菜田节肢动物群落特征及其多样性恢复的研究

探讨了化学杀虫剂对菜田节肢动物群落结构和多样性的影响以及停止化学杀虫剂使用后多样性的恢复,结果表明化学杀虫剂对菜田节肢动物群落的物种组成,多样性指数及物种分布的均匀性等均有影响,菜田节肢动物群落结构变化同害虫类,捕食性天敌和蜘蛛类的特征变化关系密切,经常使用化学杀虫剂的菜田与停止使用后的菜田相比,物种数量显减少,多样性指数降低,停止化学杀虫剂使用后,优势害虫的种群趋势指数明显降低,大敌对主要害虫的控制作用增强,节肢动物多样性指数增大,因此,限制化学杀虫剂的使用,恢复由于化学杀虫剂的使用而破坏了菜田环境,增强天敌对主要害虫的控制能力,这在菜田害虫生态控制中起着重要的作用。     

化学杀虫剂对菜田节肢动物多样性的影响

分析了化学杀虫剂对菜田节肢动物结构组成、多样性变化等的影响,结果表明化学杀虫剂对菜田节肢动物的影响主要表现在物种组成、多样性指数及物种分布的均匀性等方面,尤其是对害虫类、捕食性天敌和蜘蛛类的影响尤为明显。停止化学杀虫剂使用后,菜田优势害虫种群趋势指数降低,天敌的控制作用明显增强,节肢动物多样性指数增大。因此,限制和停止化学杀虫剂的使用,恢复由于杀虫剂使用而破坏了的菜田环境,逐步增强天敌对优势害虫的控制能力,这在菜田害虫生态控制中具有重要作用。     

棉花苗期棉蚜的二项式抽样设计及其精度分析

基于棉花苗期棉蚜（Ａｐｈｉｓ ｇｏｓｓｙｐｉｉ）的２４组调查数据,利用每样方虫口不超过数阈值Ｔ（为０,１,２,…,９,１０,１５,２０,３０）头蚜虫的植株比例（ＰＴ）与种群密度（ｍ,头／株）的关系,拟合经验关系式１ｎ（ｍ）＝α＋ｂ１ｎ〔－１ｎ（ＰＴ）〕设计二项式抽样。通过对不同数阈值Ｔ的决定系数（ｒ＾２）、估计方差（Ｖａｒ（ｍ））和抽样精度（ｄ估计）等进行综合分析,结果表明该蚜虫在数阈值Ｔ为１５时     

香蕉园节肢动物类群丰富度的调查方法初步研究

通过调查研究,建立了香蕉园和粉蕉园节肢动物类群物种数与抽样数的关系模型,给出了进行物种数调查时最佳抽样数为31株.不同抽样方式调查的节肢动物类群物种数的比较结果表明除单行取样外的各种取样方式均可采用.     

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.     

烟地节肢动物群落研究

本文根据田间系统调查所获材料对烟地节肢动物群落的动态进行分析。已鉴定出的种类分属于昆虫、蜘蛛、螨类及多足纲等类群共７９种。其中植食性昆虫以蚜虫为优势种·捕食性天敌以蜘蛛类群的拟环纹狼蛛、拟水狼蛛、草间小黑蛛及食虫瘤胸蛛为优势种,寄生性无敌种类单一,以烟蚜茧蜂为主。在烟草的不同生育期,物种丰富度、多样性指数、均匀性指数及个体密度都有一定程度的差异,存在从烟苗期到成熟期上升的趋势。杀虫剂的使用与烟地节肢动物群落的结构与动态有较密切的关系。     

