光强对比度对大米草克隆整合作用的影响

通过温室控制试验,分析不同光强及光强对比度处理下克隆植物大米草生长性状的差异,研究同质异质光强条件下克隆整合对大米草响应遮阴能力的修饰作用.结果表明： 在同质条件下,大米草在无遮阴(高光强：温室内自然光照强度)条件下的生物量显著大于中度遮阴(中光强：光照强度为高光强的70%)和深度遮阴(低光强：光照强度为高光强的30%).在低对比度异质性光强条件下(分株对的一个分株不遮阴,另一个分株中度遮阴),大米草遮阴分株的叶片数、根长和生物量均显著高于同质中度遮阴处理,而无遮阴分株各生长指标与同质无遮阴处理相比均无显著差异.因此,在低对比度异质性光强下,大米草受体(遮阴)分株通过克隆整合显著受益;同时,对供体(非遮阴)分株没有显著的耗损.然而,在高对比度处理下(分株对的一个分株不遮阴,另一个分株深度遮阴),克隆整合对受体(遮阴)分株的效应不显著.大米草的克隆整合并不随着光强对比度的增加而增加.在自然生境中度遮阴情况下,克隆整合可以提高大米草的生长和克隆繁殖能力,但在深度遮阴情况下,克隆整合对大米草适应性的作用可能很小.     

松嫩平原栽培条件下羊草无性系构件的结构

羊草是长根茎型禾草,是典型的无性系植物,在松嫩平原的生长季末期,栽培条件下羊草无性系分株由分蘖株和分蘖苗组成,在具有充分生长空间而又没有种间竞争的风沙土上,羊草分株的分蘖节在一个生长季内可以繁殖4个世代,按分蘖节的繁殖世代划分龄级,现实与潜在无性系构件的年龄谱均以1龄级比重最大,随着龄级的增加明显减少,呈增长型的年龄结构,羊草无性系分株的生产力主要与分株形成及生长的时间长短有关,形成时间越早、生长时间越长的分蘖株对无性系的物质生产和营养繁殖的贡献越大,羊草无性系在空间扩展与物质贮存上具有一定的可调节性。     

羊草无性系构件在不同环境下的可逆性变化

对温室内栽培羊草,人为控制温度及光照强度的条件,观测无性系构件的生长与分化的结果表明,羊草的无性系构件生长存在明显的可塑性变化,长时间的低温显著抑制羊草根茎和无性小株的分化,而对分蘖无明显抑制作用,遮荫显著抑制根茎和无性小株的分化,但对分蘖的影响并不显著,羊草的这种生态的适应特征有利于对环境变化的适应     

羊草无性系构件在不同环境下的可塑性变化

对温室内栽培羊草,人为控制温度及光照强度的条件,观测无性系构件的生长与分化的结果表明,羊草的无性系构件生长存在明显的可塑性变化,长时间的低温显著抑制羊草根茎和无性小株的分化（Ｐ＜０．０５）,而对分蘖无明显抑制作用．遮荫显著抑制根茎和无性小株的分化（Ｐ＜０．０５）,但对分蘖的影响并不显著．羊草的这种生态适应特征有利于对环境变化的适应．     

松嫩平原异质生境羊草种群营养繁殖特征

多年生无性系禾草主要依靠营养繁殖实现种群的持续更新,而各类芽和由芽形成的苗为其种群进行营养繁殖的潜在种群。通过单位面积挖掘取样,利用营养繁殖世代数划分分株、根茎和各类型芽和苗的龄级,对松嫩平原封育草甸、长期割草草甸、封育积沙草甸和林间草地的羊草潜在种群组成和大小进行了比较研究。结果表明: 在生长季末期,羊草的潜在种群均由根茎芽和各龄级分蘖节向上生长的芽以及根茎苗和分蘖节苗组成。在4种生境条件下,羊草分株潜在种群由3～4个龄级组成,1～4龄级根茎均可形成潜在种群,其中,根茎潜在种群占整个羊草潜在种群数量比例为68.3%,占绝对优势。1龄分株和根茎产生的潜在种群占总体的60.2%,是潜在种群组成的主要部分,是种群更新的主要来源。分株潜在种群数量以长期割草草甸最高,根茎潜在种群数量以封育积沙草甸最高。营养繁殖力均以年轻龄级分株和根茎最高,根茎的营养繁殖力是分株的10.0倍,在羊草种群营养繁殖过程中始终占据优势。羊草的潜在种群构成在不同生境条件下变异较大,但体现出对生境差异的趋异适应。     

