首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到19条相似文献,搜索用时 156 毫秒
1.
植物内生真菌能产生酚类、萜类和生物碱类等多种类型的化感物质,它们在植物的生长发育、抗生物胁迫和非生物胁迫方面发挥重要作用。对植物内生真菌的化感作用及其所产生的化感物质进行了综述,并展望了其化感作用的应用前景。  相似文献   

2.
化感胁迫诱导植物细胞损伤研究进展   总被引:3,自引:2,他引:3  
马丹炜  王亚男  王煜  张红  廖颖  何兵 《生态学报》2015,35(5):1640-1645
化感胁迫(allelochemical stress)是指一种植物通过淋溶、挥发、根系分泌和残株腐解等途径释放化学物质,对另一种植物(包括微生物)产生直接或间接的伤害作用。有害化感物质对受体植物具有显著的细胞毒性,影响根边缘细胞的形成过程和活性,改变细胞壁和细胞膜的特性,破坏细胞内部结构,干扰细胞有丝分裂过程和基因表达模式;此外,化感胁迫往往伴随着氧化胁迫,受体植物细胞活性氧(ROS)水平升高,膜脂过氧化程度加剧,抗氧化系统被破坏,ROS影响与凋亡相关的信号调控过程,引起细胞大量死亡。因此,化感胁迫诱导的氧化胁迫可能是引起细胞凋亡的原因之一。阐明化感胁迫介导的氧化损伤和细胞损伤的相互关系以及根边缘细胞对化感胁迫的响应机制,是今后研究化感作用机制的一个方向。  相似文献   

3.
植物化感物质对种子萌发的影响   总被引:44,自引:1,他引:43  
所有的化感物质都对一些植物的种子萌发产生影响.本文介绍了植物化感作用和化感物质的定义,化感物质的释放方式和种类,然后重点综述了化感物质影响种子萌发的作用机理、内外因素和生态学意义.化感物质通过影响细胞膜透性、细胞分裂生长和分化、呼吸作用、蛋白质合成、基因表达、激素合成和平衡,最终影响种子萌发.化感物质对种子萌发的影响与化感物质的种类、浓度、受体植物种类和环境条件等有关.  相似文献   

4.
沉水植物对藻类的化感抑制作用,是沉水植物获取竞争优势和维持清水稳态的重要机制之一。化感物质是由植物产生并释放到水环境中的次生代谢产物,化感物质的有效释放和作用是实现沉水植物化感抑藻作用的关键环节。因此,在化感物质释放水平阐明沉水植物化感抑藻的作用模式、过程和机制具有重要意义。通过比较沉水植物化感物质释放到水环境中的种类、含量和常规急性毒性测试中化感物质的抑藻效果,发现沉水植物化感物质在释放水平上的作用模式不同于常规急性毒性试验中的单次作用。为了回答沉水植物化感物质在释放水平如何高效抑藻的问题,结合化感物质的释放特性,重点从化感物质的联合作用和持续作用等角度探讨沉水植物化感抑藻的作用模式,提出沉水植物可能通过多种化感物质低剂量持续释放的方式,实现对目标藻类的持续协同控制。今后有必要进一步结合沉水植物与目标藻类的共存系统与原位实验,借助分析化学、植物化学、细胞和分子生物学的技术手段,从生态学水平加强沉水植物化感抑藻作用机制研究。  相似文献   

5.
植物化感作用研究中应注意的问题   总被引:125,自引:10,他引:115  
近年植物化感作用的研究十分活跃,但研究中也存在着一些问题和误区.本文就化感作用的基本定义和研究内容;化感物质的释放途径和研究方法;化感作用与植物竞争和环境胁迫;化感作用的应用潜力等几个主要方面存在的一些易混淆的问题进行讨论,并提出一些看法.  相似文献   

6.
植物化感作用的机理及应用前景   总被引:6,自引:0,他引:6  
植物的化感作用是植物进化出的一种保护自身生存的方式,通过向环境中释放化学物质促进或抑制自身和其他植物的生长,抑制作用较为常见。化感作用既可以被人类应用于农业除杂草,又业经济效益的关键所在。详细介绍了植物化感物质种类、作用机理,最后是入侵物种强有力的武器,合理地利用化感作用将是保持生态平衡,同时创造农讨论了植物化感作用的应用前景。  相似文献   

