Classification of epigeic spiders (Araneae) at the western part of the Carpathians (Slovakia)

The epigeic spider communities of the Western Carpathians are characterised by a high number of species. The great influence of Pannonian elements on the coenoses of the Carpathian hills is evident. The habitats of the Western Carpathians differ from each other, and several types of microclimatic conditions are there. These facts affect the spider fauna. The epigeic spider communities of the western part of the Carpathians, represented by the Devínska Kobyla hill, were characterized by the constant presence of four species at all study sites — Dysdera erythrina, Agroeca cuprea, Pardosa lugubris and Trochosa terricola. Principal components analysis confirmed the high proportion of Trochosa terricola, Eresus moravicus and Scotina celans in the epigeic spider community of the steppe. In contrast, the presence of Coelotes inermis, Histopona torpida and Haplodrassus silvestris was important in the oak forest. Bray-Curtis analyses confirmed that the spider community of the oak forest differed. The migration and penetration of the species with high vagility was an important fact that affected the spider community in the ecotones. Based on the analysis of the araneocoenoses in the Western Carpathians, spiders were grouped into four categories — leaders, typical spiders, specific spiders and tourist species.     

Influence of habitat and microhabitat on epigeal spider (Araneae) assemblages in four stand types

Studies based on presence/absence of a species may provide insight into habitat associations, allowing the distribution of species to be predicted across the landscape. Our objective was to characterise the epigeal spider fauna in three mature boreal forest types (conifer, mixedwood and deciduous) and a disturbed habitat (clearcut) to provide baseline data on the spider species inhabiting major forest types of boreal northwestern Ontario, Canada. Only spring-active epigeal spiders were considered for logistical reasons. We further identified the coarse woody debris structure and microhabitat characteristics within these stand types to try to refine our ability to predict the within-stand occurrence of spiders. We found the clearcut habitat strongly dominated by the Lycosidae with 55% of spiders represented by a single species, Pardosa moesta Banks. The forested habitats were more diverse, with web-building families forming a large component of the fauna and many species represented by only a few individuals. The spider composition of the deciduous stands (aspen and mixedwood) was very similar, and distinct from that of spruce stands. Species such as Agroeca ornata (Emerton) (Liocranidae) and Pirata montanus Emerton (Lycosidae) were strongly associated with deciduous leaf litter. Within the spruce stands, Agyneta olivacea (Emerton) (Linyphiidae) and Pardosa uintana Gertsch (Lycosidae) were associated with feathermoss rather than Sphagnum microhabitats. Many of the habitat associations observed at Rinker Lake do not conform well to those described in the taxonomic literature as typical for the species. Few associations with coarse woody debris or microhabitat attributes (other than ground cover type) were found.     

On reduced size in spiders from marginal habitats

Summary Four heathland spider species, Agroeca proxima, Centromerita concinna, Theridion simile, and Philodromus histrio, were studied in the Kalmthout National Nature Reserve in northern Belgium. They were caught by pitfall trapping or sweeping in different Calluna heath plots where the vegetation was in varying stages of development after being burnt, mowed, or grazed. Each species proved to thrive in a different plot, its numbers being greater and its size larger (cephalothorax width) in that plot. For the first two species positive correlations were found, for males as well as for females, between average size and numbers caught during a complete year cycle in a particular habitat.In contrast to non-predators, which are smaller when their populations are denser, spiders show a functional response that explains their increase in size with increasing density. It is suggested that in this respect a fundamental difference exists between predators and non-predators.     

Odonata fauna of Khuzestan province (Iran) with a note on an Oriental species Trithemis aurora (Burmeister, 1839) as a new record for the south-west of Iran

This paper presents a survey of spider species that have not been previously recorded for Israel. Twenty species, twelve genera and two families (Mysmenidae and Phyxelididae) are recorded for the first time in Israel. Nine species, Agroeca parva Bosmans, 2011, Aulonia kratochvili Dunin et al., 1986, Ero flammeola Simon, 1881, Hogna ferox (Lucas, 1838), Maculoncus parvipalpus Wunderlich, 1995, Neon rayi (Simon, 1875), Pardosa aenigmatica Tongiorgi, 1966 and Phyxelida anatolica Griswold, 1990, are illustrated. Tarentula jaffa Strand, 1913, syn. n. is synonymised with Hogna ferox (Lucas, 1838), and Hahnia carmelita Levy, 2007, syn. n. is synonymised with Hahnia nava (Westring, 1851). A possible synonymy of the widespread Prodidomus rufus Hentz, 1847 with P. hispanicus Dalmas, 1919 known from the Iberian Peninsula is discussed. An original combination is restored for Trochosa urbana O.P.-Cambridge, 1876.     

