地面节肢动物营养类群对土地覆被变化和管理扰动的响应

近几十年来,黑河中游荒漠绿洲过渡带大面积天然沙质草地被转变为农田和防风固沙人工林,然而目前尚缺乏土地利用/覆被变化和管理措施对地面节肢动物多样性形成和维持影响的系统研究。以天然沙质草地转变为的人工梭梭灌木林、人工杨树林、人工樟子松林和农田为研究对象,以天然草地为对照,通过对5种样地地面节肢动物群落的调查及非生物环境因子的测定,采用典范对应分析(CCA)等方法,系统探讨了土地覆被和管理强度(天然草地和人工梭梭林实施零管理、杨树和樟子松人工林实施灌溉管理、农田实施灌溉和施肥管理)变化对地面节肢动物营养类群组成、数量和物种丰富度的影响。主要结果是:(1) 在干旱环境下,单纯改变土地覆被并不会导致土壤环境的显著变化,而高强度的管理扰动加速了土壤环境的演变过程。(2)不同土地覆被和管理措施对营养类群组成及其数量和丰富度的调控作用不同,将天然草地转变为杨树和樟子松人工林和农田后,显著提高了捕食性和植食性类群的比例,降低了'腐食性+杂食性’类群的比例;转变为人工梭梭林后显著降低了3种营养类群的数量;转变为人工杨树林后显著降低了'腐食性+杂食性’类群数量;转变为人工樟子松林后显著增加了植食性类群数量而降低了其它类群的数量;转变为农田后显著增加了植食性类群数量而降低了'腐食性+杂食性’类群数量。(3)影响捕食性动物分布的关键环境因子是地面温度、土壤硝态氮和田间持水量,影响植食性动物分布的关键因子是土壤粘粉粒、土壤硝态氮、土壤容重和pH值,影响'腐食性+杂食性’动物分布的关键因子是地面温度和田间持水量。主要结论是:土地覆被变化与管理措施相互作用对地面节肢动物群落组装过程及其多样性形成具有重要调控作用,尽管其相对重要性不同。     

三峡库区兰陵溪流域土壤有机碳的垂直分布

土壤是陆地生态系统中最大的有机碳库,土壤有机碳(SOC)储量与深度分布模式受土地利用方式的影响,SOC储量与深度分布模式对全球气候变化有着重要意义。本文利用三峡库区典型流域SOC深度分布数据库,分析SOC的深度分布模式及其影响因素。结果表明:土地利用方式显著影响SOC的深度分布,0~20 cm土层内,林地、草地、灌木地和农地等4类土地利用方式,SOC密度平均为8.47、5.90、4.65和2.64 kg·m-2,差异极显著(P0.001);0~100 cm层为12.14、10.24、9.15和7.29 kg·m-2,差异显著(P0.05);林地、草地,灌木地、农地中,0~20 cm层SOC密度分别占0~100 cm层的69.80%、57.6%、50.8%和36.2%;SOC密度随深度的增加而迅速下降,其中林地下降速度最快,SOC深度分布相对较浅,草地和灌木地下降较慢,SOC分布相对较深;土地利用方式和海拔对表层(0~20 cm)SOC密度影响显著,对深层(40 cm)影响不显著;土壤机械组成对表层(0~20cm)SOC密度影响显著,对深层(40 cm)SOC密度影响更为显著;用0~100 cm层碳密度来描述区域SOC储量时,估计值偏低。若考虑0~150 cm层的SOC储量,研究流域SOC密度值将增加6.2%~16.5%。     

