水曲柳落叶松根系之间的相互作用研究

 通过水曲柳(Fraxinus mandshurica)和落叶松(Larix gmelinii)两个树种苗木纯栽和混栽试验,在温室条件下研究两树种根系之间的相互作用。结果表明,水曲柳与落叶松混栽使水曲柳细根和粗根生物量比纯栽分别增加47％和46％,叶和茎生物量分别增加30％和48％,同时改变了水曲柳地下部分与地上部分比率,促进了水曲柳细根和叶协调生长。而混栽的落叶松细根和粗根生物量比纯栽分别减少19％和35％左右,叶和茎生物量减少22％和34％,但是落叶松地下部分和地上部分各生物量组分变化不存在显著差异。混栽改变了水曲柳根系的空间分布和根系的形态,导致根系密度和根长度分别增加47％和34％,有利于水曲柳吸收较多的养分和水分,提高其竞争效率。落叶松起到改变土壤环境作用。     

梓树苗木地下和地上竞争的效应研究

采用生物量计算的竞争指数和通径分析的方法,研究了3种密度的梓树苗木地下竞争和地上竞争的关系及对总竞争的影响。结果显示,梓树苗木地下生物量、地上生物量和总生物量与密度密切相关,随着密度的增加,其根、茎、叶的生物量减少,根冠比均小于1。在同一密度条件下,地上竞争指数明显大于地下竞争指数,地上竞争对总竞争的直接作用范围(0.449 3～0.973 1)明显大于地下竞争对总竞争的直接作用(0.275 6～0.773 2)。研究表明,梓树幼苗地上茎、叶的竞争在梓树苗木总的竞争中占有重要地位。     

不同混交比例对杉木和大叶榉幼苗功能性状的影响

了解林木功能性状在不同培育模式下的变异和关联,对揭示林木生态适应性及其生态功能具有重要意义。选取了亚热带地区两种常见人工林树种杉木、大叶榉幼苗为研究对象,设置4种不同栽培模式的盆栽试验：单一杉木（4C）,单一大叶榉（4Z）和杉木、大榉树3种混栽模式（1C3Z、2C2Z、3C1Z）,研究不同混交比例对其叶、茎、根功能性状的影响。结果表明：（1）杉木总叶面积、叶干物质含量、净光合速率、蒸腾速率和气孔导度在混栽模式下显著减小,而比叶面积显著增大;根长和比根长在不同处理间无显著差异;叶、茎、根生物量和单株总生物量在混栽模式下显著低于4C处理,不同混栽模式之间差异不显著。（2）大叶榉单叶面积在3C1Z处理下最高,总叶面积随大叶榉在树种组成中所占比例的降低而逐渐增大,比叶面积在不同处理间无显著差异,叶干物质含量、净光合速率、蒸腾速率和气孔导度均在2C2Z处理下最大,而瞬时水分利用效率在2C2Z处理下最小;根长在3C1Z处理下显著增大,比根长在不同处理间无显著差异;叶、茎、根生物量和单株总生物量随大叶榉在树种组成中所占比例的降低而逐渐增大。综合来看,杉木和大叶榉混合处理中杉木种间竞争大于种内竞争,而大叶榉相反;随杉木在混栽处理中比例减少,其主要通过增加比叶面积,提高净光合速率,减少茎生物量积累来适应种间竞争关系;而大叶榉随其在混栽处理中比例的减少,显著增加叶面积和根长来提高资源利用率,减少地下资源分配,提高地上茎生物量积累。因此,树种混交比例将显著影响林木功能性状及其生物量积累,选择适宜混交比例对混交林可持续经营具有重要意义。     

