Your search keyword '"arthropod community"' showing total 201 results

1. Arthropod removal in wheat fields enhanced yield regardless of natural habitat patch proximity

Author

Ozeri, Lital, Rotem, Guy, Johnson, Alfred Daniel, Karni, Tomer, Ovadia, Ofer, and Ziv, Yaron

Published

2024

2. Host‐plant sex and phenology of Buddleja cordata Kunth interact to influence arthropod communities.

Author

González‐Ramírez, I., López‐Gómez, V., Cano‐Santana, Z., Romero Pérez, A., and Hernández Cumplido, J.

Subjects

*DIMORPHISM in plants, *SOCIAL influence, *SEXUAL dimorphism, *PLANT phenology, *PHENOLOGY, *PLANT variation

Abstract

Intraspecific variation in plants is expected to have profound impacts on the arthropod communities associated with them. Because sexual dimorphism in plants is expected to provide consistent variation among individuals of the same species, researchers have often studied the effect it has on associated arthropods. Nevertheless, most studies have focused on the effect of sexual dimorphism in a single or a few herbivores, thus overlooking the potential effects on the whole arthropod community. Our main objective was to evaluate effects of Buddleja cordata's plant‐sex on its associated arthropod community. We surveyed 13 pairs of male and female plants every 2 months during a year (June 2010 to April 2011). Every sampling date, we measured plant traits (water content and leaf thickness), herbivory, and the arthropod community. We did not find differences in herbivory between plant sex or through time. However, we found differences in water content through time, with leaf water‐content matching the environmental seasonality. For arthropod richness, we found 68 morphospecies associated with female and 72 with male plants, from which 53 were shared by both sexes. We did not observe differences in morphospecies richness; however, we found sex‐associated differences in the diversity of all species and differences on the diversity of the most abundant species with an interesting temporal component. During peak flowering season, male plants showed higher values on both parameters, but during the peak fructification season female plants showed the higher values on both diversity parameters. Our research exemplifies the interaction between plant‐phenology and plant‐sex as drivers of arthropod communities' diversity, even when plant sexual‐dimorphism is inconspicuous, and highlighting the importance of accounting for seasonal variation. We stress the need of conducting more studies that test this time‐dependent framework in other dioecious systems, as it has the potential to reconcile previous contrasting observations reported in the literature. [ABSTRACT FROM AUTHOR]

Published

2024

3. Genetic variation within a stick-insect species associated with community-level traits.

Author

Sinclair-Waters, Marion, Zamorano, Laura S, Gompert, Zachariah, Parchman, Tom, Tyukmaeva, Venera, Hopkins, David P, and Nosil, Patrik

Subjects

*PHASMIDA, *GENETIC variation, *GENOME-wide association studies, *ECOSYSTEM dynamics, *PHENOTYPIC plasticity

Abstract

Phenotypic variation within species can affect the ecological dynamics of populations and communities. Characterizing the genetic variation underlying such effects can help parse the roles of genetic evolution and plasticity in "eco-evolutionary dynamics" and inform how genetic variation may shape patterns of evolution. Here, we employ genome-wide association (GWA) methods in Timema cristinae stick insects and their co-occurring arthropod communities to identify genetic variation associated with community-level traits. Previous studies have shown that maladaptation (i.e. imperfect crypsis) of T. cristinae can reduce the abundance and species richness of other arthropods due to an increase in bird predation. Whether genetic variation that is independent of crypsis has similar effects is unknown and was tested here using genome-wide genotyping-by-sequencing data of stick insects, arthropod community information, and GWA mapping with Bayesian sparse linear mixed models. We find associations between genetic variation in stick insects and arthropod community traits. However, these associations disappear when host-plant traits are accounted for. We thus use path analysis to disentangle interrelationships among stick-insect genetic variation, host-plant traits, and community traits. This revealed that host-plant size has large effects on arthropod communities, while genetic variation in stick insects has a smaller, but still significant effect. Our findings demonstrate that (1) genetic variation in a species can be associated with community-level traits but that (2) interrelationships among multiple factors may need to be analyzed to disentangle whether such associations represent causal relationships. This work helps to build a framework for genomic studies of eco-evolutionary dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

4. Effects of post-mining forest restoration and alternative land uses on ground-dwelling arthropods in Ghana.

Author

Damptey, Frederick Gyasi, Djoudi, El Aziz, and Birkhofer, Klaus

Subjects

FOREST restoration, ARTHROPODA, LAND use

Abstract

In an Afrotropical region experiencing massive deforestation, restoration approaches should provide sustainable solutions for recovering biodiversity. Arthropods are a sensitive taxonomic group for habitat alteration by deforestation and can be good indicators for restoration studies. Ground-dwelling arthropods provide important ecosystem functions, such as predation or organic matter decomposition, thereby contributing to ecosystem functionality. The consequences of post-mining management on arthropods in the Afrotropical region remain understudied. We carried out a comprehensive sampling of ground-dwelling arthropods in the dry and wet seasons across four land-use types in the semi-deciduous forest zone of Ghana. We then analysed whether the specific tree communities, vegetation structure and seasonal differences affected arthropod communities in the restored post-mining forest compared to the dominant alternative land-use type (agroforestry plantation), a natural reference (natural forest) or an unmanaged former mining area (gravel mine). In total, 43,364 arthropods were sampled and assigned to 78 taxonomic groups representing 14 order/sub-order, 28 beetle families, 25 spider families, 5 hunting guilds of spiders and 6 trophic groups of beetles. Overall, Araneae, Coleoptera, Hymenoptera and Orthoptera all had higher activity densities in the wet season. The vegetation structure of the three land-use types with trees supported a greater overall activity density of arthropods and a more diverse functional composition compared to the unmanaged gravel site. Pronounced variation between the dry and wet seasons further influenced the taxonomic and functional composition. The active forest restoration of this post-mining area is a promising approach to drive arthropod communities towards a comparable state observed in the natural forest. [ABSTRACT FROM AUTHOR]

Published

2023

5. Taxonomic and community composition of epigeal arthropods in monoculture and mixed tree species plantations in a deciduous forest of Ghana.

Author

Damptey, Frederick Gyasi, Opuni-Frimpong, Emmanuel, Nsor, Collins Ayine, Addai, James, Debrah, Daniel Kwame, Schnerch, Benjamin, Bentsi-Enchill, Felicity, and Korjus, Henn

Abstract

Tropical forests provide several ecosystem services and functions and support approximately two-thirds of the world's biodiversity but are seriously threatened by deforestation. Approaches to counteract this menace have revolved around afforestation with several or a single tree species. We thus investigated how plantation forests with either a single or several tree species influenced arthropod taxonomic and community composition using pitfall traps to sample selected groups of epigeal arthropods (Araneae, Coleoptera, Orthoptera and Hymenoptera) and with environmental variables assessed simultaneously. Our results revealed 54 taxonomic groups with significantly higher taxonomic richness, activity density, and diversity in the mixed stands than in the monoculture stands. The significant differences in community composition were mainly driven by families including Lycosidae, Formicidae, Staphylinidae, Scotylidae, Hydrophilidae, Gryllidae and Scarabaeidae and were explained by distinct habitat characteristics (canopy openness, litter depth, deadwood volume, and tree height). While the diverse tree communities and heterogeneous vegetation structure offered food and habitat resources for diverse arthropod groups, the allelopathic nature coupled with homogenous stand characteristics of the Tectona grandis stands in the monoculture suppressed the growth of understorey vegetation that could otherwise serve as food and habitat resources for arthropods, which might have led to limited activities and diversity of arthropods in the monoculture plantation stands. The findings thus highlight the need to promote mixed tree plantations in degraded tropical areas, especially when restoring biodiversity is the prime management focus. [ABSTRACT FROM AUTHOR]

Published

2023

6. 3种不同抗除草剂转基因大豆对田间节肢动物多样性的影响.

Author

杨晓然, 刘靖, 姚淑军, 沈文静, 郭慧, 刘标, and 薛堃

Abstract

Copyright of Journal of Ecology & Rural Environment is the property of Journal of Ecology & Rural Environment Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

7. Habitat characteristics and climatic factors influence microhabitat selection and arthropod community structure in a globally rare central Appalachian shale barren

Author

Andrew P. Landsman and Clara R. Thiel

Subjects

arthropod community, epigeic insects, microhabitat, shale barrens, thermoregulation, Ecology, QH540-549.5

Abstract

Abstract The central Appalachian shale barrens, a globally unique habitat type restricted to the eastern United States, presents an insular and physiologically stressful environment with sparse vegetation and extreme ground surface and air temperatures. Despite the high levels of plant species endemism within these systems, information on invertebrate communities and habitat preferences is extremely limited. Through this study, we aimed to better understand a shale barren arthropod community, microhabitat selection, and the influence of habitat characteristics and climatic factors. We employed pitfall traps to sample epigeic arthropods during the 2016 growing season in a shale barren habitat. Arthropod community composition was driven by overstory trees, mediated through accumulated leaf litter and availability of shaded microhabitats. Ambient air temperature also influenced the surface activity of various taxa with spiders decreasing at higher temperatures and ants, crickets, flies, and harvestmen all increasing in relative abundance. Habitat integrity of the central Appalachian shale barrens is threatened by forest succession and mesophication, encroaching invasive plant species, and rising ambient air temperatures, all of which can alter the extent of overstory vegetation and availability of shaded microhabitats. These biotic and physical pressures will subsequently affect epigeic arthropod community composition, depending on adaptive capacity of individual taxa. To the authors’ knowledge, these findings constitute only the second published work on arthropod communities and the first to focus on epigeic taxa in this globally rare habitat type. Continued conservation of these unique, insular habitats and their adapted inhabitants requires a multifaceted approach that considers current and future conditions.