松嫩草原不同演替阶段大型土壤动物功能类群特征

大型土壤动物处于整个土壤食物网的最顶端,其各功能类群控制着其他动物所需资源的有效性,是土壤生态系统的重要组成部分。为了查明松嫩草原大型土壤动物的功能类群特征,在2006年5—10月期间,逐月对松嫩草原羊草、羊草+虎尾草、虎尾草、碱茅、碱蓬和光碱斑6个演替阶段大型土壤动物的功能类群组成、结构、多样性等特征进行研究。依据其食性将该区土壤动物划分为杂食性、植食性、捕食性和腐食性4个功能类群其中,杂食性土壤动物个体密度所占比例最多为39.16%,植食性土壤动物的类群数所占比例最多为50.00%,腐食性土壤动物个体密度和类群数所占比例均最小,分别为8.09%和12.82%。各功能类群土壤动物个体密度和类群数的相关性不显著(P0.05)。从水平结构来看,总体上各功能类群土壤动物在羊草群落和羊草+虎尾草群落个体密度和类群数较多,在无植被的光碱斑生境土壤动物的个体密度和类群数较少,植食性土壤动物的个体密度和类群数、杂食性土壤动物个体密度、腐食性土壤动物个体密度和类群数随着群落演替发生显著的变化(P0.01)。植食性和腐食性土壤动物个体密度和类群数相关性显著(P0.05)。垂直结构上,0—10 cm土层和20—30 cm土层除捕食性土壤动物个体密度以外,其它各功能类群土壤动物个体密度随着群落演替发生显著的变化(P0.05或P0.01);10—20 cm土层,除腐食性土壤动物个体密度以外,其它各功能类群土壤动物个体密度随着群落演替发生显著的变化(P0.05或P0.01)。0—10cm土层,植食性和杂食性土壤动物个体密度(P0.05)相关性显著;10—20 cm土层,植食性和腐食性土壤动物个体密度(P0.05)相关性显著。不同演替阶段对各功能类群土壤动物的多样性影响程度有所不同。4种功能类群土壤动物在羊草群落和光碱斑之间相似性指数较低,个体数量组成在演替初期的羊草群落和演替后期的光碱斑差异比较大。以上研究结果表明,松嫩草原不同退化演替阶段能够降低大型土壤动物功能类群组成和结构复杂性。     

喀斯特小流域栓皮栎林土壤螨类群落结构特征

为比较石漠化环境与喀斯特森林土壤螨类的群落结构差异,对贵州喀斯特地区朝营小流域栓皮栎林的土壤螨类群落结构本底进行了研究,经2014年各季节的4次调查,共发现土壤螨类3目54科83属.对螨类属数、个体数量、个体密度、Shannon多样性指数(H)、Margalef丰富度指数(SR)、Pielou均匀性指数(J)、捕食性螨类成熟度指数(MI)、甲螨MGP类群和甲螨营养结构等进行了分析.结果表明:土壤螨类在类群属数和个体数量上均以甲螨亚目的属占优势,夏季和秋季具有丰富的属数、较高的个体密度与多样性,春季和秋季具有丰富的个体数量,群落分布具有明显的表聚性.捕食性螨类夏季生态类群以K选择型为主,其他季节以r选择型为主;甲螨生态类群主要为P型和O型,缝甲螨属、异珠足甲螨属和合若甲螨属等属构成了栓皮栎林土壤螨类的营养功能集团.研究表明,该区山毛榉林与其他地区山毛榉林、其他不同类型森林的土壤螨类主要类群存在差异,其中含丰富属组成的派伦螨科、厉螨科、奥甲螨科和单翼甲螨科以及多奥甲螨属、派伦满属、菌甲螨属和单翼甲螨属等数量上占优势的类群属可作为山毛榉林土壤环境的生物指示.     

青藏高原不同牧草人工草地对土壤线虫群落的影响

为缓解草蓄矛盾,青藏高原人工草地得到快速发展。土壤线虫对环境变化敏感,是草地生态系统的重要组成部分。然而,不同牧草人工草地对土壤线虫群落的影响尚不明确。2016年7月,对多年生禾本科(垂穗披碱草Elymus nutans Griseb.、老芒麦Elymus sibiricus L.、早熟禾Poa annua L.和羊茅Festuca ovina L.)、一年生禾本科燕麦Avena sativa L.和多年生豆科紫花苜蓿Medicago sativa L.等6种单播牧草人工草地(建植期4年)和天然草地(对照)的土壤线虫群落进行了调查。结果表明：(1)土壤线虫隶属于2纲8目32科58属,平均密度为1754个/100 g干土;紫花苜蓿样地的线虫密度最低,为949个/100 g干土;燕麦样地最高,为3267个/100 g干土;(2)与天然草地相比,燕麦样地的线虫群落总密度、多样性以及植食性和杂食-捕食性线虫密度显著增加,而其他人工草地的线虫群落密度、多样性以及植食性、食真菌和食细菌线虫密度均无显著变化;(3)土壤线虫总密度以及各营养类群密度在不同人工草地间差异显著,且均在燕麦样地最高;(4)建...     