The microbiota in spider mite feces potentially reflects intestinal bacterial communities in the host

Microorganisms provide many physiological functions to herbivorous hosts. Spider mites (genus Tetranychus) are important agricultural pests throughout the world; however, the composition of the spider mite microbial community, especially gut microbiome, remains unclear. Here, we investigated the bacterial community in five spider mite species and their associated feces by deep sequencing of the 16S rRNA gene. The composition of the bacterial community was significantly different among the five prevalent spider mite species, and some bacterial symbionts showed host‐species specificity. Moreover, the abundance of the bacterial community in spider mite feces was significantly higher than that in the corresponding spider mite samples. However, Flavobacterium was detected in all samples, and represent a “core microbiome”. Remarkably, the maternally inherited endosymbiont Wolbachia was detected in both spider mite and feces. Overall, these results offer insight into the complex community of symbionts in spider mites, and give a new direction for future studies.     

Taking insight into the gut microbiota of three spider species: No characteristic symbiont was found corresponding to the special feeding style of spiders

Microorganisms in insect guts have been recognized as having a great impact on their hosts' nutrition, health, and behavior. Spiders are important natural enemies of pests, and the composition of the gut microbiota of spiders remains unclear. Will the bacterial taxa in spiders be same as the bacterial taxa in insects, and what are the potential functions of the gut bacteria in spiders? To gain insight into the composition of the gut bacteria in spiders and their potential function, we collected three spider species, Pardosa laura, Pardosa astrigera, and Nurscia albofasciata, in the field, and high‐throughput sequencing of the 16S rRNA V3 and V4 regions was used to investigate the diversity of gut microbiota across the three spider species. A total of 23 phyla and 150 families were identified in these three spider species. The dominant bacterial phylum across all samples was Proteobacteria. Burkholderia, Ralstonia, Ochrobactrum, Providencia, Acinetobacter, Proteus, and Rhodoplanes were the dominant genera in the guts of the three spider species. The relative abundances of Wolbachia and Rickettsiella detected in N. albofasciata were significantly higher than those in the other two spider species. The relative abundance of Thermus, Amycolatopsis, Lactococcus, Acinetobacter Microbacterium, and Koribacter detected in spider gut was different among the three spider species. Biomolecular interaction networks indicated that the microbiota in the guts had complex interactions. The results of this study also suggested that at the genus level, some of the gut bacteria taxa in the three spider species were the same as the bacteria in insect guts.     

Molecular identification and phylogenetic analysis of spider mites (Prostigmata: Tetranychidae) of Turkey

The family Tetranychidae includes many agriculturally important species known as spider mites. Their morphological identification is quite difficult due to the tiny size of their taxonomic characters and the requirement for high-level expertise. This may lead to pest misidentification and thus failure in pest management. DNA-based species identification seems to offer an alternative solution to overcome these issues. In the present study, two common molecular markers—Cytochrome oxidase subunit I (COI) and Internal transcribed spacer 2 (ITS2)—were used to identify 10 spider mite species from Turkey. Furthermore, genetic distances for several of them were assessed. Panonychus ulmi and Bryobia kissophila had the lowest (1.1%) and highest (4.5%) intra-specific genetic distances, respectively. In addition, integrative taxonomy allowed to identify Eotetranychus quercicola in Turkey as a new record. The sequences herein obtained will allow rapid species identification using molecular techniques and will contribute to resolve the phylogenetic history of spider mites.