Published

2021

8. Structure of canopy and ground-dwelling arthropod communities in olive orchards is determined by the type of soil cover

Author

Jesús CASTRO, Francisco S. TORTOSA, and Antonio J. CARPIO

Subjects

olive groves, undergrowth, arthropod community, functional diversity, planted cover, spontaneous cover, bare ground, unweighted quantitative descriptors, Zoology, QL1-991

Abstract

The intensification of agriculture in olive groves, especially the modification or elimination of spontaneous vegetation, alters the relationships in arthropod communities and reduces their interactions and ecosystem services. This study was carried out in nine olive groves in which there was either a planted cover crop, spontaneous cover crop or bare ground. The interactions of ground-dwelling, canopy and flying arthropods in trophic webs were calculated for each olive grove soil management regime at the family level taking into consideration their different functional traits: feeding guilds, specific agricultural traits and trophic level. Olive groves with spontaneous cover had trophic webs with a higher number of plausible links between arthropod families and a more balanced distribution of specimens among trophic levels compared to those with planted cover and bare ground. There was a similar number of arthropod families consisting of both pests and their natural enemies in the planted cover regime, while olive groves with bare ground had simpler trophic webs. The complexity of plausible trophic links was greater in olive groves with spontaneous plant cover despite the similar values for family richness in the three-olive grove soil management regimes. Qualitative values (such as functional traits) were more diverse in agroecosystems with spontaneous plant cover in which there were more sources of food.

Published

2021

9. Urbanization affects environmental conditions for developing songbirds

Author

VanDiest, Isaac

Subjects

urbanization, arthropod community, diet, songbird, amino acids, brood parasitism

Abstract

Urbanization introduces a set of novel stressors for animals in these modified habitats. Developing young, in particular, can be at risk due to increased predation, exposure, and high food intake requirements. Song sparrows (Melospiza melodia) are a model wild songbird system that persist in both urban and rural habitats, and have young that develop very quickly. I investigated how urbanization changes the arthropod community, how that in turn affects nestling diet, and ultimately if there were any differences in nestling amino acid profiles or body condition between habitat types. Prior work found that urban habitats also have far higher rates of brood parasitism, which can additionally restrict food intake for urban nestlings. However, this prior work has also found that urban song sparrow adults avoid consequences for living in urban habitats, so I wanted to see if nestlings were also able to avoid the consequences of urban living. In chapter one, I found our urban arthropod communities had lower average arthropod abundance, biomass, and diversity when compared to rural arthropod communities. Song sparrow nestling diets differed somewhat in composition of arthropod prey items by habitat, but urban and rural nestlings had the same average biomass of stomach contents. In chapter two, I investigated whether different habitat types or brood parasitism altered body size and amino acid concentration of song sparrow nestlings. Only gamma-aminobutyric acid differed, being significantly lower in urban, parasitized nestlings. No groups differed in metrics of body condition. In chapter three, I performed a meta-analysis to investigate how brood-parasitic brown-headed cowbirds (Molothrus ater) affect host clutch size and nest success. Host clutch sizes were lower when parasitized, but surprisingly non-parasitized nests were more likely to fail. Despite lower arthropod food availability and high levels of brood parasitism, urban song sparrow nestlings are not compromised, supporting the conclusion that urbanization does not necessarily have negative consequences for individuals of this species.

Published

2024

10. Habitat characteristics and climatic factors influence microhabitat selection and arthropod community structure in a globally rare central Appalachian shale barren.

Author

Landsman, Andrew P. and Thiel, Clara R.

Subjects

ECOLOGICAL niche, SHALE, INVERTEBRATE communities, HABITATS, ARTHROPODA, FOREST succession, HABITAT selection

Abstract

The central Appalachian shale barrens, a globally unique habitat type restricted to the eastern United States, presents an insular and physiologically stressful environment with sparse vegetation and extreme ground surface and air temperatures. Despite the high levels of plant species endemism within these systems, information on invertebrate communities and habitat preferences is extremely limited.Through this study, we aimed to better understand a shale barren arthropod community, microhabitat selection, and the influence of habitat characteristics and climatic factors. We employed pitfall traps to sample epigeic arthropods during the 2016 growing season in a shale barren habitat.Arthropod community composition was driven by overstory trees, mediated through accumulated leaf litter and availability of shaded microhabitats. Ambient air temperature also influenced the surface activity of various taxa with spiders decreasing at higher temperatures and ants, crickets, flies, and harvestmen all increasing in relative abundance.Habitat integrity of the central Appalachian shale barrens is threatened by forest succession and mesophication, encroaching invasive plant species, and rising ambient air temperatures, all of which can alter the extent of overstory vegetation and availability of shaded microhabitats. These biotic and physical pressures will subsequently affect epigeic arthropod community composition, depending on adaptive capacity of individual taxa.To the authors' knowledge, these findings constitute only the second published work on arthropod communities and the first to focus on epigeic taxa in this globally rare habitat type. Continued conservation of these unique, insular habitats and their adapted inhabitants requires a multifaceted approach that considers current and future conditions. [ABSTRACT FROM AUTHOR]

Published

2021

11. Parallel paths in a miniature world.

Author

Tonkel, Kirk C., Dimitri, Lindsay A., Longland, William S., Kirchoff, Veronica S., and Rector, Brian G.

Subjects

*BERRIES, WESTERN United States history

Abstract

Keywords: arthropod community; biodiversity; juniper berry; life history; microhabitat; western United States EN arthropod community biodiversity juniper berry life history microhabitat western United States 1 5 5 10/05/21 20211001 NES 211001 What began as a straightforward seed ecology study of two juniper species that have expanded their distributions and densities in the Great Basin in recent decades (Miller et al. 2019) has become a fascinating, intercontinental lesson in extreme niche specialization and parallel evolution. 1 depicts 21 arthropod species that we have documented from seven distinct niches within berries of the three sampled western North American juniper species, along with 24 species of natural enemies that prey on them. Parallels between berry arthropod communities may prove to be informative to European juniper conservation efforts by revealing yet undiscovered berry-feeding arthropods and their natural enemies. Arthropods were collected from berries via berry dissection (39,094 dissected berries) and adult emergence in the laboratory from field-collected berries. [Extracted from the article]

Published

2021

12. Assessing the drivers of grassland ground-dwelling arthropod community composition: Integrating landscape-scale farming intensity and local environmental conditions.

Author

Brusse, Théo, Thénard, Jodie, Marrec, Ronan, and Caro, Gael

Published

2024

13. Pest consumption by generalist arthropod predators increases with crop stage in both organic and conventional farms

Author

Gen‐Chang Hsu, Jia‐Ang Ou, and Chuan‐Kai Ho

Subjects

arthropod community, biocontrol, crop stage, detritivores, diet composition, generalist predators, Ecology, QH540-549.5

Abstract

Abstract Biocontrol agents are critical for pest management in sustainable agriculture. Generalist arthropod predators may hold a great potential as biocontrol agents because they are ubiquitous and consume pests in agroecosystems. However, their diet composition over the entire crop season has rarely been quantified, which hinders our ability to assess their biocontrol potential in real field conditions that foster temporal dynamics of pest and alternative prey populations. To fill this knowledge gap, we surveyed arthropod communities over crop stages in organic and conventional rice farms (n = 7 each) and used stable isotope analysis (δ13C and δ15N) to quantify the diet composition of generalist arthropod predators over time. We aimed to (1) examine the resource partitioning (trophic niches) in these predators, (2) quantify these predators’ diet composition from potential prey sources (rice herbivores, tourist herbivores, and detritivores), and (3) investigate the effects of farm type (organic/conventional) and crop stage (tillering/flowering/ripening stage) on pest (rice herbivore) consumption by the predators. The results show that generalist predators in both organic and conventional farms shifted trophic niches over the crop season and consumed a higher percentage of rice herbivores at late than at early crop stages (e.g., 90–93% at ripening vs. 34–55% at tillering), suggesting an increasing biocontrol value over time regardless of farm type. Surprisingly, generalist predators consumed higher proportions of rice herbivores in conventional than organic farms at tillering and flowering stages, highlighting their underappreciated potential as biocontrol agents in conventional farms. These results demonstrate that although generalist arthropod predators do consume non‐pest alternative prey, they have a high biocontrol potential (per capita pest consumption) in both organic and conventional rice farms. We encourage modern agriculture to develop techniques to support robust populations of these predators and the ecosystem services that they provide.

