Herbicides have negligible effects on ants and springtails in an Australian wheat field

The effects of herbicides applied to a direct drilled and traditionally tilled wheat field on trap catches of the abundant Collembola and Formicidae were examined. Significantly higher abundances of Collembola and species richness of ants were found on the direct-drilled plots. A significant effect of the herbicides, bromoxynil (C₇H₃Br₂NO) and hoegrass (diclofop-methyl), on the activity of two of the fourteen species of surface-dwelling Collembola was detected but no effect was observed on surface-active Formicidae. Jeannenotia stachi numbers were significantly more reduced on the direct-drilled compared to the traditionally tilled plot after herbicide treatment possibly because of higher predator abundance on the latter. In the short term, herbicides have a minimal effect on most species of surface-active arthropods although Collembola were more adversely affected than Formicidae.     

Effects of altered precipitation and wolf spiders on the density and activity of forest-floor Collembola

A 2×2 factorial field experiment was conducted in a deciduous forest to determine how changes in moisture and numbers of a common wolf spider, Schizocosa, affect Collembola abundance and activity. Each of four 4-m² fenced, roofed plots was divided into eight 0.5-m² fenced subplots, and each subplot was assigned a rainfall treatment (drought or high-rainfall) and a Schizocosa treatment (Schizocosa-removal or Schizocosa-addition). Water was sprayed on the high-rainfall subplots weekly from 7 August to 1 October 2003 at a rate of roughly 2× the long-term mean, while the drought subplots received no water. In order to increase the probability of uncovering possible effects of Schizocosa, predatory arthropods (Schizocosa, other spiders, and centipedes) were first removed from all subplots; Schizocosa-addition subplots were then stocked with five juvenile Schizocosa on 19 August, with additional Schizocosa added throughout the experiment. An index of relative Collembola activity was calculated by comparing the number captured in pitfall traps (activity-density) with absolute density (no./m²) measured by extracting Collembola from litter samples. Decreased moisture reduced overall Collembola density, but led to increased Collembola activity. This response to rainfall was exhibited by the families Entomobryidae, Tomoceridae, and Hypogastruridae. The presence of Schizocosa had no impact on overall Collembola density, nor did spider presence affect Collembola activity, with the possible exception of the Hypogastruridae, for which there was an interaction between rainfall and Schizocosa presence. Hypogastrurid Collembola were more active in the drought subplots and exhibited the same level of activity in the presence or absence of Schizocosa under drought conditions. However, in the high-rainfall treatment, the presence of Schizocosa increased hypogastrurid activity.     

The effects of the insecticide chlorpyrifos on spider and Collembola communities

The effects of chlorpyrifos on aquatic systems are well documented. However, the consequences of the pesticide on soil food webs are poorly understood. In this field study, we hypothesised that the addition of a soil insecticide to an area of upland grassland would impact spider and Collembola communities by decreasing numbers of spiders, consequently, causing an increase in detritivore numbers and diversity.Chlorpyrifos was added to plots on an upland grassland in a randomised block design. Populations of Collembola and spiders were sampled by means of pitfall traps (activity density) and identified to species.Twelve species of Collembola were identified from the insecticide-treated and control plots. Species diversity, richness and evenness were all reduced in the chlorpyrifos plots, although the total number of Collembola increased ten-fold despite the abundance of some spider species being reduced. The dominant collembolan in the insecticide-treated plots was Ceratophysella denticulata, accounting for over 95% of the population.Forty-three species of spider were identified. There were a reduced number of spiders in insecticide-treated plots due mainly to a lower number of the linyphiid, Tiso vagans. However, there was no significant difference in spider diversity between the control and insecticide treatments.We discuss possible explanations for the increase in abundance of one collembolan species in response to chlorpyrifos and the consequences of this. The study emphasises the importance of understanding the effects of soil management practices on soil biodiversity, which is under increasing pressure from land development and food production. It also highlights the need for identification of soil invertebrates to an ‘appropriate’ taxonomic level for biodiversity estimates.     

