尕海湿地不同密度下甘肃马先蒿根系分叉数与连接数、分支角度的关系

根系构型决定根系分布及其对养分和水分的吸收效率,是植物根系与胁迫生境相互适应的结果。采用标准化主轴估计(Standardized major axis estimation, SMA)法,并采用全根挖掘和Win-RHIZO根系分析仪相结合的方法,按照甘肃马先蒿种群密度设置I(10—31株/m~2)、Ⅱ(32—53株/m~2)、Ⅲ(54—75株/m~2)3个样地,研究了尕海湿地不同密度下甘肃马先蒿(Pedicularis kansuensis)根系分叉数与连接数及分支角度的关系。结果表明:随着种群密度由高到低转变,甘肃马先蒿的高度、盖度、地上生物量、根系分叉数及外部连接数逐渐减小,地下生物量、根系内部连接数、分支角度逐渐增大;甘肃马先蒿根系分叉数与内部连接数、外部连接数及分支角度均呈异速生长关系,随着种群密度由高到低转变,甘肃马先蒿根系内部连接数与分支角度增加的速度逐渐大于分叉数与外部连接数减小的速度,根系分叉数与内部连接数的异速斜率逐渐减小,与外部连接数、分支角度的异速斜率逐渐增大。甘肃马先蒿在高密度倾向于密集型根系构型构建模式,在低密度选择扩散型根系生长模式,体现了高寒湿地植物种群应对资源多重竞争的生态适应机制。     

中国草地生物量地上-地下分配格局: 基于个体水平的研究

生物量的地上-地下分配反映了植物的生长策略, 并且生物量地上-地下分配会影响土壤碳输入进而影响陆地生态系统碳循环. 然而, 根系采样的困难使得作为陆地生态系统碳循环模型中重要参数的地下-地上生物量比(R/S)存在很大不确定性. 2006~2007年, 分别对内蒙温带草地19个样地中的42个优势物种, 以及青藏高寒草地16个样地中53个优势物种的地上生物量与地下生物量进行了调查, 试图揭示个体水平上草地生物量的地上-地下分配格局及其与环境因素的关系, 同时与群落水平的观测结果进行比较. 总体上, 中国草地物种的地下-地上生物量比的中值为0.78, 其中青藏高寒草地植物个体的R/S低于内蒙温带草地, 青藏高寒草地植物个体地上生物量与地下生物量相关生长关系的斜率显著低于内蒙温带草地植物. 中国草地植物个体水平的地下-地上生物分配并不支持等速生长假说. 中国草地植物个体水平的地下-地上生物量比随年均温和年降水没有明显变化趋势. 群落水平与个体水平的R/S存在很大差异, 可能的原因是个体水平根系采样不全而低估了R/S, 而群落采样低估了地上生物量同时高估了地下生物量致使R/S 被高估. 结果表明, 如果用之前报道的R/S可能会高估草地地下生物量.     

放牧干扰下高寒草甸物种和生活型丰富度与地上及地下生物量的关系

明晰放牧干扰下高寒草甸植物丰富度与生物量的相关关系,为草地植物不同生长时期生物量的预测提供依据。设置6个放牧强度样地,连续3a放牧,2014年进行3个季节(6月、8月、10月)的植物丰富度和地上、地下生物量调查,对比分析放牧干扰下物种和生活型丰富度(生活型的种类)分别与地上、地下生物量的相关关系。结果表明:(1)物种和生活型丰富度与地上生物量均受放牧强度的显著影响,物种丰富度仅在8月与放牧强度显著负相关,生活型丰富度在10月随放牧强度单峰变化,地上生物量在不同季节均与放牧强度显著负相关,而地下生物量与放牧强度无关。(2)物种丰富度与地上和地下生物量均受季节的显著影响,物种丰富度和地上生物量仅在低强度放牧区随季节呈单峰变化,地下生物量在中等强度放牧区随季节呈单峰变化;生活型丰富度与季节无关。(3)放牧干扰前物种和生活型丰富度与地上和地下生物量均显著正相关。3a放牧后仅在8月,物种丰富度只与地上生物量显著正相关,生活型丰富度与地上和地下生物量均显著正相关。(4)对于不同放牧强度,物种丰富度仅在低强度放牧区与地上生物量显著正相关,而生活型丰富度在所有放牧强度区均与地上生物量显著正相关。综上所述,放牧干扰扰乱了高寒草甸丰富度与生物量之间的关系,尤其影响了物种丰富度与地下生物量之间的相关关系。生活型丰富度与地上生物量之间的显著关系不受放牧强度干扰,使生活型丰富度在预测生物量方面表现出优势。     

