下辽河平原不同生境土壤节肢动物分布及空间自相关格局

了解不同生境中土壤节肢动物分布和空间自相关格局是进行非耕作生境结构优化和合理布局的基础。本文选择下辽河平原的辽中县为研究区,利用GIS技术选取非耕作生境比例在10%~20%的3个1 km×1 km网格为采样区。在分析各生境中土壤节肢动物分布特征的基础上,借助Geo Da分析土壤节肢动物数量全局和局域空间自相关性。结果表明:(1)不同生境类型中土壤节肢动物平均数量和类群数存在差异。沟渠中土壤节肢动物数量最多,并依次由林地、草地、坑塘水面、树篱、农田、农村道路至果园减少。类群数依次由农田、林地、树篱、农村道路、沟渠、草地、坑塘水面至果园减少。(2)土壤节肢动物呈显著的空间自相关性,即为聚集分布形态。(3)在沟渠、草地、林地和树篱生境中土壤节肢动物呈现出高-高聚集的"热点"区,在连片农田生境中土壤节肢动物呈现出低-低聚集的"冷点"区,而在农村道路和果园生境中没有出现明显的高-高聚集区。综上可知,沟渠、草地、林地和树篱对于农田中土壤节肢动物数量增加具有积极作用。     

黄河下游平原不同非农生境中植物多样性

自然、半自然等非农生境是区域农业景观的重要组成部分,对区域生物多样性保护具有重要意义。黄河下游平原区是典型的农业景观,农田是最主要的景观类型,林地、树篱等景观要素散布其中,为研究区内非农生境中生物多样性及其生态效应,采用典型样地法对区内典型农业景观中林地、树篱、田间道路和沟渠等主要非农生境中的植物群落进行调查研究。结果显示:区内植物组成以菊科、禾本科等为主;区内植物科的地理成分以世界分布和泛热带分布为主,各生境间有一定的差异,属的地理成分复杂,具有中国15个种子植物属分布型中的13个,以温带分布、世界分布和泛热带分布为主,总体上区内的植物组成以广布种为主,优势科属明显,特有种缺乏;各非农生境中的植物多样性存在一定的差异,林地和树篱生境具有较高的物种丰富度和多样性,显著高于田间道路,沟渠、林地和树篱生境中的物种均匀度和群落盖度均显著高于田间道路;β多样性分析表明田间道路生境中的群落组成分化程度在各样点间最大(β多样性指数最高);树篱、林地和田间道路等生境间群落相似性均较高,但其群落结构和优势种组成方面却存在显著的差异,沟渠作为一种特殊生境与其它生境间的群落相似性相对较低。研究表明,在黄河下游平原典型农业景观中,作为非农生境存在的林地和树篱在物种多样性维持中具有重要地位,沟渠为水生和湿生植物提供了庇护所,意义重大;各生境间高的群落相似性仅是物种组成名录相似性的反映,其空间格局和优势种群间差异明显,各生境植物群落的生态功能差异巨大。未来区内生物多样性的保护应重在生态系统过程、功能的加强以及生态系统服务的维持和提高,且需进一步在景观水平上探讨各非农景观要素的空间构型对其生态效益的影响机制及其调控和管理策略。     

黄河下游平原农业景观中非农生境植物多样性

农业景观中的自然、半自然生境及其上的植物群落对维持农业生态系统功能意义重大。为了解黄河下游典型平原农业景观中非农生境植物多样性特征,在对研究区景观格局分析的基础上,使用典型样地法对区域内农业景观中主要自然、半自然生境(包括林地、树篱、田间道路、沟渠等)进行调查。结果显示:研究区总体上为农业景观,居民点和林地斑块散布其间;区内植物科的地理分布以世界分布和泛热带分布为主,属的地理成分复杂,具有中国15个种子植物属分布区类型中的13个,以温带分布、世界分布和泛热带分布为主,总体上以广布种为主,优势科属明显,缺少特有种;林地和树篱具有较高的物种丰富度和多样性,沟渠和林地的物种均匀度和群落盖度最高,田间道路上群落组成的变化幅度和分化程度最大(β多样性指数最高);林地、树篱和田间道路等生境间的群落相似性极高,但其群落盖度和优势种组成具有显著差异,沟渠作为一种特殊生境与其他生境间相似性较低。研究表明,在黄河下游平原农业景观中,林地和树篱在物种多样性维持中作用较大,沟渠为水生和湿生植物提供了庇护所,不同生境间极高的群落相似性仅是物种组成名录的反映,而其生态功能存在显著差异。未来区内的生物多样性保护应重在生态系统功能和服务的维持及提高,而如何进行景观要素配置,才能兼顾农业生产力的可持续性和生态系统功能维持,尚需进一步探讨。     

