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本研究通过比较引种植物和本土植物的生长状况,主要是果熟现象,讨论了引种植物对引种目的地的适应性。中国科学院西双版纳热带植物园,引种和保存了国内外万种以上的热带和亚热带植物,并对多种引种植物进行了长期连续生长监测。本文统计分析了其中观测4年以上的569个编号的引种植物生长适应状况。结果表明:1)引种植物基本适应植物园的环境,但是不同气候区来源的植物适应性表现不同,不同地区来源植物适应性顺序为:热带亚洲植物〉亚热带和热带北缘植物/热带非洲植物〉热带澳洲植物〉热带美洲植物;2)不同科属植物个体适应表现也有差别,无患子科,蝶形花科,楝科和紫葳科等的植物个体适应性和本土植物比较相似,而大戟科植物个体适应性和本土植物差异最大;3)分析表明引种植物对植物园的适应受到来源地气候和区系起源两个因素的影响;4)紫蒇科,桃金娘科和含羞草科的一些引种植物个体果熟年比高于本土植物,其入侵性有待于进一步入评估。 相似文献
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本文从生态学角度对植物医学和植物健康进行了深度思考,论述了同时从宏观和微观角度进行研究对植物医学学科的重要性,强调了植物群体健康在植物医学中的作用,分析植物医学观念下的自然生态系统与农田生态系统的功能,给出了基于生态学的植物健康和植物医学的新定义. 相似文献
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为了解华南地区外来植物现状,通过野外调查和查阅文献等,确定华南地区有外来入侵和归化植物45科141属223种,以菊科(Asteraceae,38种)、豆科(Fabaceae,36种)、禾本科(Poaceae,19种)植物为主,其中草本植物和原产美洲的植物占优势,分别有204种(占总数的91.5%)和163种(占73.1%)。广东外来入侵植物有159种,归化植物23种;广西有入侵植物135种,归化植物16种;海南有入侵植物111种,归化种15种;香港有入侵植物105种,归化植物9种;澳门有入侵植物89种,归化种4种;华南5省区共有的外来入侵和归化植物为57种(55种为入侵植物,2种为归化植物)。广东是外来植物种类最多的地区,与其他4省区共有的外来入侵和归化植物种类也最多,说明广东同时是外来植物输入和输出大省。由于气候和生态生境的相似性,各省区都面临着其他植物从周边地区入侵的风险,因此在治理入侵植物时,应建立联合防控机制对外来入侵植物的联合监测和防控,以提升外来入侵植物的治理成效和降低其对人类健康和生态安全的威胁。 相似文献
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害虫天敌的植物支持系统 总被引:7,自引:0,他引:7
保护天敌,使天敌长期有效地控制害虫是保护性生物防治的核心内容。其中,植物在维持和促进天敌控制害虫中的重要性和作用越来越受到关注。本文概述了各种支持天敌发挥效能的植物类群,论述了蜜源植物、储蓄植物、栖境植物、诱集植物、指示植物、护卫植物等在支持天敌生存和繁殖方面的生物功能,评述了研究和应用这些植物时需注意的问题,提出了科学利用这些植物以维持和增强农业生态系统中天敌发挥控害作用的植物支持系统,并指出了由于对这些植物类别的界定和定义模糊所带来的不便,给出了相应的建议。 相似文献
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通过对山东半岛植物小区、辽东半岛植物小区、鲁中南低山丘陵植物小区和属于华北山地亚地区的北太行山恒山植物小区属的相似性系数以及属的分布区类型的UPGMA分析, 结果表明 :山东半岛植物小区和鲁中南低山丘陵植物小区的相似性程度高, 关系近, 而辽东半岛植物小区与北太行山恒山植物小区的相似性程度高, 关系近, 所以把山东半岛植物小区和辽东半岛植物小区划入同一个植物区系亚地区是不合理的, 建议把辽东半岛植物小区划归到华北山地亚地区, 原辽东、山东丘陵植物亚地区改名为山东丘陵植物亚地区。 相似文献
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沙区植物多样性保护研究进展 总被引:5,自引:0,他引:5
沙区景观表现为沙丘和低地交错分布.沙区常具独特的植物区系,含有特有和稀有植物.沙区植物丰富度降低和特有(稀有)植物消失问题近些年已受到很大关注,被列入国际生物多样性保护计划,很多国家和地区都对此开展了专门的研究.本文以近期发表的文献为基础,从植物多样性保护问题的提出、植物多样性形成机制、植物多样性保护途径、植物多样性研究与生态学理论的发展等方面论述了沙区植物多样性保护及其研究进展.沙区植物多样性保护应注意植物多样性保护目标的地域间差异(维持沙丘上的高植物丰富度还是保护特有或稀有植物)、流沙固定-植物多样性保护间的均衡、"植物多样性保护的量(高的植物丰富度)-质(特有或稀有植物出现)"间的均衡.还应将沙丘体和丘间低地视为一个统一体,研究干扰和生境破碎化对植物多样性造成的影响. 相似文献
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植物入侵是最严重的全球问题之一,严重破坏生态系统的结构和功能。随着植物入侵现象日益严峻,要控制和解决外来植物入侵问题,了解和掌握植物入侵机制尤为重要。本文概述了植物入侵的多种机制及不同机制间的协同作用,阐述了植物入侵过程中的化感作用、植物-土壤反馈机制、互惠共生关系,以及植物功能性状和表型可塑性对入侵过程的影响,并对多种机制协同与植物入侵轨迹的关系进行综合分析。根据分析结果将外来植物在侵入地的入侵时间轨迹分为引入、定植、建立和侵入4个阶段,把遇到的各种阻碍和促进因素融入其中,提出外来植物入侵曲线图,有助于未来对入侵植物及其影响的研究和管理。对现有的植物入侵研究方法进行分析,提出现阶段研究的不足以及未来的研究方向和目标。 相似文献
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水稻不同基因型耐低氮能力差异评价 总被引:16,自引:4,他引:12
以水稻单株谷重及其氮素反应指数作为耐低氮能力指标,分析不同施氮水平下水稻种质资源的耐低氮能力以及单株谷重及其氮素反应指数与其他农艺性状的相关关系。结果表明,水稻种质资源的耐低氮能力在不同施氮水平间均有较大差异,多数农艺性状的表型差异顺序为未施氮〉施低氮〉普通施氮;不同施氮水平间单株谷重、单株草重和穗数的差异大于其他农艺性状。在不同施氮水平下,单株谷重与单株草重均呈极显著正相关;单株谷重的氮素反应指数与单株谷重、单株草重和谷草比均呈极显著正相关。在未施氮水平下,单株谷重与株高、穗数、穗粒数和单株草重的相关性以及单株谷重的氮素反应指数与穗数、单株谷重、单株草重和谷草比的相关性比施低氮或普通施氮水平更为密切。花峰稻、中作9059、旱稻9号、旱稻502和IRAT359等种质资源表现较迟钝的氮素反应,具有较强的耐低氮能力。 相似文献