高寒山区混播草地燕麦和毛苕子生物量分配格局对组分密度比的响应

密度梯度对植物生物量分配格局的制约影响到混播草地在生态和生产上表现.2010年6-9月采用取代系列实验方法,在石羊河上游建立1年生人工混播草地,按燕麦(Avena sativa L.)与毛苕子(Vicia villosa Roth)的密度比例设置A(8∶2)、B(6∶4)、C(5∶5)、D(4∶6)和E(2∶8)5个处理,研究了密度对燕麦与毛苕子生物量分配格局的影响.结果表明:混播草地中随着燕麦相对密度的减小和毛苕子相对密度的增大,燕麦根系生物量先减小后增大最后再减小的趋势与毛苕子相反,燕麦和毛苕子茎、叶生物量先减小后增大;随着牧草的生长,5种混播草地中燕麦和毛苕子茎生物量分配比例逐渐增加,叶、根生物量分配比例逐渐减少.密度制约下混播牧草资源分配策略发生的调整,证明了植物地上部分对光竞争的不对称性和地下部分对资源竞争的对称性,毛苕子攀援生长及其对燕麦茎秆的压力使植物茎秆生物量分配比例较高,实现了资源利用的最大化.     

林窗中植物竞争强度随林窗发育的变化

 通过野外移植外来种尾叶桉(Eucalyptus urophylla)、大叶相思(Acacia auriculaef ormis)和本地种荷木(Schima superba) 3种幼苗,挖沟排除根竞争和砍树创造林窗排除地上竞争的实验,来测定林窗形成后植物地下竞争和地上竞争强度的变化以及这些竞争对3种幼苗生长的影响。在林窗内,尾叶桉、大叶相思和荷木受到的地下竞争强度和地上竞争强度均呈现出随林窗年龄的增长而逐渐增大的趋势。外来种尾叶桉和大叶相思受到的地上竞争强度大于本地种荷木受到的地上竞争强度,而荷木受到的地下竞争强度大于两种外来种受到的地下竞争强度。在只有地下竞争和地上竞争时,这3种幼苗的相对生长速率均小于没有竞争时,这反映了地下竞争和地上竞争对3种幼苗的生长有抑制性影响,而且这种影响在本地种和外来种间存在差异。     

施氮对杉木-浙江楠(Cunninghamia lanceolata× Phoebe chekiangensis)混栽苗木生长与植株元素含量的影响

为了探究氮沉降背景下杉木和浙江楠混栽苗木的生长特征, 于2019年5月模拟两种氮水平(对照 0 kg·hm-2·yr-1·N、施氮45 kg·hm-2·yr-1·N)和三种混栽方式(每盆种植1颗杉木苗木、1颗浙江楠苗木, 地上竞争被隔板完全隔绝, 地下竞争由三种根系分隔方式控制竞争强度: 塑料膜分隔-根系无竞争、尼龙网分隔-根系干扰性竞争、无分隔-根系完全竞争), 2019年生长季(5月～12月)施氮处理并对杉木和浙江楠苗木生物量、根系形态和植株元素含量进行分析。结果表明: 根系竞争对杉木和浙江楠苗木的根、冠生物量无显著影响(p>0.05)影响, 但两种苗木的根系生长随着竞争的加剧而受到抑制作用, 种间竞争特别是干扰性竞争能够促进植物对磷的吸收; 施氮后, 根系竞争促进了根、冠生物量的增加, 并对冠生物量的增加更有利, 同时, 根系干扰性竞争的促进作用最明显。另外, 两种苗木的根系生长随着竞争的加剧而受到促进作用。施氮和种间竞争均能促进植物对营养元素的吸收。     