东北黑土区耕作措施对地表节肢动物多样性的影响

【目的】调查不同耕作措施下东北黑土地表节肢动物群落类群多样性以及营养功能群结构, 有利于揭示地表节肢动物多样性对土地管理措施的响应。【方法】本研究于2012年7－9月在黑龙江海伦中国科学院海伦农田生态系统国家野外科学观测研究站采用陷阱法对东北典型黑土区免耕、 少耕、 平翻、 旋耕和组合5种耕作措施长期定位试验区的地表节肢动物群落组成、 类群多样性以及功能群结构进行调查, 计算各处理地表节肢动物类群相对多度、 类群丰富度、 Shannon Wiener多样性指数、 Pielou均匀度指数、 Simpson优势度指数、 Cody指数和Srensen指数。【结果】本次调查共收集黑土农田地表节肢动物个体数为2 942, 隶属7目18科。免耕样地收集节肢动物15科, 占所有类群83.34%; 少耕和组合样地均为11科, 占61.12%。所有耕作措施下鞘翅目和蜘蛛目类群相对多度最高, 步甲科为黑土农田优势地表节肢动物类群。免耕样地节肢动物类群丰富度和多样性指数最高, 少耕样地最低。除旋耕样地外, 其他耕作样地地表节肢动物功能群均以捕食性为主。群落相似性指数分析表明, 不同耕作措施间群落相似性不同, 免耕与组合之间相似性较高, 而平翻与组合之间较低。【结论】步甲科是黑土农田地表节肢动物群落中的优势类群。不同耕作措施影响近地表土壤以及植被微生境, 进而影响地表节肢动物群落组成、 数量和营养功能群。免耕样地具有较高节肢动物类群丰富度和捕食性动物类群, 有利于维持黑土农田地表节肢动物多样性。     

黄河中下游农业景观中景观简化对传粉昆虫多样性的影响——以巩义市为例

在农业景观中,传粉昆虫的生存繁衍与半自然生境的面积大小有关。集约化生产方式使半自然生境比例逐渐减少,农田比例不断增加,随着景观简化梯度的变化(农田比例逐渐增大),传粉昆虫群落多样性将会发生怎样的变化?选择黄河中下游典型农区巩义市为研究区域,采用诱捕盘法(Pan traps)进行农田、林地的传粉昆虫取样,以21个样点作为景观简化梯度(农田比例范围5%—86%)的呈现,基于每个样点的传粉昆虫多度和丰富度变化来探究景观简化对传粉昆虫多样性的影响。结果显示:区内累计捕获传粉昆虫39660头,优势类群包括双翅目(Diptera)、膜翅目(Hymenoptera)、鞘翅目(Coleoptera)等。采用逐步回归分析及线性拟合后发现景观简化程度与传粉昆虫多度和丰富度呈显著负相关(P0.05);景观简化对传粉昆虫类群间的影响也是有差异的,其中对鞘翅目多度的影响最为密切(R~2=0.27),同时对膜翅目和双翅目也有较大影响(R~2=0.14、R~2=0.11),景观简化与鳞翅目多度呈正相关;随景观简化的程度加深,农田生境中膜翅目多度呈显著下降趋势(P0.05),而林地中膜翅目多度变化不明显。在未来的景观规划中,应着重考虑传粉昆虫中鞘翅目类群的栖息地变化及食物资源状况。依据研究结果建议林地生境中应注重保护现有的自然植被群落,在人工林中可以种植一定面积的蜜粉源植物;农田生境内对杂草群落、半自然生境斑块进行合理规划的基础上,还可以种植线性景观植物作为传粉昆虫的食物源。     