祁连山高寒草地甘肃臭草叶性状与坡向间的关系

植物功能性状可反映植物对环境的适应。在祁连山高寒退化草地, 利用ArcGIS建立研究区域的数字高程模型, 提取坡向数据, 采用标准化主轴估计方法(standardized major axis estimation, SMA), 研究了不同坡向甘肃臭草(Melica przewalskyi)叶性状间的关系。结果表明: 1)甘肃臭草叶面积和叶体积在北坡最大, 东坡、西坡、南坡逐渐减小, 叶干质量无显著变化; 2)叶面积与叶干质量在北坡、东坡和西坡呈等速生长关系, 在南坡呈异速生长关系, 且叶干质量的增长速度大于叶面积的增长速度; 3)叶体积与叶干质量在4个坡向上呈异速生长关系, 且叶干质量的增长速度均小于叶体积的增长速度。甘肃臭草叶性状关系随坡向的变化反映了该物种在异质生境中具有较强的叶片形态可塑性, 从而有利于其适应和占据高寒退化生境。     

甘肃南部7种高寒杜鹃生物量分配的异速生长关系

生物量分配模式影响着植物个体生长和繁殖到整个群落的质量和能量流动等所有层次的功能, 揭示高寒灌丛的生物量分配模式不仅可以掌握植物的生活史策略, 而且对理解灌丛碳汇不确定性具有重要意义。该研究以甘肃南部高山-亚高山区的常绿灌丛——杜鹃(Rhododendron spp.)灌丛的7个典型种为对象, 采用全株收获法研究了不同物种个体水平上各器官生物量的分配比例和异速生长关系。结果表明: 7种高寒杜鹃根、茎、叶生物量的分配平均比例为35.57%、45.61%和18.83%, 各器官生物量分配比例的物种差异显著; 7种高寒杜鹃的叶与茎、叶与根、茎与根以及地上生物量与地下生物量之间既有异速生长关系, 也有等速生长关系, 异速生长指数不完全支持生态代谢理论和小个体等速生长理论的参考值; 各器官异速生长关系的物种差异显著。结合最优分配理论和异速生长理论能更好地解释陇南山地7种高寒杜鹃生物量的变异及适应机制。     

物种多样性和功能性状驱动高寒草原地上生物量对长期禁牧的响应

围封对草地生物多样性和初级生产力的影响是草地生态学研究的热点问题之一。基于2013—2021年在青藏高原东北部紫花针茅(Stipa purpurea)高寒草原围栏内外植物群落长期调查数据,从物种多样性、功能性状的角度解析了高寒草原地上生物量对长期围封的生态响应过程。结果表明：(1)围封处理对高寒草原物种多样性的负效应具有强烈的时间依赖性。围封处理显著提高地上生物量,但也显著降低了生物量稳定性和异步性,意味着高寒草原稳定的、可持续的生态系统服务功能被长期围封处理削弱。(2)植物功能性状对长期围封处理表现出差异性响应模式;与叶绿素性状相比,叶形态性状对长期围封处理表现出更强的敏感性。(3)物种多样性和功能性状与地上生物量之间均存在显著相关关系,并且物种多样性的影响被功能性状调控进而对地上生物量发挥间接效应,群落加权性状和功能分异度共同对草地生物量发挥直接的主导效应。研究结果证明了植物功能性状通过介导物种多样性与其共同驱动高寒草原地上生物量对长期围封的响应。因此,在未来草地管理过程中,同步研究植物物种和功能属性对于全面揭示生态系统的响应机制至关重要。     