Non-target effects of bacterial biological control agents on soil Protozoa

Biological control agents (BCAs) have gained increasing interest as an alternative to chemical pesticides in agriculture. Before widespread environmental use, risk assessment of effects on target and non-target organisms are needed. However, the knowledge about the effect of BCAs on non-target soil Protozoa is insufficient to support thorough risk assessment. In this study we report on the effects of Pseudomonas fluorescens DR54 that is a potential BCA active against root pathogenic fungi. We present evidence of negative effects of P. fluorescens DR54 on growth of the amoebae Hartmanella vermiformis and Acanthamoeba sp. cultures and natural assemblages of soil protozoans. The observed effects were larger than those of the P. fluorescens type strain DSM50090 and Enterobacter aerogenes SC and were tentatively attributed to viscosinamide, which is an antimicrobial compound with surfactant properties produced by P. fluorescens DR54.     

Effects of plant species on microbial biomass phosphorus and phosphatase activity in a range of grassland soils

Soil P transformations are primarily mediated by plant root and soil microbial activity. A short-term (40 weeks) glasshouse experiment with 15 grassland soils collected from around New Zealand was conducted to examine the impacts of ryegrass (Lolium perenne) and radiata pine (Pinus radiata) on soil microbial properties and microbiological processes involved in P dynamics. Results showed that the effect of plant species on soil microbial parameters varied greatly with soil type. Concentrations of microbial biomass C and soil respiration were significantly greater in six out of 15 soils under radiata pine compared with ryegrass, while there were no significant effects of plant species on these parameters in the remaining soils. However, microbial biomass P (MBP) was significantly lower in six soils under radiata pine, while there were no significant effects of plant species on MBP in the remaining soils. The latter indicated that P was released from the microbial biomass in response to greater P demand by radiata pine. Levels of water soluble organic C were significantly greater in most soils under radiata pine, compared with ryegrass, which suggested that greater root exudation might have occurred under radiata pine. Activities of acid and alkaline phosphatase and phosphodiesterase were generally lower in most soils under radiata pine, compared with ryegrass. The findings of this study indicate that root exudation plays an important role in increased soil microbial activities, solubility of organic P and mineralization of organic P in soils under radiata pine.     

Growth of the collembolan Folsomia candida Willem in soil supplemented with glucose

Freely available glucose improves the conditions for soil microorganisms which are utilized as food by Collembola. We examined the effects of glucose application on collembolan (Folsomia candida Willem) growth and on several biotic and abiotic soil parameters (microbial biomass, soil respiration, qCO₂, dissolved organic carbon, inorganic nitrogen, and Olson-P) in an artificial system without predatory pressure on Collembola. Glucose addition increased soil respiration and qCO₂, and decreased nutrient levels in the soil. Collembolan growth increased with increasing glucose doses. We conclude that the availability of carbon substrates can sustain collembolan growth via an improvement of microbial growth conditions.     

不同底栖生物扰动对沉积物渗透性的影响

[目的]探讨不同生物扰动对沉积物成分、粒径分布和渗透性的影响,为河流污染治理与潜流带修复提供科学依据。[方法]通过室内模拟沉积物中摇蚊幼虫(Chironomid larvae),颤蚓(Tubificid)和尖膀胱螺(Physa acuta)的生物扰动过程,研究不同底栖生物扰动对河流潜流带沉积物渗透系数的影响。[结果]混合生物组中,摇蚊幼虫和尖膀胱螺组合为渗透性能加强最大的一组。生物扰动作用通过改变沉积物的物理特性促使其结构疏松,孔隙增大,从而对沉积物颗粒粒径大小和分布区域产生明显干预作用,从而影响沉积物的渗透性。摇蚊幼虫对沉积物成分变化及粒径分布影响最大,使沉积物渗透性增强;颤蚓的淤塞作用主要发生在水-沉积物界面以下3~9cm,导致渗透性减弱;尖膀胱螺对沉积物粒径分布的影响不明显。[结论]在同一沉积物环境条件下,单一物种组中摇蚊幼虫和尖膀胱螺对沉积物的渗透性呈促进作用,摇蚊幼虫的促进效果比尖膀胱螺更显著,颤蚓对沉积物渗透性呈削弱作用。     

