。木果楝(Xylocarpus granatum)有待进一步研究。 相似文献
3.
不同功能型植物叶氮含量与光合特性的关系研究 总被引:3,自引:0,他引:3
在山西南部的霍山七里峪林场,确定乔木、灌木和草本物种共26个,用Li-3000A叶面积测定仪测量了叶面积的大小、用Li-6400便携式光合作用测定系统测定了叶光饱和速率(Aarea),计算了比叶重(LMA)、单位重量的光饱和光合速率(Amass)、单位面积叶氮含量(Narea)、单位重量叶氮含量(Nmass)及光合氮利用效率(PNUE),研究了它们之间的不同和相互作用关系。结果表明:不同功能型植物的Nmass、Aarea、Amass、Narea和PNUE差异显著(p<0.05),植物叶片氮含量与植物光合生理特性具有显著相关关系,Nmass与Aarea、Amass和PNUE呈线性显著的正相关(p<0.05);Narea与Aarea、Amass、PNUE之间呈极显著的负相关(p<0.01)。 相似文献
4.
黄土高原油松和刺槐叶片光合生理适应性比较 总被引:4,自引:0,他引:4
以黄土高原地区由南向北分布的杨凌、永寿、富县、安塞、米脂、神木等县为研究地点,研究不同地区油松和刺槐的光合特性与叶结构性状间的关系.结果表明,不同地区油松针叶和刺槐叶片的净光合速率(Pn)、光合氮利用效率(PNUE)、水分利用效率(WUE)、比叶质量(LMA)、氮含量(Nmass)和叶绿素相对含量(Chl)差异均达极显著水平(P<0.001),说明不同地区油松和刺槐的光合能力和叶结构性状参数差异很大.由南向北,油松的Pn、WUE和PNUE呈略微增加趋势,而刺槐则呈显著降低趋势,表明油松在干旱生境下仍能维持较高的光合能力,而刺槐光合能力明显受到抑制;油松和刺槐的LMA均呈略微上升趋势,而Nmass和Chl均呈略微下降趋势,且刺槐的变化幅度高于油松,说明油松从生理代谢和叶结构性状上对干旱环境的适应能力均强于刺槐.相关分析表明,不同地区油松和刺槐的LMA与Nmass整体上呈极显著负相关;Pn、PNUE与LMA、Nmass相关不显著,与Chl呈极显著正相关;WUE与LMA呈显著负相关(P<0.05),与Nmass呈显著正相关. 相似文献
5.
叶片性状反映了植物对环境的适应能力及自我调控能力。以唐古特白刺天然种群为研究对象,沿300—40 mm年降水梯度,测定了7个样地的唐古特白刺叶片性状及叶片δ~(13)C、δ~(15)N。结果表明:(1)沿降水梯度变化,7个地区唐古特白刺叶宽、长宽比、叶厚、叶面积、比叶面积、叶氮含量、叶片δ~(13)C和δ~(15)N变异性显著(P0.05),而叶长差异不显著(P0.05)。唐古特白刺通过叶片各功能性状间的调节来适应环境的变化,并形成性状间的最佳功能组合。(2)唐古特白刺叶片δ~(13)C与叶面积、比叶面积呈负相关关系,与叶氮含量呈正相关关系,但其相关性均未达到显著性水平(P0.05),仅与地下水埋深表现出了极显著的正相关关系(P0.01)。在降水量小于100 mm的区域,白刺主要利用地下水源,成为隐域植被,从而降低了对其他环境因子的响应。(3)叶片厚度和叶氮含量可以作为体现不同地区间唐古特白刺差异的叶功能性状。数据显示叶片厚度与年平均温度正相关(P0.05),尤其与年最高气温大于35℃日数关系更为密切(P0.01);在高温环境下,叶片增厚的同时叶氮含量显著降低(P0.05),而这一过程中叶片δ~(15)N值却有增加趋势(R~2=0.62,P0.05),因此叶厚度和叶氮含量对叶片δ~(15)N的相对影响在干旱与半干旱区之间发生转变,这为进一步探究干旱区荒漠植被的水分限制阈值提供了新思路。 相似文献
6.