功能多样性比物种多样性更好解释氮添加对高寒草地生物量的影响

为进一步了解氮添加条件下群落功能多样性如何驱动生物量变化, 该研究在位于天山山脉的巴音布鲁克高寒草地开展氮添加实验, 通过连续两年调查群落物种组成并测量常见物种的功能性状, 分析物种多样性、功能多样性及群落水平功能性状的响应模式及其在驱动生物量变化中的相对贡献。结果表明, 短期氮添加同时增加群落地上和地下生物量, 且地上生物量的增加比例高于地下生物量, 氮添加导致功能多样性降低但是物种多样性未发生显著变化; 氮添加增加群落水平上的植株高度和叶片碳含量, 但导致比叶面积、种子质量及叶片磷含量下降; 物种多样性对生物量变化解释非常有限, 而功能多样性与群落水平功能性状可以很好地解释生物量变化, 以上研究结果支持质量比假说。综上, 该研究表明功能多样性与群落水平功能性状比物种多样性对短期氮添加的响应更加迅速, 且两者在解释高寒草地群落生物量对氮添加的响应中起到关键作用。     

高原鼢鼠对高寒草甸植被特征及生产力的影响

本研究结果表明,高原鼢鼠栖息10年的斑块,植物群落的物种数减少,植物物种多样性指数下降,地上、地下总生物量显降低,单子叶和可利用双子叶植物生物量极显减少,但不可利用双子叶植物生物量显增加。高原鼢鼠去除5年后,斑块内植物群落的单子叶植物物种数增加,而双子叶植物下降,植物群落物种多样性指数下降,地上、地下总生物量显增加,单子叶和可利用双子叶植物生物量增加极显,不可利用双子叶植物生物量显降低。高原鼢鼠栖息10年的斑块,净初级生产量较未栖息地区减少68.98%。高原鼢鼠去除5年后,净初级生产量增加,但仅达到未栖息地区的58.69%。     

高寒草地甘肃臭草茎-叶性状的坡度差异性

茎与叶的生长形态决定植物与外界环境的物质交换能力, 茎叶的异速生长模式对认识植物表型可塑性及其调节机理具有重要意义。在祁连山高寒退化草地, 利用ArcGIS建立研究区域的数字高程模型(DEM), 并提取样地坡度数据, 采用标准化主轴估计(SMA)方法, 研究了不同坡度甘肃臭草(Melica przewalskyi)种群茎与叶的生长。结果表明: 随着坡度增大, 甘肃臭草茎干质量、叶干质量、叶面积均呈逐渐减小趋势, 叶片数呈增加趋势; 甘肃臭草叶干质量的增长速度显著大于茎干质量的增长速度, 叶面积与茎干质量近等速增长; 不同坡度间的比较显示, 随着坡度变陡甘肃臭草茎干质量与叶干质量异速斜率显著减小(p < 0.05), 陡坡上的甘肃臭草若要生成与缓坡样地中相同的叶生物量需要投入更多的茎生物量, 茎干质量与叶面积的y轴截距显著减小(p < 0.05), 即相同的茎干质量投入下, 较大坡度的甘肃臭草叶面积投入显著降低, 趋向于减小叶面积增加叶数量。坡度梯度上甘肃臭草加快了茎的相对生长速率而减小了在叶面积上的投入, 体现了不同坡度甘肃臭草茎-叶生物量分配机制及资源利用策略, 同时说明高寒草地中小叶更具生境适应性。     

民勤荒漠绿洲过渡带优势植物地上和地下生物量的估测模型

荒漠优势物种生物量的定量测量是荒漠土壤管理的重要依据。为精确估计民勤典型绿洲-荒漠过渡带中优势物种生物量,我们用随机选取的82个10 m×10 m的样方进行优势物种调查。结果显示试验地物种结构简单,而且总盖度仅为16.12%。选取5种荒漠优势物种(白刺(Nitraria tangutorum)、沙拐枣(Calligonum mongolicum)、梭梭(Haloxylon ammodendron)、沙蓬(Agriophyllum squarrosum)和盐生草(Halogeton arachnoideus)),利用全挖法测定其地上和地下生物量。用测定生物量80%的数据分析每一种植物地上和地下干、鲜生物量与其自身的形态参数地径、高度和冠幅之间的相关关系,再利用线性回归分析方法,以相关性显著的形态参数为自变量确定了预测试验地每一优势物种最适宜的地上及地下干、鲜生物量的回归模型。研究结果证实包括地茎(除白刺)和盖度为自变量的回归方程和5种优势荒漠植物的生物量拟合度很好,用测定生物量20%的数据对所有模型进行检验,证实所有生物量的估测模型能够精确预测优势荒漠物种生物量。     

Plant leaf traits,height and biomass partitioning in typical ephemerals under different levels of snow cover thickness in an alpine meadow

