Your search keyword '"SPIDER webs"' showing total 2,944 results

51. A comparison of real-world outdoor aging of Bacillus thuringiensis bioaerosols using Goldberg rotating drums and synthetic spider webs in Conroe, Texas.

Author

Kinahan, Sean M., Lucero, Gabriel A., Tezak, Matthew S., Hommema, Kevin, Gemmer, Paul, Scribben, Eric, Hawkyard, Thomas, Collins, Don R., Crown, Kevin K., and Santarpia, Joshua L.

Subjects

*SPIDER webs, *BACILLUS thuringiensis, *MICROBIOLOGICAL aerosols, *WEATHER, *DRUM playing, *AEROSOLS

Abstract

There are two predominant methods for understanding and studying bioaerosol aging: capture on microfibers, and Goldberg rotating drums. There are advantages and disadvantages to each approach depending on the experimental needs, cost, and timeline, but they have rarely been compared in parallel to determine the similarity of results. Experiments that use Goldberg drums have the advantage of studying aerosol particles in suspension, but due time resolution of aging processes is limited by chamber volume, sample volumes, and aerosol loss mechanisms. For microfiber experiments, particles are adhered to the fiber, and so only simulate natural aerosols, but there are significant advantages since particles are not lost during aging and the time resolution is not limited by sampling. In this study, we compared outdoor UV-transmitting Goldberg rotating drums with polymethyl methacrylate (PMMA) synthetic spider web material in a complex real-world environment during a summer near Houston, Texas. Bacillus thuringiensis al hakam spores were aerosolized into UV-transmitting, gas-permeable chambers that allowed relevant exposure to real-world atmospheric conditions while isolating particles of interest. Aging was compared for up to 4 h in both sunlight exposed and protected environments to compare and quantify relative degradation rates. The two disparate methodologies yielded similar results, with no statistical difference found in three out of four combinations of carbon-filtered air vs. ambient air, and protection from sunlight vs. exposure to sunlight, but this could vary for other particle sizes or organisms. Copyright © 2023 American Association for Aerosol Research [ABSTRACT FROM AUTHOR]

Published

2024

52. Unrevealing components of risk assessment: escape behaviour and refuge use in a web-building spider.

Author

Moura, Rafael Rios, Prado, Paulo Inacio, and Vasconcellos-Neto, João

Subjects

*BEHAVIORAL assessment, *RISK assessment, *SPIDER webs, *JUMPING spiders, *RAZORS, *SPIDERS, *PREDATION

Abstract

Optimal escape models assume that decisions to escape after a predation attempt depend on the initial risk assessment. However, few studies have explored animals' decisions to return to normal activities after their first escape and how the ecological context influences these behaviours. To address these gaps, we investigated the influence of substrate type on escape behaviour and refuge use in the spider Aglaoctenus castaneus. Individuals forage on sheet webs but hide in funnels after detecting potential threats. Spiders from two populations build webs either on injurious substrates that can harm predators or on noninjurious substrates. The dominant injurious substrates include a large thorny palm species in the 'thorny palm' population and a razor grass in the 'razor grass' population. We hypothesized that spiders constructing webs on injurious substrates would (1) display reduced sensitivity to approaching predators by hiding in their funnels and (2) would return to their sheet web more quickly after detecting a predator. We also assessed whether these behaviours were correlated across and within populations and whether they were affected by the social context (couples or solitary individuals). Spiders inhabiting injurious substrates exhibited shorter flight initiation distances (FIDs) compared to those inhabiting noninjurious substrates. Interpopulation variation was observed, with spiders from the thorny palm population displaying shorter FID and lower hiding time than those from the razor grass population. However, there was no correlation between FID and hiding time. Spiders from the thorny palm population showed less sensitivity to predators, probably because thorny palm location was safer than the razor grass location. In conclusion, A. castaneus can adjust risk-taking behaviours depending on the damaging potential of the substrate for predators. We propose new hypotheses with the aim of improving risk assessment research. • We investigated the effects of substrate type on risk assessment of A. castaneus. • We observed spiders in two populations: thorny palm vs razor grass dominant. • Spiders on injurious substrates had shorter flight initiation distances (FIDs). • Hiding time was not correlated with FID. • Spiders in the thorny palm population had shorter FIDs and hiding times. [ABSTRACT FROM AUTHOR]

Published

2024

53. On Flusser, the Fly, and the Spider.

Author

Chang, Briankle G.

