有机管理对柑橘园节肢动物群落多样性恢复的作用

比较了有机管理、常规管理和自然园3种不同管理方式下柑橘树冠层节肢动物群落多样性。结果表明：常规管理的柑橘园转有机管理后,柑橘园节肢动物群落的物种组成增加了1目、24科、130种;害虫类群的个体数量减少,而天敌类群的个体数量增加;在有机管理方式下,节肢动物群落的多样性指数、均匀度及优势集中性指数等全年的波动幅度介于自然园和常规管理区之间;有机管理区节肢动物群落的丰富度、多样性指数、均匀度及优势集中性指数等指标与自然园相比无显著差异,而与常规管理之间差异显著。有机管理方式能够提高和恢复柑橘园节肢动物群落的多样性,有助于实现对柑橘害虫的生态控制。     

茶园间作不同绿肥对节肢动物群落结构和多样性的影响

【目的】研究在茶园中合理间作绿肥对茶园节肢动物群落结构和多样性的影响。【方法】本文在茶园中分别设间作铺地木兰+罗顿豆、圆叶决明+白三叶、白三叶+平托花生3种不同绿肥组合处理,并设不间作绿肥、常规除草的茶园为对照。【结果】间作不同绿肥均能提高茶园节肢动物群落的物种丰富度和群落多样性,提高茶园捕食性天敌昆虫、蜘蛛和寄生性天敌在茶园冠层群落的比率;不同处理茶园冠层节肢动物Shannon-wiener多样性指数(H)、Simpson指数(D)和均匀度指数变化趋势基本一致;茶冠层的节肢动物群落多样性指数在4类不同处理茶园间差异显著;间作绿肥增加了茶园的生物多样性,4类不同处理茶园茶冠层群落相似性系数在0.741~0.892之间,表明4类不同处理茶园冠层群落在物种组成上有较高的相似性。4类不同处理茶园害虫与天敌两类群功能团的丰盛度之间成显著的正相关,表明天敌对害虫的空间数量跟随效应强,主要表现为二者数量间的相互作用。灰色关联度分析表明在4类不同处理茶园中的群落节肢动物物种数/个体数、天敌物种数/害虫物种数、害虫丰富度与多样性指数和均匀度指数的关联系数较高,反应了群落的多样性和稳定性。【结论】间作增强了茶园群落的生物多样性,提高害虫天敌的种类和个体数,有利有效发挥天敌对有害生物的生态控制。     

作物多样性对害虫及其天敌多样性的级联效应

植物物种丰富度对植食性、寄生性和捕食性节肢动物多样性的影响是群落生态学的一个重要研究内容.探讨了作物物种丰富度对害虫及其天敌多样性的影响.通过连续4年5个作物物种丰富度水平的野外实验,发现作物物种丰富度显著性影响害虫物种丰富度,但对天敌物种丰富度的影响甚微.然而,害虫物种丰富度却显著影响天敌物种丰富度.这些发现表明,相邻营养层之间的级联效应较强,而不相邻营养层之间的作用关系被中间营养层所弱化.此外,本研究还发现,混栽田中节肢动物群落稳定性高于单一种植田中节肢动物群落稳定性.本研究结果突出了不同营养层之间复杂的作用关系以及作物多样性在农业生态系统食物网中的关键性角色.     

复合茶园节肢动物类群特征值关系研究

为深入了解影响茶园节肢动物群落多样性的因子,本文对在茶园地面种植长节耳草Hedyotis uncinella Hook & Arn(茜草科,耳草属)的复合茶园茶树生境节肢动物类群多样性指数、物种丰富度、类群均匀度、物种优势度指数和类群优势集中性指数5个主要特征值之间的关系进行了因子分析与通径分析。结果显示:茶树生境节肢动物类群5个主要特征值可综合为三个主份量。第一主份量代表类群多样性指数和均匀性;第二主份量集中体现物种丰富度;第三主份量代表优势度指数,它们对方差的贡献率分别为50.279%、26.920%和22.466%。复合茶园节肢动物类群多样性与节肢动物类群丰富度和天敌类群丰富度呈极显著的正相关,而同类群优势集中性呈极显著的负相关。因此,要提高茶园节肢动物类群的多样性可通过营造复合茶园生境来增加节肢动物类群物种丰富度和天敌类群物种丰富度而减少物种优势集中性来实现。     