Community succession and photosynthetic physiological characteristics of pasture plants in a sub-alpine meadow in Gannan,China 
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下载免费PDF全文 为了解甘南亚高山草甸围封地恢复演替动态, 探究围封恢复进程中植物光合生理特征的变化规律及其影响因子, 对围封试验地内5个典型群落样地进行样方调查, 测定了各群落优势种及3个共有种的光合参数和叶性状参数, 并测定了群落表层土壤(0–20 cm)的水分含量及全氮含量。结果显示: 该围封地内形成一个以草本植物→半灌木→灌木的演替序列, 群落表层土壤含水量及全氮含量随着演替的进行逐渐增加; 在演替的时间尺度上, 各演替阶段优势种光合生理特征间存在明显差异, 随着演替的进行, 群落优势种的净光合速率(Aarea)、光合水分利用效率(WUE)、相对叶绿素含量(SPAD)呈降低趋势, 其叶片氮含量(Nmass)、光合氮利用效率(PNUE)、比叶面积(SLA)随演替变化没有严格一致的规律, 而更多地表现为不同植物功能型之间的差异; 从演替前期到后期, 同种植物的Aarea、SPAD值逐渐降低, 非豆科植物披碱草(Elymus dahuricus)、老鹳草(Geranium wilfordii)的PNUE、WUE随演替进行呈降低趋势, 其Nmass、SLA随演替进行却呈增加趋势, 然而豆科植物紫苜蓿(Medicago sativa)由于具有固氮能力, 受养分限制不明显, 这些光合生理特征值没有随演替发生明显的变化。这些结果表明, 在恢复演替过程中, 该围封地由一个物质获得能力强的群落向物质保持能力强的群落过渡, 土壤水分含量及全氮含量是推动这种过渡发生的主要因子。掌握围封地群落演替过程中的光合生理动态对于亚高寒退化草甸恢复具有一定的理论指导意义。 相似文献
7.
选取桂林喀斯特石山生境中常见的50种植物为研究对象,分别测定叶片单位面积最大净光合速率(Aarea)、单位质量最大净光合速率(Amass)、气孔导度(Gs)、水分利用效率(WUE)、胞间/环境CO2浓度比值(Ci/Ca)和蒸腾速率(Tr)等光合特性指标,探讨不同物种光合特性的差异以及光合特性之间的内在联系,以此探究不同植物适应喀斯特石山生境所表现出的光合生理特性。结果表明,50种植物叶片Aarea,Amass,Gs,WUE,Ci/Ca和Tr的平均值分别为8.35 μmol m-2 s-1,110.98 nmol g-1 s-1,0.10 mol m-2 s-1,94.84 μmol/mol,0.57和2.37 mmol m-2 s-1;方差分析表明,不同物种之间在Aarea,Amass,Gs,WUE,Ci/Ca和Tr之间存在显著差异。Pearson相关性分析表明,表征50种常见植物叶片光合特性的6个指标相关性除Ci/Ca与Aarea和Amass,WUE与Amass不一致外,其他指标两两之间相关性均表现为一致性,其中Gs与Ci/Ca呈极显著的正相关。主成分分析表明,在6个光合特性指标中,Gs和Ci/Ca可作为反映喀斯特石山植物适应生境的重要光合指标,主要表征对水分条件的敏感程度以及耐旱性强弱,同时反映了植物叶片光合速率大小,用于衡量植物对喀斯特生境的生理生态适应性。基于Gs和Ci/Ca进行聚类分析表明,50种植物划分为3类:即中等Gs较高Ci/Ca型,较低Gs较高Ci/Ca型和较低Gs,Ci/Ca型。本研究表明,喀斯特生境植物在生理生态方面所表现出的适应策略主要为对资源利用方式及抵御外界不利环境的适应策略,这为后续选择物种加速植被恢复演替进程提供了参考。 相似文献
8.