     

Pest species diversity enhances control of spider mites and whiteflies by a generalist phytoseiid predator

To test the hypothesis that pest species diversity enhances biological pest control with generalist predators, we studied the dynamics of three major pest species on greenhouse cucumber: Western flower thrips, Frankliniella occidentalis (Pergande), greenhouse whitefly, Trialeurodes vaporariorum (Westwood), and two-spotted spider mites, Tetranychus urticae Koch in combination with the predator species Amblyseius swirskii Athias-Henriot. When spider mites infested plants prior to predator release, predatory mites were not capable of controlling spider mite populations in the absence of other pest species. A laboratory experiment showed that predators were hindered by the webbing of spider mites. In a greenhouse experiment, spider mite leaf damage was lower in the presence of thrips and predators than in the presence of whiteflies and predators, but damage was lowest in the presence of thrips, whiteflies and predators. Whitefly control was also improved in the presence of thrips. The lower levels of spider mite leaf damage probably resulted from (1) a strong numerical response of the predator (up to 50 times higher densities) when a second and third pest species were present in addition to spider mites, and (2) from A. swirskii attacking mobile spider mite stages outside or near the edges of the spider mite webbing. Interactions of spider mites with thrips and whiteflies might also result in suppression of spider mites. However, when predators were released prior to spider mite infestations in the absence of other pest species, but with pollen as food for the predators, we found increased suppression of spider mites with increased numbers of predators released, confirming the role of predators in spider mite control. Thus, our study provides evidence that diversity of pest species can enhance biological control through increased predator densities.     

Interspecific interactions in a tri-trophic arthropod system: effects of a spider on the survival of larvae of three predatory ladybirds in relation to aphids

The effects of the crab spider, Misumenops tricuspidatus (Fabricius), on the larval survival of three ladybird species, Harmonia axyridis Pallas, Coccinella septempunctata L., and Propylea japonica L., in relation to aphids were investigated in the laboratory. Predation by the spider on the three ladybird species differed. All the larvae of C. septempunctata, none of H. axyridis, and an intermediate number of P. japonica were attacked and eaten by the spider. All the larvae of H. axyridis suffered mortality due to cannibalism or starvation in the treatments with and without a spider. In case of C. septempunctata, however, mortality in the early instars was significantly greater in the treatment with a spider than without a spider and no larvae developed into pupae due to predation. In the treatment without a spider, the majority of the larvae in the former treatment suffered mortality due to cannibalism or starvation, and only 13.3% of larvae developed into the adult stage. In the case of P. japonica, mortality was mainly attributed to predation in the treatment with a spider and only 26.7% became adult. In comparison, 86.7% of larvae survived to the adult stage in the treatment without a spider. In addition, in both H. axyridis and C. septempunctata, the development of young larvae was significantly slower in the presence of a spider, but this was not the case with the older larvae of H. axyridis, which indicates that the effect of the spider on larval development changed with the developmental stage of the larvae in this species. However, the spider had no significant effect on the developmental time of P. japonica larvae. Although both the spider and the ladybirds significantly affected the number of aphids, they did not have an additive effect on aphid abundance. The interactions between the spider and the ladybirds, such as intraguild predation or competition, caused them to reduce aphid population density less than the ladybirds did on their own. The effect of the spider on the larval performance of three predatory ladybirds was found to be unequal in terms of their vulnerability to predation and rate of larval development and it depended on the species and developmental stage of the ladybird.     

黄河下游农业景观中景观结构和生境特征对林表生蜘蛛多样性的影响

以捕食者来进行"自上而下"的生物防治是有效而经济的。蜘蛛作为农业景观中重要的捕食者,在不同的尺度上研究景观和环境要素对其多样性的影响是十分必要的。目前,有关黄河下游农业景观研究中,关于蜘蛛多样性的研究报道较少。针对黄河下游农业景观中林地生境的蜘蛛多样性展开研究,于2014年4月和7月采用陷阱法调查林地生境中蜘蛛种群的分布及其多样性,分析了对蜘蛛多样性影响最强烈的环境因子,以及不同蜘蛛种群对草本植被盖度的不同选择。结果发现:研究区林地生境内蜘蛛的优势种群为星豹蛛(Pardosa astrigena)、单带希托蛛(Hitobia unifascigera)、类水狼蛛(Pirata piratoides)和陕西近狂蛛(Drassyllus shaanxiensis)。不同尺度上的景观要素和环境要素(解释变量)对蜘蛛多样性的影响存在差异,且在不同的季节均为100 m尺度上的解释变量对蜘蛛多样性的影响最大。在100 m尺度上,不同的解释变量对蜘蛛多样性的影响也不同,春季林地中的植被盖度对其影响最大,路距和林地面积也有较为明显的影响,夏季林地中的植被高度和植被盖度对其影响最大,其余解释变量的影响则极小。不同的蜘蛛种群对草本植被盖度大小的偏好不同,多数蜘蛛偏好高的植被盖度,如星豹蛛和白纹舞蛛(Alopecosa albostriata)等,也有部分蜘蛛种群偏好中、低植被盖度,如赫氏花蟹蛛(Xysticus hedini Schenkel)、白斑猎蛛(Evarcha albaria)和皮雄红螯蛛(Araneae)。研究表明,黄河下游农业景观林地生境中,不同的景观要素和环境要素在不同尺度和不同季节上对蜘蛛多样性的影响具有显著的差异,草本植被对蜘蛛多样性的影响极为显著。因此在研究区内合理规划林地的建设,加强草本植被的保护,提高林地捕食者的数量,有助于生物防治工作的发展和生物多样性保护工作的进行。     

