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传粉昆虫物种多样性监测、评估和保护概述 总被引:2,自引:0,他引:2
欧洲和北美等国相继建立起传粉昆虫物种多样性监测和评估体系。基于传粉昆虫的监测资料,能够对欧美部分区域和某些传粉昆虫类群的现状、下降程度以及影响因素进行研究。欧洲和北美等地已开展部分传粉昆虫保护措施和项目,如欧洲部分国家实施的"农田环境计划"项目(Agri-Environmental Schemes)能够保护农田生态系统中传粉昆虫的栖境,恢复和提高传粉昆虫物种多样性。我国传粉昆虫物种多样性十分丰富,但目前还没有一个以监测和评估传粉昆虫物种多样性为主的平台,也未对某区域或某类群传粉昆虫多样性的变化进行评估,传粉昆虫多样性的保护也未引起足够重视。为了解我国传粉昆虫物种多样性现状及变化情况,作者建议在我国建立传粉昆虫物种多样性监测和评估体系,以提高我们在该领域的认识水平,并为开展相应的保护工作提供理论基础。 相似文献
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极小种群植物水松(Glyptostrobus pensilis(Staunton ex D.Don)K.Koch)是著名的孑遗植物,被列为我国Ⅰ级重点保护和极小种群野生植物,在IUCN红色名录中被评估为"极危"等级,且种群数量仍在继续减少。水松主要分布于我国华南和东南地区以及越南和老挝。本研究对我国42个水松种群周边植被、种群健康状况、群落干扰类型、外来植物入侵状况等进行了调查,采用系统发育多样性相关指数对该物种所在群落进行了研究。结果显示,系统发育多样性指数对水松种群状况具有一定的指示性,人为干扰对所在群落的影响越严重,种群的健康状况愈差;具有较高系统发育多样性水平(PD值)的群落内水松种群状况良好;入侵物种的存在会使群落系统发育结构聚集,系统发育多样性水平降低。因此,在对水松种群进行保护时,要尽量减少群落中人为恶性干扰因素和外来植物的入侵威胁,以增强水松种群和个体的健康水平,维持群落系统发育的多样性,从而提高水松种群抵抗力和恢复力的稳定性。 相似文献
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森林生态系统健康评估的一般性途径探讨 总被引:41,自引:3,他引:38
生态系统健康评估方法及指标体系成为21世纪生态系统健康研究的核心内容.作为陆地生态系统的重要组成部分,森林生态系统健康的评估研究引起了广泛的关注.学者们对森林生态系统健康的定义、测度、评估和管理开始做出积极的探讨和实践,提出了一些理论和应用上的评价方法、评估途径和框架,为解决陆地生态系统危机甚至全球环境问题提供了新的概念和一系列研究手段.但由于多种条件的限制,目前仍然没有通用有效的评估森林生态系统健康的一般模式.文中简要探讨了森林生态系统健康问题,提出有效评估森林健康的3个前提:1)清晰明确的概念框架;2)充分有效的数据信息;3)正确合理的研究途径和技术手段.并分别进行了探讨.在此基础上总结阐述了可用于森林生态系统健康评估研究的途径:长期研究和定位监测、时空互换、历史研究途径、经济价值评估及其途径等. 相似文献
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利用昆虫进行森林生态系统健康评价的研究中存在指示物选取、调查时间选择、取样和结果分析四个关键环节,本文对国内外此类研究中存在的相关问题进行总结和讨论。根据文献资料总结了选取昆虫指示物的标准;不同昆虫类群在选择调查时间的季节上要适当,调查时间长度要能够完整反映所研究昆虫类群的种群数量变动周期;取样时要重视林冠层;在结果分析中,要注意区分人为干扰和自然因素的作用。 相似文献
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基于有害干扰的森林生态系统健康评价指标体系的构建 总被引:1,自引:0,他引:1
在分析国内外提出的众多森林生态系统健康评价指标的不足后,对评价指标进行研究和筛选。最终在森林生态系统健康评价指标体系的构建上提出了一个新的思路,即从森林火灾、林业有害生物、大气污染、人为有害干扰以及森林生态系统内部的增益干扰5个方面选取20个指标构建森林生态系统健康评价指标体系。其中森林火灾干扰包括平均降水量、平均气温、郁闭度、海拔、坡度、坡向、易燃树种的比例和林道距离8个指标,林业有害生物包括有害生物等级、危害程度和寄主树的比例3个指标,大气污染干扰通过叶片、土壤和污染物的分析测定,人为有害干扰包括森林经营措施、采伐措施和林下植被管理3个方面,而森林生态系统内部的增益干扰由物种多样性、群落结构和近自然度3个指标构成。同时对关键评价指标的意义进行了具体分析。此指标体系摒弃传统的评价观念,结合了近年来影响全国森林健康的几个重要原因,更能准确的反应目前森林生态系统的健康状况。研究思路和方法的提出在一定程度上可以丰富森林生态系统健康评价研究理论与方法体系。 相似文献
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森林生态系统健康与野生动植物资源的可持续利用 总被引:3,自引:0,他引:3
研究了森林生态系统健康与野生动植物资源之间的关系,以及人类活动对森林生态系统健康的影响,提出了以下三个论点:(1)野生动植物资源是构成森林生态系统的基本物质内容。野生动植物资源对森林生态系统具有不可估量的影响和作用。(2)野生动植物资源的减少是森林生态系统健康状况下降的“显示器”。森林生态系统健康状况的下降或衰退,会导致野生动植物资源数量或种类的减少甚至种群灭绝。(3)森林生态系统是野生动植物资源与人类活动关系的集合体和反映体。人类与野生动植物资源是对立又统一的矛盾综合体,而森林生态系统健康与否就取决于这二者的关系。如果人类对野生动植物资源在保护的基础上进行合理的利用,就能保证森林生态系统的结构的完整和功能的良好,因此森林生态系统处于健康的状态;但若人类对野生动植物资源过度利用而不加保护,那么随着野生动植物资源的逐渐衰竭,森林生态系统将逐渐失去某些功能且变得支离破碎,也就无法保持健康的状态。提出了维持森林生态系统健康并实现野生动植物资源可持续利用的解决途径:(1)实行森林的可持续经营。森林可持续经营是指长期保持森林的生产力和可再生性,以及森林生态系统的物种和生物多样性。(2)发展“接近自然的林业”。近自然林业是在服从自然规律的前提下为人类的木材及林产品利用目的而设计的容许有一点偏离自然的森林模式,以森林生态健康为目标的建设方法。 相似文献
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节肢动物是湿地生物多样性的重要组分,在维持湿地生态功能,指示湿地环境变化中发挥重要作用。在2020年7月对黑龙江三江国家级自然保护区沼泽湿地的23个采样点进行节肢动物样品采集,运用统计方法分析人类活动干扰对湿地节肢动物数量、群落组成、多样性的影响以及节肢动物对人类活动干扰的指示作用。共采集到节肢动物10目47科1825只,主要以双翅目和半翅目昆虫为主。自然湿地节肢动物的多度是干扰湿地的4.27倍;生物多样性指数在不同湿地类型之间存在一定差异,节肢动物的物种丰富度在自然湿地显著高于干扰湿地(P<0.05),而Pielou均匀度指数在干扰湿地显著高于自然湿地(P<0.05)。人类活动干扰对湿地节肢动物群落组成影响显著,聚类和非度量多纬尺度排序(NMDS)显示,两种湿地类型节肢动物群落结构相似性较低。指示值法分析显示,自然湿地的指示类群为叶甲科、蚁形甲科、叶蝉科、蚜科、盲蝽科、摇蚊科以及姬蜂总科,干扰湿地未发现指示类群。综上所述,湿地节肢动物对人类活动干扰响应十分敏感,可以作为指示湿地健康状况的关键生物类群。 相似文献
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广州地区森林景观多样性分析 总被引:18,自引:2,他引:16