不同演替阶段热带森林地表凋落物和土壤节肢动物群落特征

为了解不同演替阶段热带森林土壤节肢动物群落结构特征及其与地表凋落物的关系, 2001年9月采用样线调查法对西双版纳23年次生林、35年次生林、季节雨林地表凋落物及其中的土壤节肢动物进行了调查。所获数据表明, 地表凋落物数量(现存量干重)和质量(N和C/N)总体上表现为35年次生林最好, 23年次生林次之; 蜱螨目和弹尾目为3林地地表凋落物土壤节肢动物群落优势类群, 膜翅目蚂蚁、马陆目、鞘翅目、双翅目和半翅目为常见类群。土壤节肢动物个体密度和个体相对密度均表现为35年次生林>季节雨林>23年次生林。群落的丰富度指数以季节雨林最高, 多样性和均匀度指数显示为23年次生林最高, 35年次生林的优势度指数最高, 3林地土壤节肢动物群落类群组成相似性达到较好水平。相关分析表明, 3种不同演替阶段热带森林土壤节肢动物个体密度与林地地表凋落物现存量呈正相关, 而现存凋落物N元素储量与土壤节肢动物的相关性仅表现在23年次生林和季节雨林。研究认为, 热带森林土壤节肢动物群落的发展与森林植被演替密切相关, 其群落个体数量和多样性受森林地表凋落物数量、质量的调控, 但其他环境因素如捕食效应、人为干扰等影响亦不可忽视。     

农田节肢动物类群不同分类级别和个体数对物种数的替代效果

农田生物多样性评价中常采用指示类群基于物种鉴定水平的数据计算多样性指数,如果能用高级别的分类鉴定结果(如科)或直接用该指示类群个体数来代替该类群物种水平上的多样性指数,可以极大地节省鉴定的成本和降低鉴定难度。同时采用多个指示类群田间取样数据和多种分析方法验证这个问题有助于获得更为普适的结论。为研究农田节肢动物不同分类级别和个体数对于物种丰富度的替代效果,于2019年5-8月在浙江省宁波市的两片不同管理措施和多生境的农田景观区进行了节肢动物群取样调查,并对蜘蛛和蜂类两个类群进行了科级和物种级别的鉴定。通过分析目级和科级分类水平的数目、指示类群的个体数与物种丰富度之间的相关性;并基于这4个指数进行不同管理措施和生境间的双因素方差分析;同时基于目级、科级和物种级别数据,采用非度量多维尺度分析(NMDS)对比他们在不同管理措施和生境间的种类组成差异。结果显示:(1)将蜘蛛、蜂类分类至科级可分别拟合其物种水平数据63%和89%的变异性,并且比目级的数据相关性更大。(2)两个指示类群的个体数与物种数之间都有极为显著的相关性,且r≥0.7。(3)比起目级数,科级数和个体数在不同管理措施和生境间的差异结果和物种数更类似。(4)基于分科数据的NMDS在不同管理措施和生境间差异的结果也和物种级别数据的结果更类似。因此,在农田生物多样性的评估中,可以在一定程度上采用较高层次分类的数据,其中科级水平的数据作为首选,从而降低分类鉴定难度并提高工作效率。在需要快速进行蜘蛛和蜂类等基于大量标本数目的生物多样性评估时,可直接统计指示类群个体数量来替代物种数结果。     

农业景观中非农景观要素结构特征对植物物种多样性的影响——以封丘县为例

农业景观中的非农生境对维持与提高农业景观的生物多样性具有非常关键的作用。为了探究非农生境的相关结构属性对农业景观中植物物种多样性的影响,选择黄河下游平原区的封丘县为研究区域,对研究区内42个样点的非农生境进行植物多样性调查,并对各个样点周围1 km范围内的非农景观要素进行了提取,分析不同非农生境中植物物种组成及其景观要素的构成、结构及空间配置对植物物种多样性的影响。研究结果表明:不同类型的非农生境中,物种组成共有种相对较多,特有种或指示种较少;林地与树篱具有相对较高的物种多样性,以沟渠为生境的植物物种组成与其它两种生境类型相比存在明显差异;林地与树篱/沟渠的组成比例相当时,植物物种丰富度最高;景观指数对不同非农生境中的植物物种具有明显影响,景观破碎化及人为干扰指数的影响较为显著。未来在对本区域内农业景观进行结构优化的过程中,应从非农景观要素的改造入手。通过调整和设置非农景观要素的不同类型及比例、合理改造其结构与空间配置,为最终实现农业景观的有效管理与可持续健康发展奠定重要的研究基础。     