控制降水梯度对荒漠草原优势植物叶功能性状及土壤养分的影响 总被引:2,自引:0,他引:2
探究植物叶功能性状随降水梯度的变化规律,对揭示干旱区优势植物对环境变化的响应和适应策略至关重要。以盐池荒漠草原为研究对象,采用遮雨棚和喷灌系统控制降水梯度,分析了优势植物蒙古冰草(Agropyron mongolicum)、短花针茅(Stipa breviflora)及达乌里胡枝子(Lespedeza davurica)叶功能性状变异,以及土壤水分、养分和微生物特性与响应性状间的相关关系。结果表明:HW(增水50%)处理下3个植物LA(叶面积)、LDMC(干物质含量)显著增大,LW处理(减水50%)下短花针茅和达乌里胡枝子LA、LDMC显著减小,降水处理对短花针茅和达乌里胡枝子SLA(比叶面积)影响不显著,LW处理显著提高了蒙古冰草SLA;LW处理显著提高了蒙古冰草和短花针茅LNC(叶氮含量)和LPC(叶磷含量);HW显著降低了土壤C、N含量,LW和HW均显著减少了真菌数量,而放线菌数量、微生物生物量C、N显著增加;3种优势植物LA均与土壤水分显著正相关,蒙古冰草和短花针茅通过提高SLA、LNC及LNP来适应干旱生境,蒙古冰草和短花针茅LNC及LNP是表征土壤P、微生物生物量有效性的关键指标,达乌里胡枝子通过自我调节养分利用策略来适应C、N、P含量和微生物活性较低的生境,从而决定其在群落中的优势地位。 相似文献
9.
桂林喀斯特石山50种常见植物叶片养分特征及其适应性差异 总被引:1,自引:0,他引:1
选取漓江流域岩溶石山50种常见植物为研究对象,分别测定叶片中碳(C)、氮(N)、磷(P)、钾(K)及钙(Ca)含量。利用多元统计方法分析叶片养分组成特征,探讨不同生长型植物对岩溶石山生境的适应性差异,旨在为岩溶石山地区的植被恢复建设提供理论依据。方差分析表明,50种常见植物叶片中Cmass、Nmass、Pmass、Kmass、Camass、C/N、C/P和N/P等8个养分指标均存在显著差异,叶片中C、Ca含量较高,N、P含量较低,植物生长主要受P限制。相关性分析表明,C%与N%和C/N呈极显著相关,与K%和Ca%呈显著相关;N%与C/N、C/P、P%和K%极显著相关;P%与K%、C/N和N/P呈极显著相关,与C/P呈显著相关;K%和C/N呈极显著相关;C/N、N/P与C/P均呈极显著相关;其他指标之间的相关性不显著。基于叶片养分聚类分析表明,所研究的50种植物可划分为三类,即喜钙植物、高生产力植物和高抗旱植物。研究结果可为该石漠化地区植被的重建与恢复提供一定的参考依据。 相似文献
10.
人类活动和气候变化对陆地生态系统结构和功能的影响日益明显。在中国半干旱草原区,植物功能性状对这些变化的响应机制仍不是很清楚。以科尔沁沙质草地植物群落功能性状(CWMtrait)、一年生和多年生植物平均功能性状为研究对象,开展非生长季放牧、增水、氮添加及其耦合效应的模拟控制试验,于2016年8月中旬在沙质草地开展了植物功能性状的调查及测定,主要包括植物高度、比叶面积(specific leaf area,SLA)、叶片干物质含量(leaf dry matter content,LDMC)、叶片氮含量(leaf nitrogen content,LNC)和叶片碳同位素(leaf carbon isotopes,δ13C)。结果表明:氮添加显著提高了CWMheight和CWMLNC(P<0.05),降低了CWMLDMC(P<0.05),同时放牧和增水的耦合效应对CWMSLA具有显著影响(P<0.05);放牧显著降低了一年生植物的平均高度(P<0.05),氮添加显著提高了一年生植物的平均高度、LNC和δ13C (P<0.05);氮添加显著提高了多年生植物的平均SLA、LNC和δ13C (P<0.05),同时放牧和增水的耦合效应对多年生植物的平均SLA和LDMC具有显著影响(P<0.05)。主成分分析表明,放牧促进了植物群落和多年生植物SLA与LDMC、LNC和δ13C之间的负相关关系,增水促进了植物群落和多年生植物高度与SLA之间的正相关关系以及LDMC、LNC和δ13C之间的正相关关系,说明多年生植物在调控沙质草地植物群落响应外界干扰时具有较强的主导性作用。非生长季放牧、生长季禁牧有利于沙质草地的可持续发展和管理,增水能够减缓放牧压力对于草地植物的影响,氮添加有利于植物同化δ13C,并提高植物叶片的水分利用效率。 相似文献
11.