Published

2021

14. Pest consumption by generalist arthropod predators increases with crop stage in both organic and conventional farms.

Author

Hsu, Gen‐Chang, Ou, Jia‐Ang, and Ho, Chuan‐Kai

Subjects

SUSTAINABLE agriculture, PEST control, PESTS, STABLE isotope analysis, CROPS, ORGANIC farming, ARTHROPOD pests

Abstract

Biocontrol agents are critical for pest management in sustainable agriculture. Generalist arthropod predators may hold a great potential as biocontrol agents because they are ubiquitous and consume pests in agroecosystems. However, their diet composition over the entire crop season has rarely been quantified, which hinders our ability to assess their biocontrol potential in real field conditions that foster temporal dynamics of pest and alternative prey populations. To fill this knowledge gap, we surveyed arthropod communities over crop stages in organic and conventional rice farms (n = 7 each) and used stable isotope analysis (δ13C and δ15N) to quantify the diet composition of generalist arthropod predators over time. We aimed to (1) examine the resource partitioning (trophic niches) in these predators, (2) quantify these predators' diet composition from potential prey sources (rice herbivores, tourist herbivores, and detritivores), and (3) investigate the effects of farm type (organic/conventional) and crop stage (tillering/flowering/ripening stage) on pest (rice herbivore) consumption by the predators. The results show that generalist predators in both organic and conventional farms shifted trophic niches over the crop season and consumed a higher percentage of rice herbivores at late than at early crop stages (e.g., 90–93% at ripening vs. 34–55% at tillering), suggesting an increasing biocontrol value over time regardless of farm type. Surprisingly, generalist predators consumed higher proportions of rice herbivores in conventional than organic farms at tillering and flowering stages, highlighting their underappreciated potential as biocontrol agents in conventional farms. These results demonstrate that although generalist arthropod predators do consume non‐pest alternative prey, they have a high biocontrol potential (per capita pest consumption) in both organic and conventional rice farms. We encourage modern agriculture to develop techniques to support robust populations of these predators and the ecosystem services that they provide. [ABSTRACT FROM AUTHOR]

Published

2021

15. The effects of phytase transgenic maize on the community components and diversity of arthropods.

Author

Wang, Min and Guan, Xiao

Abstract

• Planting phytase transgenic maize can not affect arthropod community composition. • Arthropod community diversity of two maize varieties has no significant difference. • Arthropod community in two maize plots is highly similar. • Planting phytase transgenic maize can not affect arthropod community stability. It is important to understand the effect of phytase transgenic (PT) maize on arthropod communities in natural ecosystems. In this study, a 2-year survey of arthropod community biodiversity in fields of PT maize (0 7 8) and non-genetically modified (RA119, non-GM) maize was performed using sweep-net sampling on the stems and leaves of the maize plants. The results showed that there was no significant difference in the individual number of herbivorous, predatory, neutral and parasitic groups in PT maize and non-GM maize. The species number of herbivorous group in PT maize was significantly lower than that in non-GM maize in 2013 (p < 0.05). The proportions of different arthropod groups were almost identical in the PT maize and non-GM maize in terms of both species and individual number. Moreover, there was no significant difference in the Shannon-Weiner diversity index (H'), evenness index (J), dominance index (D), richness (S), and species abundance (N) between the two types of maize. The similarity coefficient of the arthropod community suggested that the arthropod community composition of PT maize was similar to that of non-GM maize. Furthermore, PT maize had no significant effect on the relative stability of the arthropod community. These results indicated that despite the presence of a relatively minor difference in arthropod community between the PT maize and non-GM maize, the PT maize had little effect on arthropod community biodiversity. [ABSTRACT FROM AUTHOR]

Published

2020

16. Edge effects on trophic cascades in tropical rainforests.

Author

Harrison, Michelle Lisa Kiri and Banks‐Leite, Cristina

Subjects

*RAIN forests, *EDGE effects (Ecology), *TROPHIC cascades, *COMMUNITY forests, *TROPICAL forests, *NUTRIENT cycles, *PATH analysis (Statistics), *PLANT productivity

Abstract

The cascading effects of biodiversity loss on ecosystem functioning of forests have become more apparent. However, how edge effects shape these processes has yet to be established. We assessed how edge effects alter arthropod populations and the strength of any resultant trophic cascades on herbivory rate in tropical forests of Brazil. We established 7 paired forest edge and interior sites. Each site had a vertebrate‐exclosure, procedural (exclosure framework with open walls), and control plot (total 42 plots). Forest patches were surrounded by pasture. Understory arthropods and leaf damage were sampled every 4 weeks for 11 months. We used path analysis to determine the strength of trophic cascades in the interior and edge sites. In forest interior exclosures, abundance of predaceous and herbivorous arthropods increased by 326% and 180%, respectively, compared with control plots, and there were significant cascading effects on herbivory. Edge‐dwelling invertebrates responded weakly to exclusion and there was no evidence of trophic cascade. Our results suggest that the vertebrate community at forest edges controls invertebrate densities to a lesser extent than it does in the interior. Edge areas can support vertebrate communities with a smaller contingent of insectivores. This allows arthropods to flourish and indirectly accounts for higher levels of plant damage at these sites. Increased herbivory rates may have important consequences for floristic community composition and primary productivity, as well as cascading effects on nutrient cycling. By interspersing natural forest patches with agroforests, instead of pasture, abiotic edge effects can be softened and prevented from penetrating deep into the forest. This would ensure a greater proportion of forest remains habitable for sensitive species and could help retain ecosystem functions in edge zones. Article impact statement: Changes in vertebrate communities with edge creation lead to loss of ecosystem function in tropical forests. [ABSTRACT FROM AUTHOR]

Published

2020

17. 不同品种猕猴桃园节肢动物群落特征及主要类群生态位分析.

Author

亢菊侠, 蔡鹏, and 吴雅茹

Subjects

KIWIFRUIT, PEST control, INSECT traps, INSECT pests, EULOPHIDAE, CHRYSOPIDAE, COEXISTENCE of species, ECOLOGICAL niche

Abstract

Copyright of Journal of Agricultural Science & Technology (1008-0864) is the property of Journal of Agricultural Science & Technology and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

18. 有机肥对稻田节肢动物群落的影响 及其Top-down 效应.

Author

阳 菲, 杨 荷, 赵文华, and 刘雨芳

Abstract

Copyright of Chinese Journal of Applied Entomology is the property of Chinese Journal of Applied Entomology, Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

19. 不同生态措施苹果园主要害虫及天敌发生特征.

Author

肖云丽, 郭 炜, 唐文颖, 蔡志平, 于 凯, and 刘同先

Abstract

Copyright of Chinese Journal of Applied Entomology is the property of Chinese Journal of Applied Entomology, Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

20. Impacts of rainfall extremes predicted by climate‐change models on major trophic groups in the leaf litter arthropod community.

Author

Wise, David H., Lensing, Janet R., and Resasco, Julian

Subjects

*FOREST litter, *RAINFALL, *THROUGHFALL, *FOREST soils, *DECIDUOUS forests, *FUNGAL growth

Abstract

Arthropods in the leaf litter layer of forest soils influence ecosystem processes such as decomposition. Climate‐change models predict both increases and decreases in average rainfall. Increased drought may have greater impacts on the litter arthropod community. In addition to affecting survival or behaviour of desiccation‐sensitive species, lower rainfall may indirectly lower abundances of consumers that graze drought‐stressed fungi, with repercussions for higher trophic levels.We tested the hypothesis that trophic structure will differ between the two rainfall scenarios. In particular, we hypothesized that densities of several broadly defined trophic groupings of arthropods would be lower under reduced rainfall.To test this hypothesis, we used sprinklers to impose two rainfall treatments during three growing seasons in roofed, fenced 14‐m2 plots and documented changes in abundance from initial, pre‐treatment densities of 39 arthropod taxa. Experimental plots were subjected to either LOW (fortnightly) or HIGH (weekly) average rainfall based upon climate models and the previous 100 years of regional weekly averages. Unroofed open plots, our reference treatment (REF), experienced higher than average rainfall during the experiment.The two rainfall extremes produced clear negative effects of lowered rainfall on major trophic groups. Broad categories of fungivores, detritivores and predators were more abundant in HIGH than LOW plots by the final year. Springtails (Collembola), which graze fungal hyphae, were 3× more abundant in the HIGH rainfall treatment. Taxa of larger‐bodied fungivores and detritivores, spiders (Araneae), and non‐spider predators were 2× more abundant under HIGH rainfall. Densities of mites (Acari), which include fungivores, detritivores and predators, were 1.5× greater in HIGH rainfall plots. Abundances and community structure of arthropods were similar in REF and experimental plots, showing that effects of rainfall uncovered in the experiment are applicable to nature.This pattern suggests that changes in rainfall will alter bottom‐up control processes in a critical detritus‐based food web of deciduous forests. Our results, in conjunction with other findings on the impact of desiccation on arthropods and fungal growth, suggest that drier conditions will depress densities of fungal consumers, causing declines in higher trophic levels, with possible impacts on soil processes and the larger forest food web. [ABSTRACT FROM AUTHOR]

Published

2019

21. Non-native ungulates indirectly impact foliar arthropods but not soil function.

Author

Rodriguez-Cabal, Mariano A., Barrios-Garcia, M. Noelia, Greyson-Gaito, Christopher J., Slinn, Heather L., Tapella, M. Paz, Vitali, Agustín, and Crutsinger, Gregory M.