Geographic distribution of phytoseiid mite species (Acari: Phytoseiidae) on crops in Okinawa,a subtropical area of Japan

We extensively identified phytoseiid mites co‐occurring with spider mites on crops throughout the islands of Okinawa, southwestern Japan to obtain fundamental information for controlling spider mites in the area using natural enemies. Of the 19 species found, three were new to Japan and eight were new to Okinawa. Neoseiulus womersleyi was the most common species with respect to the distribution range. Following N. womersleyi, six species including Amblyseius eharai were common, whereas N. californicus was not, suggesting that the recent change in dominant species from N. womersleyi to N. californicus observed on the main islands of Japan had not happened in Okinawa. On one small island (Tarama Island) located in the southwestern part of Okinawa, N. womersleyi was not found, and instead N. longispinosus, which is morphologically similar to N. womersleyi and has not been found in Japan, occurred. This suggests interisland differences in the relative frequencies of N. womersleyi and N. longispinosus in Okinawa.     

Regional patterns in the invasion success of <Emphasis Type="Italic">Cheiracanthium</Emphasis> spiders (Miturgidae) in vineyard ecosystems

Invasions have often been linked to reduced biodiversity, but the role of non-native species in the decline of native species is ambiguous. In a 2003 survey of four California vineyard regions, exotic spiders (Cheiracanthium spp.) were more dominant in vineyards with lower spider species diversity and reduced spider abundance. There was no evidence for the role of species interactions in the invasion of Cheiracanthium spiders, however, as native spiders from the same feeding guild were most abundant in regions with high Cheiracanthium levels. Comparison with a survey conducted 10 years earlier indicated that the recent invader C. mildei simply represented an addition to the spider community, with no apparent change in proportions of the congener C. inclusum. Invasion success is discussed with respect to agricultural habitat, as results suggest that disturbed conditions in many vineyards may favor Cheiracanthium spp. and native wandering spiders while decreasing overall spider diversity.     

Environmental suitability of new reported localities of the funnelweb spider Macrothele calpeiana: an assessment using potential distribution modelling with presence‐only techniques

Aim The funnelweb spider Macrothele calpeiana is endemic to the southern half of the Iberian Peninsula, but recent occurrence records from localities in Spain, North Africa and other regions of Europe, which are distant from its native populations, suggest human‐mediated dispersal, probably associated with the commercial export of olive trees. The main goal of this study was to assess the environmental suitability of these new records and to discuss the spider’s potential to become an invasive species, mainly in new regions across Central Europe and the Mediterranean Basin. Location Central Europe, Mediterranean Basin. Methods Using presence points from the Iberian native populations of M. calpeiana and a set of climatic variables, four presence‐only algorithms (BIOCLIM, DOMAIN, GARP and Maxent) were applied to model the potential distribution of the spider. The models were transferred to Central Europe and the Mediterranean Basin, and the locations of the new records in both the occupied and potential environmental spaces were screened. Results The four models were generally congruent in predicting the existence of a suitable climate for the species across the Mediterranean Basin, although BIOCLIM and DOMAIN yielded more constrained predictions than GARP and Maxent. Whereas the new records from Central Europe were located far from the occupied and potential climatic spaces, those from the Iberian Peninsula were not. Main conclusions Climatic suitability together with propagule pressure owing to human activities will certainly enhance the opportunities for M. calpeiana to colonize new areas across the Mediterranean Basin. The species has invaded areas beyond its native range, and those new locations located in the Iberian Peninsula and North Africa show environmental suitability for the spider and deserve long‐term monitoring. Although the new locations in Central Europe were not predicted by the climate models and the persistence of the species seems improbable, the possibility of rapid evolution or phenotypic plasticity processes raises the need for caution over the possibility of a future spread of M. calpeiana across Europe. Stronger controls over the transport of trees must be applied, and further studies on the ecology of the spider are imperative to assess the possible impact on the invaded ecosystems.     