坝上地区农田和恢复生境地表甲虫多样性

研究采用陷阱法对河北坝上崇礼县农田、禁牧草地及再造林地3种常见生境中地表甲虫进行了取样调查,分别从鞘翅目分科、步甲分种两个分类水平比较分析了不同生境中的生物多样性状况以评估生境恢复状况及其对生物多样性的影响,并探索在以生物多样性为指标评估生境恢复状况过程中,研究结论是否受分类水平的影响。结果显示,草地和林地具有较为相似鞘翅目和步甲的结构组成,但均显著不同于农田。农田较再造林地和禁牧草地具有更多的鞘翅目科数及步甲物种数,且均显著高于林地;农田中步甲群落的Fisher's α多样性指数也显著地高于林地,但鞘翅目分科水平上的Fisher's α多样性指数在各生境中没有差异。结果说明:(1)再造林和草地禁牧的生境修复活动在当前状态下对生物多样性恢复的作用尚不明显,仅是表现出促进了景观尺度上较高的Beta和Gamma多样性,而农田则在维持当地较高的生物多样性中扮演重要角色;(2)在鞘翅目分科和步甲科分种研究数据所反映的不同生境条件下的多样性和组成状况基本相同,因此在需要快速评估生境恢复状况且物种水平鉴定存在困难的时候,可以采用鞘翅目分科的数据替代指示生境恢复的状况并反映生境恢复对生物多样性影响的趋势,从而减少分类的难度并提高工作效率。但是物种水平的多样性状况更能显著反映生境间的差异。     

基于黑土农田生物多样性监测样地的地表大型节肢动物群落特征

农田生态系统是陆地生态系统的重要组成部分,是全球生态与环境研究的关键区之一.为了研究农田生物群落构建过程,探索其多样性维持机理,本研究于2015年在东北典型黑土区建立了16 hm²的农田生物多样性监测样地,按照作物生长期,于玉米生长大喇叭口期(8月初)、抽穗期(9月初)和成熟期(10月初)对陷阱法获取的地表大型节肢动物进行了统计分析.结果表明: 3次调查共获得地表大型节肢动物5284只,隶属于节肢动物门3纲12目32科47种.调查中优势类群3类,常见类群11类.节肢动物营养功能群中植食性和杂食性节肢动物所占比重较大.地表大型节肢动物物种数量和个体数量随作物生长期有显著变化.9月初节肢动物的Shannon多样性指数、Margalef丰富度指数、Pielou均匀度指数相对较高,8月初Simpson优势度指数较高.从不同物种的变异系数(CV)及群落空间插值可以看出,节肢动物群落在水平方向上存在异质性.在与土壤环境因子关系上,双变量相关分析表明,不同月份地表大型节肢动物总个体数与土壤pH值、有机质、全氮、含水量的相关性均未达到显著性水平;典范对应分析(CCA)进一步表明,优势类群和常见类群对环境因子具有较强的适应能力,在研究区内分布广泛.农田生物多样性监测样地内地表节肢动物物种组成丰富,在作物不同生长时期地表节肢动物群落组成及空间分布格局具有明显的变化过程.农田生物多样性监测样地通过大尺度、长时间对样地内土壤动物空间过程进行监测,可以为解决群落生物多样性形成和维持机制提供重要手段.     