Abstract

One of the greatest challenges in contemporary ecology is to understand how the homogenization of biodiversity at all levels of organization and spatial scales will influence the assembly of communities and the functioning of ecosystems. Such homogenization can occur through the gain of non-native species and the loss of native species. Here, we show that by disrupting a keystone mutualistic interaction, non-native ungulates indirectly impact foliar arthropod abundance and richness, but not soil properties (soil respiration, temperature and humidity), in a temperate forest of Patagonia. The results of this study show that the gain of non-native ungulates and the loss of a key interaction can trigger unnoticed cascading effects. Our findings highlight the importance of assessing biodiversity not only as the sum of different components but also through the direct and indirect interactions among them. [ABSTRACT FROM AUTHOR]

Published

2019

22. The interplay of landscape composition and configuration: new pathways to manage functional biodiversity and agroecosystem services across Europe.

Author

Martin, Emily A., Dainese, Matteo, Clough, Yann, Báldi, András, Bommarco, Riccardo, Gagic, Vesna, Garratt, Michael P.D., Holzschuh, Andrea, Kleijn, David, Kovács‐Hostyánszki, Anikó, Marini, Lorenzo, Potts, Simon G., Smith, Henrik G., Al Hassan, Diab, Albrecht, Matthias, Andersson, Georg K.S., Asís, Josep D., Aviron, Stéphanie, Balzan, Mario V., and Baños‐Picón, Laura

Subjects

*EDGE effects (Ecology), *SPATIAL arrangement, *BIODIVERSITY, *PEST control, *SUSTAINABLE agriculture, *AGRICULTURAL ecology, *ECOSYSTEM services

Abstract

Managing agricultural landscapes to support biodiversity and ecosystem services is a key aim of a sustainable agriculture. However, how the spatial arrangement of crop fields and other habitats in landscapes impacts arthropods and their functions is poorly known. Synthesising data from 49 studies (1515 landscapes) across Europe, we examined effects of landscape composition (% habitats) and configuration (edge density) on arthropods in fields and their margins, pest control, pollination and yields. Configuration effects interacted with the proportions of crop and non‐crop habitats, and species' dietary, dispersal and overwintering traits led to contrasting responses to landscape variables. Overall, however, in landscapes with high edge density, 70% of pollinator and 44% of natural enemy species reached highest abundances and pollination and pest control improved 1.7‐ and 1.4‐fold respectively. Arable‐dominated landscapes with high edge densities achieved high yields. This suggests that enhancing edge density in European agroecosystems can promote functional biodiversity and yield‐enhancing ecosystem services. [ABSTRACT FROM AUTHOR]

Published

2019

23. Cover Crops Enhance Natural Enemies While Help Suppressing Pests in a Tea Plantation.

Author

Chen, Li-Lin, Yuan, Pei, You, Min-Sheng, Pozsgai, Gabor, Ma, Xu, Zhu, Huaiping, and Yang, Guang

Subjects

*TEA plantations, *COVER crops, *PESTS, *PEST control, *INTERCROPPING, *COWPEA, *TEA growing

Abstract

Tea is an economically important crop, consumed by billions of people. Despite the increasing market for pesticide-free products, the use of pesticide in tea is still high. In order to investigate whether intercropping promotes biological control organisms, Chamaecrista rotundifolia (Pers.) Greene, Indigofera hendecaphylla Jacq. Trifolium repens L. and Vigna sinensis (L.) were separately intercropped with free weeding as control in a tea plantation at Yangli, China. Arthropods were collected by taking sweep-net samples, and treatment effects on assemblages were investigated. The combined species richness of all arthropods and that of parasitoids was significantly increased in intercropped treatments while the species richness of herbivores and predators was only greater in C. rotundifolia and I. hendecaphylla intercropped treatments. Compared with control, the combined abundance of all arthropods, and that of herbivores was lower, while the abundance of parasitoids and its taxa was greater in all intercropped treatments. The abundance of predators and its taxa was greater only in tea plantations intercropped with C. rotundifolia or I. hendecaphylla. Of the herbivores, the abundance of Empoasca onukii Matsuda, Sternorrhyncha, Aleyrodidae, and Pentatomidae was greater in the areas intercropped with C. rotundifolia in comparison with the control, but the abundance of Thysanoptera and Geometridae caterpillars was lower. The recorded increase in the abundance of beneficial arthropods may explain the lower abundance of Thysanoptera or Geometridae caterpillars detected in the intercropped tea plantations. Our results indicate that intercropping has the potential to enhance arthropod biodiversity, and to provide an option for sustainable pest control in tea plantations. [ABSTRACT FROM AUTHOR]

Published

2019

24. 大豆/玉米间作密度对大豆田节肢动物群落 多样性和稳定性的影响.

Author

李琼, 李强, and 张晓明

Subjects

PEST control, PLANT diversity, NATURAL numbers, INTERCROPPING, MONOCULTURE agriculture, CORN, SPECIES diversity, SOYBEAN varieties

Abstract

Copyright of Journal of Southern Agriculture is the property of Journal of Southern Agriculture and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

25. The biotic and abiotic drivers of 'living' diversity in the deadly traps of Nepenthes pitcher plants.

Author

Gaume, Laurence, Bazile, Vincent, Boussès, Philippe, Le Moguédec, Gilles, and Marshall, David J.

Subjects

NEPENTHES, PITCHER plants, PLANT species diversity, SPECIES-area relationships, RESERVOIRS

Abstract

Nepenthes pitcher plants are carnivorous plants that paradoxically harbor a living infauna (the inquilines) in their pitchers, which withstands the hostile conditions of the digestive fluid and plays a role in prey digestion. Because most Nepenthes species are threatened by human activity, we aimed to assess how their inquiline communities are likewise endangered. This involved testing whether arthropod infaunal composition is Nepenthes-specific or even species-specific, as well as determining the ecological drivers of its diversity. In a field experiment in Brunei (Borneo), prey items were introduced into the fluid of newly open pitchers in four sympatric Nepenthes species, and into water control reservoirs. Abundance, species richness and Shannon diversity of metazoans in all reservoirs were analyzed 1 month later. Reservoir dimensions and fluid pH were measured, and the natural prey and vegetal detritus were identified and quantified. The inquiline diversities of the Nepenthes pitchers were much greater than those of the water controls. Dissimilarity indices showed that the inquiline composition was specific to each Nepenthes species. The fate of the inquiline community is thus intrinsically linked to that of its host plant, underlining its threatened status. Inquiline abundance was determined by pitcher aperture diameter, pitcher volume, fluid pH and the prey number. Inquiline species richness increased solely with abiotic factors, such as fluid pH and pitcher aperture diameter, and thereby with habitat area, reflecting the well-known species-area relationship, but it did not vary with species richness of prey. Nepenthes pitcher plants thus control, to some extent, the establishment of their inquilines via fluid physico-chemistry and pitcher design. From a conservation perspective, priority protection should be given to Nepenthes species with pitchers of large aperture, keystone for a broader biodiversity. [ABSTRACT FROM AUTHOR]

Published

2019

26. Research and Application of Transgenic Poplar in China

Author

Hu, Jianjun, Wang, Lijuan, Yan, Donghui, Lu, Meng-Zhu, Jain, Shri Mohan, Series editor, Häggman, Hely, Series editor, Yanchuk, Alvin D., Series editor, and Fenning, Trevor, editor

Published

2014

27. Biosafety Considerations in the Context of Deployment of GE Trees

Author

Häggman, Hely, Sutela, Suvi, Walter, Christian, Fladung, Matthias, Jain, Shri Mohan, Series editor, Häggman, Hely, Series editor, Yanchuk, Alvin D., Series editor, and Fenning, Trevor, editor

Published

2014

28. Assessing Biodiversity by Airborne Laser Scanning

Author

Müller, Jörg, Vierling, Kerri, von Gadow, Klaus, Series editor, Pukkala, Timo, Series editor, Tomé, Margarida, Series editor, Maltamo, Matti, editor, Næsset, Erik, editor, and Vauhkonen, Jari, editor

Published

2014

29. Genetic-Based Susceptibility of a Foundation Tree to Herbivory Interacts With Climate to Influence Arthropod Community Composition, Diversity, and Resilience

Author

Adrian C. Stone, Catherine A. Gehring, Neil S. Cobb, and Thomas G. Whitham

Subjects

pinyon pine, pinyon needle scale, drought, climate change, arthropod community, community resilience, Plant culture, SB1-1110