Aims In the cold life zones, snow cover is a comprehensive environmental factor that directly influences soil temperature, soil water content, light and nutrient availability. Plants in these zones develop a series of unique mechanisms involving phenological characteristics, reproductive strategies, physiology and morphology to adapt to environmental changes. This paper is focused on the responses of plant leaf traits, height and biomass partitioning to variations in snow cover thickness, in order to better understand the responses of plant functional traits and specific adaptation strategies under global climate change scenarios. Methods Three transects were established along a gradient of snow cover in an alpine meadow of Mt. Kaka, in the eastern Qinghai-Xizang Plateau. Primula purdomii, Pedicularis kansuensis and Ranunculus tanguticus, which are three widely distributed and dominant ephemerals, were sampled and studied, particularly at their blooming stages. Plant height, specific leaf area (SLA) and biomass partitioning were measured accordingly. Important findings The values of SLA in Pedicularis kansuensis and R. tanguticus were relatively greater under better soil conditions; it was smaller in Primula purdomii with thick snow cover. The relationship between aboveground biomass and belowground biomass in Primula purdomii was allometric at sites with both thick and thin snow cover. No significant relationships were found between aboveground biomass and belowground biomass in Pedicularis kansuensis and R. tanguticus at some individual sites. However, when samples of the three species were pooled, the relationships between aboveground biomass and belowground biomass were allometric at all sites, which did not support isometric scaling hypothesis. In addition, on sites with either thick or thin snow cover, aboveground biomass had greater rate of accumulation than belowground biomass; whereas on sites with medium snow cover, the rate of biomass accumulation was greater for belowground component than aboveground component. Functional traits and biomass variables were better correlated in Primula purdomii and Pedicularis kansuensis than in R. tanguticus.     

Response and correlation of above- and below-ground functional traits of Leymus chinensis to nitrogen and phosphorus additions

AimsLeymus chinensis is a constructive and dominant species in typical steppe of northern China. The structure and functions of L. chinensis grassland ecosystem has been degenerated seriously due to long-term overgrazing in recent decades. As an effective measure to restore the degraded grasslands, the effects of nutrient addition on plant growth and ecosystem structure and functioning have been paid more attention in manipulation experimental research. The effects of nutrient addition, especially P addition on the above- and below-ground functional traits of L. chinensis have rarely been studied; particularly the underpinning mechanisms remain unclear. Our objective is to examine the responses and adaptive mechanisms of L. chinensis to different levels of N and P additions. MethodsWe conducted a culture experiment in the greenhouse, with three levels of N (50, 100 and 250 mg N·kg^-1) and P (5, 10 and 25 mg P·kg^-1) addition treatments. The above- and below-ground biomass, leaf traits (e.g., specific leaf area, leaf N and P contents) and root traits (e.g., specific root length, root N and P contents) of L. chinensis were determined in this study.Important findings Our results showed that: 1) the aboveground biomass and total biomass of L. chinensis were mostly affected by N addition, while the belowground biomass was mainly affected by P addition. N addition greatly enhanced the aboveground biomass of L. chinensis, while P addition reduced the belowground biomass at the moderate and high N levels. The root-shoot ratio of L. chinensis was influenced by both N and P additions, and root-shoot ratio decreased with increasing N and P levels. N and P additions promoted more biomass and N and P allocations to aboveground and leaf biomass. 2) Leymus chinensis showed different responses and adaptive mechanisms to P addition at low and high N levels. At low N level, L. chinensis exhibited high photosynthetic rate and specific root length (SRL) to improve photosynthetic capacity and root N acquisition, which promoted aboveground biomass. High root P content was favorable for belowground biomass. At high N level, P addition did not significantly affect plant growth of L. chinensis, even reduced its belowground biomass. Leymus chinensis showed high specific leaf area (SLA) and SRL to improve light interception and N acquisition in order to maintain stable aboveground biomass. 3) P addition greatly impacted below-ground than above-ground functional traits. SLA exhibited a weakly positive correlation with SRL, indicating L. chinensis exhibited relatively independence of resource acquirement and utilization between leaf and root functional traits.     