植物叶功能性状与环境因子的关系是近10年来植物生态学的研究热点。该文以广泛分布于青藏高原干旱、半干旱草地的优势植物种紫花针茅(Stipa purpurea)为研究对象, 沿降水梯度(69-479 mm)系统测定了日土、改则、珠峰、当雄和纳木错5个调查地点紫花针茅比叶面积(SLA)、单位重量和单位面积叶氮含量(Nmass, Narea)、叶密度和厚度等叶功能性状以及土壤全氮含量等因子, 试图验证干旱胁迫地区同一物种内SLA-Nmass关系沿降水梯度的策略位移现象是否具有普遍性, 并对是否出现策略位移现象提出可能的解释。研究结果表明: 1) SLA和Nmass与生长季温度和降水以及土壤全氮含量均没有显著关系, SLA与Nmass的关系在干旱半干旱区(年降水/蒸发比< 0.11)与半湿润区(年降水/蒸发比> 0.11)之间并没有出现典型的位移现象; 2)叶密度是决定半湿润区SLA变化的主导因子, 而叶厚度则是干旱半干旱区SLA变化的控制因子, 两者与SLA均呈负相关, 随着温度增加或降水减少, 叶厚度增加而叶密度降低, 导致SLA随温度和降水变化不明显; 3)半湿润区的叶密度增加引起Narea增加, 而干旱半干旱区的叶厚度增加并没有造成Narea的显著变化, 导致Narea沿降水梯度没有显著变化; 4)紫花针茅地上生物量与Narea具有显著正相关关系, 表明Narea的增加有助于提高植被生产力。结果表明, 在干旱胁迫下, 植物通过增加叶厚度来维持不变的Narea可能有助于保持与较湿润地区相似的光合生产和水分利用效率。叶厚度和叶密度对比叶面积的相对影响在干旱半干旱区与半湿润区之间发生转变, 这为进一步检测高寒草地植被的水分限制阈值提供了新思路。 相似文献
12.
入侵种银胶菊和三叶鬼针草与本地种气体交换特性的比较 总被引:1,自引:0,他引:1
以菊科入侵植物银胶菊(Parthenium hysterophorus)和三叶鬼针草(Bidens pilosa)以及与其共生的菊科本地植物小蓟(Cirsium setosum)为对象,比较了3种植物气体交换参数和叶片特性的差异。结果表明,银胶菊和三叶鬼针草的净光合速率(net photosynthetic rate,P_n)、叶绿素含量、比叶面积(specific leaf area,SLA)、叶片单位质量P含量(leaf P content per unit mass,P_(mass))、光合能量利用效率(photosynthetic energy use efficiency,PEUE)和光合氮利用效率(photosynthetic nitrogen use efficiency,PNUE)均显著高于小蓟。植物叶片P_n与水分利用效率(water use efficiency,WUE)、叶片P_(mass)、SLA呈极显著正相关,植物叶片单位质量N含量(leaf P content per unit mass,N_(mass))与叶片SLA、单位质量建成成本(leaf construction cost per unit mass,CC_(mass))、叶绿素含量呈极显著正相关。与本地植物相比,较高的气体交换参数和叶片生化指标有可能是银胶菊和三叶鬼针草成功入侵的原因之一。 相似文献
13.
为探究木兰科(Magnoliaceae)常绿与落叶物种叶片构建的生理生态策略,选取黄山木兰(Yulaniacylindrica)、玉兰(Y.denudata)和鸡公山玉兰(Y. jigongshanensis) 3种落叶物种,以及荷花玉兰(Magnolia grandiflora)、含笑花(Michelia figo)、石碌含笑(M. shiluensis) 3种常绿物种,对其叶片构建成本和叶片寿命相关的性状进行比较。结果表明,木兰科3落叶种的单位叶片面积成本(CCarea)显著低于3常绿种,但落叶和常绿物种的叶片质量成本(CCmass)差异不显著。落叶物种的叶氮、磷含量(Nmass,Pmass)和比叶面积(SLA)均显著高于常绿物种,而叶片寿命(LLS)显著低于常绿物种。CCarea与LLS呈显著正相关,Nmass、Pmass和SLA均与LLS呈显著负相关。这说明木兰科玉兰属落叶物种单位面积叶片构建成本小于常绿物种;落叶物种叶片寿命短,但采取低成本构建策略,提高比叶面积获得更多光资源,增加营养积累,也揭示了玉兰属落叶物种适应北亚热带较短的生长季和较低水热条件的生理生态策略。 相似文献
14.