Arthropods within the woody element of hedgerows and their distribution pattern

1 The diversity and abundance of arthropods within hedgerows was investigated using insecticide fogging. In total, 13 390 arthropods were collected from 181 m³ of hedge (2% of the total volume). The taxonomic diversity of the total sample included 51 families in 13 orders, all within the phylum Arthropoda. Five orders accounted for 90% of all arthropods: Araneae, Coleoptera, Diptera, Hemiptera and Hymenoptera. The predators were the dominant functional group accounting for 40% of the total sample. 2 The linear distribution of hedgerow arthropod assemblages was investigated by sampling arthropods in 13 hedges at seven equidistant points along each hedge. Abundance of most arthropod taxa and the four functional groups (predators, parasitoids, herbivores and scavengers) consistently showed a clumped distribution along hedges, with high numbers at both ends and in the middle section. Hedge ends were defined either as a node, where the hedge intersected with another hedge, or as a gateway prior to an adjacent landscape feature such as a wood. Aggregation of arthropods at the nodes may reflect preferable microclimatic conditions at hedgerow junctions, whereas aggregation at a gap suggests the gap acted as a barrier to movement. The aggregation at the centre remains unexplained but may be a manifestation of the movement of individual arthropods along the hedgerow. 3 The great abundance and diversity of arthropods found in the present study emphasizes the status of hedges as one of the most important noncrop habitats on farmland. The arthropods that they contain may act as food for other farmland species, aid pest control and contribute to crop pollination.     

农业景观动态对林地地表节肢动物多样性的影响

以黄河下游典型农区封丘县为研究区,在林地景观中进行地表节肢动物的观测。用物种丰富度和香农多样性指数代表物种多样性,选择代表景观背景的5个竞争模型:生境特性(H1,2012)、基质特性(H2,2012)、生境变化(H3,1984—2012)、基质变化(H4,1984—2012)和土壤-环境条件(H5,2012)从4个空间尺度上(100,250,350和500 m)进行分析,通过运用基于赤池信息量准则(Akaike information criterion,AIC)的多模型推理(Multi-model Inference,MMI)方法,在R软件里用广义线性模型(Generalized Linear Models,GLM)探究了研究区近30年(1984—2012年)景观背景变化对林地地表节肢动物多样性的影响。研究表明,不同景观背景模型对地表节肢动物多样性的影响具有尺度依赖性。在100 m的尺度下,生境特性(H1)最能够解释香农多样性和物种丰富度,但是随着尺度的增加,生境特性变化(H3)在较大(250、350 m和500 m)的尺度对物种丰富度和香农多样性影响最大,而基质特性和土壤-环境条件(H2和H5)的作用不显著。景观背景对地表节肢动物多样性的解释量达到40%。在研究区域,生境特性是表征香农多样性指数和物种丰富度的指标。     

Nutritional composition of the preferred prey of insectivorous birds: popularity reflects quality

Food availability is emerging as a key determinant of avian occurrence and habitat use in a variety of systems, but insectivores have received less attention than other groups and the potential influence of nutritional quality has rarely been considered. Rather than a uniform food source, arthropods vary greatly in terms of nutritional composition, but does this variation translate into differential consumption? Building on previous work that demonstrated clear preference for some arthropod groups by 13 species of ground‐foraging insectivores, we compare the nutritional composition of these arthropod groups with other groups commonly encountered but seldom consumed in the same habitat types. Using samples of arthropods collected from a eucalypt woodland in southern Australia, we found the high frequency prey groups (Coleoptera, Lepidoptera, Orthoptera and Araneae) consistently contained higher fractions of crude protein and total fat than the low frequency groups (Diptera, Hymenoptera and Odonata). Even more clear‐cut differences were noted in terms of micronutrients; high frequency prey containing significantly greater concentrations of seven elements than low frequency prey and significantly greater amounts per individual arthropod for all eleven elements measured. These results indicate that the nutritional quality plays an important role in prey selection in insectivores and suggests that micronutrients may be more important determinants of prey choice than previously recognized. Integrating these findings with previous work suggesting food limitation may constrain distribution patterns of birds in fragmented landscapes, we contend that variation in nutritional quality helps explain observed patterns in insectivore diets and occurrence. In addition to explaining why smaller and more disturbed habitats are unable to support resident insectivore populations, this bottom‐up mechanism may underlie the disproportionate sensitivity of insectivores to land‐use intensification.     