7.
黄花蒿对4种受体植物的化感作用研究   总被引:5,自引:0,他引:5  
采用室内生物测定法,以小麦、燕麦、黄瓜和萝卜为受体,研究了黄花蒿对受体植物的化感作用,结果显示:黄花蒿水浸提液对小麦、燕麦的化感综合效应(SE)为56.29、57.17;其地上部淋溶物对小麦和黄瓜表现为抑制作用,对燕麦和萝卜表现为促进作用;其茎叶挥发物对4种受体植物根长生长有较强的抑制作用;其残体分解物前10d对受体有很强的抑制作用,根系分泌物对小麦和燕麦抑制作用较强,对萝卜和黄瓜表现为促进作用。结果表明,黄花蒿5种不同途径来源的化感物质对4种受体植物都有不同程度的化感作用,且黄花蒿主要是通过地上部淋溶、挥发向环境中释放化感物质,其次是通过根系分泌物对授体植物产生化感作用。  相似文献   

8.
小麦化感作用研究进展   总被引:31,自引:2,他引:29  
小麦是世界第一大粮食作物,在农业生产中占有重要地位.然而,由于人们为保证小麦产量往往施用大量的除草剂和杀菌剂,对环境造成了极大的危害.小麦化感作用是利用小麦活体或残体向环境中释放次生代谢物质对自身或其他生物产生作用,它克服了除草剂和杀菌剂等引起的环境污染问题,具有抑制杂草控制病害的潜力.本文对已有的小麦化感作用的研究进展情况进行了综合评述.其中小麦对杂草、虫害及病害产生防御功能的主要化感物质为异羟肟酸和酚酸类物质.小麦化感物质活性的发挥除了取决于化感物质的种类外,还由小麦自身的遗传因素、环境因素和生物因素的共同作用所决定.小麦化感物质在根际土壤中的滞留、迁移和转化过程、小麦化感作用与土壤生物的关系以及相关的作用机理是小麦化感作用研究的薄弱环节。其研究方法还需进一步探索改进.小麦化感作用在植物保护、环境保护以及作物育种等方面具有广泛的应用前景,促进了小麦抗逆性的增强以及产量和品质的提高.  相似文献   

9.
植物化感物质及化感潜力与土壤养分的相互影响   总被引:10,自引:0,他引:10  
植物化感作用与许多生态因子有关.土壤养分缺乏,影响着许多植物化感物质的产生,从而影响植物的化感潜力;反过来,植物化感物质也通过络合、吸附、酸溶解、竞争、抑制等方式影响土壤的养分形态和水平.本文总结了植物化感物质及化感潜力与土壤养分的相互影响,并提出了今后该领域值得进一步研究的问题.包括以下几方面:加强植物化感研究与土壤 植物营养学研究的结合,以更深入地阐明植物化感物质、化感作用与土壤养分变化的关系;加强植物化感研究与生态系统养分循环研究的结合,以类似自然(nature-like)的方式模拟自然界植物所受的养分干,使养分干扰的化感研究结果更加逼真、可靠;加强对养分过量及受污染时植物化感作用的研究,为揭示农业和林业生产中植物的相互作用机制和生物量变化机制提供新的思路,为生态保护提供科学依据.  相似文献   

10.
小麦是世界第一大粮食作物,在农业生产中占有重要地位.然而,由于人们为保证小麦产量往往施用大量的除草剂和杀菌剂,对环境造成了极大的危害.小麦化感作用是利用小麦活体或残体向环境中释放次生代谢物质对自身或其他生物产生作用,它克服了除草剂和杀菌剂等引起的环境污染问题,具有抑制杂草控制病害的潜力.本文对已有的小麦化感作用的研究进展情况进行了综合评述.其中小麦对杂草、虫害及病害产生防御功能的主要化感物质为异羟肟酸和酚酸类物质.小麦化感物质活性的发挥除了取决于化感物质的种类外,还由小麦自身的遗传因素、环境因素和生物因素的共同作用所决定.小麦化感物质在根际土壤中的滞留、迁移和转化过程、小麦化感作用与土壤生物的关系以及相关的作用机理是小麦化感作用研究的薄弱环节,其研究方法还需进一步探索改进.小麦化感作用在植物保护、环境保护以及作物育种等方面具有广泛的应用前景,促进了小麦抗逆性的增强以及产量和品质的提高.  相似文献   

11.
Ecophysiological Approach in Allelopathy   总被引:3,自引:0,他引:3  
Allelopathy is a process that can be present in many ecosystems, according to the literature. Nevertheless, the authors think that, due to the evolutionary constraints, especially from a co-evolution point of view, this process cannot be very extended except in some conditions. Allelopathy can be important when an invader plant affects to the autochthonous species, when soil microorganisms cannot cope with a new molecule and target plants have not co-evolved. It can be important in some conditions when there is a continuous release of allelochemicals into the environment or when there is a very limited metabolism of those substances. Most agricultural and forestry practices tend to increase the possibilities of such a process to be important. Allelopathy can be effective only when plants are in stress due to other mechanisms, for example, when there is a lack of water or competition for nutrients or light is strong. In those conditions, allelochemicals production has been shown to increase. Sometimes there are allelochemicals that are not normally produced if the plant is not under stress. Under stress, the target plant is also more susceptible to the effect of the released phytotoxins. A multidisciplinary ecophysiological approach is needed in studying allelopathy in conjunction with other mechanisms that affect plants. The study can range from the ecological level to the molecular one. New methods are requested to separate the effects of allelopathy from competition.  相似文献   