灰黄青霉对瓜列当的防效及对番茄根区土壤微生物的影响

根寄生杂草瓜列当（Orobanche aegyptiaca）严重危害番茄（Solanum lycopersicum）等多种经济作物的产量和品质。如何有效防除仍是当今瓜列当研究重点之一。真菌是列当的生防因子之一,但目前对农作物无致病性的列当生防真菌的研究尚少。本研究通过培养皿试验研究1株灰黄青霉（Penicillium griseofulvum,CF3）的无细胞发酵滤液对瓜列当种子萌发和发芽管生长的影响,通过盆栽试验研究CF3粉状制剂对瓜列当的防除效果及对寄主番茄生长和根区土壤微生物的影响。结果表明：1）培养皿试验中,CF3发酵液抑制了瓜列当种子萌发和发芽管生长。其中,在放有瓜列当种子与番茄幼苗的培养皿中,加入CF3发酵液后培养6 d,瓜列当种子的萌发均被完全抑制;添加CF3发酵液与霍格兰德营养液体积比为1∶2、1∶4、1∶6和1∶8的混合液培养8 d后,瓜列当种子的萌发率与对照相比分别减少80.26%、70.26%、68.10%和47.51%。CF3发酵液原液、10倍稀释液和100倍稀释液处理后使瓜列当发芽管长度与对照相比分别缩短100.00%、68.84%和19.24%。2）盆栽试验中,CF3菌剂抑制了瓜列当的出土和单株瓜列当的生长,并使番茄增产。施加1.0 g·kg^-1 CF3菌剂130 d后,瓜列当的出土数量、出土率和单株瓜列当干重分别降低76.19%、85.30%和28.48%,番茄果实鲜重增加51.57%。此外,灰黄青霉菌剂还调整了番茄根区土壤的微生物区系结构,使施加菌剂130 d后番茄根区土壤中除接入CF3外真菌数量与对照相比降低75.60%,细菌与真菌的数量之比增加117.57%。平均来看,CF3使番茄根区土壤中除CF3外真菌数量降低42.81%,放线菌总数增加84.15%。本研究表明,灰黄青霉CF3具有防除番茄上寄生瓜列当的能力,适宜作为瓜列当的生防真菌。     

Influence of microarthropod abundance and climatic factors on weight loss and mineral nutrient contents of Eucalyptus leaf litter during decomposition

Summary Densities of the different taxa of microarthropods per gram of litter in litter bags varied widely from the rainy to the dry season. Collembola and Acarina constituted more than 86% of the total microarthropods, and occurred in significantly greater numbers in the coarse-mesh bags than the fine-mesh bags. There were no fauna in the litter of suspended bags. The average weight loss was greater in the coarse-mesh bags (50.4%) than in the fine-mesh bags (44.5%), and the suspended bags (7.4%). Similarly, the concentrations of N and Ca were greater in the litter of coarse-mesh bags compared to that of the fine-mesh bags. In contrast, the concentrations of P and K were comparatively lower in coarse-mesh bags. The mass loss of litter showed a negative linear correlation with the total Collembola and with litter temperature. The N concentrations in the litter in both the mesh bags showed negative correlations with the abundance of total Collembola, and with that of Lepidocyrtus sp. and Sminthuridae, and rainfall. The N concentration in the litter in the coarse-mesh bags was positively correlated with the total number of arthropods but, surprisingly, was negatively correlated with the total number of Acarina. The concentration of Ca showed negative correlations with rainfall and litter moisture only. The P concentration showed positive correlations with total Collembola, with Lepidocyrtus sp. and Sminthuridae in both the mesh bags, with rainfall in the fine-mesh bags, and with total microarthropods in the coarse-mesh bags.     