不同景观斑块结构对茶园节肢动物多样性的影响

以小区随机样方的田间调查方式,研究了茶园不同景观斑块环境对茶园节肢动物群落的影响.结果表明： 小乔木斑块茶园(QM)与台湾相思树斑块茶园(XS)中蜘蛛类占节肢动物的比例最高,分别达到62.3% 和 69.5%,显著高于稻田斑块茶园(DT)和人居生活区斑块茶园(RJ)(P<0.05).QM的节肢动物多样性和丰富度指数最高,均匀度指数、优势度指数与其他斑块茶园间差异不显著(P>0.05).QM与XS的天敌资源较丰富,多样性指数、均匀度指数和丰富度指数的大小顺序为QM＞XS＞DT＞RJ.表明景观斑块结构对茶园节肢动物群落结构和多样性有较大影响.     

农业景观生物多样性与害虫生态控制

现代农业的一个重要特征就是人类对农田生态系统的干扰强度及频率不断增加,严重影响农业景观的结构及其生物多样性.农业景观结构的变化及其生物多样性的丧失,必然引起生态系统服务功能的弱化,不利于实施以保护自然天敌为主的害虫生态控制.农业的集约化经营导致自然生境破碎化,减少了农业景观的复杂性,使得作物和非作物变成一种相对离散化的生境类型和镶嵌的景观格局;破碎化的生境不仅会减少某些物种的丰度,还会影响物种之间的相互关系及生物群落的多样性和稳定性.非作物生境类型如林地、灌木篱墙、田块边缘区、休耕地和草地等,是一种比较稳定的异质化环境.非作物生境较少受到干扰,可以为寄生性和捕食性节肢动物提供适宜的越冬或避难场所以及替代猎物、花粉和花蜜等资源,因此,非作物生境有利于自然天敌的栖息和繁衍,也有利于它们迁入邻近的作物生境中对害虫起到调节和控制作用.景观的格局-过程-尺度影响农田生物群落物种丰富度、多度、多样性以及害虫与天敌之间的相互作用.从区域农业景观系统的角度出发,运用景观生态学的理论和方法来研究作物、害虫、天敌等组分在不同斑块之间的转移过程和变化规律,揭示害虫在较大尺度和具有异质性的空间范围内的灾变机理,可为利用农业景观生物多样性来保护农田自然天敌,实施害虫的区域性生态控制提供新的研究思路和手段.     

不同种植方式下转Bt基因水稻对稻田节肢动物群落的影响

如何设置庇护所使其在转基因作物靶标害虫抗性治理中达到更高的效率,就此,本文 研究了Bt水稻与非Bt水稻不同种植方式对Bt稻田节肢动物群落的影响。结果表明,整体上,块块种植和列列混栽方式对Bt稻田节肢动物群落多样性、均匀度和优势集中性无显著影响;但混栽方式下的Bt稻田节肢动物群落个体密度和物种丰富度显著偏低。在水稻发育中期,混栽方式下Bt稻田节肢动物群落季节动态与块块种植方式下的明显不同,其多样性、均匀度、优势集中性指数均类似于同种植方式下非Bt稻上各参数的季节动态。混栽方式下的庇护所效应更明显。     

管理水平对葡萄园节肢动物群落特征参数及目标害虫、天敌种群数量的影响

对管理精细和管理粗放的两种葡萄园进行全株调查和地面扫网调查,分析其节肢动物群落结构特征参数差异及目标害虫葡萄跳叶甲和两种天敌草间小黑蛛、肖蛸蛛种群数量的差异.结果表明,两种葡萄园节肢动物群落之间在个体数量、优势集中性指数、均匀度指数和多样性指数上差异不显著;物种数和丰富度指数差异显著(P<0.05);葡萄树上节肢动物物种数差异不显著,地面植被上物种数差异显著(P<0.05);两种葡萄园之间树上和地面节肢动物个体数量、目标害虫葡萄跳叶甲种群数量、主要天敌草间小黑蛛和肖蛸蛛种群数量差异均不显著.     