植物竞争对3种移植树苗生长的影响

在植物幼苗生长过程中,总是受到包括地下根竞争在内的各种竞争影响。植物间的竞争主要同有效光辐射、水分和各种营养相关。当外来植物侵入森林群落时,可能受到群落中其它植物竞争的影响。该文通过移植尾叶桉(Eucalyptus urophylla)、大叶相思(Acacia auriculaeformis)两种外来种和本地种荷木(Schima superba)幼苗,挖沟排除根竞争和砍树创造林窗来排除地上竞争的野外实验,研究植物竞争对幼苗生长的影响。有根竞争时,荷木、尾叶桉和大叶相思幼苗的生物量和净初级生产力均小于没有根竞争时,可见地下根竞争对3种幼苗生长有抑制性影响。尾叶桉、大叶相思和荷木3种幼苗受到的总竞争强度分别是0.357 9、0.338 3和0.198 9,受到的地下根竞争强度则分别是0.104 3、0.053 04和0.118 8,受到的地上竞争强度则分别是0.285 1、0.277 0和0.090 85。尾叶桉和大叶相思两种幼苗受到的总竞争强度间的差异不显著,但都显著大于荷木;3种幼苗受到的地上竞争强度间的差异同总竞争强度情况相似;尾叶桉和荷木两种幼苗受到的地下根竞争强度间的差异不显著,但都显著大于大叶相思。地上竞争对阳性树种尾叶桉和大叶相思两种幼苗的生长影响大,而地下根竞争则对耐阴性强的荷木幼苗影响大。尾叶桉和大叶相思两种外来种幼苗受到的总竞争强度均大于本地种荷木幼苗,这反映了这两种外来树种侵入次生林这样的群落受到竞争影响大。     

地下根竞争对3种木本植物幼苗生长的影响

通过在广东南澳岛的野外试验样地移植外来种尾叶桉(Eucolyptus urophylla)、大叶相思(Acacia auriculaeformis)和本地种荷木(Schima superba）幼苗,研究南澳岛原有定居植物的地下根竞争对这些幼苗生长的影响。结果表明,地下根的竞争对3种幼苗生长影响显著,3种幼苗的生物量和生长速率在有根竞争时比无根竞争时小。3种幼苗受到的地下根的竞争强度随着苗龄的增大而不断减小,但一定时期后可达到平稳。荷木、尾叶桉和大叶相思幼苗受到的地下根的竞争强度分别为0．22、0．19和0．13。外来种尾叶桉和大叶相思在入侵森林群落的过程中,根系竞争力比本地植物荷木更强。     

地上竞争与地下竞争对科尔沁沙地榆树幼苗生长的影响

榆树疏林草原对科尔沁沙地植被恢复和景观保护有着重要意义.本文采用双因素两水平控制试验,从幼苗生物量、地下/地上生物量、茎高、根茎比、叶片数等方面,研究了草-树地上、地下竞争对科尔沁沙地榆树幼苗生长的影响.结果表明:对于1年生榆树幼苗,单株平均生物量表现为无竞争＞地上竞争＞全竞争＞地下竞争;地下/地上生物量表现为地下竞争＞全竞争＞无竞争＞地上竞争;幼苗高度表现为地上竞争＞无竞争＞全竞争＞地下竞争;根茎比表现为地下竞争＞全竞争＞无竞争＞地上竞争;叶片数表现为地上竞争＞无竞争＞地下竞争＞全竞争.地下竞争对1年生榆树幼苗生长影响显著,而地上竞争对榆树幼苗生长无显著影响.地上竞争与地下竞争对2年生榆树幼苗生长的影响均不显著.科尔沁沙地草本植物对榆树幼苗生长的影响主要通过地下竞争的方式实现,但地下竞争并没有改变榆树幼苗的资源分配方式.随榆树幼苗龄级的增长,草本植物竞争作用的影响逐渐减弱.     

水曲柳苗木地下竞争与地上竞争的定量研究

对3种密度进行栽培试验,利用通径分析的方法,研究了水曲柳地下竞争和地上竞争的关系及对总竞争的影响。结果表明,水曲柳苗木的地下部分生物量、地上部分生物量和总生物量与营养空间有密切关系。随着苗木空间距离增加,由生物量计算的竞争指数下降。在同一密度条件下,地下竞争指数明显大于地上竞争指数。由于地下生长与地上生长的相互作用,各竞争指数之间具有明显的相关性。但是地下竞争和地上竞争对总竞争的影响是不同的,通径分析可以定量的区分地下竞争和地上竞争的相对大小。地下竞争对总竞争的直接作用范围在0．5543～0．7426之间,明显大于地上竞争对总竞争的直接作用(0．2851～0．5282)。随着距离的增加,单株苗木的生长空间加大,地上部分的竞争作用增加,地下部分的竞争程度减弱。但是,地下根系的竞争在水曲柳苗木总的竞争中占有重要地位。     