新疆伊犁河谷平原狗牙根无性系构件的生长

采用随机挖掘整个无性系的方法,在新疆伊犁河谷平原2年无人工管理的葡萄园撂荒地,对狗牙根无性系进行了大样本取样,定量分析了构件生长的规律.结果表明：在30个狗牙根无性系中,分株数平均为（272.6±186.6）个,其中营养分株占总分株数的82.3%,是生殖分株的4.3倍;无性系总生物量为(45.4±40.0) g,其中根茎占总生物量的54.4%,营养分株占21.0%,匍匐茎占14.8%,生殖分株占9.4%;根茎与匍匐茎的累计长度分别为(5.1±4.7) m和(3.3±3.4) m、着生的芽数分别为(291.5±246.8)和(78.8±87.4)个.根茎和匍匐茎芽数与无性系的营养分株、生殖分株、根茎和匍匐茎的数量性状之间均呈极显著的正相关关系(P<0.01),表明在新疆伊犁河谷平原,狗牙根无性系主要以根茎芽实现其持续更新.     

不同生境条件下羊草种群无性系和有性生殖特征的比较研究

比较研究了东北草原不同生境条件下4个羊草种群无性系和有性生殖数量特征的差异,结果表明,由于各种群所处立地的资源差异(特别是土壤水分),导致各种群在无性系(包括营养枝和根茎芽密度)和有性生殖(生殖枝密度、生殖枝分化率、生殖贡献)等数量特征方面差异显著,尤其在低平原种群与沙丘种群之间最为显著.与沙丘种群相比,低平原种群营养枝平均密度高50%;根茎芽平均密度高30%以上;生殖枝密度平均值高200%以上.     

松嫩平原水淹恢复演替过程中羊草无性系种群构件的年龄结构

对松嫩平原羊草草甸水淹恢复演替过程中不同大小羊草无性系斑块的种群构件年龄结构进行了研究。结果表明 ,羊草种群分蘖株在斑块中心由 4个龄级组成 ;最外圈层由 3个龄级组成。根茎在斑块中心和中间圈层均由 2～ 4个龄级组成 ,最外层由1～ 2个龄级组成。潜在种群冬性苗和分蘖节芽总量各圈层均由 4个龄级组成。斑块中心的分蘖株种群为稳定型年龄结构 ,向外发展至增长型年龄结构。根茎长度和潜在种群在各圈层均呈增长型年龄结构。在水淹羊草草甸的恢复过程中 ,不同大小羊草无性系斑块均呈不断扩展的趋势。在生存空间充足时 ,羊草的分蘖节在一个生长季里可以繁殖多个世代。通过羊草根茎的年龄结构可预测演替的进程     

羊草种群密度与生长动态研究

 通过人为控制种群密度的栽培实验,从基株和构件水平上观察羊草无性系种群的生长动态,分析不同密度水平上羊草种群通过调节种群的生长、发育、增殖以及死亡过程来适应密度制约的途径。研究结果表明：1)羊草种群密度可在不同的构件水平间得到调节。当基株密度得到适当调节后便可减缓构件密度(无性系枝条、根茎芽等)的变化幅度和影响构件的发育进程。2)无性系枝条是羊草种群的主体,常在生长季后期出现大量增长,都处于生长旺盛的幼苗期,为翌年春季的返青积累能量和物质。3)单位面积总生物量随密度增加而提高,虽然尚未出现产量恒值现象,但存活枝条平均单株重(地上生物量)随密度增加呈下降趋势,这已反映出密度制约的作用。4)不同密度下羊草种群的生殖过程表现为：低密度时以无性繁殖为主,根茎芽的存活力较高;高密度时以有性繁殖为主,生殖分配值较大。     