农作物栽培制度与害虫发生程度的关系

【目的】为了解单一作物种植模式、间作模式、以及农田防护林带对作物病虫害发生程度的影响及原因。【方法】本研究分别在夏秋两个季节调查了六师垦区内西部、中部和东部3个农场、4种作物、4种生境内的害虫和天敌种类及其丰富度情况。【结果】秋季害虫和天敌的种类和数量均显著高于夏季,秋季害虫和天敌种群密度分别是夏季的4.7倍和2.7倍。不同农场害虫种类和数量存在显著差异,以芳草湖农场害虫平均虫口数量最高,是奇台农场的2.8倍。不同作物地害虫种类存在明显不同,但虫口数量无显著差异。间作地和林带明显比单作和地边害虫种类多,但单作地害虫数量是间作地的2.1倍。不同的调查地点、作物类别和生境条件下天敌的种类和数量均存在显著差异,以奇台农场天敌数量最高,是共青团农场的2.9倍。林带内的天敌数量最丰富,是单作地的7.5倍,靠近地边的作物植株上天敌数量也较单一种植作物上高出3.1倍,间作地天敌数量是单作地的1.6倍。六师垦区内共发现8种捕食性瓢虫,其中以多异瓢虫Adonia variegata(Goeze)丰富度最高,占31.92%以上;其次为深点食螨瓢虫,约占26.54%。因此多异瓢虫Adonia variegata(Goeze)是六师垦区内最有保护利用前景的捕食性天敌,值得进一步开发利用。不同生境条件下节肢动物多样性指数存在较大差异,林带内生物多样性指数最高,其次为间作地,单作田最低。【结论】通过调查初步掌握了六师垦区内主要农作物虫害类别及其种群动态,明确了不同季节作物害虫的种类变化和消长规律,研究结果为垦区内生物灾害的有效治理和作物合理种植及其管理模式提供了科学的决策建议。     

农田边界生物多样性保护功能的初步研究——以北京东北旺步甲群落多样性研究为例

农田边界是农田间的过渡带 ,包含了树篱、防护林、草皮 (带 )、墙、篱笆、沟渠、道路、作物边界带等景观要素[3] 。许多研究表明 ,农田边界在保护生物多样性方面有着重要的作用。Ｄｅｎｎｉｓ等[7] 的研究表明 ,通过为节肢动物提供多样、稳定的栖息地和越冬场所 ,增加农田中节肢动物的多样性。Ｈｏｌｌａｎｄ等[12 ] 的研究也表明 ,林地边界在农业生态系统中能起到保护生物多样性的作用 ,这种作用不仅使林地中有较高的多样性 ,而且还使相邻农田生物多样性增加。同时 ,多样化的农田生态系统比纯作系统具有更为丰富和多样的害虫天敌[6 ] 。国…     

A landscape ecology approach identifies important drivers of urban biodiversity

Cities are growing rapidly worldwide, yet a mechanistic understanding of the impact of urbanization on biodiversity is lacking. We assessed the impact of urbanization on arthropod diversity (species richness and evenness) and abundance in a study of six cities and nearby intensively managed agricultural areas. Within the urban ecosystem, we disentangled the relative importance of two key landscape factors affecting biodiversity, namely the amount of vegetated area and patch isolation. To do so, we a priori selected sites that independently varied in the amount of vegetated area in the surrounding landscape at the 500‐m scale and patch isolation at the 100‐m scale, and we hold local patch characteristics constant. As indicator groups, we used bugs, beetles, leafhoppers, and spiders. Compared to intensively managed agricultural ecosystems, urban ecosystems supported a higher abundance of most indicator groups, a higher number of bug species, and a lower evenness of bug and beetle species. Within cities, a high amount of vegetated area increased species richness and abundance of most arthropod groups, whereas evenness showed no clear pattern. Patch isolation played only a limited role in urban ecosystems, which contrasts findings from agro‐ecological studies. Our results show that urban areas can harbor a similar arthropod diversity and abundance compared to intensively managed agricultural ecosystems. Further, negative consequences of urbanization on arthropod diversity can be mitigated by providing sufficient vegetated space in the urban area, while patch connectivity is less important in an urban context. This highlights the need for applying a landscape ecological approach to understand the mechanisms shaping urban biodiversity and underlines the potential of appropriate urban planning for mitigating biodiversity loss.     