乌兰布和沙漠东北部沙区人工林土壤微生物及酶活性研究

以荒漠为对照,对乌兰布和沙漠东北部沙区9种人工林0～20 cm和20～40 cm土层的3大类微生物(细菌、放线菌和真菌)及4种酶活性(蔗糖酶、脲酶、过氧化氢和碱性磷酸酶)的生态分布特征进行了研究.结果表明:(1)各林地三大菌数量级均表现为细菌(106)＞放线菌(105)＞真菌(103);在0～40 cm垂直剖面内,细菌数在柠条、沙枣和沙棘林地中较多,两白杨林地中放线菌数量最多,真菌数在花棒和柠条林地中较多,微生物总数整体表现为灌木林地多于乔木林地;随土层加深各林地土壤微生物总数量均呈明显减少趋势.(2)在0～40 cm土层中,两白杨林地蔗糖酶活性最高,小美旱林地脲酶活性和过氧化氢酶活性均较高,沙棘和沙枣林地碱性磷酸酶活性较高;土壤酶活性具有明显垂直分异特征,除过氧化氢酶外其余几种酶活性均随土层深度增加而递减,其中脲酶活性降幅最大.(3)4种土壤酶活性间整体正相关性较好,土壤放线菌数量与其蔗糖酶、脲酶和过氧化氢酶活性呈显著正相关.可见,人工乔、灌林地的土壤微生物数量比荒漠地增加,酶活性增强,土壤生物学性质得到改善;不同林地土壤微生物组成、数量、分布和土壤酶活性存在差异.     

哀牢山不同类型亚热带森林地表凋落物及土壤节肢动物群落特征

分别于2005年4月（干热季）、6月（雨季）和12月（干热季）,采用样线法对哀牢山中山湿性常绿阔叶林、山顶苔藓矮林和滇山杨次生林地表凋落物及其中的土壤节肢动物群落进行了调查.结果表明： 凋落物现存总量、C储量和C/N在干、湿季均表现为苔藓矮林＞滇山杨林＞常绿阔叶林,N储量差异不大.蜱螨目和弹尾目是3林地凋落物层节肢动物群落的优势类群,双翅目幼虫、鞘翅目、蚁类和同翅目为常见类群,3林地凋落物层土壤节肢动物群落相似性系数极高.3林地凋落物层土壤节肢动物群落密度(ind·m^-2)没有显著差异,但相对密度(ind·g^-1)呈现出常绿阔叶林和滇山杨林显著高于苔藓矮林;土壤节肢动物密度季节变化呈现干季（4月和12月）显著高于雨季（6月）,群落香农多样性指数差异不显著.干热季(4月)3林地枯枝落叶现存量与其土壤节肢动物群落和主要类群密度呈显著正相关关系,而在干冷季(12月)凋落物总现存量与其土壤节肢动物群落及蜱螨目相对密度则呈显著负相关关系;弹尾目和鞘翅目密度与地表凋落物层的N储量也有显著的正相关关系.哀牢山亚热带森林凋落物及其土壤节肢动物群落的发展与森林植被结构密切相关, 其群落个体数量和多样性受森林地表凋落物的调控, 但林内其他环境因素如温湿度对森林凋落物层土壤动物个体数的季节变动也有明显影响.     

黄土高原羊圈沟小流域土地利用时空变化的土壤有机碳效应

土地利用变化是影响土壤有机碳储量和分布变化的重要驱动因素,为进一步探讨土地利用变化对土壤有机碳的影响,根据土壤样点数据、土地利用类型图,分析了黄土丘陵沟壑区羊圈沟小流域2006—2011年土地利用变化及其对表层土壤有机碳密度和储量的影响,主要结论如下:(1)小流域土地利用发生较大变化,主要集中在乔木林地和灌木林地面积的增加,分别为39.697、46.404 hm2;以及草地面积的减少,为64.030 hm2;(2)土地利用方式的变化会导致土壤有机碳密度及储量的变化,其中转变用地类型的土壤有机碳储量增加587.25 kg,以荒草地转出类型增加的土壤表层有机碳储量最多,为441.64 kg;灌木林地转出类型减少的土壤表层有机碳储量最多,为-21.01 kg。草地-灌木林地、草地-乔木林地、坡耕地-草地、坡耕地-灌木林地、坡耕地-乔木林地、坡耕地-坝地、梯田-草地、梯田-灌木林地、梯田-乔木林地、梯田-坝地、坝地-草地、坝地-灌木林地、坝地-乔木林地等转换用地类型的表层土壤碳密度增加值高于保持用地类型碳密度的增加值,说明这些地类的转换有利于表层土壤有机碳储量的增加,即有利于表层土壤碳汇的形成;而其他地类转换造成了表层土壤的碳排放,应该引起足够的重视;(3)土壤固碳应着眼于长期效应,频繁的土地利用类型转化可能会降低土壤碳截流效果,黄土丘陵区植被重建的长期利用和保持更有利于土壤有机碳的积累。     