Subjects

SPIDERS, SPIDER webs

Published

2024

54. Concerning the Fly and the Spider.

Author

Flusser, Vilém

Subjects

SPIDERS, SPIDER webs

Published

2024

55. Deluded zombies: induced behavioral modification in a cobweb spider does not increase the survival of its parasitoid wasp.

Author

Kloss, Thiago Gechel, Gonzaga, Marcelo Oliveira, Mendes-Pereira, Thairine, and dos Santos de Almeida, Stefany

Subjects

COBWEB weavers, BEHAVIOR modification, ICHNEUMONIDAE, PARASITOIDS, SPIDER silk, WASPS, SPIDER webs

Abstract

Behavioral modifications induced by parasites have been extensively documented across multiple taxa. However, a major challenge is to experimentally determine whether such manipulations confer an adaptive advantage to the parasite. Behavioral alterations in spiders attacked by ichneumonid wasps are characterized by the construction of modified webs. These modified webs can enhance the survival chances of the parasitoid by reducing mortality due to natural enemies and environmental factors during the pupal stage. Additionally, some modified webs offer extra protection by keeping a centrally attached leaf shelter, originally used by the spider as a refuge, where parasitoids can build their cocoon. In these webs, it is possible that web modifications are not critical for the survival of parasitoid pupae. We evaluated the hypothesis that modifications made by parasitized spiders in a web with leaf shelter do not improve the survival of the parasitoid and presented details of behavioral modifications induced by the wasp Zatypota alborhombarta (Ichneumonidae) in its host spider Cryptachaea migrans (Theridiidae). We observed that modified webs built by parasitized spiders had silk thread around the web shelter, reduced vertical lines, and an increase in forked distal ends of lines. However, these changes in the host web did not improve the survival of parasitoid pupae. Our results indicate that the benefits of host behavioral modification for the parasitoids may vary across different host species. In addition, we suggested that the effects of altered web designs may depend on specific host-created web features and environmental factors like predation pressure. Significance statement: Behavioral manipulations of hosts induced by parasites are often suggested as an adaptive trait, increasing the fitness of the parasitic organism. Still, the influence of host characteristics on the parasite's fitness is rarely experimentally assessed, raising questions about the extent of the adaptive nature of manipulation. Here, we demonstrate for the first time that behavioral modifications induced by Ichneumonidae wasps in a cobweb spider do not increase the survival of the parasitoids. We argue that the presence of shelters in these webs, used by parasitoids in their pupal stages, provides a safe environment for development, independent of other modifications. Furthermore, we suggest that the behavioral modification reflects the maintenance of a phylogenetically conserved trait. [ABSTRACT FROM AUTHOR]

Published

2024

56. Spider Web, Integration-Interconnection in the Perspective of Amin Abdullah.

Author

Haidar, Putri Bayu and Dzulfahmi, A. Adib

Subjects

SPIDER webs, MERGERS of universities & colleges, LIBRARY research, LEARNING

Abstract

Copyright of DAYAH: Journal of Islamic Education is the property of DAYAH: Journal of Islamic Education 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

2024

57. RACK & JACK.

Author

King, Bill

Subjects

MACHINE knitting, KNITTING machines, SPIDER webs, KNITTERS (Persons), YARN

Published

2024

58. GOLDEN GIRL.

Subjects

MACHINE knitting, KNITTING machines, INDUSTRIAL districts, SPIDER webs, WEB designers

Published

2024

59. HIDING IN PLAIN SIGHT.

Author

CAREY, LILY

Subjects

*CLOUD forests, *SPIDER webs, *ENCEPHALITIS, *RESEARCH personnel, *ARACHNIDA, *SPIDERS, *SPIDER venom

Abstract

Researchers have discovered two new species of pirate spiders, Ero lizae and Ero natashae, living in the cloud forests of St. Helena, a remote island in the South Atlantic. These spiders were previously mistaken for a closely related species found in western Europe, Ero aphana. Through DNA testing and observation of physical differences, taxonomist Danni Sherwood and colleagues determined that these spiders are distinct species. Pirate spiders are known for taking over the webs of other spiders and preying on them. [Extracted from the article]