The role of belowground competition and plastic biomass allocation in altering plant mass–density relationships

Metabolic scaling theory (MST) predicts a ‘universal scaling law’ for plant mass–density relationships, but empirical observations are more variable. Possible explanations of this variability include plasticity in biomass allocation between the above‐ and belowground compartment and different modes of competition, which can be asymmetric or symmetric. Although complex interactions of these factors are likely to occur, so far the majority of modelling and empirical studies has focussed on mono‐factorial explanations. We here present a generic individual‐based model, which allows exploring the plant mass–density relationship in realistic settings by representing plasticity of biomass allocation and different modes of competition in the above‐ and belowground compartment. Plants grew according to an ontogenetic growth model derived from MST. To evaluate the behavior of the simulated plants related to the allocation patterns and to validate model predictions, we conducted greenhouse experiments with tree seedlings. The model reproduced empirical patterns both at the individual and population level. Without belowground resource limitation, aboveground processes dominated and the slopes of mass–density relationships followed the predictions of MST. In contrast, resource limitation led to an increased allocation of biomass to belowground parts of the plants. The subsequent dominance of symmetric belowground competition caused significantly shallower slopes of the mass–density relationship, even though the growth of individual plants followed MST. We conclude that changes in biomass allocation induced by belowground resource limitation explain the deviations from the mass–density relationship predicted by MST. Taking into account the plasticity of biomass allocation and its linkage to the above‐ and belowground competition is critical for fully representing plant communities, in particular for correctly predicting their response of carbon storage and sequestration to changing environmental conditions.     

Root herbivore identity matters in plant-mediated interactions between root and shoot herbivores

Plants are simultaneously attacked by a multitude of herbivores that affect plant responses and plant-mediated interactions in a variety of ways. So far, studies on indirect interactions between below- and aboveground herbivores have almost exclusively focused on interactions between only one root and one shoot herbivore species at the same time. Since these studies show a variety of outcomes, we test the hypothesis that root herbivore identity matters in below-/aboveground interactions. We studied the combined effects root-feeding nematodes (Pratylenchus penetrans) and wireworms (Agriotes lineatus larvae) on Plantago lanceolata and on the performance of aboveground phloem-feeding aphids (Myzus persicae) and chewing caterpillars (Chrysodeixis chalcites larvae). Since root herbivores may also affect resource availability and the microbial community in the rhizosphere, we examined resource utilization by soil microorganisms using BIOLOG EcoPlates™.

Wireworms decreased root biomass by 13%, but led to compensatory shoot growth. Nematodes and the aboveground herbivores did not affect the biomass of Plantago lanceolata. Feeding by C. chalcites larvae enhanced the concentration of aucubin in leaves, which might explain the high mortality of the caterpillars. Aphids and the belowground herbivores did not change iridoid glycoside levels in the leaves. However, the number of aphid offspring was reduced by 44% when nematodes had been added to the soil, whereas wireworms had no effect. We observed higher utilization of BIOLOG carbon sources by the soil microorganisms only in the presence of Pratylenchus penetrans. Our results suggest that the outcome of below–aboveground interactions highly depends on herbivore identity.     

Potential management strategies for the linden borer (Coleoptera: Cerambycidae) in urban landscapes and nurseries

The linden borer, Saperda vestita Say (Coleoptera: Cerambycidae), is a native insect species that is common throughout north central and northeastern North America. Over the past decade, increasing occurrence of damage associated with the linden borer has been reported on Tilia spp. in city street trees and nurseries throughout Wisconsin, probably because of increased use of these trees. Our objective was to gain a better understanding of the seasonal biology and potential management strategies for this important pest. We evaluated the effectiveness of three systemic insecticides, imidacloprid, thiamethoxam, and disulfoton, and a mechanical control method of chipping linden borer-infested wood as a means of reducing S. vestita larval survival, subsequent emergence, and oviposition. Autumn and spring soil injections of imidacloprid to linden borer-infested Tilia cordata'Greenspire' nursery stock (< 11.4 cm in diameter at breast height [dbh]) provided >90% control. Autumn soil injections of imidacloprid and thiamethoxam and a spring granular soil application treatment of disulfoton applied to larger (>22 cm dbh) Tilia spp. did not effectively control linden borer at the application rates tested. Chipping infested Tilia spp. effectively destroyed linden borer larvae, pupae, and adults. Arborists and landscape managers should consider chipping felled Tilia spp. trees infested with S. vestita to prevent adults from potentially attacking nearby susceptible trees.     