油松毛虫(Dendrolimus labulaeformis)幼虫抽样技术的研究

本文在测定油松毛虫幼虫静态格局和动态格局的条件下,全面而系统地进行了株抽样、轮抽样和“枝”抽样的研究。根据幼虫在各轮垂直分布的特征和喜食二年生针叶的特性,建立回归模型,从轮抽样发展到“枝”抽样,通过检验,预报精度在91—98％之间。轮抽样比株抽样平均提高效率6倍,“枝”抽样比轮抽样又平均提高1.5倍。如费用以每株0.20元计,轮抽样比株抽样每株平均减少0.16元,“枝”抽样每株又减少0.032元。     

群落结构特征参数对葡萄园节肢动物群落作用的比较

利用主成分分析法,对葡萄园节肢动物群落、植食类亚群落、捕食类亚群落的特征参数进行分析.结果表明,葡萄园节肢动物群落、植食类亚群落、捕食类亚群落特征向量矩阵中第1主分量综合指标贡献率依次为66.70%、73.39%和54.17%.节肢动物群落的总个体数N、Hill多样性指数N₁、Hill多样性指数N₂和McIntosh指数D_mc的标准回归系数绝对值较大,对群落贡献大;植食类亚群落的N、N₂、N₁和物种数S的标准回归系数绝对值较大,对植食类亚群落贡献大;捕食类亚群落的N₂、N₁、Shannon-Wiener多样性指数H'和丰富度R的标准回归系数绝对值较大,对捕食类亚群落贡献大.综合分析,多样性指数N₁和N₂对3种类型群落贡献较大.     

昆虫种群密度的二项抽样估计模型研究进展

昆虫种群密度的二项抽样估计模型主要有两类,一类是根据空间分布型理论演绎而来,另一类是根据样方中有虫样方比例或不大于某一阈值密度T头的样方比例与平均密度的经验关系拟合的．本文综述了这两类模型、模型的变异分析、模型的理论抽样数估计等方面的研究进展．     

色季拉山冬虫夏草适生地草甸地表节肢动物群落多样性

为了解冬虫夏草适生地地表节肢动物多样性水平,2009年和2010年连续采用陷阱法对色季拉山3类典型的冬虫夏草适生草甸(山坡草甸、林缘草甸和滩地草甸)进行了调查。物种累积曲线和种积丰度估值反映,采集抽样充分。标本由14目、62科、114种组成,3类生境的类群组成相似,但数量分布明显不同,山坡草甸、林缘草甸和滩地草甸的优势类群分别为拟步甲科、蚁科和鳞科。通过各生物多样性指数和物种-相对多度分布模型比较可知,滩地草甸的多样性、丰富度和均匀度均低于另外两种生境。分析推测,冬虫夏草适生地地表节肢动物多样性与微生境的热量条件和人为干扰紧密相关。     

Temporal dynamics in non-additive responses of arthropods to host-plant genotypic diversity

Genotypic diversity within host‐plant populations has been linked to the diversity of associated arthropod communities, but the temporal dynamics of this relationship, along with the underlying mechanisms, are not well understood. In this study, we employed a common garden experiment that manipulated the number of genotypes within patches of Solidago altissima, tall goldenrod, to contain 1, 3, 6 or 12 genotypes m^?2 and measured both host‐plant and arthropod responses to genotypic diversity throughout an entire growing season. Despite substantial phenological changes in host plants and in the composition of the arthropod community, we detected consistent positive responses of arthropod diversity to host‐plant genotypic diversity throughout all but the end of the growing season. Arthropod richness and abundance increased with genotypic diversity by up to～65%. Furthermore, arthropod responses were non‐additive for most of the growing season, with up to 52% more species occurring in mixtures than the number predicted by summing the number of arthropods associated with component genotypes in monoculture. Non‐additive arthropod responses were likely driven by concurrent non‐additive increases in host‐plant aboveground biomass. Qualitative differences among host‐plant genotypes were also important early in the season, when specialist herbivores dominated the arthropod community. Neither arthropod diversity nor flower number was associated with genotypic diversity at the end of the growing season, when generalist floral‐associated herbivores dominated. Taken together, these results show that focusing on the temporal dynamics in the quantity and quality of co‐occurring host‐plant genotypes and associated community composition can help uncover the mechanisms that link intraspecific host‐plant diversity to the structure of arthropod communities. Furthermore, consistent non‐additive effects in genotypically diverse plots may limit the predictability of the arthropod community based solely on the genetic make‐up of a host‐plant patch.     