干旱绿洲区枸杞林地面节肢动物功能群结构季节分布特征

为了解枸杞林地面节肢动物功能群结构季节分布特征,以宁夏绿洲枸杞林为研究对象,于2018年的春、夏、秋季节,采用陷阱诱捕法,调查了地面节肢动物功能群季节分布特征及其与环境因子之间的关系。结果显示:(1)枸杞林地面节肢动物功能群包括植食性、捕食性、腐食性和杂食性动物,个体数分别占6.31%、86.75%、2.01%和4.89%,其中以捕食性动物为主。(2)植食性地面节肢动物个体数和生物量表现为春季显著高于秋季,夏季居中;类群数表现为夏季显著高于秋季,春季居中。捕食性地面节肢动物生物量表现为夏季和秋季显著高于春季;个体数和类群数在不同季节间均无显著差异。腐食性地面节肢动物个体数、生物量和类群数在不同季节间均无显著差异。杂食性地面节肢动物个体数和类群数表现为春季显著高于夏季,秋季居中;生物量在不同季节间均无显著差异。(3)相关分析表明,捕食性地面节肢动物个体数与土壤含水量呈正相关关系,腐食性地面节肢动物个体数与土壤全磷呈正相关关系,杂食性地面节肢动物与土壤全氮呈正相关关系。但植食性地面节肢动物个体数则与土壤含水量呈负相关关系,杂食性地面节肢动物个体数与土壤温度和土壤全碳呈负相关关系。(4)pRDA分析表明,土壤含水量是影响地面节肢动物功能群结构季节分布的主要环境因子。结论:随着季节更替,宁夏干旱绿洲区枸杞林地面节肢动物的功能群组成差异较大,功能多样性差异较小。说明每个功能群的个体数和类群数对季节变化敏感,但功能多样性较稳定。     

内蒙古大青山灌木铁线莲根围丛枝菌根真菌群落季节动态研究

采用Illumina MiSeq测序技术研究了内蒙古大青山干旱阳坡灌木铁线莲(Clematis fruticosa)根围丛枝菌根真菌(arbuscular mycorrhizal fungi,AMF)群落的季节动态,并利用冗余分析(redundancy analysis,RDA)和Mantel test分析了土壤和植被因子与AMF之间的关系,为进一步探索灌木铁线莲-AMF共生体对不同季节环境变化的响应提供理论依据。结果表明:(1)灌木铁线莲根围AMF孢子密度不存在显著的季节性差异,根系侵染率和丛枝丰度从春季至秋季呈下降趋势。(2)3个季节共检测出163个AMF OTUs(operational taxonomic units),春季、夏季、秋季分别为116OTUs、76OTUs和70OTUs。(3)夏季和秋季的AMF丰富度(实测OTUs数和Chao1指数)以及多样性(Shannon-Wiener指数和Invsimpson指数)显著低于春季,但夏、秋季间无显著异。(4)主成分分析和PERMANOVA分析表明,夏季和秋季的AMF群落组成与春季存在显著差异,而AMF群落组成在夏季与秋季间差异不显著。(5)RDA分析表明,采样季节、植被盖度、植物多样性、土壤含水量和土壤有机质对AMF ShannonWiener指数、Invsimpson指数、Chao1指数和实测OTUs数均产生显著影响;Mantel test分析发现,采样季节是影响AMF群落组成和菌根侵染率的主导因子,但对孢子密度无显著影响,而土壤有机质是影响孢子密度的主导因子。     

Soil microarthropods respond differently to simulated drought in organic and conventional farming systems