Survival and feeding activity of Protaphorura armata in different composts

Effects of compost products, enriched or not-enriched with a strain of the mycoparasitic fungus Trichoderma atroviride, on the survival of the collembolan Protaphorura armata and the viability of fungal conidia after the transit through the springtail gut were investigated. The effect of compost enriched with Ca-Lignosulphonate (Ca-Ls), a low cost by-product of the acid sulphite pulping process, with lignin-like structure, on P. armata was also evaluated. All compost products enriched or not with the mycoparasitic fungus or Ca-Ls did not affect P. armata survival. No statistical differences were found in animal survival for different types of product or in enriched and not-enriched products. In addition to adults, live juveniles were also observed in all compost products. The gut content of animals, collected at the end of the survival test from compost enriched with T. atroviride, was examined under the light microscope, and in a few cases observations revealed the presence of some T. atroviride conidia. Subsequent tests carried out to study the viability of conidia after the transit through the springtail gut showed that colonies of the fungus developed from all faecal pellets produced by adult and juveniles specimens of P. armata previously fed on conidia of T. atroviride. These results suggest compatibility between Collembola and Trichoderma or Ca-Ls in the composts.     

A modeling study of soil temperature and moisture effects on population dynamics of Paronychiurus kimi (Collembola: Onychiuridae)

The effect of soil moisture on population dynamics of Paronychiurus kimi (Collembola) was examined by combining an empirical soil moisture model with a temperature-sensitive, stage-structured population model. Field observations of soil temperature were used to drive the population model, and simulations were compared to field observations of juvenile and adult densities. Simulations without soil moisture effects produced stable, interyear population dynamics and a significant correlation between simulations and observations (n=12, r ²=0.40, P<0.05) but overestimated densities during much of the year. Adding responses to soil moisture improved the fit between simulations and observations (n=13, r ²=0.40), suggesting that soil moisture is a major limiting factor on field populations of P. kimi. Moreover, an observed temporary decline in field populations during spring could be explained partly by the effects of an herbicide, paraquat (N,N′-dimethyl-gamma,gamma′-bipyridylium dichloride) (r ²=0.45), suggesting that paraquat imposes additional limits on collembolan populations.     

Responses to light in a soil-dwelling springtail

It has been widely assumed that Collembola respond to light, but until now there has been very little experimental proof of this. Field observations allowed to distinguish soil-dwelling species that would escape from light from surface-dwelling species that would be attracted to light. However, the supposed effect of light could be due to other factors such as temperature or dryness. We demonstrated that individuals of the collembolan species Heteromurus nitidus (Entomobryidae), when placed in a light gradient (temperature and moisture being homogeneous), clustered in the darker area. This effect occurred rapidly and changes in the distribution of animals persisted after illumination ceased. This shows light to act as a strong repellent for this soil-dwelling collembolan species.     

Hierarchical classification of environmental factors and agricultural practices affecting soil fauna under cropping systems using Bt maize

The population dynamics of soil organisms under agricultural field conditions are influenced by many factors, such as pedology and climate, but also farming practices such as crop type, tillage and the use of pesticides. To assess the real effects of farming practices on soil organisms it is necessary to rank the influence of all of these parameters. Bt maize (Zea mays L.), as a crop recently introduced into farming practices, is a genetically modified maize with the Cry1Ab gene which produces a protein toxic to specific lepidopteran insect pests. To assess the effects of Bt maize on non-target soil organisms, we conducted research at a field site in Foulum (Denmark) with a loamy sand soil containing 6.4% organic matter. The study focused on populations of springtails (Collembola) and earthworms (Oligochaeta) from samples taken at the beginning and at the end of the maize crop-growing season during 2 consecutive years. Farming practices, soil parameters, the biological structure of soil communities, and the type and age of the crop at the time of sampling, were used as attributes to predict the total abundance of springtails and biomass of earthworms in general and the abundance or biomass for specific functional groups (epigeic, endogeic and anecic groups for earthworms, and eu-, eu to hemi-, hemi-, hemi to epi- and epiedaphic groups for Collembola). Predictive models were built with data mining tools, such as regression trees that predict the value of a dependent variable from a set of independent variables. Regression trees were constructed with the data mining system M5′. The models were evaluated by qualitative and quantitative measures of performance and two models were selected for further interpretation: anecic worms and hemi-epiedaphic Collembola. The anecic worms (r²=0.83) showed preferences for less clay and more silt soil with medium pH but were not influenced directly by farming practices. The biomass of earthworms was greater in early autumn than in spring or late autumn. Biomass of hemi-epiedaphic Collembola (r²=0.59) increased at the end of the maize growing season, while higher organic matter content and pH tended to increase their biomass in spring. Greater abundance of Collembola was also noted in early autumn if the crop was non-Bt maize. The models assessed by this research did not find any effects of the Bt maize cropping system on functional groups of soil fauna.     