Elevation and experimental snowmelt manipulation affect emergence phenology and abundance of soil‐hibernating arthropods

1. Effects of climate change, such as higher average temperatures and earlier snowmelt, are already apparent, especially in alpine regions. However, community responses of functionally important arthropod taxa to changing climatic conditions are mostly unknown. 2. In this study, an earlier snowmelt was simulated at 15 plots along an elevational gradient in the German Alps. At each study site, soil emergence traps were established for sampling soil‐hibernating arthropods on earlier and control snowmelt treatments during the growing season. The abundance and emergence phenology of the five most common arthropod orders (Araneae, Coleoptera, Diptera, Hemiptera, Hymenoptera) were analysed, as well as the species richness of Coleoptera. 3. There was increasing abundance and species richness of Coleoptera along the elevational gradient, indicating that at higher altitudes more individuals and species hibernate in the soil. Abundances of Diptera also increased with elevation. By contrast, abundances of Hemiptera declined with increasing elevation, while abundances of Araneae and Hymenoptera did not show significant elevational patterns. Arthropods at higher elevations emerged, on average, 5 weeks later than arthropods at lower elevations, because of a longer‐lasting snow cover. The earlier snowmelt treatment resulted in higher abundances of Araneae and Hymenoptera compared with the control plots, indicating that the time of snowmelt influenced the abundance of predators, such as spiders or parasitic wasps, more than that of herbivores. 4. An earlier emergence of certain arthropod guilds and a change in relative abundance of guilds might desynchronise species interactions, leading to a possible loss of biodiversity.     

A diverse fossil terrestrial arthropod fauna from New Zealand: evidence from the early Miocene Foulden Maar fossil lagerstätte

Fossil evidence for the evolutionary history of terrestrial arthropods in New Zealand is extremely limited; only six pre‐Quaternary insects (Triassic to Eocene) have been recorded previously, none of Miocene age. The Foulden Maar fossil lagerstätte in Otago has now yielded a diverse arthropod assemblage, including members of the Araneae, Plecoptera, Isoptera, Hemiptera, Coleoptera, Hymenoptera, Trichoptera and Diptera. The fauna significantly emends the fossil record for the Southern Hemisphere, provides an unparalleled insight into a 23‐million‐year‐old New Zealand lake/forest palaeoecosystem and allows a first evaluation of arthropod diversity at a time coeval with or shortly after the maximum marine transgression of Zealandia in the late Oligocene. The well‐preserved arthropods chiefly represent ground‐dwelling taxa of forest floor and leaf litter habitats, mostly from sub‐families and genera that are still present in the modern fauna. They provide precisely dated fossil evidence for the antiquity of some of New Zealand's terrestrial arthropods and the first potential time calibrations for phylogenetic studies. The high arthropod diversity at Foulden Maar, together with a subtropical rainforest flora and fossil evidence for complex arthropod–plant interactions, suggests that terrestrial arthropods persisted during the Oligocene marine transgression of Zealandia.     

Dynamic effects of ground-layer plant communities on beetles in a fragmented farming landscape

Vegetation effects on arthropods are well recognized, but it is unclear how different vegetation attributes might influence arthropod assemblages across mixed-agricultural landscapes. Understanding how plant communities influence arthropods under different habitat and seasonal contexts can identify vegetation management options for arthropod biodiversity. We examined relationships between vegetation structure, plant species richness and plant species composition, and the diversity and composition of beetles in different habitats and time periods. We asked: (1) What is the relative importance of plant species richness, vegetation structure and plant composition in explaining beetle species richness, activity-density and composition? (2) How do plant-beetle relationships vary between different habitats over time? We sampled beetles using pitfall traps and surveyed vegetation in three habitats (woodland, farmland, their edges) during peak crop growth in spring and post-harvest in summer. Plant composition better predicted beetle composition than vegetation structure. Both plant richness and vegetation structure significantly and positively affected beetle activity-density. The influence of all vegetation attributes often varied in strength and direction between habitats and seasons for all trophic groups. The variable nature of plant-beetle relationships suggests that vegetation management could be targeted at specific habitats and time periods to maximize positive outcomes for beetle diversity. In particular, management that promotes plant richness at edges, and promotes herbaceous cover during summer, can support beetle diversity. Conserving ground cover in all habitats may improve activity-density of all beetle trophic groups. The impacts of existing weed control strategies in Australian crop margins on arthropod biodiversity require further study.     