We investigated leaf physiological traits of dominant canopy trees in four lowland Panamanian forests with contrasting mean annual precipitation (1,800, 2,300, 3,100 and 3,500 mm). There was near complete turn-over of dominant canopy tree species among sites, resulting in greater dominance of evergreen species with long-lived leaves as precipitation increased. Mean structural and physiological traits changed along this gradient as predicted by cost–benefit theories of leaf life span. Nitrogen content per unit mass (Nmass) and light- and CO2-saturated photosynthetic rates per unit mass (Pmass) of upper canopy leaves decreased with annual precipitation, and these changes were partially explained by increasing leaf thickness and decreasing specific leaf area (SLA). Comparison of 1,800 mm and 3,100 mm sites, where canopy access was available through the use of construction cranes, revealed an association among extended leaf longevity, greater structural defense, higher midday leaf water potential, and lower Pmass, Nmass, and SLA at wetter sites. Shorter leaf life spans and more enriched foliar 15N values in drier sites suggest greater resorption and re-metabolism of leaf N in drier forest. Greater dominance of short-lived leaves with relatively high Pmass in drier sites reflects a strategy to maximize photosynthesis when water is available and to minimize water loss and respiration costs during rainless periods. Overall, our study links coordinated change in leaf functional traits that affect productivity and nutrient cycling to seasonality in lowland tropical forests. 相似文献
15.
Gabriele Midolo Pieter De Frenne Norbert Hlzel Camilla Wellstein 《Global Change Biology》2019,25(7):2485-2498
Elevational gradients are often used to quantify how traits of plant species respond to abiotic and biotic environmental variations. Yet, such analyses are frequently restricted spatially and applied along single slopes or mountain ranges. Since we know little on the response of intraspecific leaf traits to elevation across the globe, we here perform a global meta‐analysis of leaf traits in 109 plant species located in 4 continents and reported in 71 studies published between 1983 and 2018. We quantified the intraspecific change in seven morpho‐ecophysiological leaf traits along global elevational gradients: specific leaf area (SLA), leaf mass per area (LMA), leaf area (LA), nitrogen concentration per unit of area (Narea), nitrogen concentration per unit mass (Nmass), phosphorous concentration per unit mass (Pmass) and carbon isotope composition (δ13C). We found LMA, Narea, Nmass and δ13C to significantly increase and SLA to decrease with increasing elevation. Conversely, LA and Pmass showed no significant pattern with elevation worldwide. We found significantly larger increase in Narea, Nmass, Pmass and δ13C with elevation in warmer regions. Larger responses to increasing elevation were apparent for SLA of herbaceous compared to woody species, but not for the other traits. Finally, we also detected evidences of covariation across morphological and physiological traits within the same elevational gradient. In sum, we demonstrate that there are common cross‐species patterns of intraspecific leaf trait variation across elevational gradients worldwide. Irrespective of whether such variation is genetically determined via local adaptation or attributed to phenotypic plasticity, the leaf trait patterns quantified here suggest that plant species are adapted to live on a range of temperature conditions. Since the distribution of mountain biota is predominantly shifting upslope in response to changes in environmental conditions, our results are important to further our understanding of how plants species of mountain ecosystems adapt to global environmental change. 相似文献
16.