Seasonal variations and effects of nutrient applications on N and P and microbial biomass under two temperate heathland plants

Eutrofication is a threat against nutrient-poor habitats as increased amounts of nutrients in ecosystems may cause changes in the vegetation. Nitrogen (N) deposition leads to conversion of Calluna heathlands into graminoid dominated heath, but low availability of P may hinder or slow down this process.In this study the soil properties under two dominant heathland plants, the dwarf shrub Calluna vulgaris and the grass Deschampsia flexuosa, were investigated, with focus on nutrient content in the organic top soil and soil microbes during the main growing season and effects of nutrient amendments. The concentration of inorganic and dissolved organic N was significantly higher under D. flexuosa than C. vulgaris all though there were the same amounts of total N in the soil below the two species. N and P amendment enhanced available N and P in the soil, but added nutrients had little direct effects on microbes. The microbial biomass on the other hand was positively related to soil water content in fertilized plots indicating that this was due to an indirect effect of enhanced nutrient availability. Microbial N and P pools were respectively 1000 and 100 times higher than the pool of inorganic N and P, and microbes therefore may play an important role in regulating plant nutrient supply. Judged from responses of inorganic and microbial N and P concentrations to added N and P, N seemed to limit C. vulgaris and soil microbes below while P seemed to limit D. flexuosa and soil microbes below this species. There were lower rates of net nitrification, net ammonification and DOC and DON production rates during winter in the soil under C. vulgaris than below D. flexuosa, although all these rates were equal under the two species on an annual basis. This indicates that these microbial processes were taking place during winter but were affected by exudates from C. vulgaris.     

庐山杉木林与黄山松林的土壤层水源涵养能力和土壤侵蚀敏感性探究

森林的水土保持效益包含水源涵养能力和土壤的侵蚀敏感性,为探讨基于坡面尺度林分因子对水土流失的影响,进一步揭示森林植被的水土保持效益机制,采用环刀法、EPIC模型等分别计算黄山松林、杉木林的水源涵养能力和土壤侵蚀因子.结果表明:(1)黄山松林的土壤容重在垂直剖面无明显差异,变化范围为0.66～1.10 g/cm3;杉木林...     

Edge effects and arboreal Collembola in coniferous plantations

We report on the distribution of arboreal Collembola in relation to canopy microclimatic conditions and distance from a forest edge. Collembola were collected by pyrethrum misting from the canopy of 12 m commercial plantations of Pinus sylvestris and Picea sitchensis at two sites in northern England, using transects running perpendicularly from a sharp edge (against open moorland). Temperature and humidity were co-recorded at 1.5 m elevation. Eleven species of Collembola were recorded, dominated by four known to be arboreal (Entomobrya nivalis, Lepidocyrtus lanuginosus, Vertagopus arboreus and Anurophorus laricis) but also including small numbers of supposedly edaphic forms, notably Protaphorura armata. All species were at higher density in the P. sitchensis plantations, but otherwise displayed no consistent community structure. Only four significant edge effects were detected in the Collembola data (out of 60 tests), none of which fitted an exponential model. By contrast the majority of the micro-meteorological data showed significant edge effects which were well modelled by an exponential function. It is concluded that the distribution of arboreal Collembola showed no edge effects, despite the latter being detectable in their meteorological environment.     