景观多样性是生物多样性的重要研究内容和组成部分 ,它是对景观水平上生物组成多样性的表征[1~ 3 ] 。由于生物多样性是人类赖以生存的物质基础 ,生物多样性保护已成为现代生态学和环境科学的研究热点。但是 ,以往的研究主要集中在物种多样性和生态系统多样性方面 ,对景观多样性的研究相对较少[1~ 4 ,12 ] 。森林是陆地生态系统的主体和重要的可再生资源 ,森林的类型、空间分布及斑块的数目和形状对区域的生态平衡有较大影响。广州是我国人口稠密、经济高速增长的区域。研究广州地区森林景观多样性有利于了解人类活动严重干扰下的森林景观… 相似文献
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树种多样性对土壤微生物群落结构和元素生物地球化学循环的影响研究进展 总被引:1,自引:0,他引:1
森林是陆地生态系统的重要组成部分,其巨大的生产力和生态服务功能对人类的生存和发展至关重要。森林树种多样性增加能够显著提高森林生产力,关于树种多样性如何影响地下生物多样性及生态功能逐渐受到国内外学者的广泛关注。从土壤微生物及其介导的元素生物地球化学循环这一视角出发,综述了树种多样性对土壤细菌和真菌多样性、群落结构及功能的影响,提出需要进一步深入研究的方向。总体来说,树种多样性有利于增加土壤细菌生物量和多样性,是预测病原性真菌和菌根真菌多样性及群落结构的重要生物因子。树种多样性能增加土壤有机碳储量,增强森林土壤的甲烷氧化能力,并提高土壤磷周转速率及有效磷含量。关于树种多样性对森林土壤氮循环的影响需考虑多样性假说和质量比假说的相对贡献。今后应加强树种多样性对多个营养级之间相互作用的研究;关注树种多样性对生态系统多功能的影响;加强学科交叉,引入微生物种群动态模型和气候模型等模型预测方法,研究树种多样性对全球气候变化的应对机制,以期促进地上植物多样性与地下生态系统功能关系的研究,增强森林生态系统应对未来全球环境变化的能力。 相似文献
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Documentation of insect diversity is an important component of the study of biodiversity, community dynamics, and global change. Accurate identification of insects usually requires catching individuals for close inspection. However, because insects are so diverse, most trapping methods are specifically tailored to a particular taxonomic group. For scientists interested in the broadest possible spectrum of insect taxa, whether for long term monitoring of an ecosystem or for a species inventory, the use of several different trapping methods is usually necessary. We describe a novel composite method for capturing a diverse spectrum of insect taxa. The Composite Insect Trap incorporates elements from four different existing trapping methods: the cone trap, malaise trap, pan trap, and flight intercept trap. It is affordable, resistant, easy to assemble and disassemble, and collects a wide variety of insect taxa. Here we describe the design, construction, and effectiveness of the Composite Insect Trap tested during a study of insect diversity. The trap catches a broad array of insects and can eliminate the need to use multiple trap types in biodiversity studies. We propose that the Composite Insect Trap is a useful addition to the trapping methods currently available to ecologists and will be extremely effective for monitoring community level dynamics, biodiversity assessment, and conservation and restoration work. In addition, the Composite Insect Trap will be of use to other insect specialists, such as taxonomists, that are interested in describing the insect taxa in a given area. 相似文献
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One of the serious environmental problems since the 1980s has been the conflict between the high rate of deforestation and
maintenance of healthy ecosystem services and biological values in tropical forests. There is an urgent demand for setting
up an appropriate environmental assessment to keep healthy ecosystem functions and biodiversity along with sustainable forest
use based on ecology. In this study, we tried to assess logging-disturbance effects on the abundances of several flying insect
groups (higher-taxon approach) in lowland tropical rain forest (Deramakot Forest Reserve, Sabah, Malaysia), while considering
seasonal changes and vertical forest stratification. The season was the most important factor affecting the abundances of
all the insect groups. Effects of logging disturbance were prominent in the understorey but obscure in the canopy. Changes