羊草的地上-地下功能性状对氮磷施肥梯度的响应及关联

羊草(Leymus chinensis)是我国北方典型草原群落的主要建群种和优势种, 由于长期的过度放牧, 羊草草原生态系统的结构和功能严重退化。养分添加作为恢复草地生态系统的一种管理措施, 其应用目前还处于实验性研究阶段。关于羊草的地上-地下功能性状对养分添加, 尤其是P添加的响应研究较少, 相关机制尚不十分清楚。为此, 该文以羊草为研究对象, 通过温室栽培进行N (50, 100, 250 mg N·kg^-1)和P (5, 10, 25 mg P·kg^-1)各3个水平的养分添加实验, 研究羊草的地上-地下功能性状对N、P添加的响应及适应机制。主要研究结果表明: 1)羊草的地上生物量和总生物量主要受N添加的影响, N添加显著提高了羊草的地上生物量, 而地下生物量主要受P添加的影响, 尤其在中N和高N水平, P添加显著降低了羊草的地下生物量。羊草的根冠比受N、P添加的共同影响, 随着N、P添加梯度加大, 根冠比显著降低, N、P添加促进了羊草生物量向地上部分的分配和N、P向叶片的分配。2)在低N和高N水平, 羊草对P添加的响应与适应机制不同。低N水平, 羊草主要通过增加光合速率和比根长(SRL), 提高光合能力和根系对N的获取能力促进地上部分的生长, 而根系对P的吸收有利于地下部分的生长; 在高N水平, P添加对羊草的个体生长无明显促进作用, 甚至地下生物量明显受到P素抑制, 羊草主要通过保持较高的比叶面积(SLA)和SRL, 提高对光资源的截获能力和根系对N的获取和吸收能力, 维持地上部分的生长。3)相对于地上性状, P添加对羊草的地下性状影响更大, 羊草的SLA与SRL呈较弱的正相关关系, 表明叶片与根系在资源获取和利用方面具有相对独立性。     

Empirical relationship between specific leaf area and thermal dissipation of Phragmites australis in salt marshes of Qinwangchuan

Aims The correlation between specific leaf area (SLA) and thermal dissipation reflects not only the accumulation and dissipation of plant photosynthesis, but also plants’ adaptation to their habitats and changing environment. The objective of this study is to examine the correlation between SLA and thermal dissipation of reed (Phragmites australis) under different soil moisture conditions and salt contents.Methods Our study site was located in the National Wetland Park in Qinwangchuan, Gansu Province, China. Our sampling site extends from the edge to the central of a salt marsh where the reed was the single dominant species. The study site was divided into three zones based on the distance from the water. Within each zone, six 2 m × 2 m sampling plots were randomly located to select six reed individuals in each plot (total = 18). Vegetation height, aboveground biomass, soil moisture, and soil electrical conductivity (EC) were measured, with the six reed individuals taken to the laboratory to measure leaf thickness. Leaf net photosynthetic rate (P_n), transpiration rate (T_r), and other parameters of the reeds were also measured in each plot prior to harvesting. Quantitative measures of chlorophyll fluorescence were taken after 30-min dark adaptation. Quadrat survey method was used to model the empirical relationship between the transpiration rate and leaf characteristics.Important findings Vegetation height and aboveground biomass increased with soil moisture content, but EC and photosynthetically active radiation decreased. Leaf area, T_r and P_n increased along the gradient, leaf thickness showed decreasing, but the increasing trend of SLA switched to a decreasing trend, while leaf dry mass presented an opposite trend. From plot I to III, the quantum yield of regulated energy dissipation (Y(NPQ)) and non-photochemical quenching decreased, the actual photochemical efficiency of PSII and photochemical quenching increased, and quantum yield of non-regulated energy dissipation increased before decreasing. There appeared a highly significant negative correlation (p < 0.01) between SLA and Y(NPQ) at plot I and III, and a less significant negative correlation (p < 0.05) at plot II. Along the soil moisture gradient, reed seemed using light effectively by changing leaf thermal dissipation through adjusting their leaf size and SLA—A potential self-protection mechanism in light of adapting the habitat.     