Effect of intraspecific competition on biomass partitioning of Larix principis-rupprechtii

It is acknowledged that trees biomass allocation in response to environmental conditions. However, it remains poorly understood what strategies of plant biomass allocation with inter- and intraspecific interactions of tree species in forest stands. Such information is important for revealing strategies of plant biomass allocation with plant competition. To address this problem, a study was conducted in Larix principis-rupprechtii plantations to evaluate the impact of plant competition on plant biomass allocation in Shanxi Province, China. We measured a competition index (CI), stem, branch, foliage, and root biomass as well as element content (Carbon (C), Nitrogen (N), Phosphorus (P), Potassium (K)). Stem-foliage ratio (S/F), aboveground–belowground biomass ratio (T/R), average annual increment of biomass (AAB), height (AAH), and DBH (AAD) were calculated. The study found that the competition intensity of neighboring trees was closely related to the partitioning of biomass. Our results demonstrated that competition pressure of neighboring trees was a crucial factor to drive and regulate the distribution of biomass. Predicting biomass allocation–competition relationships could represent a supportive method for improving management of Larix principis-rupprechtii plantations in Mountain Taiyue areas.     

埋深和播种密度对豚草种子出苗及幼苗生长的影响

豚草是一种全球性的恶性入侵杂草,给我国生物多样性及经济发展造成了巨大威胁。为研究豚草种子出苗和幼苗生长的影响因素,采用盆栽实验分析了种子大小（L、M、S）与埋深（2、4 cm和6 cm）或播种密度（2、4粒/盆和8粒/盆）对豚草（Ambrosia artemisiifolia）种子的出苗和幼苗生长的影响。研究结果表明,埋深对豚草种子出苗的影响高于播种密度及种子大小的影响,较浅的埋深有利于豚草种子出苗;出苗率在不同播种密度下均具有较高水平,达到67.9%-100%,这种高出苗率是豚草在不同生境成功定植的原因之一。豚草的幼苗生长受埋深或播种密度的影响大于种子大小的影响,且小种子更易受埋深或播种密度的影响。种子大小显著影响豚草幼苗的株高和基径（P<0.05）,总体上较大种子的株高和基径高于小种子,此外更小的种子会将生物量更多的分配给根以促进幼苗的生长。幼苗的株高和基径在较浅的埋深下更高,而豚草幼苗的单株生物量、单株地上和地下生物量随埋深的增加而增加。播种密度的增加会加剧豚草幼苗之间对水分、营养、光照等资源的竞争,导致其单株地上、地下及总生物量显著降低（P<0.05）。研究发现豚草在浅埋深、低密度生境中更容易入侵成功,因此可以通过对土壤进行深翻,采取替代控制,种植竞争能力强的本地植物等手段有效管理和防治豚草。     

林窗模型BKPF模拟伊春地区红松针阔叶混交林采伐迹地对气候变化的潜在反应

用森林演替模型BKPF研究黑龙江省伊春地区红松针阔叶混交林采伐迹地上森林演替在未来50年气候变化和CO₂浓度增加的反应得出:伊春地区采伐迹地演替50年后红松和硬阔叶树的数量增加,落叶松、山杨与白桦减少;林分密度略有降低;林分生产力增加约7%～28%;林分地上部分总生物量增加15%～24%;叶面积指数增加约5%～8%.气候变化有利于采伐迹地阔叶红松林恢复.     