in physical conditions caused by logging—possibly an increased evaporation due to solar radiation—may have decreased the abundance
of desiccation-sensitive insects, especially in the understorey. There are also two probable reasons for the difference between
events in the understorey and those in the canopy: (1) noise effects of various physical, environmental factors may have obscured
insect responses to logging disturbance in the canopy; (2) higher spatio-temporal variation in quality and quantity of living
food resources—such as leaves, flowers and fruits—provided in the canopy may have affected the abundance of their consumer
insects independently of logging disturbance. Thus, this study suggests that the abundance of some insect groups at higher-taxon
level, especially in the understorey, can be used as bioindicators for assessing effects of logging disturbance on the forest
ecosystem. 相似文献
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Biodiversity,conservation and inventory: why insects matter 总被引:11,自引:0,他引:11
Ke Chung Kim 《Biodiversity and Conservation》1993,2(3):191-214
Western culture views insects and arachnids as pests and vermin that need to be controlled. They usually are not considered as something to be preserved. Accordingly, arthropods and other small organisms have not been taken seriously for conservation by policy makers and the conservation community at large. Having existed for more than 400 million years and after surviving the Permian and Cretaceous mass extinctions, arthropods have been the most successful of all living things and along with other invertebrates constitute more than three-quarters of today's global biodiversity. Arthropods are major components of diverse ecosystems and are the major players in functioning of ecosystem processes. Nevertheless, arthropods, which are the least known and, along with other plants and animals, are relentlessly vanishing before our eyes. Thus, aside from anthropocentric perception and societal prejudice, arthropods certainly are not pests in an ecological or evolutionary context and have an inherent biological right to exist in an evolutionary context, with ecological and instrumental values. They must be preserved because of their inherent values but also because we need them for human survival. Thus, arthropods must become an important and necessary part of the conservation strategy at all levels of environmental organization, from populations and species to ecosystems and landscapes.Insect conservation aims at saving both endangered species and ecosystem processes with a multitude of approaches targeted at different scales. Conservation efforts for arthropods are daunting because all the odds are against them: whereas species diversity, population size and biomass are so large, taxonomy and faunal information are inadequate; whereas the need for taxonomic and biodiversity information increases greatly, the shortage of taxonomic expertise worsens.Basic issues of biodiversity and the loss of species are reviewed. The goals and strategies for insect conservation are discussed with a focus on inventory and monitoring. Taxonomic and environmental surveys are compared, and the needs for biodiversity monitoring are discussed as ecological monitoring process based on inventory data. This monitoring focuses on the health of nested biodiversity (composition, structure and process) and the state of species, differing from other contemporary monitoring efforts. 相似文献