Abstract

Understanding how genetic-based traits of plants interact with climate to affect associated communities will help improve predictions of climate change impacts on biodiversity. However, few community-level studies have addressed such interactions. Pinyon pine (Pinus edulis) in the southwestern U.S. shows genetic-based resistance and susceptibility to pinyon needle scale (Matsucoccus acalyptus). We sought to determine if susceptibility to scale herbivory influenced the diversity and composition of the extended community of 250+ arthropod species, and if this influence would be consistent across consecutive years, an extreme drought year followed by a moderate drought year. Because scale insects alter the architecture of susceptible trees, it is difficult to separate the direct influences of susceptibility on arthropod communities from the indirect influences of scale-altered tree architecture. To separate these influences, scales were experimentally excluded from susceptible trees for 15 years creating susceptible trees with the architecture of resistant trees, hereafter referred to as scale-excluded trees. Five patterns emerged. (1) In both years, arthropod abundance was 3-4X lower on susceptible trees compared to resistant and scale-excluded trees. (2) Species accumulation curves show that alpha and gamma diversity were 2-3X lower on susceptible trees compared to resistant and scale-excluded trees. (3) Reaction norms of arthropod richness and abundance on individual tree genotypes across years showed genotypic variation in the community response to changes in climate. (4) The genetic-based influence of susceptibility on arthropod community composition is climate dependent. During extreme drought, community composition on scale-excluded trees resembled susceptible trees indicating composition was strongly influenced by tree genetics independent of tree architecture. However, under moderate drought, community composition on scale-excluded trees resembled resistant trees indicating traits associated with tree architecture became more important. (5) One year after extreme drought, the arthropod community rebounded sharply. However, there was a much greater rebound in richness and abundance on resistant compared to susceptible trees suggesting that reduced resiliency in the arthropod community is associated with susceptibility. These results argue that individual genetic-based plant-herbivore interactions can directly and indirectly impact community-level diversity, which is modulated by climate. Understanding such interactions is important for assessing the impacts of climate change on biodiversity.

Published

2018

30. Genetic-Based Susceptibility of a Foundation Tree to Herbivory Interacts With Climate to Influence Arthropod Community Composition, Diversity, and Resilience.

Author

Stone, Adrian C., Gehring, Catherine A., Cobb, Neil S., and Whitham, Thomas G.

Subjects

SPECIES diversity, CLIMATE change, PINYON pines

Abstract

Understanding how genetic-based traits of plants interact with climate to affect associated communities will help improve predictions of climate change impacts on biodiversity. However, few community-level studies have addressed such interactions. Pinyon pine (Pinus edulis) in the southwestern U.S. shows genetic-based resistance and susceptibility to pinyon needle scale (Matsucoccus acalyptus). We sought to determine if susceptibility to scale herbivory influenced the diversity and composition of the extended community of 250+ arthropod species, and if this influence would be consistent across consecutive years, an extreme drought year followed by a moderate drought year. Because scale insects alter the architecture of susceptible trees, it is difficult to separate the direct influences of susceptibility on arthropod communities from the indirect influences of scale-altered tree architecture. To separate these influences, scales were experimentally excluded from susceptible trees for 15 years creating susceptible trees with the architecture of resistant trees, hereafter referred to as scale-excluded trees. Five patterns emerged. (1) In both years, arthropod abundance was 3-4X lower on susceptible trees compared to resistant and scale-excluded trees. (2) Species accumulation curves show that alpha and gamma diversity were 2-3X lower on susceptible trees compared to resistant and scale-excluded trees. (3) Reaction norms of arthropod richness and abundance on individual tree genotypes across years showed genotypic variation in the community response to changes in climate. (4) The genetic-based influence of susceptibility on arthropod community composition is climate dependent. During extreme drought, community composition on scale-excluded trees resembled susceptible trees indicating composition was strongly influenced by tree genetics independent of tree architecture. However, under moderate drought, community composition on scale-excluded trees resembled resistant trees indicating traits associated with tree architecture became more important. (5) One year after extreme drought, the arthropod community rebounded sharply. However, there was a much greater rebound in richness and abundance on resistant compared to susceptible trees suggesting that reduced resiliency in the arthropod community is associated with susceptibility. These results argue that individual genetic-based plant-herbivore interactions can directly and indirectly impact community-level diversity, which is modulated by climate. Understanding such interactions is important for assessing the impacts of climate change on biodiversity. [ABSTRACT FROM AUTHOR]

Published

2018

31. Einfluss perennierender und annueller Fruchtarten auf Arthropodengesellschaften - Dynamik und Triebkräfte in Agrar-Ökosystemen.

Author

Heyer, Wolfgang, Deter, André, von Eckstädt, Sebastian Vitzthum, and Reinicke, Frank

Abstract

Investigations with pitfall traps into the influence of crop species on the dynamics of arthropod communities are presented. They included four perennial crops (extensive grassland, miscanthus and poplar and willow tree species) as well as winter barley as annual crop. The cultivars determined the diversity (Shannon-Weaver-Index) of arthropod communities, whereby the diversity of the tree species was mostly statistically different from the diversity in agricultural crops. This finding was due to temporal changes in the species stock (species identity) and the species dominance (dominance identity) and demonstrates high dynamics of arthropod presence within and between crops. The crop species lead to temporally and locally separated metapopulations. Possible driving forces stimulating the adaptation of arthropod communities to crops were analyzed by recording the energy status of the cropping systems. It was based on management data, plant yields and accompanying information about biomass accumulation. The term "agricultural energy gain" summarizes these influences on the energy level. The return of biomass to the cultivation system was described as "ecosystem energy gain". Both parameters elucidate the arthropod presence within the crops. Increasing agricultural energy gain was negatively related in contrast to the energy gain of the entire ecosystem. Furthermore, the splitting of arthropods into functional groups helped to explain the species and dominance variation of arthropod communities between crops. This is based on the need for energy dissipation and influences the energy flow across trophic levels. The position of arthropod species within the food web gets modified. The results show that energy-based data serve to evaluate the biodiversity status of cropping systems. They can be the basis for derivation of indirect status or impact indicators. In addition, the findings promote the understanding of ecosystem processes and the meaning of "intensity" in the context of ecologically sustainable land use. [ABSTRACT FROM AUTHOR]

Published

2018

32. Contrasting arthropod communities associated with dwarf mistletoes Arceuthobium globosum and A. vaginatum and their host Pinus hartwegii.

Author

Chávez-Salcedo, León F., Queijeiro-Bolaños, Mónica E., López-Gómez, Víctor, Cano-Santana, Zenón, Mejía-Recamier, Blanca E., and Mojica-Guzmán, Aurea

Abstract

Arthropod communities and epiphytic plants associated with tree canopies have been widely studied and have revealed a great diversity of organisms; however, the community hosted by parasitic plants, such as dwarf mistletoes, remains poorly known. In the coniferous forests of North America, dwarf mistletoe infection (Arceuthobium spp.) significantly damages the health of the forest, causing large financial losses for the forest industry, but it also positively affects diversity, especially of mammals and birds. This study examined the attributes of the arthropod communities associated with two species of dwarf mistletoe [Arceuthobium globosum Hawksw. & Wiens and A. vaginatum (Humb. & Bonpl. ex Willd.) J. Presl] and their host Pinus hartwegii Lindl. In 2010, in five sites located in Zoquiapan (Central Mexico), we collected plant tissue from the three species bimonthly. Arthropods were separated from the plant tissue and identified to the finest level possible. We collected 32,059 individuals, for which 51 morphospecies were identified, belonging to 15 taxonomic orders; the most abundant orders for the three plants were Prostigmata, Thysanoptera and Homoptera. The community associated with P. hartwegii had the highest value of diversity (H′ = 1.47; A. globosum, H′ = 0.64; A. vaginatum, H′ = 0.68) and species richness (S = 40; A. globosum, S = 30; A. vaginatum, S = 35); while abundance was significantly higher for the mistletoes (A. globosum, n = 407 individuals/sample; A. vaginatum, n = 536 individuals/sample; P. hartwegii, n = 134 individuals/sample). Species richness, abundance and diversity were significantly different for the three studied plants, as well for sampling month and the interaction of these two factors (except for diversity). The results suggest that the canopy of P. hartwegii is an important element in the ecosystem, providing a mosaic of resources and conditions to the associated fauna. We also propose that mistletoes are key species within the forest canopy, as they greatly influence the establishment of diverse organisms, particularly arthropods. [ABSTRACT FROM AUTHOR]

Published

2018

33. Ant-Hemipteran Mutualisms: Keystone Interactions that Alter Food Web Dynamics and Influence Plant Fitness : Consequences of Ant-Hemipteran Mutualisms for Biocontrol

Author

Eubanks, Micky D., Styrsky, John D., Brodeur, Jacques, editor, and Boivin, Guy, editor

Published

2006

34. The Influence of Intraguild Predation on the Suppression of a Shared Prey Population: An Empirical Reassessment

Author

Rosenheim, Jay A., Harmon, Jason P., Brodeur, Jacques, editor, and Boivin, Guy, editor

Published

2006

35. Long-term resource addition to a detrital food web yields a pattern of responses more complex than pervasive bottom-up control

Author

Kendra L. Lawrence and David H. Wise

Subjects

Leaf litter, Arthropod community, Field experiment, Control processes, Detritus, Long-term, Medicine, Biology (General), QH301-705.5