12.
Allelopathy is defined as mechanism of plant-plant, plant-microorganisms, plant-virus, plant-insect, and plant-soil-plant interactions mediated by plant- or microorganism-produced chemicals released to the environment. The majority of allelochemicals are secondary metabolites and among others belong to terpenoids, phenolic compounds, organic cyanides and longchain fatty acids. The action of allelochemicals in target plant is diverse and affects a large number of biochemical reactions resulting in modifications of different physiological functions. Thus the results of allelochemical action can be detected at different levels of plant organization: molecular, structural, biochemical, physiological and ecological. Enzyme activities, cell division and ultrastructure, membrane permeability, ion uptake and as a consequence plant growth and development are modified by allelochemicals. Significant effects on photosynthesis and respiration are the best-characterized results of allelopathic interactions. Moreover allelopathic compounds seem to induce a secondary oxidative stress expressed as enhanced free radical production and induction of cellular antioxidant system. Plant survival under allelopathy stress conditions depends on plant defense leading to allelochemical detoxication, the process which may go on in parallel to cell defense reaction to oxidative stress. The article presents some aspects of the current knowledge regarding mechanisms of the allelopathy phenomenon. The allelopathy is a complex problem, thus comprehensive understanding of allelochemical mode of action requires further investigation and still remains an open question.  相似文献   

13.
Allelopathy determines the dynamics of plant species in different environments. Understanding this biological phenomenon could help to develop applications in both natural and agricultural systems. This review summarizes the genetic and environmental characteristics that control the production and release of allelochemicals in agroecosystems. This study highlights the current understanding of the environmental changes caused by allelochemicals and summarizes the knowledge about the mechanisms of action of these compounds. Finally, it reviews novel applications of allelopathy in agricultural production systems, including the role of allelochemicals in consortia and their potential use in no-tillage cropping systems through cover crops or mulches.  相似文献   

14.
Mutualisms with mycorrhizal fungi, pollinators, and seed dispersers are critical for plant survival and reproduction. However, mutualism effectiveness is highly sensitive to disturbance by environmental stressors. Allelopathy is often overlooked, yet likely important, as a potential stress on plant mutualism function. Allelochemicals can affect plant mutualisms by either directly interfering with the plant’s ability to produce resources and rewards for its mutualistic partners or by directly or indirectly altering the non-plant mutualist’s behavior. Here we explore the potential effects of allelochemicals on plant mutualisms. Since allelochemicals can reduce plant growth and carbon acquisition, we suggest that allelopathy could directly diminish: (1) carbon provisioning to mycorrhizal fungi, (2) flower, pollen, and nectar production for pollinators, and (3) fruit attractiveness to seed dispersers. Similarly, allelochemicals that directly affect mycorrhizal fungi functioning can reduce the flow of soil resources to their plant partner. Further, volatile allelochemicals or uptake of allelochemicals from the soil by the plant could alter pollen/nectar or fruit attractiveness and indirectly influence pollinator and seed disperser behavior. Finally, we explore the extent to which plant-produced chemicals could have a direct or indirect positive effect on plant mutualisms. We end using these questions to frame future avenues of research that could help to move studies of allelopathy into the broader ecological context of mutualisms.  相似文献   

15.
化感物质对植物根系形态属性影响的meta分析   总被引:1,自引:0,他引:1  
鄢邵斌  王朋 《应用生态学报》2020,31(7):2168-2174
植物化感作用是通过释放到环境中的化感物质直接或间接影响受试植物生长而实现的。化感物质主要作用于根系,所以植物根系属性是化感作用研究的重要指标之一。目前,关于受试植物形态属性对外源化感物质的响应模式尚缺乏整体的认识。为此,本文对61篇有关纯化感物质(包括酚类、萜类和含氮化合物等)对植物根系形态属性(尤其是根长)影响的文献进行整合分析。结果发现: 整体上化感物质处理显著抑制根长,而对根生物量、根表面积和根体积等形态属性影响较小;酚类对根长的抑制效应最大,且化感物质对草本植物根长的抑制率高于木本、作物和其他植物;酚类与根长抑制效应呈显著的线性相关。进一步量化了4种典型酚酸——阿魏酸、对羟基苯甲酸、香草酸和肉桂酸的浓度-效应关系,证实了黄酮对受试植物根长的抑制效应显著高于酚酸类化感物质。受试植物根系属性对化感物质的响应主要受化感物质类型和添加浓度、植物种类与培养条件等多因素影响,建议未来研究在土壤环境条件下综合评价化感物质对受试植物根系形态和生理属性以及根系构型等参数的影响机制。  相似文献   