Spider (Araneae) populations in hayfields and pastures in northern Iceland

Abstract: Surface‐living spiders were collected in pitfall traps over a 1‐year period in three unimproved pastures and three managed hayfields in northern Iceland, located on sandy, silty and peaty soil. On each of the six fields, six pitfall traps were placed and emptied approximately once a week during summer season, but two traps at longer intervals during winter season. During the summer season, the number of spider specimens was significantly higher in sand than in silt, with peat soil in an intermediate position. Annual management of hayfields includes fertilization, hay cutting and occasional grazing. A total of 22 spider species were collected in the pastures and only 17 in the hayfields. However, the total number of specimens was not significantly different between the two. All spider species were more abundant in pastures than hayfields, with the exception of Erigone atra Blackwall, 1883 and Erigone arctica (White, 1852). These two species dominated the hayfields, together composing 79% of the spider population there, followed by Allomengea scopigera (Grube, 1859) with 7%. The dominance of E. atra in hayfields is related to fertile soils and high‐yielding grass species, which might lead to an increase in certain Collembola species which serve as an important feed for this spider species. However, Tenuiphantes mengei (Kulczyński, 1887) dominated the pastures, representing 22% of the spider population, followed by A. scopigera, Pardosa sphagnicola (Dahl, 1908) and E. atra composing 17, 13 and 12% of the spider population, respectively. E. atra had two abundance peaks, a large peak in early spring (3.7 specimens/day in hayfields), and a smaller peak in early summer, while abundance was much lower the rest of the year. Tenuiphantes mengei had two distinct abundance peaks, one in early summer (0.7 specimens/day in pastures) and another in the autumn, while A. scopigera was almost entirely found in the autumn (1.0 specimens/day in pastures). In general, winter abundance was low, 0.2 specimens/day, compared with 4.4 specimens/day in summer season. In early winter, T. mengei dominated (43% of the spider population), while E. atra dominated in mid‐ and late winter composing 47 and 80% of the spider population respectively.     

The effect of colour variation in predators on the behaviour of pollinators: Australian crab spiders and native bees

1. Australian crab spiders exploit the plant–pollinator mutualism by reflecting UV light that attracts pollinators to the flowers where they sit. However, spider UV reflection seems to vary broadly within and between individuals and species, and we are still lacking any comparative studies of prey and/or predator behaviour towards spider colour variation. 2. Here we looked at the natural variation in the coloration of two species of Australian crab spiders, Thomisus spectabilis and Diaea evanida, collected from the field. Furthermore, we examined how two species of native bees responded to variation in colour contrast generated by spiders sitting in flowers compared with vacant flowers. We used data from a bee choice experiment with D. evanida spiders and Trigona carbonaria bees and also published data on T. spectabilis spiders and Austroplebeia australis bees. 3. In the field both spider species were always achromatically (from a distance) undetectable but chromatically (at closer range) detectable for bees. Experimentally, we showed species‐specific differences in bee behaviour towards particular spider colour variation: T. carbonaria bees did not show any preference for any colour contrasts generated by D. evanida spiders but A. australis bees were more likely to reject flowers with more contrasting T. spectabilis spiders. 4. Our study suggests that some of the spider colour variation that we encounter in the field may be partly explained by the spider's ability to adjust the reflectance properties of its colour relative to the behaviour of the species of prey available.     