Published

2024

60. Spiders use firefly light to lure more prey into their web.

Author

Buehler, Jake

Subjects

*INSECT baits & repellents, *AGRICULTURAL colleges, *SPIDER webs, *LOCAL delivery services, *FIREFLIES, *SPIDERS

Abstract

Researchers have discovered that orb-weaver spiders use the flashing light of male fireflies to attract more prey into their webs. Male fireflies often get stuck in the webs of these spiders, and the researchers found that webs with both a spider and a flashing firefly attracted more male fireflies than webs without spiders or with non-flashing fireflies. The male fireflies entangled in the spider's web also had an unusual flash signal that resembled that of females, suggesting that the spiders manipulate the male fireflies' signals to lure in other males. The researchers believe that the spider's venom or bite may alter the flashing pattern of the ensnared males. This study highlights the complex and selective feeding techniques of spiders. [Extracted from the article]

Published

2024

61. YOU CAN'T BEAT EGGS.

Subjects

EGGS, ANIMAL young, SPIDER webs, OCEAN bottom

Abstract

This article from Ranger Rick Jr. discusses the importance of eggs as homes for baby animals. It explains that most animals on Earth start their lives inside eggs and highlights different types of eggs laid by various animals, such as turtles, ostriches, salamanders, butterflies, frogs, geese, and clownfish. The article also mentions how some animals, like snakes, spiders, jawfish, and octopuses, take care of their eggs by protecting and keeping them safe until they hatch. The text encourages readers to explore the similarities and differences between these eggs. [Extracted from the article]

Published

2024

62. 蜘蛛网流道扰流元设计及其 对锂离子电池散热影响.

Author

尹志宏, 丁志威, and 曹军磊

Subjects

SPIDER webs, LITHIUM-ion batteries

Abstract

Copyright of Journal of Chongqing University of Technology (Natural Science) is the property of Chongqing University of 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

2023

63. Approaching diagnostic messiness through spiderweb strategies: Connecting epistemic practices in the clinic and the laboratory.

Author

Scott-Fordsmand, Helene and Tybjerg, Karin

Subjects

*PHILOSOPHY of medicine, *MEDICAL practice, *LEARNING laboratories, *SPIDER webs, *CLINICAL medicine, *CLINICS

Abstract

Scientific and medical practice both relate to and differ from each other, as do discussions of how to handle decisions under uncertainty in the laboratory and clinic respectively. While studies of science have pointed out that scientific practice is more complex and messier than dominant conceptions suggest, medical practice has looked to the rigour of scientific and statistical methods to address clinical uncertainty. In this article, we turn to epistemological studies of the laboratory to highlight how clinical practice already has strategies for dealing with messiness. We draw on Hans-Jörg Rheinberger's Toward a History of Epistemic Things , in which he invokes the metaphor of a spider's web to explain the role of tacit practices in experimental biochemistry for helping practitioners manage messiness. We argue that diagnostic practices in clinical medicine employ similar, albeit codified, procedures to evaluate epistemic significance, ensure sensitivity to the unforeseen, and allow focused grounds for action. We consider three practices: (a) the pre-set structure of medical records, ensuring broad coverage in initial anamnesis, (b) the use of lists of differential diagnoses and ongoing 'anchoring and adjusting' as inquiry progresses, and (c) shared decision-making as an occasion to synthesize empirical evidence and reopen inquiry for potential missed information. We end by suggesting that while philosophy of medicine may learn from laboratory epistemology, the sciences may learn something from medical practice. [ABSTRACT FROM AUTHOR]

Published

2023

64. Advances in the enhancement of bionic fractal microchannel heat transfer process.

Author

Wu, Min, Shen, Shikai, Yang, Xuefeng, Dong, Wenlong, Song, Fei, Zhu, Yeqi, and Wang, Zhiyuan

Subjects

*HEAT transfer, *BIONICS, *SPIDER webs, *TREE branches, *FRACTALS

Abstract

This paper systematically classifies and summarizes the current state of research on the enhancement of heat transfer in microchannels with bionic fractal structure, including fractal structures such as leaf veins, tree branches, lung trachea, spider webs and other biomimetic microchannels. The fractal topology microchannels are also discussed with theoretical models and experimental numerical verification, which shows their advantages by comparing with conventional microchannels. Finally, the existing challenges and future directions of fractal structured microchannel are analyzed in depth and prospected, respectively. This study can provide new research ideas for the development of heat transfer process strengthening and provide the corresponding theoretical basis and scientific guidance for industrial application. [ABSTRACT FROM AUTHOR]

Published

2023

65. A new approach Spider's web initial solution and data envelopment analysis for solving an X-bar control chart.

Author

Ranjbara, K., Khaloozadeh, H., and Heydari, A.