松嫩平原人工草地野大麦无性系构件的生物量结构及生产规律

野大麦属短根茎丛生型禾草,是典型的无性系植物．在松嫩平原生长季末期。野大麦无性系分株由抽茎的分蘖株和莲座状分蘖苗组成．按照分蘖节营养繁殖世代的龄级划分方法,建植2年人工草地野大麦无性系的分蘖株由3个龄级组成,分蘖苗由4个龄级组成,其生物量均呈增长型的龄级结构．在野大麦无性系的物质生产中,无论是分蘖株,还是分蘖苗,均以1龄级的单蘖生产力最高,并随着龄级的增高呈不同程度的下降．丛径是衡量野大麦无性系空间大小的重要数量指标．分株数量是衡量野大麦无性系生长的重要数量指标．经统计分析,野大麦无性系的分蘖株生物量、分蘖苗生物量、根茎生物量、总生物量分别与丛径和总分株数量之间均有极密切的正相关关系,其相关程度最佳的均为幂函数,其相关性均达到极显著水平(P<0．01)．这些相同的函数变化表明,随无性系的空间扩展和数量增长,各构件具有相同的物质生产与积累规律．     

长白山区华北翦股颖无性系构件的结构及生长

采用大样本随机挖取单个无性系的调查和测定方法,分析了长白山区华北翦股颖无性系构件的结构及生长规律.结果表明,在籽实乳熟期,华北翦股颖无性系构件是由营养枝和生殖枝组成,其中,以生殖枝数量和生物量所占比例最大,分别为93.3%和97.1%.华北翦股颖无性系构件的关系中,生殖枝数量和生物量以及分株总数量和总生物量均随着丛径的增加呈幂函数异速生长(R2=0.661～0.712).生殖枝数量与分株总数量之间以及生殖枝生物量与分株总生物量之间均呈极显著线性正相关(R2为0.997和0.965).     

松嫩平原贝加尔针茅无性系构件的结构及生长规律

采用整个分蘖丛挖掘的取样方法,对松嫩平原栽培条件下贝加尔针茅无性系构件的结构,以及生长与生产规律进行了定量分析.结果表明,在9月末停止生长期,经过2个生长季的营养繁殖,贝加尔针茅无性系的丛径为9.4±3.24 cm.无性系的全体构件数为161.±8.2个.其中,生殖分蘖株为14.6±11.48个,占9.2%;营养分蘖株为146.9±78.70个,占90.7%.全体构件总生物量为3.8±34.22 g,其中生殖分蘖株生物量为2.0±20.34 g,占43.7%;营养分蘖株为28.8±19.43 g,占6.2%.随着丛径的增加,不同构件的数量均具有线性同速生长规律,而不同构件的生物量均具有幂函数异速增长规律.不同构件生物量与无性系全体构件的数量和生物量之间均呈显著(P<0.0)或极显著(P<0.01)的幂函数正相关关系.平均单个生殖分蘖株的生产力约为营养分蘖株的10倍.生殖分蘖株的数量和生物量的表型可塑性普遍大于营养分蘖株.     

初始克隆分株数对大米草表型可塑性及生物量分配的影响

克隆植物大米草 (Spartina anglica) 目前在我国出现了严重的自然衰退 (Dieback),为了阐明大米草衰退的机理,分析影响大米草形态可塑性的因素与自然衰退之间的相关性,以期为近缘植物互花米草 (S. alterniflora) 这一爆发种群的生物控制提供借鉴,对3种不同初始克隆分株数 (单克隆、三克隆和五克隆) 大米草的克隆生长、生物量累积与分配和异速生长特征进行了野外栽培试验。研究结果表明,初始克隆分株数对间隔子长度影响较弱;初始多克隆的分支强度高于初始单克隆;初始三克隆和五克隆在总生物量 (7.921 5~10.431 7 g 和 8.903 9~10.431 7 g)、地上生物量 (3.396 1~4.255 8 g 和3.618 4~4.338 9 g)、地下生物量 (4.286 9~5.206 6 g 和 5.298 8~6.079 3 g)和根状茎生物量 (1.318 6~1.767 7 g 和 1.499 1~2.038 7 g) 积累上均显著高于初始单克隆,不同初始克隆分株数条件下根生物量差异不显著;初始多克隆倾向于将资源更多地分配给根状茎,而初始单克隆倾向于将更多的资源分配给根系。由此推断,在不同初始克隆分株数条件下,大米草的形态可塑性和生物量分配格局的差异显示出在同样资源格局下,初始多克隆的克隆生殖能力较初始单克隆强。初始多克隆生长的大米草较初始单克隆生长的大米草更能占据优势生境,选择生境“觅养”的能力与克隆繁殖能力更强。     