Abstract

Background Theory predicts strong bottom-up control in detritus-based food webs, yet field experiments with detritus-based terrestrial systems have uncovered contradictory evidence regarding the strength and pervasiveness of bottom-up control processes. Two factors likely leading to contradictory results are experiment duration, which influences exposure to temporal variation in abiotic factors such as rainfall and affects the likelihood of detecting approach to a new equilibrium; and openness of the experimental units to immigration and emigration. To investigate the contribution of these two factors, we conducted a long-term experiment with open and fenced plots in the forest that was the site of an earlier, short-term experiment (3.5 months) with open plots (Chen & Wise, 1999) that produced evidence of strong bottom-up control for 14 taxonomic groupings of primary consumers of fungi and detritus (microbi-detritivores) and their predators. Methods We added artificial high-quality detritus to ten 2 × 2-m forest-floor plots at bi-weekly intervals from April through September in three consecutive years (Supplemented treatment). Ten comparable Ambient plots were controls. Half of the Supplemented and Ambient plots were enclosed by metal fencing. Results Arthropod community structure (based upon 18 response variables) diverged over time between Supplemented and Ambient treatments, with no effect of Fencing on the multivariate response pattern. Fencing possibly influenced only ca. 30% of the subsequent univariate analyses. Multi- and univariate analyses revealed bottom-up control during Year 1 of some, but not all, microbi-detritivores and predators. During the following two years the pattern of responses became more complex than that observed by Chen & Wise (1999). Some taxa showed consistent bottom-up control whereas others did not. Variation across years could not be explained completely by differences in rainfall because some taxa exhibited negative, not positive, responses to detrital supplementation. Discussion Our 3-year experiment did not confirm the conclusion of strong, pervasive bottom-up control of both microbi-detritivores and predators reported by Chen & Wise (1999). Our longer-term experiment revealed a more complex pattern of responses, a pattern much closer to the range of outcomes reported in the literature for many short-term experiments. Much of the variation in responses across studies likely reflects variation in abiotic and biotic factors and the quality of added detritus. Nevertheless, it is also possible that long-term resource enhancement can drive a community towards a new equilibrium state that differs from what would have been predicted from the initial short-term responses exhibited by primary and secondary consumers.

Published

2017

36. Increased grassland arthropod production with mammalian herbivory and eutrophication: a test of mediation pathways.

Author

Lind, Eric M., La Pierre, Kimberly J., Seabloom, Eric W., Alberti, Juan, Iribarne, Oscar, Firn, Jennifer, Gruner, Daniel S., Kay, Adam D., Pascal, Jesus, Wright, Justin P., Yang, Louie, and Borer, Elizabeth T.

Subjects

*BIOTIC communities, *GLOBAL environmental change, *GENETIC speciation, *ECOLOGICAL disturbances, *FERTILIZATION (Biology)

Abstract

Increases in nutrient availability and alterations to mammalian herbivore communities are a hallmark of the Anthropocene, with consequences for the primary producer communities in many ecosystems. While progress has advanced understanding of plant community responses to these perturbations, the consequences for energy flow to higher trophic levels in the form of secondary production are less well understood. We quantified arthropod biomass after manipulating soil nutrient availability and wild mammalian herbivory, using identical methods across 13 temperate grasslands. Of experimental increases in nitrogen, phosphorus, and potassium, only treatments including nitrogen resulted in significantly increased arthropod biomass. Wild mammalian herbivore removal had a marginal, negative effect on arthropod biomass, with no interaction with nutrient availability. Path analysis including all sites implicated nutrient content of the primary producers as a driver of increased arthropod mean size, which we confirmed using 10 sites for which we had foliar nutrient data. Plant biomass and physical structure mediated the increase in arthropod abundance, while the nitrogen treatments accounted for additional variation not explained by our measured plant variables. The mean size of arthropod individuals was 2.5 times more influential on the plot-level total arthropod biomass than was the number of individuals. The eutrophication of grasslands through human activity, especially nitrogen deposition, thus may contribute to higher production of arthropod consumers through increases in nutrient availability across trophic levels. [ABSTRACT FROM AUTHOR]

Published

2017

37. The effects of transgenic Bt rice on arthropod community structure during storage.

Author

Wagan, T. A., Cai, W-L., Hua, H-X., Yang, S., Wang, P., and Gao, G-L.

Subjects

*BACILLUS thuringiensis, *ARTHROPODA classification, *PLANT-pathogen relationships, *RICE varieties, RICE genetics

Abstract

Effects of transgenic Bacillus thuringiensis (Bt) riceandnon-Bt riceonthe arthropod community structure during storage were studied. Dried and cleaned grains (200 kg of F1 hybrid transgenic rice) from each rice variety were stored at unlidded ceramic pots (100 cm high, 80 cm diameter), and then stored in a 10-year-old barn. To investigate the species and number of arthropods using a needle-point sampler, each pot had 1 kg of grain sampled from both the upper layer (0–35 cm) and the lower layer (35–70 cm) every 15 days. The results showed 12 species of arthropods including Corrodentia, Acarina, Chelonethida, Lepidoptera, Coleoptera and Hymenoptera were found. No significant differences were observed in the community structure parameters of the arthropods between transgenic Bt rice and non-Bt rice. In both rice varieties, Liposcelis bostrychophilus exhibited the highest level of abundance of community structure, followed by Rhizopertha dominica and Tyrophagus putrescentiae. Overall, there was no significant difference in the temporal dominance curve profiles of the three dominant arthropods between Bt and non-Bt rice. Our results indicated that transgenic Bt rice generally exerts no remarkable negative effects on the arthropod community during storage. [ABSTRACT FROM AUTHOR]

Published

2017

38. Aphid as a network creator for the plant-associated arthropod community and its consequence for plant reproductive success.

Author

Ando, Yoshino, Utsumi, Shunsuke, and Ohgushi, Takayuki

Subjects

*APHIDS, *ARTHROPODA ecology, *PLANT reproduction, *ANIMAL species, *FOOD chains, *STRUCTURAL equation modeling

Abstract

Ecological communities consist of antagonistic and mutualistic interactions that can vary in their strength. Indirect effects act among species within or across trophic levels through multiple pathways in an interaction network. Although there are many studies showing indirect effects in ecological communities, we know little about how indirect effects impact the wider community by linking other direct and indirect interactions., Herbivore-induced indirect effects are ubiquitous and powerful forces in structuring ecological communities. In a plant-associated network, aphids have the potential to connect multiple interactions through ant- and plant-mediated indirect effects on co-occurring and/or temporally separated species., We examined how aphids affect the interaction network on tall goldenrod, Solidago altissima, based on data of arthropod species on it with and without the aphid, Uroleucon nigrotuberculatum, using structural equation modelling (SEM) analysis., The presence of aphids greatly changed the strength of several species interactions throughout the season. In the early season, aphids had negative indirect effects on leafhoppers and moth caterpillars through ants. On the other hand, aphid-induced leaf regrowth decreased scale insects but increased grasshoppers in the late season, when the aphid was no longer present. Moreover, the aphid-generated interactions increased seed production of tall goldenrods, due to indirect pathways through the leaf regrowth., The aphid thus played a critical role as a network creator in determining the interaction network by generating ant- and plant-mediated indirect effects. In particular, the aphid-induced leaf regrowth contributed to interaction diversity (i.e. total number of positive/negative interactions and link density per each species) by connecting arthropod species in the early and late seasons., We disentangled the complexity of direct and indirect pathways generated by the aphid (i.e. keystone herbivore), which largely determines community structure of associated arthropods and plant reproductive success. Our study combining ant- and plant-mediated indirect interactions mediated by the aphid provides a basis of better understanding of the underlying mechanisms of how the impact of the keystone herbivore can spread through plant-based insect networks via direct and indirect pathways., A is available for this article. [ABSTRACT FROM AUTHOR]

Published

2017

39. How does Insecticidal Control of Grasshoppers Affect Non-Target Arthropods?

Author

Sokolov, I. M., Lockwood, Jeffrey A., editor, Latchininsky, Alexandre V., editor, and Sergeev, Michael G., editor

Published

2000

40. Arthropods Inhabiting Rodent Burrows in the Karakum Desert

Author

Krivokhatsky, Victor A., Dumont, H. J., editor, Werger, M. J. A., editor, Fet, Victor, editor, and Atamuradov, Khabibulla I., editor

Published

1994

41. Crop Diversity at the Landscape Level Affects the Composition and Structure of the Vegetation-Dwelling Arthropod Communities in Naked Oat (Avena Chinensis) Fields

Author

Kun Wang, Lizhu Guo, Huan Zhao, and Jiahuan Li

Subjects

0106 biological sciences, Avena, Pollination, Health, Toxicology and Mutagenesis, Biodiversity, lcsh:Medicine, biological pest control, Biology, herbivorous pests, 010603 evolutionary biology, 01 natural sciences, Article, Abundance (ecology), Animals, Herbivory, Arthropods, Ecosystem, planting pattern, Herbivore, arthropod community, Ecology, lcsh:R, Public Health, Environmental and Occupational Health, Intercropping, 04 agricultural and veterinary sciences, Vegetation, farmland landscape, biology.organism_classification, crop diversity, Crop diversity, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Species richness, natural enemy