Accurate determination of vegetational change in meadows by successive point quadrat analysis

The point quadrat method can be used for determination of vegetational change in meadows of great species diversity. An appropriate sampling technique is described comprehending an apparatus of high rigidity and a shelter to keep off wind and rain. Sample size related to sampling time expense affects the number of species recorded and methodical error which is empirically determined by repetitive sampling. A setup of fixed points leads to higher accuracy than random sampling. When methodical error is quantitatively known, significant vegetational change can be detected by sampling at successive times.For fluctuation studies of plant populations in meadows the point quadrat technique should be preferred to visual estimates of plant cover because of its higher accuracy.Abbreviations f= frequency - s= standard deviation - Sr= variation coefficient - DWLS= distance weighted least squares     

不同取样强度下古田山木本植物幼苗组成 及其分布格局比较

幼苗阶段是森林群落更新的瓶颈, 研究木本植物幼苗组成和分布格局对正确认识森林群落构建以及多样性维持机制具有十分重要的意义。以往基于幼苗阶段的研究取样强度较小, 主要涉及常见种, 缺乏对稀有种的有效监测。我们对古田山24 ha森林样地幼苗监测网络进行了扩建, 在已有507个1 m × 1 m幼苗监测样方的基础上, 增设了285个5 m × 5 m幼苗样方, 对样方内所有高度≥ 10 cm且胸径< 1 cm的木本植物幼苗按大样地监测标准进行了定位、挂牌、鉴定和测量。本研究利用2012年5 m × 5 m幼苗监测样方的首次调查数据, 比较了24 ha大样地中不同取样强度下幼苗和非幼苗(胸径≥ 1 cm的木本植物)个体在物种组成、多样性分布格局以及生境偏好等方面的差异。结果表明: (1) 285个5 m × 5 m幼苗监测样方共计有木本植物幼苗138种20,581株, Shannon-Wiener多样性指数以及经多度校正的物种丰富度指数均显著高于1 m × 1 m幼苗监测样方以及24 ha大样地的非幼苗个体, 该结果与基于Rarefaction方法计算的物种数期望值结果一致; 与1 m × 1 m幼苗监测样方结果相比, 5 m × 5 m幼苗监测样方内物种数-取样面积曲线趋于饱和。(2) 5 m × 5 m幼苗监测样方幼苗与24 ha大样地非幼苗个体物种多度呈异速增长关系, 表明植物在幼苗阶段受到负密度制约效应的影响, 死亡率相对较高。(3)取样强度和胸径阈值的选取对群落稀有种的界定有重要影响, 朱砂根(Ardisia crenata)、山鸡椒(Litsea cubeba)、美丽胡枝子(Lespedeza thunbergii subsp. formosa)等物种在24 ha样地水平被认为是稀有种, 但是在5 m × 5 m幼苗样方却属于常见种。(4)指示种分析结果表明, 基于不同取样强度的幼苗生境指示种与基于大样地非幼苗个体的分析结果存在较大差异。在5 m × 5 m幼苗样方中, 13个物种与单一生境类型显著相关, 其中仅有3个物种与1 m × 1 m幼苗样方指示种相同, 与24 ha大样地非幼苗相比, 仅有2个共有指示种。总之, 不同取样强度可显著影响幼苗物种多样性格局的分析结果, 通过样方扩建对林下幼苗进行系统监测, 可进一步加深对群落生物多样性维持机制的认识。     

番茄根际微生物种群动态变化及多样性

采用盆栽试验的方法对番茄根际主要微生物种群在不同生育期的动态变化进行了跟踪研究.结果表明,在番茄整个生育期内,可培养细菌数量在初花期和初果期时最多;放线菌数量从苗期到末期逐渐减少;真菌数量逐渐增多.番茄对细菌根际效应明显.DGGE图谱显示不同生育期番茄根际均具有较高的细菌多样性.根际细菌种类和数量在初花期发生较为显著的变化,初果期根际群落多样性指数(H)和物种丰度(S)值都达到最高,微生物最丰富,是筛选拮抗菌的较好时期.     

