丛枝菌根真菌促进入侵植物紫茎泽兰的生长和对本地植物竞争效应

外来植物与入侵地土壤丛枝菌根真菌(AMF)的互作和反馈已被认为是许多入侵植物的重要入侵机制之一。为进一步探究入侵植物紫茎泽兰(Ageratina adenophora)竞争替代本地植物过程中AMF的作用,本研究首先测定了林下和林地边缘两类生境中紫茎泽兰和本地植物的AMF侵染率和AMF含量,结果表明,2种生境中紫茎泽兰的菌根侵染率和AMF含量均显著高于本地植物,且菌根侵染率与AMF含量呈显著正相关。温室盆栽试验结果进一步表明,接种AMF显著促进了紫茎泽兰的生长,且对硝态氮和有效磷的吸收能力优于本地植物香茶菜(Rabdosia amethystoides),同时降低了竞争中本地植物香茶菜的菌根依赖性,提高了紫茎泽兰对香茶菜的竞争优势度。本研究进一步证实AMF有利于促进紫茎泽兰的竞争性扩张。     

土壤微生物增强了外来植物紫茎泽兰对本地植物种的竞争力

【Background】The soil microbial community plays an important role in plant establishment, growth and nutrition. Invasion success may be linked to plant microbe interactions. 【Method】Under glasshouse conditions, we compared the effect of soil microbial communities to the growth and interactions between the exotic weed Ageratina adenophora and native plants. The microbial communities were from soil invaded by A.adenophora (IS) vs. that dominated by native weeds (NS). 【Result】A.adenophora which received inoculum from IS had higher arbuscular mycorrhizal colonization rate than that from NS, especially when Medicago falcata or Setaria viridis grew near A.adenophora. Microbial inoculum from IS accelerated the growth of A.adenophora, when planted in polyculture with the native plant S.viridis, but the native species growth was not affected. A.adenophora, receiving an inoculum from IS, inhibited the growth of its two neighboring native species, while no such effect was observed when using inoculum from NS. A.adenophora responded positively to the inoculum taken from IS in all planting combinations, but responded negatively to inoculum from NS both in monoculture and in polyculture with M.falcata. 【Conclusion and significance】Soil microbes, including arbuscular mycorrhizal fungi present in soil in the rhizosphere of A.adenophora enhanced the competiveness of this invasive weed against native species, which may be an important invasion mechanism of exotic plants.     

Shifts in chemical and microbiological properties belowground of invader Ageratina adenophora along an altitudinal gradient

入侵植物紫茎泽兰根围土壤化学及微生物属性海拔变化格局 热带地区山地生态系统是外来植物入侵的重要区域,是研究外来植物扩散机制的“天然实验室”。本研究试图探明入侵植物紫茎泽兰(Ageratina adenophora)根围土壤化学(pH及土壤养分)和微生物(酶活性和细菌群落)特性沿海拔梯度的变化规律。本研究以哀牢山(1400–2400 m)不同海拔梯度分布的紫茎泽兰为研究对象,采集根围土,测定土壤有机碳及养分含量,以及植物根系碳和氮含量。分析与土壤有机碳、氮及磷循环的酶活性,通过计算土壤酶化学计量参数,探究微生物生长代谢利用碳、氮及磷的规律。借助高通量测序技术对16S rDNA的V4区测序,分析细菌群落结构。研究结果显示,海拔显著影响紫茎泽兰根系氮及及其根围土壤有机碳含量,且这些测量指标在海拔2000 m  出现拐点。处在低海拔,入侵植物快速生长耗竭土壤中相对缺乏的磷,磷素是限制微生物生长的重要养分元素;而在高海拔,微生物需要投入更多的能量降解有机质获取碳,导致微生物生长的碳限制。细菌群落β多样性及pH  是决定不同海拔酶化学计量参数差异的重要因子;变形菌门和酸杆菌门是决定微生物养分利用状况的主要细菌门类。这些结果阐明了不同海拔梯度上紫茎泽兰根围土壤微生物的养分利用规律,有助于认识入侵植物沿海拔扩散机制。     

Invasion dynamics and potential spread of the invasive alien plant species Ageratina adenophora (Asteraceae) in China