Abstract

The expansion of agriculture and intensive mechanized production have resulted in the loss of habitats and biodiversity, which has led to the loss of ecological services such as the biological control of pests and diseases, and insect-borne pollination. Current studies mainly focus on the impact of small-scale crop diversity (such as intercropping) on ecological service but lack research on the effects of crop diversity at the landscape scale. In this study, vegetation-dwelling arthropods in naked oat (Avena chinensis) fields under different planting patterns were collected at different growth stages by standardized sweep netting sampling, and the differences in arthropod communities and temporal dynamics were analyzed. Taking this information as an example, the effects of crop diversity at the landscape scale caused by different planting patterns on arthropod communities were studied. It was found that herbivores were the most abundant functional group in the arthropod community in naked oat fields, accounting for 70.13% of the total abundance, followed by natural enemies, accounting for 23.45%, and, finally, other insects. The abundance and species richness of natural enemies in naked oat fields under diversified planting pattern were significantly higher than those under intensive planting pattern, while the abundance and species richness of herbivorous pests showed no significant difference between the two planting patterns. Planting patterns significantly affected the composition and structure of arthropod communities in naked oat fields. Significantly higher ratio of natural enemy to pest and more diverse natural enemies under the diversified planting pattern have shown better biological control potential and the significance of biodiversity protection.

Published

2021

42. Modelling potential natural pest control ecosystem services provided by arthropods in agricultural landscapes.

Author

Perennes, Marie, Diekötter, Tim, Hoffmann, Hannes, Martin, Emily A., Schröder, Boris, and Burkhard, Benjamin

Subjects

*ECOSYSTEM services, *SUSTAINABLE agriculture, *ARTHROPODA, *ECOLOGICAL niche, *SPECIES distribution, *BIODIVERSITY conservation

Abstract

Natural pest control has the potential to reduce pesticide use. Therefore, it has an essential role to play in the transition towards a more sustainable agriculture. For the prediction of natural pest control, it is essential to understand the distribution of the species providing this ecosystem service. The presence of pests and natural enemies depends on a combination of abiotic and biotic factors, each playing a determining role at different spatial scales. We developed a hierarchical model composed of environmental predictors including bioclimatic and land use variables at the European scale, as well as landscape complexity and biotic interactions at the landscape scale. This paper presents the predicted distribution of 111 species from seven different arthropod families (two pest aphid species and their natural enemy species) in an agricultural region in northern Germany. The hierarchical framework allows determining the capacity of landscapes to support pest control ecosystem services provided by arthropods at the local scale and informs on vulnerable areas or potential mismatches between natural pest control demand and supply. Thereby it can support the design of local scale measures for habitat improvement, biodiversity conservation and the increase of ecosystem services supply. The hierarchical approach can be adapted to other agroecosystems and leaves potential for further adaptations to improve the prediction of pests and their natural enemy distribution, dynamics and factors influencing their spatial distribution. • We developed a natural pest control model using ecological niche and landscape ecological approaches. • Environmental predictors were integrated into a spatial scale-dependent hierarchical framework. • The model was tested in an agriculture-dominated study area in northern Germany. • The model can be used to predict natural pest control potential and potential mismatch with the local demand. [ABSTRACT FROM AUTHOR]

Published

2023

43. Genetically based latitudinal clines in Artemisia californica drive parallel clines in arthropod communities.

Author

Pratt, Jessica D., Datu, Andrew, Tran, Thi, Sheng, Daniel C., and Mooney, Kailen A.

Subjects

*ARTEMISIA, *ARTHROPODA, *COMPETITION (Biology), *BIOCHEMICAL variation, *FUNGAL variation, *GENETIC distance, *CLINES

Abstract

Intraspecific variation in plant traits has been clearly shown to drive the structure of associated arthropod communities at the spatial scale of individual plant populations. Nevertheless, it is largely unknown whether plant trait variation among populations drives landscape-scale variation in arthropod communities, and how the strength of such plant genetic effects compares to, and interacts with, those of environmental variation. We documented the structure of arthropod communities on Artemisia californica for two consecutive years in a common garden of plants sourced from five populations along a 5° latitudinal gradient and grown under precipitation treatments approximating the four-fold difference between the north and south range margins for this species. Previous study of plant traits from this garden documented clinal genetic variation, suggesting local adaptation to this environmental gradient, as well as effects of precipitation manipulation that were consistent among populations (i.e., no genotype-by-environment interaction). Within the common garden, arthropod density, evenness, and diversity increased clinally with population source latitude, and arthropod community composition (i.e., species relative abundance) showed a north-south divide. The 2.6-fold cline of northward increase in arthropod density in the common garden was mirrored by a 6.4-fold increase in arthropod density on wild plants sampled along the species range. In contrast to the strong influence of plant genotype, the precipitation manipulation only influenced arthropod community composition, and plant genetic effects on arthropods operated independently of precipitation regime (no genotype-by-environment interaction). Accordingly, we conclude that the strongest driver of landscape-level variation in arthropod communities in this foundational plant species is not variation in the abiotic environment itself, but rather variation in plant traits underlain by the evolutionary process of plant local adaptation. [ABSTRACT FROM AUTHOR]

Published

2017

44. Structure of canopy and ground-dwelling arthropod communities in olive orchards is determined by the type of soil cover

Author

Ministerio de Economía y Competitividad (España), European Commission, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Universidad de Castilla La Mancha, Castro, Jesús, Tortosa, Francisco S., Carpio, Antonio J., Ministerio de Economía y Competitividad (España), European Commission, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Universidad de Castilla La Mancha, Castro, Jesús, Tortosa, Francisco S., and Carpio, Antonio J.

Abstract

The intensification of agriculture in olive groves, especially the modification or elimination of spontaneous vegetation, alters the relationships in arthropod communities and reduces their interactions and ecosystem services. This study was carried out in nine olive groves in which there was either a planted cover crop, spontaneous cover crop or bare ground. The interactions of ground-dwelling, canopy and flying arthropods in trophic webs were calculated for each olive grove soil management regime at the family level taking into consideration their different functional traits: feeding guilds, specific agricultural traits and trophic level. Olive groves with spontaneous cover had trophic webs with a higher number of plausible links between arthropod families and a more balanced distribution of specimens among trophic levels compared to those with planted cover and bare ground. There was a similar number of arthropod families consisting of both pests and their natural enemies in the planted cover regime, while olive groves with bare ground had simpler trophic webs. The complexity of plausible trophic links was greater in olive groves with spontaneous plant cover despite the similar values for family richness in the three-olive grove soil management regimes. Qualitative values (such as functional traits) were more diverse in agroecosystems with spontaneous plant cover in which there were more sources of food.

Published

2021

45. Taxonomic and functional composition of arthropod assemblages across contrasting Amazonian forests.

Author

Lamarre, Greg P. A., Hérault, Bruno, Fine, Paul V. A., Vedel, Vincent, Lupoli, Roland, Mesones, Italo, Baraloto, Christopher, and Cottenie, Karl

Subjects

*ARTHROPOD populations, *RAIN forest ecology, *ARTHROPODA classification, *HABITATS, *BIOGEOGRAPHY

Abstract

1. Arthropods represent most of global biodiversity, with the highest diversity found in tropical rain forests. Nevertheless, we have a very incomplete understanding of how tropical arthropod communities are assembled. 2. We conducted a comprehensive mass sampling of arthropod communities within three major habitat types of lowland Amazonian rain forest, including terra firme clay, white-sand and seasonally flooded forests in Peru and French Guiana. We examined how taxonomic and functional composition (at the family level) differed across these habitat types in the two regions. 3. The overall arthropod community composition exhibited strong turnover among habitats and between regions. In particular, seasonally flooded forest habitats of both regions comprised unique assemblages. Overall, 17.7% (26 of 147) of arthropod families showed significant preferences for a particular habitat type. 4. We present a first reproducible arthropod functional classification among the 147 taxa based on similarity among 21 functional traits describing feeding source, major mouthparts and microhabitats inhabited by each taxon. We identified seven distinct functional groups whose relative abundance contrasted strongly across the three habitats, with sap and leaf feeders showing higher abundances in terra firme clay forest. 5. Our novel arthropod functional classification provides an important complement to link these contrasting patterns of composition to differences in forest functioning across geographical and environmental gradients. This study underlines that both environment and biogeographical processes are responsible for driving arthropod taxonomic composition while environmental filtering is the main driver of the variance in functional composition. [ABSTRACT FROM AUTHOR]

Published

2016

46. Risk of spider predation alters food web structure and reduces local herbivory in the field.

Author

Bucher, Roman, Menzel, Florian, and Entling, Martin

Subjects

*SPIDER behavior, *ARTHROPODA, *PREDATORY animals, *HERBIVORES, *MYRMICA

Abstract

Predators can indirectly enhance plant performance via herbivore suppression, with both prey consumption and changes in prey traits (e.g. changes in foraging behaviour) contributing to the reduction in herbivory. We performed a field experiment to determine the extent of such non-consumptive effects which consisted of repeatedly placing spiders ( Pisaura mirabilis) on enclosed plants ( Urtica dioica) for cue deposition. Control plants were enclosed in the same way but without spiders. After cue deposition, the enclosures were removed to allow arthropods to colonize the plants and feed on them. Arthropods were removed from the plants before the subsequent spider deposition or control enclosure. During six cycles of enclosure, we quantified leaf damage on the plants. After a seventh cycle, the colonizing arthropods were sampled to determine community composition in relation to the presence/absence of spider cues. We found that the presence of chemotactile spider cues reduced leaf damage by 50 %. In addition, spider cues led to changes in the arthropod community: smaller spiders avoided plants with spider cues. In contrast, the aphid-tending ant Myrmica rubra showed higher recruitment of workers on cue-bearing plants, possibly to protect aphids. Our results show that the risk of spider predation can reduce herbivory on wild plants and also demonstrate that non-consumptive effects can be particularly strong within the predator guild. [ABSTRACT FROM AUTHOR]

Published

2015

47. Effects of sika deer browsing on the arthropod communities on understory vegetation in a thinned Japanese cypress plantation.