Different portions of the maize root system host Burkholderia cepacia populations with different degrees of genetic polymorphism

In order to acquire a better understanding of the spatial and temporal variations of genetic diversity of Burkholderia cepacia populations in the rhizosphere of Zea mays , 161 strains were isolated from three portions of the maize root system at different soil depths and at three distinct plant growth stages. The genetic diversity among B. cepacia isolates was analysed by means of the random amplified polymorphic DNA (RAPD) technique. A number of diversity indices (richness, Shannon diversity, evenness and mean genetic distance) were calculated for each bacterial population isolated from the different root system portions. Moreover, the analysis of molecular variance ( amova ) method was applied to estimate the genetic differences among the various bacterial populations. Our results showed that, in young plants, B. cepacia colonized preferentially the upper part of the root system, whereas in mature plants, B. cepacia was mostly recovered from the terminal part of the root system. This uneven distribution of B. cepacia cells among different root system portions partially reflected marked genetic differences among the B. cepacia populations isolated along maize roots on three distinct sampling occasions. In fact, all the diversity indices calculated indicated that genetic diversity increased during plant development and that the highest diversity values were found in mature maize plants, in particular in the middle and terminal portions of the root system. Moreover, the analysis of RAPD patterns by means of the amova method revealed highly significant divergences in the degree of genetic polymorphism among the various B. cepacia populations.     

东灵山辽东栎林木本植物种间联结取样技术的研究

 在样地面积固定条件下,采用样方设计和样带设计,探讨了样方数目与面积之间的关系,以及样方数目与面积的变化对种间联结的影响。结果表明：正负关联比、平均物种出现率、多物种间X2值、物种对间X2值与显著率以及物种间联结系数的变化范围均可作为确定样方数目与面积的参数。在实际分析中应当综合考虑这些参数,进而选择最佳样方数目及面积进行种间联结分析。在样地总面积均为1 200 m2条件下,样带设计在各项指标上规律性比较明显,样方数为50,面积为25 m2最为合适;样方设计的各项参数稍差一些,需要进一步增加样方总面积才能得到更合适的样方数。分别按选定的最适样方数进行物种对联结性分析,对比分析结果显示样带设计对联结性和关联程度的检测效果好于样方设计,它的研究结果更与实际情况相符合。因此,在总样地面积有限的情况下,样带设计是进行种间联结分析的较好选择。     

Experimental tests of the dependence of arthropod diversity on plant diversity

ABSTRACT Because a diversity of resources should support a diversity of consumers, most models predict that increasing plant diversity increases animal diversity. We report results of a direct experimental test of the dependence of animal diversity on plant diversity. We sampled arthropods in a well-replicated grassland experiment in which plant species richness and plant functional richness were directly manipulated. In simple regressions, both the number of species planted ([Formula: see text] transformed) and the number of functional groups planted significantly increased arthropod species richness but not arthropod abundance. However, the number of species planted was the only significant predictor of arthropod species richness when both predictor variables were included in ANOVAs or a MANOVA. Although highly significant, arthropod species richness regressions had low [Formula: see text] values, high intercepts (24 arthropod species in monocultures), and shallow slopes. Analyses of relations among plants and arthropod trophic groups indicated that herbivore diversity was influenced by plant, parasite, and predator diversity. Furthermore, herbivore diversity was more strongly correlated with parasite and predator diversity than with plant diversity. Together with regression results, this suggests that, although increasing plant diversity significantly increased arthropod diversity, local herbivore diversity is also maintained by, and in turn maintains, a diversity of parasites and predators.     