胶质芽孢杆菌与苜蓿根瘤菌双接种对排土场紫花苜蓿生长和土壤性质的影响

为了明确胶质芽孢杆菌和苜蓿根瘤菌在矿区排土场复垦中的协同作用,以矿区排土场土壤作为基质进行盆栽试验,设置两菌单接种处理、双接种处理及对照,其中胶质芽孢杆菌和苜蓿根瘤菌用量分别为1.50%和0.25%,测定紫花苜蓿产量指标、叶片生理指标、土壤速效养分含量和土壤微生物指标。结果表明,接种胶质芽孢杆菌和苜蓿根瘤菌的各处理均能显著提高紫花苜蓿的产量指标,其中以双接种处理效果最优,将生物量和结瘤量分别比对照显著提高110.27%和124.32%;在生理指标方面,双接种处理效果低于单接种处理,未表现出协同作用;在土壤养分和微生物性质方面,单接种胶质芽孢杆菌仅显著提高土壤速效钾含量,单接种苜蓿根瘤菌对大部分指标均有显著效果,而双接种处理效果最佳,土壤碱解氮、速效钾含量比对照分别显著提高94.14%和84.55%,土壤微生物指标MBC含量、呼吸强度、蔗糖酶、脲酶、磷酸酶、过氧化氢酶活性比对照分别显著提高204.02%,65.86%,212.32%,91.87%,30.57%,51.87%。双接种处理对紫花苜蓿产量指标、养分和微生物指标表现出显著的协同作用。因此,1.50%用量胶质芽孢杆菌和0.25%用量苜蓿根瘤菌双接种能够有效提高排土场土壤的复垦效果,具有协同作用,可以作为矿区排土场复垦的高效方法。     

Yield and N assimilation of winter wheat (Triticum aestivum L., var. Norstar) inoculated with rhizobacteria

The effects of bacterial inoculants on the growth of winter wheat were studied in a growth chamber. Azospirillum brasilense, Azotobacter chroococcum, Bacillus polymyxa, Enterobacter cloacae, or a mixture of the four rhizobacteria were the inoculants tested. Inoculation effects on yield, yield components, and N-derived from fertilizer (Ndff) were assessed. The response of plants inoculated with individual bacteria was inconsistent and varied with treatment. At the first harvest (58 days after planting-DAP) plants inoculated with the mixture exhibited increases in plant dry weight, total-N and Ndff. At the second harvest (105 DAP), plants inoculated with A. brasilense and the mixture exhibited increases in shoot biomass, whereas at maturity (170 DAP), the inoculated plants showed no differences in total-N or shoot dry matter yield, as compared to the uninoculated controls. Inoculation with A. brasilense, however, increased the Ndff in the shoots, and B. polymyxa tended to enhance grain yield. Practical use of these rhizobacteria as inoculants for winter wheat may have limited value until such time as we better understand factors which influence rhizosphere competence of bacterial inoculants.     

Genetic variation in a subterranean arthropod (Folsomia candida) as a method to identify low-permeability barriers in an aquifer

Folsomia candida (order Collembola), a common soil arthropod, has recently been described living in a shallow (2.5–5.7 m below surface), unconsolidated aquifer in southwestern Michigan. F. candida was haplotyped from 14 wells using inter-simple sequence repeats (ISSRs) markers, and genetic variation in F. candida was used as a bioindicator to identify pore scale to mesoscale migration barriers in the aquifer. With one exception, individual haplotypes were only found in single wells. A significant relationship was identified between interpopulation genetic differentiation and geographic distance, and F. candida exhibits genetic population structuring over a very fine geographic scale (0.65 km²). Monmonier's algorithm was used to identify two most likely subsurface barriers to migration. Hypothesized barriers divided the F. candida populations into three genetically distinct groups, with two groups separated by only 15 m. These groupings are not dependent on groundwater flow direction, and are supported by a minimum spanning network and AMOVA analysis. Because F. candida movement is limited by pore size, these barriers identify local areas of low permeability in the aquifer material. The study suggests that F. candida may serve an important role in identifying geological characteristics and patterns in aquifers that may be difficult to evaluate by other means.