A global synthesis of the effects of diversified farming systems on arthropod diversity within fields and across agricultural landscapes

Agricultural intensification is a leading cause of global biodiversity loss, which can reduce the provisioning of ecosystem services in managed ecosystems. Organic farming and plant diversification are farm management schemes that may mitigate potential ecological harm by increasing species richness and boosting related ecosystem services to agroecosystems. What remains unclear is the extent to which farm management schemes affect biodiversity components other than species richness, and whether impacts differ across spatial scales and landscape contexts. Using a global metadataset, we quantified the effects of organic farming and plant diversification on abundance, local diversity (communities within fields), and regional diversity (communities across fields) of arthropod pollinators, predators, herbivores, and detritivores. Both organic farming and higher in‐field plant diversity enhanced arthropod abundance, particularly for rare taxa. This resulted in increased richness but decreased evenness. While these responses were stronger at local relative to regional scales, richness and abundance increased at both scales, and richness on farms embedded in complex relative to simple landscapes. Overall, both organic farming and in‐field plant diversification exerted the strongest effects on pollinators and predators, suggesting these management schemes can facilitate ecosystem service providers without augmenting herbivore (pest) populations. Our results suggest that organic farming and plant diversification promote diverse arthropod metacommunities that may provide temporal and spatial stability of ecosystem service provisioning. Conserving diverse plant and arthropod communities in farming systems therefore requires sustainable practices that operate both within fields and across landscapes.     

专业化茶叶种植影响下的农业生态系统服务功能价值评价——以福建省安溪县为例

饮茶已逐渐成为世界潮流与时尚,不断扩大的茶叶需求正不断刺激茶叶的增产,茶叶经济发展受到世界瞩目,但关于规模化、专业化茶叶种植对农业生态系统的影响却未得到相应的关注。为研究规模不断扩大的专业化茶叶种植对农业生态系统的影响,以专业化茶叶种植大县安溪县为研究对象,通过构建由供给、调节和支持正、负服务组成的农业生态系统服务功能价值评价指标体系,结合能值法,从不同专业化茶叶种植水平、不同农业种植结构、不同地貌类型三个方面进行评估分析。研究结果表明:(1)安溪县以专业化茶叶种植为主的农业生态系统中供给、调节和支持三大服务功能的正服务价值都大于负服务价值,系统以提供正服务为主;(2)专业化茶叶种植具有较高的经济效益和较好的气体、气候调节能力,对农业生态系统中的供给与调节功能具有正效应;(3)但专业化种植过程中造成的土壤流失情况也较为严重,对农业生态系统支持功能的负面影响较大;(4)"茶-蔬"、"茶-果"等复合生态茶树种植结构有利于提高农业生态系统服务功能,实现茶叶经济与农业生态系统的和谐发展。     

The adequacy of alfalfa crops as an agri-environmental scheme: A review of agronomic benefits and effects on biodiversity

The agriculture intensification required to provide enough food commodities for humans has negative impacts on the environment. To reduce these drawbacks Agri-Environmental Schemes (AES) have been implemented in Europe since the last decade of the twentieth century. One of the measures included in these schemes was the introduction of alfalfas in crop rotation systems. In order to evaluate their suitability as an AES, we synthesize knowledge on the agronomical benefits of alfalfa cultivations, as well as on the relationships of alfalfa crops with biodiversity at three taxonomic levels: vascular plants, arthropods, and vertebrates. Based on the articles reviewed, alfalfas can help restoring native grassland communities due to the nutrient enrichment they provide. Moreover, this legume crop usually ensures food resources not only for invertebrates, but also for vertebrates. Alfalfas tend to harbour a stable arthropod community that benefits surrounding crops by improving ecological processes (pollination, pest predation) and reducing the need to use agrochemicals. At the same time, arthropod abundance attracts vertebrates, especially birds, which supports the role of alfalfa as a conservation tool to favour endangered farmland birds. Additionally, alfalfa crops may function as a reservoir habitat for voles, which are a preferred food resource for farmland-foraging raptors, many of them endangered. On the other hand, birds nesting in alfalfa crops may suffer higher nest destruction rates due to frequent cuts, and voles using alfalfa crops may also create agricultural damage in surrounding crops in certain cases. The review also highlights that negative ecological relationships of alfalfa crops with biodiversity can be minimized, and positive effects may also be maximized under the appropriate management of this crop. Examples of such management actions include cut delays or higher cuts to avoid nest destruction, the use of grazing cattle to reduce the impacts of rodent pests, reduced frequency of cutting or maintaining unharvested strips in the field to maximize positive effects on predatory arthropods and vole availability to raptors. We conclude that alfalfa crops can be considered globally beneficial for farmland biodiversity and a useful management tool for conservation in agricultural landscapes, for example as an AES, but that management should be adapted to particular taxonomical or functional groups.     