In Central Europe, summer droughts are increasing in frequency which threatens production and biodiversity in agroecosystems. The potential of different farming systems to mitigate detrimental drought effects on soil animals is largely unknown. We investigated the effects of simulated drought on the abundance and community composition of soil microarthropods (Collembola and Oribatida and Meso‐, Pro‐, and Astigmata) in winter wheat fields under long‐term conventional and organic farming in the DOK trial, Switzerland. We simulated drought by excluding 65% of the ambient precipitation during the wheat‐growing season from March to June 2017. The abundance of Collembola and Oribatida declined more consistently in conventionally managed fields compared to organically managed fields under simulated drought. The abundance of Collembola as well as Meso‐, Pro‐ and Astigmata, but not the abundance of Oribatida, increased in deeper soil layers due to simulated drought, suggesting vertical migration as a drought avoidance strategy. The species composition of Oribatida communities, but not of Collembola communities, differed significantly between drought treatments and between farming systems. Soil carbon content was a major factor structuring Oribatida communities. Our results suggest that organic farming buffers negative effects of drought on soil microarthropods, presumably due to higher soil carbon content and associated higher soil moisture and improved soil structure. This potential of organic farming systems to mitigate consequences of future droughts on soil biodiversity is promising and needs further exploration across larger climatic and spatial scales and should be extended to other groups of soil biota.     

Grassland management intensification affects the soil fauna in a subtropical highland

The conversion of natural grasslands to cultivated pastures can have a significant impact on the composition and structure of soil macro- and mesofauna groups, compromising the resilience of these organisms and the ecosystem services they provide. We studied the responses of these groups to increasing levels of soil disturbance across a gradient of four land management practices: Natural grassland (NG), Improved-natural grassland (IG), Perennial-cultivated pasture (PP), and Annual-cultivated pasture (AP). The NG area had a higher abundance of macrofauna, greater dominance of certain groups, particularly Isoptera, and a lower abundance of mesofauna. On the other hand, the IG area had a higher abundance and diversity of macro- and mesofauna, with a lower dominance of specific groups. The PP area had a higher abundance of Coleoptera, Oligochaeta, and Hemiptera, whereas the AP area, despite soil disturbance, showed a higher abundance of mesofauna, particularly mites, Collembola, and Enchytraeidae, but lower diversity. Different grassland management practices have significantly altered the composition and structure of macro- and mesofauna groups, resulting in high dissimilarity between communities. We recommend IG as a more productive and sustainable alternative to the total replacement of natural vegetation (NG) with intensified converted pastures (PP and AP), as it maintains soil fauna diversity and ecosystem services.     

The soil food web of two beech forests (<Emphasis Type="Italic">Fagus sylvatica</Emphasis>) of contrasting humus type: stable isotope analysis of a macro- and a mesofauna-dominated community

The structure of the soil food web in two beech (Fagus sylvatica) forests, the Göttinger Wald and the Solling forest (Northern Germany), was investigated using variations in tissue ¹⁵N concentrations of animal species or taxa. The Göttinger Wald is located on a limestone plateau and characterized by mull humus with high macrofauna activity, particularly of Lumbricidae, Diplopoda and Isopoda. In contrast, the Solling forest is located on a sandstone mountain range and characterized by moder humus. The soil fauna of this forest is dominated by mesofauna, particularly by Collembola, Enchytraeidae and Oribatida. In June 1995 soil fauna was sampled using heat extraction. Three soil layers were analysed at each of the sites. ¹⁵N/¹⁴N ratios of bulk material increased strongly with soil depth in both forests. This also applied to the water-soluble fraction at the Göttinger Wald, but not at the Solling. Generally, the water-soluble fraction was more enriched in ¹⁵N than the bulk materials. For most animals studied ¹⁵N/¹⁴N ratios varied little with soil depth. In both forests soil animals could be classified either as saprophages, including microphytophages, or predators. On average, the δ¹⁵N of predatory taxa (Chilopoda, Araneida, Gamasina, Staphylinidae) exceeded that of saprophagous or microphytophagous taxa (Lumbricidae, Isopoda, Diplopoda, Collembola, Oribatida, Enchytraeidae) by 4.4 and 3.9‰ for the Göttinger Wald and the Solling, respectively. We assume that most of the saprophagous or microphytophagous taxa studied consist of primary and secondary decomposers and hypothesize that predators prey more on secondary than primary decomposers. Generally, average δ¹⁵N values differed little between saprophagous (Lumbricidae, Diplopoda, Isopoda) and microphytophagous taxa (Collembola, Oribatida). The variations in δ¹⁵N values of species within these taxa consistently exceeded the variation between them, indicating that the species of each of these taxa form a continuum from primary to secondary decomposers. Also, variations in δ¹⁵N values within predatory taxa in most cases exceeded that between taxa excluding top predators like Sorex. We conclude that using higher taxonomic units in soil food web analysis is problematic and in general not consistent with nature. Higher taxonomic units may only be useful for depicting very general trophic groupings such as predators or microbi-detritivores.     