Author

Katagiri, Nana and Hijii, Naoki

Subjects

SIKA deer, BROWSING (Animal behavior), ARTHROPODA, CYPRESS, HABITATS

Abstract

We assessed how arthropod communities on understory vegetation are affected by sika deer browsing in a Japanese cypress plantation in central Japan, about 5 years after thinning, by comparing understory plants and arthropod communities between fenced and unfenced plots at two different scales. Deer browsing reduced the volume of plants per plot, which is a quantitative index of understory habitat for arthropods. As a result, the per-plot abundances of the herbivore guild and the tourist guild, including epiphyte fauna, scavengers, ants, and unknown taxa, which mainly use plants as temporary rests or habitats, decreased. Because the abundance of prey (herbivores and tourists) declined, the per-plot abundance of the predator guild, including parasitoids, also decreased. Thus, the negative effect of deer browsing cascaded from understory vegetation to higher trophic levels on a per-plot scale. In the plants preferred by deer, however, browsing increased the number of twigs and leaves per unit plant volume, which represents the structural complexity of plants and thus is an index of habitat quality for arthropods. At the per-unit-plant-volume scale, the abundances of the herbivore and tourist guilds increased, followed by a subsequent increment in the abundance of the predator guild. In the present thinned plantation, deer browsing improved the habitat quality (per unit plant volume), although it reduced the quantity of habitat (per plot). Thus, deer browsing had a positive cascading effect on the abundance of arthropod communities at the unit-plant-volume scale, but the negative effect at the plot scale outweighed this positive effect. [ABSTRACT FROM AUTHOR]

Published

2015

48. Asymmetrical responses of forest and 'beyond edge' arthropod communities across a forest-grassland ecotone.

Author

Lacasella, Federica, Gratton, Claudio, Felici, Stefano, Isaia, Marco, Zapparoli, Marzio, Marta, Silvio, and Sbordoni, Valerio

Subjects

ECOTONES, GRASSLANDS, ARTHROPODA, GROUND beetles, EMPIRICAL research, ECOLOGICAL heterogeneity

Abstract

Historically, where forest habitats are deemed as the pristine landscape state, anthropogenic habitats such as managed grasslands or open spaces are often perceived to be antagonistic and of secondary conservation priority. Traditionally, studies on biodiversity responses to ecological variation, i.e. edge effect, have mostly focused on forest habitats. Yet recently there has been increased attention on communities beyond the forest edge in an effort to better understand how interactions between forests and adjacent habitats may potentially affect regional biodiversity. However, in Europe and the Mediterranean basin (a biodiversity hotspot), areas with high landscape heterogeneity and high edge density, there is a paucity of studies analysing the community responses across forest and 'beyond edge' habitats across ecotones. In a protected area of central Italy, we investigated the responses of ground-dwelling arthropods [Araneae (spiders), Chilopoda (centipedes) and Carabidae (ground beetles)], which were differentiated into habitat-specific guilds (forest, edge and grassland species) across a forest-grassland ecotone. We investigated the extent to which a habitat edge influenced communities of arthropods associated with either the forest or grassland, and how far from the edge this effect penetrated into each habitat. Twelve 150 m-transects perpendicular to a forest-grassland edge were established and arthropods were sampled at nine progressive distances across the ecotone. An indicator species analysis was used to detect species significantly associated with forest, edge-belt or grassland habitats, which were assumed representative of the respective communities. Logistic models of indicator species richness and abundances were used to describe responses of grassland and forest communities across the ecological boundaries. We found that grassland and edge habitats had habitat specialists and higher species richness compared to the forest habitat. Moreover, the occurrence of grassland-specific species was influenced by the presence of an edge up to 15 m from the habitat border. In contrast forest-associated indicator species were not affected by proximity to the habitat edge, rather individuals typical of forest habitats tended to 'spill over' into grassland habitats. These findings support the hypothesis that in a forest-grassland mosaic, forest species are less sensitive to an edge and influence the community beyond the forest edge and into the grassland more than the reverse, i.e. the effect was asymmetric. From these data, we estimated that a minimum grassland habitat width of 600 m is necessary for grassland species to maintain a core area that is relatively unaffected by the spillover of species from adjacent forest habitats. Incorporating the directional influences of adjacent communities on each other allows for an empirical assessment of habitat vulnerability that doesn't a priori value the conservation of one habitat over another. [ABSTRACT FROM AUTHOR]

Published

2015

49. Bison Grazing Increases Arthropod Abundance and Diversity in a Tallgrass Prairie.

Author

Moran, Matthew D.

Subjects

BISON, GRAZING, ARTHROPOD diversity, UNGULATES, PLANT biomass

Abstract

How grazing-induced ecosystem changes by ungulates indirectly affect other consumers is a question of great interest. I investigated the effect of grazing by American Bison ( Bos bison L.) on an arthropod community in tallgrass prairie. Grazing increased the abundance of arthropods, an increase that was present in both herbivorous and carnivorous assemblages, but not in detritivores. The increase in herbivores and reduction in plant biomass from grazing resulted in an arthropod herbivore load almost three times higher in grazed plots compared with controls. Among herbivores, the sap-feeding insect guild was dramatically more abundant, while chewing herbivores were not affected. Herbivorous and carnivorous arthropod richness was higher in grazed plots, although the response was strongest among herbivores. Arthropod abundance on individual grasses and forbs was significantly higher in grazed areas, while plant type had no effect on abundance, indicating that the change was ecosystem-wide and not simply in response to a reduction in grass biomass from grazing. The response of arthropods to grazing was strongest in the early part of the growing season. Published research shows that ungulate grazing, although decreasing available biomass to other consumers, enhances plant quality by increasing nitrogen level in plants.Thearthropod results of this study suggest higher plant quality outweighs the potential negative competitive effects of plant biomass removal, although other activities of bison could not be ruled out as the causative mechanism. Because arthropods are extremely abundant organisms in grasslands and a food source for other consumers, bison may represent valuable management tools for maintaining biodiversity. [ABSTRACT FROM AUTHOR]

Published

2014

50. No Direct Effects of Two Transgenic Bt Rice Lines, T1C-19 and T2A-1, on the Arthropod Communities.

Author

Lu, Z. B., Tian, J. C., Han, N. S., Hu, C., Peng, Y. F., Stanley, David, and Ye, G. Y.

Subjects

ARTHROPOD populations, TRANSGENIC rice, PADDY fields, PLANTING, RICE, HOSTS (Biology)

Abstract

A 2-yr field trial was conducted to assess the impacts of two new transgenic Bt rice lines, T1C-19 expressing Cry1C protein and T2A-1 expressing Cry2A protein, on the arthropod community sampled via vacuum. All the arthropods were classified into five guilds, including herbivores, parasitoids, predators, detritivores, and others. The seasonal density and dominance distribution of each guild and community-level indices (species richness, Shannon-Wiener diversity index, Simpson diversity index, and evenness index) were compared among rice types. Principal response curves were used to investigate the differences of entire arthropod community of Bt rice plots relative to non-Bt rice plots. The results showed no significant difference was detected in the community-level indices and dominance distribution of guilds between Bt and non-Bt rice plots. The seasonal density of herbivores, detritivores, and others as well as density of the arthropod overall community were also not significantly affected by rice types in either year, although the density of predators and parasitoids in Bt rice plots was significantly lower than those in non-Bt rice plots. The lower abundances of Braconidae, Eulophidae, Cyrtorhinus lividipennis (Reuter) (Hemiptera: Miridae), and Theridiidae in Bt rice plots are likely attributed to the lower abundances of prey species or hosts. Principal response curves revealed that arthropod community in Bt was similar with that in non-Bt rice plots. In conclusion, our findings indicate that these two tested Bt rice lines had no marked negative effects on the arthropod community in the paddy fields. [ABSTRACT FROM AUTHOR]

Published

2014