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The experimental study was conducted during the period of 2008-2010 at the experimental field of the Institute of Forage Crops in Pleven. The hybridization scheme included direct and back crosses covering four varieties of forage pea (Pisum sativum L.), namely two spring ones, Usatii 90 and Kamerton from Ukraine, and a winter one from Bulgaria, Pleven 10. There was analyzed the inheritance of quantitative traits such as plant height, height to first pod, pod number per plant, seed number per plant, seed number per pod, seed weight per plant and number of fertile nodes per plant of parental components (P1 and P2) and both first (F1) and second (F2) hybrid generations. The cross Usatii 90 x Pleven 10 showed the highest real heterosis effect for plant height (8.26%), pods per plant (158.79%), seeds per plant (272.16%), seeds per pod (42.09%), seed weight per plant (432.43%) and number of fertile nodes per plant (117.14%). The cross Pleven 10 x Usatii 90 had the highest real heterosis effect height to first pod (11.06%). In F2 plants, the strongest depression for plant height (5.88%), seeds per plant (57.88%), seeds per pod (55.93%) and seed weight per plant (55.99%) was in the cross Usatii 90 x Pleven 10, for height to first pod (1.47%) in the cross Kamerton x Pleven 10 and for number of fertile nodes per plant (15.91%) in the cross Pleven 10 x Usatii 90. The highest positive degree of transgression for number of fertile nodes per plant (165.64%) and seed weight per plant (162.10%) was in the cross Pleven 10 x Kamerton and for pod number per plant (102.54%) and seeds per plant (99.13%) in Kamerton x Pleven 10. The stability of the characters was determined. Low variability in F1 and F2 was found in plant height (3.97-6.85%). Variability of number seeds per plant in F1 was highest (11.86-33.23%). For all other traits, the variability varied from average to high. A lower narrow-sense heritability coefficient was observed for plant height, height to first pod, pods per plant, seeds per plant and seed weight per plant (from 0.001 to 0.230). In few cases, such as in fertile nodes per plant (0.39 and 0.81) and seeds per pod (0.44), the coefficients ofbroad-sense heritability were higher. 相似文献
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随着全球磷肥需求增加和磷矿资源储量短缺矛盾逐渐加重,土壤解磷微生物在促进磷循环方面的重要性日益突显,因此有必要对其种类和促进植物磷素吸收策略进行全面梳理总结。荟萃分析了土壤解磷微生物种类并构建了系统进化树,重点论述了土壤解磷微生物促进植物磷素吸收主要策略。土壤解磷微生物主要通过矿化和溶解作用直接活化难溶性磷,但其也能与植物根系互作间接活化磷素。其间接途径主要包括解磷微生物与根系分泌物和丛枝菌根真菌互作,它们通过碳磷交换间接活化磷素;其次包括一些解磷微生物可以通过固氮作用使植物生长受到磷的限制,从而调节植物磷酸盐转运系统间接活化土壤磷;解磷微生物也能通过分泌植物激素和生物防治剂促进植物根系生长间接促进植物磷素吸收。解磷微生物还能通过磷素固定减少磷流失,也可以通过加速自身磷素周转促进植物磷素吸收。对完善和发展解磷微生物主导的土壤磷循环和植物磷素吸收利用理论体系具有重要意义。 相似文献
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Disentangling the effects of plant diversity on the control of herbivores is important for understanding agricultural sustainability. Recent studies have investigated the relationships between plant diversity and arthropod communities at the landscape scale, but few have done so at the local scale. We conducted a meta‐analysis of 32 papers containing 175 independent measures of the relationship between plant diversity and arthropod communities. We found that generalist predators had a strong positive response to plant diversity, that is, their abundance increased as plant diversity increased. Herbivores, in contrast, had an overall weak and negative response to plant diversity. However, specialist and generalist herbivores differed in their response to plant diversity, that is, the response was negative for specialists and not significant for generalists. While the effects of scale remain unclear, the response to plant diversity tended to increase for specialist herbivores, but decrease for generalist herbivores as the scale increased. There was no clear effect of scale on