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不同渍水时间对苗期和花期大豆生长及碳氮代谢的影响 总被引:2,自引:0,他引:2
以大豆品种南农99.6为材料,通过盆栽试验研究了苗期和花期渍水对大豆生长及碳氮代谢的影响.结果表明: 渍水显著抑制了大豆的生长,植株生物量、叶面积、叶片色素含量和光合速率均显著下降,而丙二醛(MDA)含量显著升高;随着渍水时间的延长,各生理指标的变化幅度增大;渍水胁迫解除后有一定的恢复,渍水10 d处理后恢复能力较渍水20 d处理强.可溶性碳、氮物质及关键酶对渍水反应不同,可溶性糖含量以及叶片谷氨酰胺合成酶和蔗糖合成酶的活性上升,而可溶性蛋白含量下降.渍水对苗期大豆植株生物量、叶面积和MDA含量的影响比花期小.苗期和花期渍水时间越短,大豆受到的伤害越小,其恢复能力也越强.渍水时间在10 d内,大豆植株能够通过自身的调节逐渐恢复. 相似文献
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Land‐use intensification at local and landscape level poses a serious threat to biodiversity and affects species interactions and ecosystem function. It is thus important to understand how interrelated taxa respond to land‐use intensification and to consider the importance of different spatial scales. We investigated whether and how local land‐use intensity and landscape features affect the predator–prey interaction of bats and insects. Bats and nocturnal insects were assessed on 50 grassland sites in the Schorfheide‐Chorin. We analyzed the effect of local land use and distance to forested areas as a proxy for site accessibility on bats and insects and their biological interaction measured in bat's feeding activity. Insect abundance increased with higher land‐use intensity, while size and diversity of insects decreased. In contrast, bat activity, diversity, and species composition were determined by the distance to forested areas and only slightly by land‐use intensity. Feeding attempts of bats increased with higher insect abundance and diversity but decreased with insect size and distance to forested areas. Finally, our results revealed that near forested areas, the number of feeding attempts was much lower on grassland sites with high, compared to those with low land‐use intensity. In contrast, far from forests, the feeding attempts did not differ significantly between intensively and extensively managed grassland sites. We conclude that the two interrelated taxa, bats and insects, respond to land‐use intensification on very different scales. While insects respond to local land use, bats are rather influenced by surrounding landscape matrix. Hereby, proximity to forests reveals to be a prerequisite for higher bat species diversity and a higher rate of feeding attempts within the area. However, proximity to forest is not sufficient to compensate local high land‐use intensity. Thus, local land‐use intensification in combination with a loss of forest remnants weakens the interaction of bats and insects. 相似文献
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Frederico S. Neves Lucimar S. Araújo Mário M. Espírito-Santo Marcílio Fagundes G. Wilson Fernandes G. Arturo Sanchez-Azofeifa Mauricio Quesada 《Biotropica》2010,42(1):112-118
This study aimed to compare canopy herbivore diversity and resultant insect damage to vegetation in two distinct and adjacent ecosystems, specifically a dry forest ecosystem and a cerrado (savanna) ecosystem that occur together in an abrupt transition zone in southeastern Brazil. In the dry forest, the canopy was reached using a single rope climbing technique, whereas the shorter canopy of the cerrado was assessed using a 7 m ladder. Insect specimens were collected by beating the foliage, and 20 representative leaves were collected