Responses of belowground communities to large aboveground herbivores: Meta‐analysis reveals biome‐dependent patterns and critical research gaps

The importance of herbivore–plant and soil biota–plant interactions in terrestrial ecosystems is amply recognized, but the effects of aboveground herbivores on soil biota remain challenging to predict. To find global patterns in belowground responses to vertebrate herbivores, we performed a meta‐analysis of studies that had measured abundance or activity of soil organisms inside and outside field exclosures (areas that excluded herbivores). Responses were often controlled by climate, ecosystem type, and dominant herbivore identity. Soil microfauna and especially root‐feeding nematodes were negatively affected by herbivores in subarctic sites. In arid ecosystems, herbivore presence tended to reduce microbial biomass and nitrogen mineralization. Herbivores decreased soil respiration in subarctic ecosystems and increased it in temperate ecosystems, but had no net effect on microbial biomass or nitrogen mineralization in those ecosystems. Responses of soil fauna, microbial biomass, and nitrogen mineralization shifted from neutral to negative with increasing herbivore body size. Responses of animal decomposers tended to switch from negative to positive with increasing precipitation, but also differed among taxa, for instance Oribatida responded negatively to herbivores, whereas Collembola did not. Our findings imply that losses and gains of aboveground herbivores will interact with climate and land use changes, inducing functional shifts in soil communities. To conceptualize the mechanisms behind our findings and link them with previous theoretical frameworks, we propose two complementary approaches to predict soil biological responses to vertebrate herbivores, one focused on an herbivore body size gradient, and the other on a climate severity gradient. Major research gaps were revealed, with tropical biomes, protists, and soil macrofauna being especially overlooked.     

有机肥和植被去除管理对人工林土壤节肢动物多样性的影响

施用有机肥和林下抚育（植被去除）是人工林重要的管理措施;土壤节肢动物物种丰富,是土壤生态系统的重要组成成分,对环境变化敏感,可以作为森林管理的指示生物。人工林植被去除和施肥管理影响土壤性质、资源输入量及微生物多样性,从而影响土壤节肢动物多样性,但是相关研究还十分缺乏。以沿海地区杨树人工林为对象,研究了施用有机肥和林下植被去除对土壤节肢动物的数量和多样性的影响。结果表明,有机肥和植被去除管理对不同土壤层土壤节肢动物的数量和多样性指标影响不一致。有机肥增加0-10 cm深度土壤节肢动物总数量、蜱螨目数量,降低土壤节肢动物群落物种丰富度、均匀度和Shannon多样性指数;植被去除减少0-10 cm深度土壤节肢动物总数量和弹尾目数量,降低均匀度指数。两种处理对10-20 cm深度土壤节肢动物群落的数量和各多样性指标影响不显著。总体来说（0-20 cm）,有机肥处理土壤节肢动物的数量显著增加,优势类群前气门亚目（Prostigmata）的数量增长为对照的4倍,但是土壤节肢动物群落的均匀度和Shannon多样性指数显著降低,这可能是土壤节肢动物优势类群前气门亚目密度急剧增加,而物种丰富度没有变化所导致;此外,施用有机肥增加了土壤有机质、总氮、有效磷的含量,降低土壤pH值,并且与前气门亚目密度显著相关。林下植被去除没有影响0-20 cm深度土壤节肢动物的数量和各多样性指标。     