16.
Allelopathy has been increasingly invoked as a mechanism facilitating exotic plant invasions. However, studies even on the same target species often yield varying results concerning the strength and importance of allelopathic inhibition, suggesting that the process may depend on the specific environmental context. Here I studied how the allelopathic inhibition of sycamore (Platanus occidentalis) seedlings by garlic mustard (Alliaria petiolata) depended on the presence of a soil microbial community. Using three analytical approaches to quantifying allelopathy, I consistently found allelopathic inhibition only in sterilized soils, suggesting that certain microbial taxa inhibit the process, possibly by degrading the allelochemicals. Determining the environmental contexts that reduce or eliminate allelopathic inhibition could lead to a greater understanding of the spatial variation in invasion success and potentially lead to new avenues for management.  相似文献   

17.
浮游植物的化感作用   总被引:7,自引:0,他引:7  
生物化感作用研究是近年来兴起的交叉学科,是化学生态学研究的重要领域。研究水域浮游植物化感作用对了解浮游植物之间、浮游植物与其他生物之间的相互作用及作用机理具有重要意义,对了解赤潮和水华的发生机制及其生态控制等具有非常重要的作用。综述了海洋和湖泊浮游植物化感作用和化感物质的内涵,讨论了水体浮游植物化感作用的特点、研究化感作用的基本方法、化感物质的种类以及影响化感物质作用的生物和非生物因素,详细介绍了浮游植物化感物质的作用机理以及逃避和拈抗化感作用的方式,同时对目前研究的热点问题及未来研究的方向做了简要概述。  相似文献   

18.
In modern agriculture, natural plant communities may be replaced by a single crop species. Weeds, some microorganisms, and viruses, as well as some herbivores are organisms that should be eliminated. Pesticides and fertilizers not only affect the pests and crops, but soil, non-pest species, water, food, and humans. In traditional agriculture weeds are components with an important ecological role in the maintenance of the system. Some weeds have been used as tools to control the growth of other weeds in traditional agroecosystems. Researchers on sustainable and organic agriculture get valuable information from traditional agriculture and currently are conducting research on plant breeding, soil fertility and tillage, crop protection, and cropping systems. Allelopathy and chemical ecology are directly involved in each of these fields and can play an important role in crop productivity, conservation of genetic diversity, and maintenance of ecosystems stability. Allelopathy has been shown to be related with problems of chemical interference between crops and weeds, crops and crops, toxicity of crops and weeds residues, and/or crops and weeds exudates. Problems of autotoxicity, orchard replanting, and forest regeneration are also referred as allelopathic. Allelopathy is strongly coupled with other stresses of the environment, including insects and disease, temperature extremes, nutrient and moisture variables, radiation, and herbicides. These stress conditions often enhance allelochemical production and increase the potential for allelopathic interference. Allelopathy offers potential for weed control through the production and release of allelochemicals from plants. Allelochemicals may impact the availability of nutrients through effects on the symbiotic microbes. Destruction and changes in the use of soils in the tropics have decreased biodiversity, bringing about the loss of valuable natural products. Many different types of useful products such as natural pesticides and drugs can arise from allelopathy studies. New methods must be generated for allelopathy as a part of the biotic resources management strategies.  相似文献   

19.
Allelopathy, a phenomenon where compounds produced by one plant limit the growth of surrounding plants, is a controversially discussed factor in plant-plant interactions with great significance for plant community structure. Common mycorrhizal networks (CMNs) form belowground networks that interconnect multiple plant species; yet these networks are typically ignored in studies of allelopathy. We tested the hypothesis that CMNs facilitate transport of allelochemicals from supplier to target plants, thereby affecting allelopathic interactions. We analyzed accumulation of a model allelopathic substance, the herbicide imazamox, and two allelopathic thiophenes released from Tagetes tenuifolia roots, by diffusion through soil and CMNs. We also conducted bioassays to determine how the accumulated substances affected plant growth. All compounds accumulated to greater levels in target soils with CMNs as opposed to soils without CMNs. This increased accumulation was associated with reduced growth of target plants in soils with CMNs. Our results show that CMNs support transfer of allelochemicals from supplier to target plants and thus lead to allelochemical accumulation at levels that could not be reached by diffusion through soil alone. We conclude that CMNs expand the bioactive zones of allelochemicals in natural environments, with significant implications for interspecies chemical interactions in plant communities.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号