the response of generalist predators to plant diversity. Our results suggest that the response of herbivores to plant diversity at the local scale is a balance between habitat and trophic effects that vary according to arthropod specialization and habitat type. Synthesis and applications. Positive effects of plant diversity on generalist predators confirm that, at the local scale, plant diversification of agroecosystems is a credible and promising option for increasing pest regulation. Results from our meta‐analysis suggest that natural control in plant‐diversified systems is more likely to occur for specialist than for generalist herbivores. In terms of pest management, our results indicate that small‐scale plant diversification (via the planting of cover crops or intercrops and reduced weed management) is likely to increase the control of specialist herbivores by generalist predators. 相似文献
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Plants are important sources of food and plant products are essential for modern human life. Plants are increasingly gaining importance as drug and fuel resources, bioremediation tools and as tools for recombinant technology. Considering these applications, database infrastructure for plant model systems deserves much more attention. Study of plant biological pathways, the interconnection between these pathways and plant systems biology on the whole has in general lagged behind human systems biology. In this article we review plant pathway databases and the resources that are currently available. We lay out trends and challenges in the ongoing efforts to integrate plant pathway databases and the applications of database integration. We also discuss how progress in non-plant communities can serve as an example for the improvement of the plant pathway database landscape and thereby allow quantitative modeling of plant biosystems. We propose Good Database Practice as a possible model for collaboration and to ease future integration efforts. 相似文献
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Plant trait data have been used in various studies related to ecosystem functioning, community ecology, and assessment of ecosystem services. Evidences are that plant scientists agree on a set of key plant traits, which are relatively easy to measure and have a stable and strong predictive response to ecosystem functions. However, the field measurements of plant trait data are still limited to small area, to a certain moment in time and to certain number of species only. Therefore, remote sensing (RS) offers potential to complement or even replace field measurements of some plant traits. It offers instantaneous spatially contiguous information, covers larger areas and in case of satellite observations profits from their revisit capacity.In this review, we first introduce RS concepts of light–vegetation interactions, RS instruments for vegetation studies, RS methods, and scaling between field and RS observations. Further we discuss in detail current achievements and challenges of optical RS for mapping of key plant traits. We concentrate our discussion on three categorical plant traits (plant growth and life forms, flammability properties and photosynthetic pathways and activity) and on five continuous plant traits (plant height, leaf phenology, leaf mass per area, nitrogen and phosphorous concentration or content). We review existing literature to determine the