Screening of Necrotizing Spiders in Korea Using Nonradioactive Sphingomyelinase Assay(II) Web-building Spiders

Spider bites cause a range of symptoms from simple swellings to disfiguring necrotic lesions, and occasionally death. While spider bites are not a major medical problem in Korea, it would be of great value to know which species of spiders pose a threat to human health. A middle molecular weight protein, sphingomyelinase D, has been identified in the venom of the brown recluse spider and strong evidence suggests that they have a major role in spider bite necrosis. For the identification of necrotizing species, we have investigated using recently developed non‐radioactive assay of sphingomyelinase for rapidly screening the necrotizing venoms. Here, we demonstrate the fetal toxicity of total 65 species (24 genera, 9 families) of the web‐building spiders among 622 identified spider species in Korea. It has been revealed that four species of the orb‐weaving spider, Araneus ventricosus (family Araneidae, 0.3509), Dipoena castrata (0.2413, family Theridiidae), Argiope minuta (0.1836, family Araneidae), and Paracoelotes spinivulva (0.1760, family Amaurobiidae) have relatively strong activities among themselves. However, comparing to that of the brown recluse spider, Loxosceles recluse (1.814) in North America, the necrotizing shpingomyelinase activities of these Korean web‐building spiders are still very low. Based on our results, we may thus conclude that there would be little possibilities in South Korea to create serious medical problems caused by necrotizing arachnidism.     

Spider assemblages associated with leaf litter of three tree species in central South Africa (Arachnida: Araneae)

Spiders were collected by sifting leaf litter of three common tree species, Cussonia paniculata sinuata, Olea europaea africana and Searsia lancea, in an undisturbed grassland habitat in central South Africa. The study aimed to collect baseline data on spider assemblage structure, seasonality and the effects of litter structure on spider assemblages. In total, 1385 spiders were collected, representing 26 families and 56 species. Four species, Obatala sp. (Amaurobiidae, 22.7%), Camillina maun Platnick & Murphy (Gnaphosidae, 17.0%), Proevippa sp. (Lycosidae, 11.4%) and Zelotes frenchi Tucker (Gnaphosidae, 9.2%) dominated the fauna. Spider abundance was the highest in Olea litter (n = 607), followed by Searsia (n = 453) and Cussonia (n = 325). Searsia had the greatest number of species (41 spp.), followed by Olea (35 spp.) and Cussonia (30 spp.). Both spider abundance and species richness per sample varied significantly between the tree species. Of the ten most abundant species, all but two showed a significant preference for particular litter types. Mean spider abundance and species richness per sample were the lowest in Cussonia litter, which was the deepest litter type, but with the most interstitial space, whereas mean abundance and species richness per sample were the highest in Olea litter, which was the shallowest and moderately compact in structure.     

Insights into the bacterial symbiont diversity in spiders

Most spiders are natural enemies of pests, and it is beneficial for the biological control of pests to learn the relationships between symbionts and their spider hosts. Research on the bacterial communities of insects has been conducted recently, but only a few studies have addressed the bacterial communities of spiders. To obtain a complete overview of the microbial communities of spiders, we examined eight species of spider (Pirata subpiraticus, Agelena difficilis, Artema atlanta, Nurscia albofasciata, Agelena labyrinthica, Ummeliata insecticeps, Dictis striatipes, and Hylyphantes graminicola) with high‐throughput sequencing based on the V3 and V4 regions of the 16S rRNA gene. The bacterial communities of the spider samples were dominated by five types of endosymbionts, Wolbachia, Cardinium, Rickettsia, Spiroplasma, and Rickettsiella. The dominant OTUs (operational taxonomic units) from each of the five endosymbionts were analyzed, and the results showed that different spider species were usually dominated by special OTUs. In addition to endosymbionts, Pseudomonas, Sphingomonas, Acinetobacter, Novosphingobium, Aquabacterium, Methylobacterium, Brevundimonas, Rhizobium, Bradyrhizobium, Citrobacter, Arthrobacter, Pseudonocardia, Microbacterium, Lactobacillus, and Lactococcus were detected in spider samples in our study. Moreover, the abundance of Sphingomonas, Methylobacterium, Brevundimonas, and Rhizobium in the spider D. striatipes was significantly higher (p < .05) than the bacterial abundance of these species in seven other spider species. These findings suggest that same as in insects, co‐infection of multiple types of endosymbionts is common in the hosts of the Araneae order, and other bacterial taxa also exist in spiders besides the endosymbionts.     

Parasitoid genus‐specific manipulation of orb‐web host spiders (Araneae,Araneidae)

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