叶片和根系是植物获取资源的最重要的器官,其性状随环境梯度的变化反映了植物光合碳获取和水分与养分的吸收能力及其对环境变化适应的生态对策。羌塘高原降水梯度带高寒草地群落叶片和根系成对性状关系研究不仅能揭示环境梯度对植物性状的塑造作用,也可为理解寒、旱和贫瘠等极端环境下植物的适应策略提供依据。为此,选择3组具有代表性的叶片和根系成对性状:比叶面积(SLA)和比根长(SRL);单位质量叶氮含量(LN_(mass))和单位质量根氮含量(RN_(mass));单位面积叶氮含量(LN_(area))和单位长度根氮含量(RN_(length)),分析不同优势植物地上、地下成对性状变异特征及其与环境因子的关系,探讨植物性状对高寒生态系统水分和养分限制因素的适应策略。研究表明,区域气候和土壤环境导致的叶片性状变异大于根系性状的变异,干旱端的植物既具有高的SRL,又具有高的叶片和根系的养分含量(LN_(mass),LN_(area)和RN_(mass))。SLA-SRL、LN_(mass)-RN_(mass)、LN_(area)-RN_(length)均表现为权衡关系,在干旱端(年降雨量MAP 400 mm)的高寒草原、荒漠草原和极湿润端(MAP 600 mm)的高寒草甸这种权衡关系更为明显,而中间区域(400 MAP 600 mm)的高寒草甸养分和水分限制不是很强烈,叶片和根系性状更多地表现出协同关系。从植物功能类群来看,苔草和禾草类植物叶片和根系成对性状之间具有更强烈的权衡关系。干旱端植物通过增加SRL和叶片、根系养分含量来提高水分和养分的吸收能力,同时通过叶片高的氮含量提高光合碳获取能力,保障了根系生长的物质来源,表现出地上和地下同时投入的策略。干旱端植物保持较高的养分含量是抵御和适应严酷的寒、旱和贫瘠的环境胁迫的重要策略。而在湿润端植物则采取增加SLA,维持地上光合生产力的生态策略。 相似文献
17.
不同种源五角枫幼苗叶片N、P化学计量学特征对氮添加的响应 总被引:1,自引:0,他引:1
不同土壤氮环境下植物对氮沉降的响应趋势不同,因此研究不同种源地的五角枫(Acer mono)对氮沉降的响应机理具有重要的意义。为了深入了解不同种源五角枫对氮沉降的适应和响应机制,主要通过3个种源的五角枫幼苗氮添加控制实验,分析不同种源的五角枫幼苗比叶面积(SLA)和叶片干物质含量(LMDC)以及叶片N、P含量和N∶P对氮添加的响应规律。结果表明:(1)不同氮添加处理下,内蒙古种源五角枫幼苗(NW)和山西种源五角枫幼苗(SW)的LDMC均显著低于对照,NW和SW在N4条件下表现为显著的促进作用。随着氮添加浓度的增加,NW与北京种源的五角枫幼苗(BW)的SLA在N4条件下显著增加;SW的SLA在N2的水平下显著增加。(2)氮添加下,只有SW的P_(mass)在N1水平下显著增加,N_(mass)在N1和N3水平下表现为显著增加。说明在低氮水平下,能够促进SW对P的吸收,从而增加植物体内对P的积累。同时在低氮和中高氮条件下,能够促进SW对N的吸收,说明SW能较好的适应低氮和高氮环境,使其生存能力更强。(3)分析变异来源及各指标的相关性得出,氮添加条件下,五角枫的SLA、LDMC、P_(area)及N∶P与氮添加处理呈显著的相关关系,而SLA、LDMC、N_(mass)、P_(mass)、Narea、P_(area)和N∶P对氮添加处理和种源的交互作用均未表现出相关关系,说明引起五角枫各性状主要受氮添加处理影响。(4)综合各指标的变化,氮添加条件下,NW的LDMC显著降低,SLA显著增大,同时叶N含量、叶P含量以及N∶P比较高;SW的LDMC显著降低,SLA增大,同时叶N含量、叶P含量表现为显著增大,结合叶经济谱理论分析得出,SW和NW属于"快速投资-收益"型,而BW倾向于"缓慢投资-收益"型。因此,不同种源的五角枫对于氮沉降的响应存在差异,并且持续的氮添加已经改变了五角枫的适应性。 相似文献
18.
It is still unclear to what extent variations in foliar δ13C and nitrogen can be used to detect seasonal changes in canopy productivity. We hypothesize that in a wet and cloudy fir
forest, seasonally higher litterfall and lower leaf area index (LAI) are correlated with higher mass-based leaf nitrogen (N
mass) and net primary productivity (NPP), while foliar δ13C may change with specific leaf area (SLA), area-based leaf nitrogen (N
area), and/or starch concentration. In order to test our hypotheses, stand-level litterfall and the means of δ13C, N
mass, N
area, SLA, and starch concentration of canopy needles for a wet and cloudy Abies fabri forest in the Gongga Mountains were monthly measured during the growing season. Seasonal estimates of LAI were obtained from
our previous work. A conceptual model was used to predict seasonal NPP of the fir forest. Seasonal mean δ13C and N
mass and climatic variables were used as inputs. The δ13C across 1–7-year-old needles increased from May to September associated with decreasing SLA and increasing N
area. There were no significant differences in seasonal starch concentration. With increasing litterfall and decreasing LAI, seasonal
mean N
mass increased, while the δ13C varied little. The simulated NPP increased with increasing litterfall and related traits of N
mass and N
area. Our data generally supported the hypotheses. The results also suggest that in the forest with relatively moist and cloudy
environment, the largest fraction of annual carbon gain may occur in the early part of the growing season when higher litterfall
results in higher N
mass of canopy leaves. 相似文献
19.