How do sheep affect plant communities and arthropod populations in temperate grasslands?

Grasslands being used in sheep farming systems are managed under a variety of agricultural production, recreational and conservational objectives. Although sheep grazing is rarely considered the best method for delivering conservation objectives in seminatural temperate grasslands, the literature does not provide unequivocal evidence on the impact of sheep grazing on pasture biodiversity. Our aim was therefore to review evidence of the impacts of stocking rate, grazing period and soil fertility on plant communities and arthropod populations in both mesotrophic grasslands typical of agriculturally improved areas and in native plant communities. We therefore conducted a literature search of articles published up to the end of the year 2010 using ‘sheep’ and ‘grazing’ as keywords, together with variables describing grassland management, plant community structure or arthropod taxa. The filtering process led to the selection of 48 articles, with 42 included in the stocking rate dataset, 9 in the grazing period dataset and 10 in the soil fertility dataset. The meta-analysis did not reveal any significant trends for plant species richness or plant community evenness along a wide stocking rate gradient. However, we found frequent shifts in functional groups or plant species abundance that could be explained by the functional properties of the plants in the community. The meta-analysis confirmed that increasing soil fertility decreased plant species richness. Despite the very limited dataset, plant species richness was significantly greater in autumn-grazed pastures than in ungrazed areas, which suggests that choosing an appropriate grazing period would be a promising option for preserving biodiversity in sheep farming systems. Qualitative review indicated that low grazing intensity had positive effects on Orthoptera, Hemiptera (especially phytophagous Auchenorrhyncha) and, despite a diverse range of feeding strategies, for the species richness of Coleoptera. Lepidoptera, which were favoured by more abundant flowering plants, also benefited from low grazing intensities. Spider abundance and species richness were higher in ungrazed than in grazed pastures. In contrast, there are insufficient published studies to draw any firm conclusions on the benefits of late grazing or stopping fertilization on insect diversity, and no grounds for including any of this information in decision support tools at this stage.     

Mechanisms for flowering plants to benefit arthropod natural enemies of insect pests： Prospects for enhanced use in agriculture

Reduction of noncrop habitats, intensive use of pesticides and high levels of disturbance associated with intensive crop production simplify the farming landscape and bring about a sharp decline of biodiversity. This, in turn, weakens the biological control ecosystem service provided by arthropod natural enemies. Strategic use of flowering plants to enhance plant biodiversity in a well-targeted manner can provide natural enemies with food sources and shelter to improve biological control and reduce dependence on chemical pesticides. This article reviews the nutritional value of various types of plant-derived food for natural enemies, possible adverse effects on pest management, and the practical application of flowering plants in orchards, vegetables and field crops, agricultural systems where most research has taken place. Prospects for more effective use of flowering plants to maximize biological control of insect pests in agroecosystem are good but depend up on selection of optimal plant species based on information on the ecological mechanisms by which natural enemies are selectively favored over pest species.     

Relationships among site characteristics,taxonomical structure and functional trait distribution of arthropods in forest,urban and agricultural soils of Southern Italy