Conservation of arthropod diversity in montane wetlands: effect of altitude, habitat quality and habitat fragmentation on butterflies and grasshoppers

1. The patterns of arthropod diversity were investigated in 24 montane wetlands in Switzerland. These differed in altitude, management regime (cattle-grazing vs. mowing), vegetation structure (index combining vegetation height and density) and degree of habitat fragmentation.
2. The general arthropod diversity was determined by net sampling at 10 sampling points per site. The diversity of grasshoppers and butterflies was measured by counting species richness at the site and species density (species richness per unit area) on transects. The species richness of grasshoppers and butterflies was found to be more sensitive to the geographical attributes of the site whereas species density was more affected by the habitat quality.
3. Grasshopper diversity decreased within the observed altitudinal range (800–1400 m) and was higher at grazed sites, whereas butterfly diversity was higher at mown sites. Arthropod diversity but not abundance of arthropods was positively related to the vegetation structure.
4. The species richness of butterflies was negatively influenced by the degree of habitat fragmentation: both the size of habitat as well as the area of wetland habitats within 4 km were related positively to the number of specialist wetland butterflies.
5. Late mowing as well as low-density cattle-grazing are appropriate management actions to maintain arthropod diversity in montane wetlands. In order to establish site-specific management plans, the biology of the present target species as well as the historical context should be considered.
6. We suggest that the best protection for the species examined in this study would be a network of wetland sites managed using a variety of traditional, non-intensive methods. This can only be achieved by coordinated planning of conservation measures among sites.     

Scale specific determinants of tree diversity in an old growth temperate forest in China

The major processes generating pattern in plant community composition depend upon the spatial scale and resolution of observation, therefore understanding the role played by spatial scale on species patterns is of major concern. In this study, we investigate how well environmental (topography and soil variables) and spatial variables explain variation in species composition in a 25-ha temperate forest in northeastern China. We used new variation partitioning approaches to discover the spatial scale (using multi-scale spatial PCNM variables) at which environmental heterogeneity and other spatially structured processes influence tree community composition. We also test the effect of changing grain of the study (i.e. quadrat size) on the variation partitioning results. Our results indicate that (1) species composition in the Changbai mixed broadleaf-conifer forest was controlled mainly by spatially structured soil variation at broad scales, while at finer scales most of the explained variation was of a spatial nature, pointing to the importance of biotic processes. (2) These results held at all sampling grains. However, reducing quadrat size progressively reduced both spatially and environmentally explained variance. This probably partly reflects increasing stochasticity in species abundances, and the smaller proportion of quadrats occupied by each species, when quadrat size is reduced. The results suggest that environmental heterogeneity (i.e. niche processes) and other biotic processes such as dispersal work together, but at different spatial scales, to build up diversity patterns.     

Intraspecific chemical diversity among neighbouring plants correlates positively with plant size and herbivore load but negatively with herbivore damage

Intraspecific plant diversity can modify the properties of associated arthropod communities and plant fitness. However, it is not well understood which plant traits determine these ecological effects. We explored the effect of intraspecific chemical diversity among neighbouring plants on the associated invertebrate community and plant traits. In a common garden experiment, intraspecific diversity among neighbouring plants was manipulated using three plant populations of wild cabbage that differ in foliar glucosinolates. Plants were larger, harboured more herbivores, but were less damaged when plant diversity was increased. Glucosinolate concentration differentially correlated with generalist and specialist herbivore abundance. Glucosinolate composition correlated with plant damage, while in polycultures, variation in glucosinolate concentrations among neighbouring plants correlated positively with herbivore diversity and negatively with plant damage levels. The results suggest that intraspecific variation in secondary chemistry among neighbouring plants is important in determining the structure of the associated insect community and positively affects plant performance.