Ageratina adenophora (Sprengel) R. King & H. Robinson (=Eupatorium adenophorum Sprengel) is one of the worst invasive alien species in China. Since A. adenophora was first noticed in Yunnan Province of China in the 1940s, its rapid spread has caused an ecological problem in south‐western China. Understanding its historical invasion pattern and its potential for further spread is needed to plan the management of the species. We reconstructed the historical process of its invasion and analysed its ecological preferences in the invaded region. After a lag phase of 20 years (1940–60), A. adenophora spread rapidly throughout the south and middle subtropical zones in Yunnan, Guizhou, Sichuan, and Guangxi, China, with an average expansion rate of 20 km per year. It spread relatively slowly in north subtropical areas, with an average expansion rate of 6.8 km per year. It has not established in warm temperate areas within the invaded regions. Although range expansion in Yunnan stopped after 1990, the expansion of its range into neighbouring provinces indicates that A. adenophora has not reached the full potential of its distribution and its range is still rapidly expanding within China. We applied ecological niche modelling (GARP — Genetic Algorithm for Rule‐set Prediction) to predict potential invasion areas in mainland China on the basis of occurrence points within colonized areas where A. adenophora has reached equilibrium. The predictions, confirmed by the range of values of four key environmental parameters, generally match the parameters of the geography and ecology in the invaded region. Southern and south‐central China have climatic conditions suggestive of a high potential for invasion by A. adenophora. Climatic conditions in northern and western China appear unsuitable for A. adenophora. Urgent measures should be taken to prevent this species from further spreading into the vast areas of potential habitat in southern and south‐central China.     

紫茎泽兰化感作用对9种草本植物种子萌发的影响

【背景】紫茎泽兰是一种入侵我国的世界性恶性杂草,给当地的农、林、畜牧业生产造成严重的经济损失,使生态环境面临"绿色灾难"。紫茎泽兰的化感作用是其成功入侵的重要原因,其化感物质对当地植物的生长具有明显的抑制作用。【方法】利用培养皿滤纸法研究了紫茎泽兰叶片水提液对9种草本植物种子萌发的影响,这些植物包括紫茎泽兰入侵早期直接与之竞争的云南草本植物:鲁梅克斯、高丹红、鸭茅(安巴)、苕子、胡枝子,以及为替代控制紫茎泽兰而引进的外来优良牧草:紫花苜蓿(敖汉)、白三叶(海发)、红三叶、黑麦草(速达)。【结果】紫茎泽兰叶片提取液对9种受体植物种子萌发均具有化感作用。低浓度提取液对受体植物的化感作用较弱(对部分植物种子萌发有促进作用);高浓度提取液对受体植物的化感作用较强,且能降低种子发芽率及发芽速率,其中,发芽速率对化感作用更敏感。不同植物对紫茎泽兰化感作用的敏感程度不同,鲁梅克斯、鸭茅和苕子对紫茎泽兰的化感作用较敏感;黑麦草、胡枝子和高丹红最不敏感;紫花苜蓿、红三叶和白三叶对低浓度紫茎泽兰叶片水提液不敏感,对高浓度提取液较敏感。【结论与意义】不同植物种子对紫茎泽兰化感作用的敏感性存在差异,研究结果有利于了解紫茎泽兰成功入侵的机制,并可为筛选具有替代控制潜力的优良牧草奠定基础。     

入侵物种飞机草和紫茎泽兰的核型研究

报道了菊科（Asteraceae）原泽兰属（Eupatorium）2种植物的核型,飞机草(Chromolaena odorata (L.) R. M. King &; H. Robinson）2n=60,核型公式为2n=60=32 m+28 sm,核型属于“2A”型,紫茎泽兰(Ageratina adenophora (Sprengel) R. King &; H. Robinson）2n=51,核型公式为2n=51=30 m+21 sm,核型属于“2B”型。飞机草的染色体数目变化较大,紫茎泽兰染色体数目较稳定。紫茎泽兰不能产生正常的花粉。飞机草有性生殖产生的种子发芽率低,紫茎泽兰无融合生殖产生的种子发芽率高,但2种植物入侵能力都很强,种子数量与2种植物的入侵性关系不大。     

Effects of leachates of the invasive plant, Ageratina adenophora (Sprengel) on soil microbial community