Urbanization and agriculture cause alterations in soil biodiversity. As arthropods quickly respond to soil changes, they have been recognized as good indicators of soil quality. This study aimed to evaluate if (1) soil physico-chemical properties act as environmental filters of the functional trait distribution of soil arthropod community; (2) the abundance of certain functional traits is linked to different land uses; (3) the taxonomical and functional approaches provide complementary information about the evaluation of biological soil quality. The study was performed at forest, agricultural and urban sites in downtown and surroundings of Naples. The soils were characterized for texture, pH, organic matter content, water content, total Cd, Cr, Cu, Ni, Pb and Zn concentrations. The forest soils showed the highest organic matter and water contents, and the lowest metal concentrations; the agricultural soils showed the lowest organic matter and water contents and high Cd and Cu concentrations, whereas the urban soils showed high Pb and Zn concentrations. The forest soils showed the highest arthropod density, taxa richness and diversity. The distribution of the functional traits in the arthropod communities of the different land uses highlighted similarity only for the preference to occupy soil and for the percentage contribution of detritivores. The abundance of arthropods living above litter and omnivores were positively correlated to Pb and Zn concentrations, whereas predators were positively correlated to Cu concentrations. The findings suggest that the arthropod identification at order level could be enough to detect differences in functional traits among forest, urban, and agricultural soils.     

Extreme weather events threaten biodiversity and functions of river ecosystems: evidence from a meta-analysis

Both gradual and extreme weather changes trigger complex ecological responses in river ecosystems. It is still unclear to what extent trend or event effects alter biodiversity and functioning in river ecosystems, adding considerable uncertainty to predictions of their future dynamics. Using a comprehensive database of 71 published studies, we show that event – but not trend – effects associated with extreme changes in water flow and temperature substantially reduce species richness. Furthermore, event effects – particularly those affecting hydrological dynamics – on biodiversity and primary productivity were twice as high as impacts due to gradual changes. The synthesis of the available evidence reveals that event effects induce regime shifts in river ecosystems, particularly affecting organisms such as invertebrates. Among extreme weather events, dryness associated with flow interruption caused the largest effects on biota and ecosystem functions in rivers. Effects on ecosystem functions (primary production, organic matter decomposition and respiration) were asymmetric, with only primary production exhibiting a negative response to extreme weather events. Our meta-analysis highlights the disproportionate impact of event effects on river biodiversity and ecosystem functions, with implications for the long-term conservation and management of river ecosystems. However, few studies were available from tropical areas, and our conclusions therefore remain largely limited to temperate river systems. Further efforts need to be directed to assemble evidence of extreme events on river biodiversity and functioning.     

3S技术在南宁市荔枝优化布局中的应用

根据荔枝生长发育对生态气候条件的要求,分析确定了荔枝适宜性生态气候区划指标。采用统计学方法建立了区划指标的空间分析模型,利用1∶250000南宁市地形数据,按500m×500m细网格,对区划指标进行了小网格推算,根据离散点的空间插值技术原理,对其残差部分进行了空间插值,将插值结果与推算结果进行叠加,实现了区划指标空间分布的细化。结合ETM卫星资料提取的土地利用信息,采用3S技术,进行荔枝优化布局的生态气候区划。该区划按种植荔枝的气候适宜性及土地利用现状,将南宁市划分为荔枝的最适宜、适宜、次适宜和不适宜种植区,绘制了荔枝优化布局的三维立体区划图,并分区进行评述。研究结果可为南宁市农业结构调整及荔枝优化布局提供科学依据。     

温室内大花植物对天敌丰度及其控害功能的影响

【目的】大花植物(花粉和花蜜)能否为特殊的寒地温室内各种昆虫的成虫期补充营养,提供食物来源进而影响温室内天敌的控害功能是当前保护地内防控害虫的关键的科学问题之一。【方法】本实验连续两年选择调查了哈尔滨市郊区(寒地,北纬45o)三栋大型玻璃温室的花卉作物栽培引入情况并用粘虫板连续监测了温室内各种节肢动物丰度动态,分析了温室内大花植物栽培比例对各类(种)优势害虫丰度,寄生性天敌及捕食性天敌丰度的影响,探讨了不同天敌类群丰度的关系及害虫多样性与总丰度等关系。【结果】研究表明:较高比例的大花植物栽培整体上能提高害虫的多样性指数,抑制各种害虫种群的暴发,但单一种类的大花植物也会导致较为严重的害虫发生;影响寄生性天敌类群的环境因素与影响捕食性天敌的因素相似,而捕食性天敌(体型较大)对化学农药的喷洒相对更为敏感。【结论】研究结果可为田间生物控害工程的"功能植物"筛选提供信息,为设施农业害虫生物防治提供科学依据。