Impacts of 2 species of predatory Reduviidae on bagworms in oil palm plantations

Integrated pest management (IPM) is widely practiced in commercial oil palm agriculture. This management system is intended to minimize the number of attacks by pest insects such as bagworms on crops, as well as curb economic loss with less dependency on chemical pesticides. One practice in IPM is the use of biological control agents such as predatory insects. In this study, we assessed the response of predatory natural enemies to pest outbreak and water stress, and document the habitat associations of potential pest predators. The abundances of 2 predatory insect species, namely Sycanus dichotomus and Cosmolestes picticeps (Hemiptera: Reduviidae), were compared bagworm outbreak sites and nonoutbreak sites within oil palm plantations. We also examined habitat characteristics that influence the abundances of both predatory species. We found that the abundance of C. picticeps was significantly higher in bagworm outbreak sites than in nonoutbreak sites. There were no significant differences in the abundance of S. dichotomus among outbreak and non‐outbreak sites. Both species responded negatively to water stress in oil palm plantations. Concerning the relationship between predatory insect abundance and in situ habitat quality characteristics, our models explained 46.36% of variation for C. picticeps and 23.17% of variation for S. dichotomus. Both species of predatory insects thrived from the planting of multiple beneficial plants in oil palm plantations. The results suggest that C. picticeps can be used as a biological agent to control bagworm populations in oil palm plantations, but S. dichotomus has no or little potential for such ecosystem service.     

Classification and ordination of communities of soil arthropods in an urban park of Osaka City

To assess the effect of management of a park on soil arthropods, communities of Oribatida and Collembola were analyzed at 11 sites of different vegetation in Tsurumi Park, an urban park of Osaka City. The type of canopy layer and soil density strongly affected the community parameters, such as species diversity. Ordination revealed that soil density, contents of organic matter, and shrub layer were important for variety in the oribatid community; the shrub layer was important for the collembolan community. Species richness of both arthropod groups was highest in a mixed forest and lowest on bare land, while the abundance of Collembola was highest on a lawn site. Areas of a common vegetation type had a similar oribatid community;Trichogalumma nipponica dominated in deciduous forests,Eohypochthonius crassisetiger in mixed forests and one of coniferous forests. On the other hand, collembolan communities did not correspond with the vegetation.Sminthurinus sp. was collected from every site, and the most abundant species wasCryptopygus thermophilus that exhibited an outbreak on lawn sites. A significant correlation existed between species diversities but not between abundances of Oribatida and Collembola.     

三江平原土壤动物群落多样性对CO2浓度升高的响应

为研究大气CO₂浓度升高条件下土壤动物的响应, 本文采用开顶式气室(OTC)控制大气CO₂浓度, 设置了3个梯度, 分别为低浓度370 ppm背景CO₂ (AC)、中浓度550 ppm CO₂ (EC1)和高浓度700 ppm CO₂ (EC2)。于2017年秋季取样并用改良Tullgren干漏斗法和Baermann湿漏斗分离土壤动物。结果表明: (1)共捕获土壤动物6,268头, 隶属于7纲15目, 优势类群为甲螨亚目, 占捕获量的88.13%; 常见类群为弹尾目和双翅目幼虫, 合计占捕获量的9%。不同CO₂浓度水平下, 优势类群(甲螨亚目)和常见类群(弹尾目、双翅目幼虫)相同, 但是稀有类群存在一定差异。(2) CO₂浓度升高显著增加了甲螨亚目的类群数和个体密度, 显著降低了弹尾目的类群数和个体密度, 对其他土壤动物无显著影响。(3)三江平原不同浓度条件下土壤动物的Shannon-Wiener多样性指数、Pielou均匀度指数均为AC > EC1 > EC2, 而优势度指数为EC2 > EC1 > AC, 丰富度指数为AC > EC2 > EC1。研究表明, 气候变化有可能影响土壤动物的群落结构以及土壤动物的多样性。     

秦岭西部山地次生林和人工林大型土壤动物群落结构特征

人类对次生林生态系统的长期扰动必然会对地下生态过程产生深刻影响,而土壤动物群落结构和功能多样性对地下生态过程的演变有重要的指示意义.本文以小陇山林区恢复近30年的次生林和栽植近30年的油松、日本落叶松、欧洲云杉和粗枝云杉林为对象,通过对5种林型土壤动物群落密度调查,采用PCA排序和方差分析等方法,探讨了不同林型土壤动物群落结构特征和营养结构.结果表明:油松林和日本落叶松林土壤动物群落密度是次生林的3.0和2.1倍;油松和日本落叶松人工林土壤动物群落中消费者/分解者比值明显高于次生林,油松林和日本落叶松林消费者/分解者的比值显著高于欧洲云杉林和粗枝云杉林;不同人工林土壤动物群落结构存在明显差异,油松林和日本落叶松林土壤动物群落密度是粗枝云杉林的4.5和3.1倍,而油松林土壤动物群落类群丰富度是欧洲云杉林和粗枝云杉林的1.5倍.