Effects of size and growth rate on vegetative reproduction in Typha

Summary The objective of this study was to separate the effects of plant biomass and growth rate on vegetative reproduction in two species of cat-tail, Typha latifolia and T. angustifolia. Replicate clones of both species were grown under conditions of 100%, 42%, 24%, and 9% full sunlight with harvests at 41, 70, and 91 days after shading. T. angustifolia produced most of its vegetative offspring before the first harvest and increased biomass over the remainder of the experiment by increasing the size of its ramets. In contrast, T. latifolia produced vegetative offspring gradually throughout the experiment adding new ramets only after existing clones were of mature size. As a result of these differences in the cloning process, T. angustifolia showed little correlation between vegetative reproduction and clone size while T. latifolia showed a strong correlation between gegetative reproduction and clone size at the three highest light intensities. Growth rates, average clone size and vegetative reproduction were all reduced by reductions in light intensity for both species. However, no effect of growth rate on the relationship between clone size and vegetative reproduction in T. latifolia could be detected. T. latifolia showed greater survivorship and more biomass production under 9% light than T. angustifolia indicating a greater shade tolerance.     

Growth and photosynthesis under high and low irradiance of Arabidopsis thaliana antisense mutants with reduced ribulose-1,5-bisphosphate carboxylase/oxygenase activase content.

Photosynthesis and growth to maturity of antisense ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) activase Arabidopsis thaliana with reduced concentrations of activase relative to wild-type (Wt) plants were measured under low (200 mumol m-2 s-1) and high (600 mumol m-2 s-1) photosynthetic photon flux density growing conditions. Both growth and photosynthesis were significantly reduced in an Arabidopsis clone (R100) with 30 to 40% Wt activase, an effect that was more pronounced in high light. The aboveground biomass of the antisense clone R100 reached 80% of Wt under low light and 65% of Wt under high light. Decreased growth in the antisense plants was attributed to reduced relative rates of growth and leaf area expansion early in development; all plants attained similar values of relative rates of growth and leaf elongation by 21 d after planting. Reductions in photosynthesis were attributed to decreased Rubisco activation in the antisense plants. Rubisco constituted about 40% of total soluble protein in both Wt and clone R100 under both light regimes. Activase content was 5% and 1.4% of total soluble protein in Wt and clone R100, respectively, and also was unaffected by growth irradiance. The stoichiometry of Rubisco to activase was estimated at 20 Rubisco active sites per activase tetramer in Wt Arabidopsis and 60 to 80 in the transgenic clone R100. We conclude that Wt Arabidopsis does not contain Rubisco activase in great excess of the amount required for optimal growth.     

A physiological comparison of coccolith-forming and naked cells of Coccolithus huxleyi

Summary In a naked clone of the coccolithophorid Coccolithus huxleyi, growth at light saturation was 15% slower than in a coccolith-forming clone isolated from the same parent stock. The two cell types did not differ significantly with regard to cell volume and protein content. A 10–13% smaller chlorophyll a content of the naked cells was matched by a uniform lowering of photosynthetic rates at all light intensities. It was considered that the slower growth of these cells might result from a less favourable ratio between photosynthetic output and biomass.The content of deoxyribonucleic acid was the same in coccolith-forming and naked cells, suggesting that they do not represent different phases in a sexual lifecycle.     

松嫩平原不同生育期虎尾草无性系构件生长与生物量分配

以松嫩平原不同生育期的虎尾草无性系为研究对象,分别在虎尾草无性系拔节期和完熟期进行大样本取样,并对其地上、地下各构件的数量性状及生物量分配进行统计分析,研究虎尾草在不同生育期的生长特性及生长策略.结果表明:虎尾草株高、总根长、总根表面积、根体积、地上生物量、地下生物量、总生物量在两个生育期之间均存在显著差异.在两个生育期,地上、地下生物量分配与总生物量呈显著幂函数异速生长关系.在拔节期,总生物量与分株数、总根长、总根表面积和根体积呈显著线性同速生长关系;而在完熟期,均呈显著幂函数异速生长关系.虎尾草无性系在不同生育期存在着不同的生长策略,在拔节期主要采取的是无性系外部空间的优先扩展策略,而在完熟期主要采取的是无性系内、外部空间兼顾的补充和扩展策略.     