长期围封对疏勒河源区高寒草甸地表节肢动物多样性的影响

围封会促进退化高寒草甸植被和土壤环境恢复,长期围封也会导致生物多样性及其功能下降,影响高寒草甸生态系统的稳定,但这种影响会随着季节和生境条件变化而异。为了探究不同退化程度高寒草甸地表节肢动物群落变化对围封禁牧的响应,利用陷阱法调查了疏勒河源区沼泽化草甸、草甸和草原化草甸3种不同退化梯度高寒草甸围封禁牧和自由放牧处理下地表节肢动物群落结构变化。结果表明：围封禁牧对高寒草甸地表节肢动物群落组成及多样性的影响随生境条件不同而异。禁牧降低了沼泽化草甸地表节肢动物的物种丰富度,而提高了草甸和草原化草甸地表节肢动物的物种丰富度;围封禁牧对沼泽化草甸地表节肢动物群落结构影响较小,显著降低了草甸生境地表节肢动物活动密度、提高了地表节肢动物多样性和均匀度,相反,禁牧显著提高了草原化草甸生境地表节肢动物活动密度、降低其多样性和均匀度;豹蛛属1种是高寒草甸主要的地表节肢动物类群（相对多度为67.0%）,高寒草甸土壤水分有效性等生境条件不同影响了豹蛛属1种对围封禁牧的响应模式,进而影响了地表节肢动物群落结构变化。总之,高寒草甸退化程度影响了地表节肢动物多样性对禁牧和放牧的响应模式,沼泽化草甸适度放牧有利于提高地表节肢动物多样性及其功能。     

Arctic arthropod assemblages in habitats of differing shrub dominance

Recent climate warming in the Arctic has caused advancement in the timing of snowmelt and expansion of shrubs into open tundra. Such an altered climate may directly and indirectly (via effects on vegetation) affect arctic arthropod abundance, diversity and assemblage taxonomic composition. To allow better predictions about how climate changes may affect these organisms, we compared arthropod assemblages between open and shrub‐dominated tundra at three field sites in northern Alaska that encompass a range of shrub communities. Over ten weeks of sampling in 2011, pitfall traps captured significantly more arthropods in shrub plots than open tundra plots at two of the three sites. Furthermore, taxonomic richness and diversity were significantly greater in shrub plots than open tundra plots, although this pattern was site‐specific as well. Patterns of abundance within the five most abundant arthropod orders differed, with spiders (Order: Araneae) more abundant in open tundra habitats and true bugs (Order: Hemiptera), flies (Order: Diptera), and wasps and bees (Order: Hymenoptera) more abundant in shrub‐dominated habitats. Few strong relationships were found between vegetation and environmental variables and arthropod abundance; however, lichen cover seemed to be important for the overall abundance of arthropods. Some arthropod orders showed significant relationships with other vegetation variables, including maximum shrub height (Coleoptera) and foliar canopy cover (Diptera). As climate warming continues over the coming decades, and with further shrub expansion likely to occur, changes in arthropod abundance, richness, and diversity associated with shrub‐dominated habitat may have important ecological effects on arctic food webs since arthropods play important ecological roles in the tundra, including in decomposition and trophic interactions.     

The cascading effects of elephant presence/absence on arthropods and an Afrotropical thrush in Arabuko‐Sokoke Forest,Kenya

Although studies have explored how habitat structure and disturbance affect arthropod communities, few have explicitly tested the effects of both structure and disturbance level across trophic levels and phyla. We present here the results of a study conducted in the Arabuko‐Sokoke Forest (ASF) of coastal Kenya, in which abundance of arthropods and one of their avian predators, the East Coast Akalat Sheppardia gunning sokokensis was compared in relatively undisturbed habitat (outside elephant roaming areas) and in disturbed habitat (inside elephant roaming areas). Vegetation structure in both areas was measured using several metrics, including leaf litter depth, understory vegetation density, animal disturbance and fallen log counts. Leaf litter and coleopteran abundance were higher outside the elephant roaming areas, whereas understory visibility, animal disturbance and dipteran diversity were much higher inside the elephant areas. Species composition of several arthropod taxa (e.g. Hymenoptera, Coleoptera, Diptera, Hemiptera and Araneae) was also influenced by degree of disturbance, whereas akalat abundance was inversely related to understory visibility. Our results suggest that differences in species sensitivity to habitat disturbance and vegetation structure across trophic levels should be incorporated into the management and conservation of rare and endangered species.