Guohong Wang 《植被学杂志》2007,18(4):563-570
Question: Is there any generality in terms of leaf trait correlations and the multiple role of leaf traits (response to and/or effect on) during secondary succession? Location: A secondary successional sere was sampled at four different ages since abandonment from several years to nearly 150 years on the Loess Plateau of northwestern China. Method: Specific leaf area (SLA), leaf mass per area (LMA), leaf nitrogen (Nmass, Narea), leaf phosphorus (Pmass, Parea) and leaf dry matter content (LDMC) were measured for all species recorded in the successional sere. Above‐ground net primary productivity (ANPP) and specific rate of litter mass loss (SRLML) were measured as surrogates for ecosystem properties. Soil total carbon (C) and nitrogen (N) were measured in each stage. Leaf traits were related to ecosystem properties and soil nutrient gradients, respectively. Results: LMA is correlated with Narea and Parea' and negatively with Nmass. Correlation between Narea and Parea was higher than between Nmass and Pmass. At the community level, field age, community hierarchy and their interaction explain 64.4 ‐ 93.5% of the variation in leaf traits. At the species level, field age explains 22.4 ‐ 45.5% of the variation in leaf traits (excl. Parea) while plant functional group has a significant effect only for Nmass. LDMC is correlated with ANPP and negatively with SRLML; Pmass is correlated with SRLML. Conclusions: Mean values of LMA, Nmass and Narea are close to the worldwide means, suggesting that large‐scale climate has a profound effect on leaf mass and leaf nitrogen allocation, while environmental gradients represented by succession have little influence on leaf‐trait values. Correlations between leaf traits, such as LMA‐Narea, LMA‐Parea and LMA‐Nmass shown in previous studies, are confirmed here. Although none of the leaf traits is proved to be both a response trait and an effect trait independent of time scale and community hierarchy, mass‐based leaf N is likely a sensitive response trait to soil C and N gradients. In addition, LDMC can be a marker for ANPP and SRLML, while mass‐based leaf P can be a marker for SRLML. 相似文献
20.
Leaf traits and associated ecosystem characteristics across subtropical and timberline forests in the Gongga Mountains,Eastern Tibetan Plateau 总被引:20,自引:0,他引:20
Knowledge of how leaf characteristics might be used to deduce information on ecosystem functioning and how this scaling task could be done is limited. In this study, we present field data for leaf lifespan, specific leaf area (SLA) and mass and area-based leaf nitrogen concentrations (Nmass, Narea) of dominant tree species and the associated stand foliage N-pool, leaf area index (LAI), root biomass, aboveground biomass, net primary productivity (NPP) and soil available-N content in six undisturbed forest plots along subtropical to timberline gradients on the eastern slope of the Gongga Mountains. We developed a methodology to calculate the whole-canopy mean leaf traits to include all tree species (groups) in each of the six plots through a series of weighted averages scaled up from leaf-level measurements. These defined whole-canopy mean leaf traits were equivalent to the traits of a leaf in regard to their interrelationships and altitudinal trends, but were more useful for large-scale pattern analysis of ecosystem structure and function. The whole-canopy mean leaf lifespan and leaf Nmass mainly showed significant relationships with stand foliage N-pool, NPP, LAI and root biomass. In general, as elevation increased, the whole-canopy mean leaf lifespan and leaf Narea and stand LAI and foliage N-pool increased to their maximum, whereas the whole-canopy mean SLA and leaf Nmass and stand NPP and root biomass decreased from their maximum. The whole-canopy mean leaf lifespan and stand foliage N-pool both converged towards threshold-like logistic relationships with annual mean temperature and soil available-N variables. Our results are further supported by additional literature data in the Americas and eastern China. 相似文献