The invasive plant Ageratina adenophora (Sprengel) changed soil microbial communities in the invaded area to facilitate its growth and inhibit native plants. However, little is known about the driving forces underlying the alteration of soil biota. Leachates from root and aerial part (stem and leaves) of A. adenophora were mixed into soil to imitate field invasion processes for evaluation of its impact on invasion of soil microbial community. The results indicated that soil microbial community was significantly changed when the soil taken from the newly-invaded area was treated with A. adenophora root and aerial part leachates for 3 and 5 weeks, respectively. The biota of newly invaded soil treated with concentration of 100 mg/mL A.adenophora leachates was much closer to that of heavily invaded soil, but was significantly different from that of control soil (newly invaded soil without treatment). A.adenophora leachates promoted growth of the seven dominant rhizosphere bacterial species in the invaded soil. The effect of A.adenophora leachates on soil biota and dominant rhizosphere bacteria was positively correlated with the concentration of leachates, however, the effect of root leachates was stronger than the aerial part leachates. It is assumed that A.adenophora change soil microbial community via nutritional and chemical communication, which helps it in better colonization of the invaded soil.     

白茅对紫茎泽兰的竞争效应

外来生物的入侵可导致环境退化、生物多样性降低和食物及水资源短缺,利用本地植物或优良牧草进行替代控制是治理入侵植物的有效途径之一。采用本地禾本科植物白茅与紫茎泽兰等比例混合种植,研究了其对紫茎泽兰的竞争效应。结果表明:白茅与紫茎泽兰之间呈现很强的竞争作用,可用作紫茎泽兰的替代控制植物;白茅地上部分相对竞争力比紫茎泽兰强,其幼苗萌发早于紫茎泽兰,株高和单株平均叶面积均显著高于紫茎泽兰;二者混合种植可显著抑制紫茎泽兰的植株生长和分蘖,混合种植区紫茎泽兰的株高、单株平均叶面积和叶绿素含量分别只有其单种的49%、72%和77%;而混合种植对白茅植株生长的影响不显著,并可促进其分蘖,混合种植区的白茅分蘖数达单种区的132%。白茅的相对产量显著高于紫茎泽兰的对应指标,竞争效应参数相对产量总和1.0;随着混合种植时间的延长,两者的竞争关系将愈加显著。     

Invasive mechanism and control strategy of Ageratina adenophora (Sprengel)

In order to ascertain the invasive mechanism and control strategy of the invasive Crofton weed, Ageratina adenophora, its ecological adaptability and population differentiation, the formation of single dominant population, displacement of native plants and sustainable management strategies were investigated. The present results helped to clarify and explain such issues as the adaptability post invasion, interaction and competition between inter- and intra-species and community resistance, thereby providing important references to researches on other invasive alien species.     

Inhibition of Ageratina adenophora on spore germination and gametophyte development of Macrothelypteris torresiana

Allalopathy of Ageratina adenophora plays an important role in its invasion. However, we have little knowledge of its allelpathic effects on ferns. In Petri dish bioassays, the inhibitory potential of aqueous leachates from roots, stems and leaves of A. adenophora was studied on the spore germination and gametophyte development of Macrothelypteris torresiana. All leachates Inhibited the spore germination and growth of the first rhizoid of M. torresiana and inhibitory effects Increased with increasing leachate concentrations. Root leachates proved most inhibitory. Gametophyte rhizoids of M. torresiana treated with stem and leaf leachates ofA. adenophora were erect, which was similar to those of the control. However, gametophyte rhizoids of M. torresiana treated with root leachates of A. adenophora were erect, but also curving or swollen. Moreover, curving and swollen rhizoids Increased with Increasing concentrations. As time went by, rhizoids treated with root leachates were not so curved and the swelling almost disappeared. Possible causes are discussed in the present study. The increasing concentrations of leaf leachates also delayed the stages of gametophyte development. With the treatment of root leachates, the delay was more obvious. Thus A. adenophora inhibited the spore germination and gametophyte development of M. torresiana and the root leachates were most inhibitory.     

Two new carene-type monoterpenes from aerial parts of Ageratina adenophora

Two new carene-type monoterpenes, (1α,6α,7α)-8-hydroxy-2-carene-10-oic acid (1) and (1α,6α)-10-hydroxy-3-carene-2-one (2), were isolated from the aerial parts of Ageratina adenophora, together with a known monoterpene, (−)-isochaminic acid (3). The new structures were elucidated on the basis of extensive spectroscopic analysis, including MS, 1D and 2D NMR techniques. Compound 3 was isolated from A. adenophora for the first time. Compounds 2 and 3 were found to show anti-fungal activity against spore germination of Magnaporthe grisea with IC₅₀ values 0.623 and 0.503 mM, respectively.     