The effects of clonal integration on morphological plasticity and placement of daughter ramets in black locust (Robinia pseudoacacia)

We studied the field response of Robinia pseudoacacia L. to light, total soil nitrogen, available soil phosphorus and soil pH. Results indicated that there was very strong clonal integration between mother and daughter ramets. Mother ramets can provide nitrogen and phosphorus to daughter ramets sufficient for their continued growth through strong clonal integration, but cannot provide enough photosynthate. With clonal integration, soil nitrogen and phosphorus availability had no effect on biomass allocation to roots, number of ramets and length of connection roots. Biomass allocation to roots increased markedly and responded to nitrogen and phosphorus availability, when the connections were severed. Light had a significant effect on the percent of biomass allocation to leaves and number of ramets, but no effect on the length of connection roots. Daughter ramets allocated more resources to leaves, and clones placed more daughter ramets in high light patches than in low light patches. Soil pH had a significant effect on ramet number and connection root length. Clones concentrated in alkaline patches and escaped from acid patches through selective placement of daughter ramets and changing the length of connection roots. We suggest that the clonal integration may be very strong and provide sufficient soil resources to daughter ramets, then affect the daughter ramets’ morphology and placement, if the size of a specific ramet is significantly larger than the other ramets in an arbor clone.     

杉木种子萌发及幼苗生长对光强的响应

设置不同光强梯度(透光率分别为100%、40%、20%、10%和5%,光照强度PPFD分别为201.3、77.0、37.5、19.2、9.8 μmol·m^-2·s^-1),研究光对杉木种子萌发和幼苗早期生长的影响,分析杉木种子萌发、幼苗存活、生长、形态响应、生物量积累及其分配格局对不同光环境的响应策略.结果表明: 杉木种子的萌发率、存活率、建植率和萌发指数在不同光强梯度下均有显著差异,且40%的透光率是种子最适萌发条件,萌发率最高,而全光照下存活率和建植率最高;随光照强度的减弱,杉木幼苗茎长增大,根长、子叶长、子叶厚、真叶数呈降低趋势,而基径在各光照强度间无显著差异;总生物量、根生物量、茎生物量、叶生物量均表现为全光照下最大.随着光照强度的减弱,光合组织与非光合组织生物量比、叶生物量比呈降低趋势,茎生物量比呈增加趋势,根冠比和根生物量比无显著差异.弱光环境促进杉木种子萌发,不利于杉木幼苗存活和生长.在弱光环境下,杉木幼苗通过增大茎生物量来提高对弱光环境的耐受力.     

Habitat selection in spatially heterogeneous environments: a test of foraging behaviour in the clonal submerged macrophyte Vallisneria spiralis

1. To test whether clonal macrophytes can select favourable habitats in heterogeneous environments, clonal fragments of the stoloniferous submerged macrophyte Vallisneria spiralis were subjected to conditions in which light intensity and substratum nutrients were patchily distributed. The allocation of biomass accumulation and ramet production of clones to the different patches was examined. 2. The proportion of both biomass and ramet number of clones allocated to rich patches was significantly higher than in poor patches. The greatest values of both clone and leaf biomass were produced in the heterogeneous light treatment, in which clones originally grew from light‐rich to light‐poor patches, while clones produced the most offspring ramets in the treatments with heterogeneous substratum nutrients. Similarly, root biomass had the highest values in nutrient‐rich patches when clones grew from nutrient‐rich to nutrient‐poor patches. 3. The quality of patches in which parent ramets established significantly influenced the foraging pattern. When previously established in rich patches, a higher proportion of biomass was allocated to rich patches, whereas a higher proportion of ramet number was allocated to rich patches when previously established in poor patches. 4. Results demonstrate that the clonal macrophyte V. spiralis can exhibit foraging in submerged heterogeneous environments: when established under resource‐rich conditions V. spiralis remained in favourable patches, whereas if established in adverse conditions it could escape by allocating more ramets to favourable patches.