Biomass allocation and carbon density of Sophora moorcroftiana shrublands in the middle reaches of Yarlung Zangbo River,Xizang, China

Aims The expansion of shrublands is considered as one of the key reasons leading to the increase of carbon density in terrestrial ecosystems in China. In the present study, our aims were to explore the biomass allocation and carbon density of Sophora moorcroftiana shrublands in Xizang.
Methods We sampled the biomass of S. moorcroftiana shrubs from 18 sites in the middle reaches of Yarlung Zangbo River, Xizang. Using concentrations of different organs, we estimated the carbon density of different layers in S. moorcroftiana shrublands.
Important findings The plant cover rather than biomass volume (the product of cover and height) provided the best fit for aboveground biomass. The average of the total biomass was 5.71 Mg·hm^-2, ranging from 2.32 to 8.96 Mg·hm^-2. The average biomass of shrub layer, the main component of shrub ecosystem, was 4.08 Mg·hm^-2, accounting for 71% of the total biomass. The belowground biomass of shrub and herb layers was 2.08 and 0.86 Mg·hm^-2, respectively, which was higher than the corresponding aboveground biomass. The average biomass carbon density was 2.48 Mg·hm^-2. Shrub vegetation in the eastern part of the middle reaches has lower carbon density than that in the western part. The relatively high biomass allocation to roots to increase water and nutrient undertake as well as physical support for plants is an important strategy of S. moorcroftiana to cope with the arid environment on the Qinghai-Xizang Plateau. Moreover, the lower carbon density in the eastern part of the middle reaches might be due to the dry environment resulted from high temperature and evapotranspiration and enhanced human activities at low altitudes. The continuous decrease of evapotranspiration under scenarios of future climate change may lead to increase in carbon density in S. moorcroftiana shrublands.     

氮素和植物生长促进剂对羊草生长及竞争力的影响

选取羊草、斜茎黄芪、克氏针茅3种内蒙古典型草原常见植物,通过不同植物物种组合(单独种植或者羊草与其他两种混合种植)、施加不同剂量的氮素(0、0.1、0.2、0.4、0.8mg·g^-1)和植物生长促进剂——油菜素内酯(0.005 mg·g^-1)的温室盆栽试验,分析氮素和油菜素内酯对羊草生长及其与其他植物竞争力关系的影响.结果表明:添加氮素对羊草、斜茎黄芪的生物量影响显著,对克氏针茅的生物量影响较弱,并且氮素的影响因其伴生植物的不同而改变.氮素添加显著增加了羊草在单独种植和与斜茎黄芪混合种植时的地上生物量,但显著降低了与克氏针茅混合种植时的地下生物量.由于土壤可利用氮增加,羊草的地上与地下分配发生变化,表现为单独种植、与克氏针茅混合种植时,根冠比下降;与斜茎黄芪混合种植时,氮素添加对羊草根冠比的影响则不显著.油菜素内酯对植物生长的显著影响不普遍,仅显著降低了斜茎黄芪单独种植时的地下生物量;在羊草与斜茎黄芪混合种植时,显著增加了羊草地上生物量.油菜素内酯和氮适量联用可有效增加特定物种组合的生物量,从而在退化草地恢复中具有一定的应用前景.     

放牧影响下典型草原克氏针茅和多根葱根系属性比较

植物根系属性与其生态适应性密切相关.为明确不同放牧干扰下克氏针茅和多根葱两种优势植物根系属性差异,比较了轻度放牧、中度放牧、重度放牧下克氏针茅和多根葱地下根系长度、根系表面积、根系直径、根系体积、根尖数、根系分叉数、比根长和比表面积的形态特征,分析了2种植物根尖比、根长比、表面积比、体积比等根系形态格局,研究两种植物对...     