Evaluation of foliar fungus‐mediated interactions with below and aboveground enemies of the invasive plant Ageratina adenophora

Plant–fungal associations are frequently key drivers of plant invasion success. Foliar fungi can benefit their invasive hosts by enhancing growth promotion, disease resistance and environmental stress tolerance. However, the roles of foliar fungi may vary when a given invasive plant faces different stresses. In this study, we designed three independent experiments to evaluate the effects of a foliar fungus, Colletotrichum sp., on the growth performance of the invasive plant Ageratina adenophora under different soil conditions, as well as the responses of A. adenophora to the foliar fungal pathogen Diaporthe helianthi and to herbivory. We found that the soil type was the most influential factor for the growth of A. adenophora. The role of the foliar fungus Colletotrichum sp. varied in the different soil types but generally adversely affected leaf development in A. adenophora. Colletotrichum sp. may be a weak latent foliar pathogen that can enhance the pathogenicity of D. helianthi on leaves of A. adenophora and marginally reduce signs of herbivory by natural insects in the wild on A. adenophora seedlings. In general, the benefits of the foliar fungus Colletotrichum to the fitness of A. adenophora are not significant in the context of this experimental design. However, our data highlight the need to consider both aboveground and belowground biota in different soil habitats when evaluating the effects of foliar fungi.     

Above- and belowground herbivory alters the outcome of intra- and interspecific competition between invasive and native Alternanthera species

Biological Invasions - Effects of herbivory on competition between invasive and native plants have seldom been examined from an above-belowground integrated perspective. We examined the...     

人工群落中苗期紫茎泽兰的化感作用和对光环境的适应

在有、无活性炭的条件下分别构建紫茎泽兰（Ageratinaa denophora）与4种受体植物——飞机草（Chromolaena odorata）、鬼针草（Bidenspilosa）、胜红蓟（Ageratum conyzoides）和兰花菊三七（Gynura sp.）混种的人工群落,研究了群落中紫茎泽兰的化感作用和对群落光环境的适应,探讨了化感作用和光适应特性与其入侵性的关系。结果表明,活性炭处理对4种受体植物的生长、生理特性影响不显著,说明苗期紫茎泽兰化感作用不明显,推测入侵初期化感作用不是紫茎泽兰排挤本地种的主要原因。4种受体植物可以通过化感作用对紫茎泽兰产生某些影响,但群落的光环境对其影响更大。紫茎泽兰能很好地适应群落中不同的光环境。苗期紫茎泽兰处于群落下层,叶片受光指数低,此时它能长期忍耐并缓慢生长;随着叶片受光指数的升高,其最大净光合速率、超氧化物歧化酶活性、叶绿素a／b比、总生物量、总叶面积、地茎、叶片数和分支数升高,比叶面积和比茎长降低,这有利于它维持叶片能量平衡并导致对邻近植物的严重遮荫。紫茎泽兰强的光适应能力、强光下对其它物种的遮荫效应与其入侵性密切相关。     

紫茎泽兰高分子量核DNA制备方法的研究

以紫茎泽兰暗培养幼嫩叶片为材料,在细胞核提取缓冲液中加入PVP、抗坏血酸和氨基甲酸钠3种强抗氧化剂,较好地去除了多糖多酚等次生代谢物,经低熔点琼脂糖包埋细胞核及蛋白酶K原位裂解DNA胶块,以获得大分子量DNA;最后分别采用2种不同的限制性内切酶(BamH Ⅰ和HindⅢ)和5个浓度梯度(0 U、0.2U、0.4U、0.6U、0.8 U)进行酶切,并对不同的回收方法进行比较分析.结果表明:经脉冲电泳检测,本方法提取的DNA片段长度＞600 kb,基本无细胞器DNA和蛋白质污染;酶切条件以0.4U酶浓度HindⅢ的效果最好,酶切后的DNA片段主要集中在100～300 kb之间,DNA片段大小满足构建BAC文库的要求;对回收方法进行比较分析,电洗脱法回收的大片段DNA浓度远远大于琼脂糖酶切法,大于8mg·L-1,这完全能够满足构建大片段基因组文库对DNA浓度的要求.