疏花水柏枝幼苗生物量与构件对模拟土壤地下水位变化的响应

通过模拟不同地下水位的方法,对疏花水柏枝（Myricaria laxiflora（Franch.）P.Y.Zhang et Y.J.Zhang）一年生幼苗在不同条件下地上与地下部生物量及构件的变化进行测定,分析幼苗生长对地下水位变化的响应。结果显示：随着地下水位的降低,疏花水柏枝幼苗的生长特征指标均呈先增加后减少的趋势,其中地上、地下部分生物量的最高值分别为0.0438、0.0100 g,最低值分别为0.0177、0.0026 g。幼苗地上部生物量在-10 cm处理水平最高;地下部生物量在-15 cm处理水平最高。幼苗直径、根表面积、株高、主根长度、根体积、一级枝数、二级枝数等指标也分别在-10 cm或-15 cm处理水平达到最高值。疏花水柏枝幼苗主要构件的生长与地下水位的变化存在显著相关性。主成分分析结果表明,幼苗的地下部分更容易受到土壤地下水位变化的影响,幼苗性状症候群随地下水位的变化而发生移动,说明该物种幼苗在不同地下水位时的生长投资策略具有较大差异。     

Competition effects on wiregrass (Aristida beyrichana) growth and survival

We investigated neighboring plant effects (competition and facilitation)on wiregrass establishment in two frequently encountered restoration situationsof former longleaf pine-wiregrass habitats in the Southeastern United States:longleaf pine plantations and previously cultivated fields. In the plantationexperiment, we specifically examined canopy removal, neighboring wiregrassdensity, and aboveground and belowground effects on establishment and growth ofwiregrass seedlings at two different ages (3 weeks and 6 months) with 3competitive exclusion treatments (aboveground exclusion, belowground exclusion,or no exclusion). Competition treatment effects were age-dependent forsurvivorship and growth. Survival of 6 month old seedlings was unaffected bycompetition treatment; whereas, three week old seedling survival was greatestwhere roots were excluded. Seedling size increased with root exclusion for 6month seedlings, but not for 3 week old seedlings in plots lacking neighboringwiregrass. Where wiregrass was present, both 3 week and 6 month old seedlingsincreased growth with root exclusion. Furthermore, where neighboring wiregrassplants were absent, increasing canopy density resulted in decreased seedlingsize, but did not affect survivorship. In old fields, fertilizer treatments andweeding effects were also assessed using 3 week and 6 month old seedlings.Fertilizer application did not benefit seedling survival or growth and reducedsurvivorship of 3 week old seedlings. Seedlings were smaller where neighboringold field, weedy vegetation was present regardless of wiregrass seedling age;whereas, survival was dependent on seedling age at time of planting. Six monthold seedling survivorship remained high regardless of weeding treatment. It isstill unclear whether fertilizer application is beneficial to the successfulestablishment of wiregrass.     

Refuse dumps from leaf-cutting ant nests reduce the intensity of above-ground competition among neighboring plants in a Patagonian steppe

In arid environments, the high availability of sunlight due to the scarcity of trees suggests that plant competition take place mainly belowground for water and nutrients. However, the occurrence of soil disturbances that increase nutrient availability and thereby promote plant growth may enhance shoot competition between neighboring plants. We conducted a greenhouse experiment to evaluate the influence of the enriched soil patches generated by the leaf-cutting ant, Acromyrmex lobicornis, on the performance of the alien forb Carduus thoermeri (Asteraceae) under different intraspecific competition scenarios. Our results showed that substrate type and competition scenario affected mainly aboveground plant growth. As expected, plants growing without neighbors and in nutrient-rich ant refuse dumps showed more aboveground biomass than plants growing with neighbors and in nutrient-poor steppe soils. However, aboveground competition was more intense in nutrient-poor substrates: plants under shoot and full competition growing in the nutrient-rich ant refuse dumps showed higher biomass than those growing on steppe soils. Belowground biomass was similar among focal plants growing under different substrate type. Our results support the traditional view that increments in resource availability reduce competition intensity. Moreover, the fact that seedlings in this sunny habitat mainly compete aboveground illustrates how limiting factors may be scale-dependent and change in importance as plants grow.