草地生态系统生物量在不同气候及多时间尺度上对氮添加和增雨处理的响应

生产力是草地生态系统重要的服务功能, 而生物量作为生态系统生产力的主要组成部分, 往往同时受到氮和水分两个因素的限制。在全球变化背景下, 研究草地生态系统生物量对氮沉降增加和降水变化的响应具有重要意义, 但现有研究缺乏对其在大区域空间尺度以及长时间尺度上响应的综合评估和量化。本研究搜集了1990-2017年间发表论文的有关模拟氮沉降及降水变化研究的相关数据, 进行整合分析, 探讨草地生态系统生物量对氮沉降和降水量两个因素的变化在空间和时间尺度上的响应。结果表明: (1)氮添加、增雨处理以及同时增氮增雨处理都能够显著地提高草地生态系统的地上生物量(37%, 41%, 104%)、总生物量(32%, 23%, 60%)和地上地下生物量比(29%, 25%, 46%)。单独增雨显著提高地下生物量(10%), 单独施氮对地下生物量影响不显著, 但同时增雨则能显著提高地下生物量(43%); (2)氮添加和增雨处理对草地生态系统生物量的影响存在明显的空间变异。在温暖性气候区和海洋性气候区的草地生态系统中, 氮添加对地上、总生物量及地上地下生物量比的促进作用更强, 而在寒冷性气候区和温带大陆性气候区的草地生态系统中, 则增雨处理对地下、总生物量的促进作用更强; (3)草地生态系统生物量对氮添加和增雨处理的响应也存在时间格局上的变化, 地下生物量随着氮添加年限的增加有降低的趋势, 地上、总生物量及地上地下生物量比则有增加的趋势。增雨年限的增加对总生物量没有明显的影响, 但持续促进地上生物量和地下生物量, 增加地上地下生物量比, 可见长期增氮、长期增雨对地上生物量的促进作用更明显。     

Divergent biomass partitioning to aboveground and belowground across forests in China

Aims Belowground to aboveground biomass (BGB/AGB) ratio is a highly valued parameter of the terrestrial carbon cycle and productivity. However, it remains far from clear whether plant biomass partitioning to aboveground and belowground is isometric (equal partitioning) or allometric (unequal partitioning) at community levels and what factors are necessary in order to regulate the partitioning. This study aimed to comprehensively find out the patterns of biomass partitioning and their regulatory factors across forests in China.Methods The data of AGB and BGB were compiled from 1542 samples for communities across forests in China. Standardized major axis regression was conducted to examine whether AGB and BGB were allocated isometrically or allometrically at a community level. Redundancy analysis was used to analyze the relationships of BGB/AGB ratio with climatic factors and soil properties.Important findings We found that the slopes of the relationship between logAGB and logBGB were not always comparable to 1.0 (isometric allocation) at community levels, including primary forest, secondary forest, and planted forest. Meanwhile, samples in clay, loam, and sand soil types also presented the same phenomenon. Furthermore, the radically different allocations of AGB and BGB were found in northern and southern China. Environmental factors totally explained 3.86% of the variations in the BGB/AGB ratio at the community level, which include the mean annual precipitation, mean annual temperature, potential water deficit index, soil carbon content, soil nitrogen content, soil clay, soil loam, soil sand, soil pH, and soil bulk density. In addition, the environmental factors also have effects on the BGB/AGB ratio in other categories. The patterns revealed in this study are helpful for better understanding biomass partitioning and spreading the carbon circle models.     

四川巴郎山齿果酸模叶片氮素及其分配的海拔响应

在卧龙自然保护区, 按海拔梯度选择了齿果酸模(Rumex dentatus)的4个分布地点(2350、2700、3150和3530 m), 对各研究地点的齿果酸模进行了叶片光合、扩散导度、叶片碳稳定同位素组成(δ¹³C)、氮素含量、光合氮利用效率(PNUE)、比叶面积(SLA))等参数的测量, 以期揭示该植物叶片氮素、氮素分配情况及其他生理生态参数随海拔的响应趋势, 进而明确氮素及其分配在齿果酸模响应和适应海拔梯度环境的生物学过程中的作用。结果表明: 随着海拔的升高, 齿果酸模的叶片单位面积氮含量(N_area)随之增加, 进而光合能力随之增加。随着海拔升高而增加的扩散导度也在一定程度上促进了这一趋势, 这可能是落叶草本植物对于高海拔低温所导致的叶寿命缩短的适应结果。沿着海拔梯度, 植物叶片氮素和扩散导度均通过羧化位点与外界CO₂分压比(P_c/P_a)而间接影响叶片δ¹³C值, 且相比之下, 以氮素为基础的羧化能力对于P_c/P_a的作用更大些, 进而导致齿果酸模叶片δ¹³C随海拔增加; 随着海拔的升高, 齿果酸模叶片将更多的氮素用于防御性结构组织的建设, 这也是SLA和PNUE降低的主要原因; 在光合系统内部, 随着海拔的升高, 植物光合组织增加了用于捕光系统氮素的比例, 使得植物可以更好地利用随海拔升高而增强的光照资源, 进而促进了光合能力的增加。可见, 氮素及其在叶片各系统间(尤其是在光合系统与非光合系统间)的分配方式是齿果酸模适应和响应海拔梯度环境的关键。