retrieval accuracy of the continuous plant traits. The relative estimation error using RS ranged between 10% and 45% of measured mean value, i.e. around 10% for plant height of tall canopies, 20% for plant height of short canopies, 15% for plant nitrogen, 25% for plant phosphorus content/concentration, and 45% for leaf mass per area estimates.The potential of RS to map plant traits is particularly high when traits are related to leaf biochemistry, photosynthetic processes and canopy structure. There are also other plant traits, i.e. leaf chlorophyll content, water content and leaf area index, which can be retrieved from optical RS well and can be of importance for plant scientists.We underline the need that future assessments of ecosystem functioning using RS should require comprehensive and integrated measurements of various plant traits together with leaf and canopy spectral properties. By doing so, the interplay between plant structural, physiological, biochemical, phenological and spectral properties can be better understood. 相似文献
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《Perspectives in Plant Ecology, Evolution and Systematics》2014,16(4):164-173
Plant–plant interactions are driven by environmental conditions, evolutionary relationships (ER) and the functional traits of the plants involved. However, studies addressing the relative importance of these drivers are rare, but crucial to improve our predictions of the effects of plant–plant interactions on plant communities and of how they respond to differing environmental conditions. To analyze the relative importance of – and interrelationships among – these factors as drivers of plant–plant interactions, we analyzed perennial plant co-occurrence at 106 dryland plant communities established across rainfall gradients in nine countries. We used structural equation modelling to disentangle the relationships between environmental conditions (aridity and soil fertility), functional traits extracted from the literature, and ER, and to assess their relative importance as drivers of the 929 pairwise plant–plant co-occurrence levels measured. Functional traits, specifically facilitated plants’ height and nurse growth form, were of primary importance, and modulated the effect of the environment and ER on plant–plant interactions. Environmental conditions and ER were important mainly for those interactions involving woody and graminoid nurses, respectively. The relative importance of different plant–plant interaction drivers (ER, functional traits, and the environment) varied depending on the region considered, illustrating the difficulty of predicting the outcome of plant–plant interactions at broader spatial scales. In our global-scale study on drylands, plant–plant interactions were more strongly related to functional traits of the species involved than to the environmental variables considered. Thus, moving to a trait-based facilitation/competition approach help to predict that: (1) positive plant–plant interactions are more likely to occur for taller facilitated species in drylands, and (2) plant–plant interactions within woody-dominated ecosystems might be more sensitive to changing environmental conditions than those within grasslands. By providing insights on which species are likely to better perform beneath a given neighbour, our results will also help to succeed in restoration practices involving the use of nurse plants. 相似文献