to calculate the specific leaf mass (SLM) and leaf area loss through herbivory. Also, we collected ten soil samples from each habitat to determine soil nutrient content. We sampled 118 herbivorous insects from ten families, mostly in dry forest trees (96 individuals belonging to 31 species). A higher abundance of chewing and sap-sucking insects were observed in dry forest trees than in cerrado trees. The same pattern was observed for the richness of chewers, with a higher degree of diversity of chewers found in dry forest trees than in cerrado trees. Herbivorous insects were not affected by SLM regardless of guild and habitat. However, we observed a negative correlation between the herbivory rate and the specific leaf mass (SLM). The cerrado trees showed a higher SLM and lower herbivory rates than trees occurring in the dry forest. These results suggest that herbivory rates in the transition dry forest–cerrado may be driven by soil nutrient content, which is thought to influence leaf sclerophylly.
Abstract in Portuguese is available at http://www.blackwell-synergy.com/loi/btp . 相似文献
Abstract in Portuguese is available at http://www.blackwell-synergy.com/loi/btp . 相似文献
19.
Belinda Gallardo Stéphanie Gascón Xavier Quintana Franciso A. Comín 《Ecological Indicators》2011,11(5):1177-1184
A range of biodiversity metrics are available to assess the ecological integrity of aquatic ecosystems. However, performance varies considerably among different types of metrics and provides different information regarding ecosystem conditions, thus making difficult the selection of appropriate metrics for biomonitoring. The present study evaluated the robustness of six biodiversity metrics to assess environmental change and determine their utility as relevant indicators of ecosystem biodiversity and functionality. Traditional metrics such as species richness and Shannon diversity were considered along with alternative metrics such as functional diversity, size diversity and taxonomic distinctness. To that end, invertebrate assemblages in a river floodplain were used as a case study to evaluate the performance of metrics using Generalized Additive Models (GAM). GAM explained between eight and 49% of the variability in biodiversity. The regression models exhibited differences in the response of biodiversity indicators to environmental factors, suggesting that intermediate levels of turbidity and low salinity are conditions favouring increased biodiversity in the study area. Based on correlations among metrics and responses to primary environmental factors, it is concluded that Shannon and functional diversity, and rarefied species richness generated similar information regarding ecosystem conditions (i.e., the metrics were redundant); while size diversity and distinctness provided useful additional data characterizing ecosystem quality (i.e., the metrics were complementary). Functional diversity indicated not only number and dominance of species, but also each species functional role in the community, and was therefore the most informative biodiversity metric. Nevertheless, the use of a combination of metrics, for example functional and size diversity, and variation in taxonomic distinctness, provides complementary data that will serve to achieve a more thorough understanding of ecosystem structure and function, and response to primary environmental influences. 相似文献