Subjects

*DATA envelopment analysis, *QUALITY control charts, *SPIDER webs, *MANUFACTURING processes, *SAMPLE size (Statistics), *RESEARCH personnel

Abstract

X-bar control charts are widely used to monitor and control business and manufacturing processes. Design of control charts refers to the selection of parameters, including sample size, control-limit width, and sampling frequency. Many researchers have worked on this issue and have also proposed various solutions. However, despite the numerous advantages, the proposed methods also have their own set of problems. The biggest challenge is the complexity of solving these issues. Due to the fact that optimal design of control charts can be formulated as a multi objective optimization problem, in this paper to solve this problem, we used initial solution Spider's web data envelopment analysis method. In previous methods used multiple algorithms to resolve the issue. But in the proposed method once using Data Envelopment Analysis method and without any other algorithm can solve multi objective problem and this method can yield desirable efficient. Lastly, we compare our method with others and demonstrate its application in a real industrial context. [ABSTRACT FROM AUTHOR]

Published

2023

66. The first record of Tricholathys Chamberlin & Ivie, 1935 (Araneae, Dictynidae) from China, with a new combination and descriptions of seven new species.

Author

Lu-Yu Wang, Xian-Jin Peng, and Zhi-Sheng Zhang

Subjects

*SPIDERS, *GENETIC barcoding, *JUMPING spiders, *SPECIES, *DIGITAL images, *SPIDER webs

Abstract

The genus Tricholathys, found for the first time in China, is surveyed and seven new species, T. burangensis sp. nov. (♂♀, Thibet), T. chenzhenningi sp. nov. (♂♀, Qinghai), T. hebeiensis sp. nov. (♀, Hebei), T. lhunzeensis sp. nov. (♂♀, Tibet), Tricholathys relictoides sp. nov. (♂♀, Xinjiang), T. serrata sp. nov. (♂♀, Tibet), and T. xizangensis sp. nov. (♂♀, Tibet), are described. A new combination is proposed for Tricholathys alxa (Tang, 2011) comb. nov., ex. Argenna Thorell, 1870. Descriptions of all new species are provided, together with digital images, illustrations, and a distribution map. The DNA barcode information of four recently collected species is also provided. [ABSTRACT FROM AUTHOR]

Published

2023

67. Mapping a comprehensive assessment tool to a holistic definition of health for person-centred care planning in home care: a modified eDelphi study.

Author

Fowokan, A., Giosa, J.L., Saari, M., and Holyoke, P.

Subjects

*HOLISTIC medicine, *MEDICAL personnel, *QUALITY of life, *SPIDER webs, *RESEARCH personnel, *HOLISTIC nursing

Abstract

Background: Researchers in the Netherlands proposed the Pillars for Positive Health (PPH) as a broadly encompassing health definition to support more realistic and meaningful care planning for people living with chronic disease and other life-long health conditions. The PPH was subsequently converted to the My Positive Health (MPH) spider web visualization tool. This study sought to identify opportunities for more person-centred care planning at the point of care in home care, using the MPH tool as a framework to link comprehensive assessment and dialogue-based goal-setting. Methods: A modified eDelphi method was used to conduct domain mapping with a purposively sampled expert panel (n = 25). The panel consisted of researchers, health care providers, older adults and caregivers. A two-stage eDelphi process was conducted, with each stage consisting of three survey rounds. In the first stage, participants were asked to map 201 elements of the interRAI Home Care (interRAI HC) comprehensive assessment tool to the six MPH domains or "No pillar of best fit". The second stage focused on identifying opportunities to adapt or expand comprehensive assessment as it relates to the MPH domains. Results: In Stage 1, 189 of 201 elements reached consensus in domain mapping. These included: 80 elements for Bodily Functions, 32 for Daily Functioning, 32 for Mental Wellbeing, 24 for Quality of Life, 10 for Participation, and 1 for Meaningfulness. Ten elements were identified to have no pillar of best fit. The 12 elements that did not reach consensus in Stage 1 formed the basis for Stage 2, where expert panel participants proposed four new assessment elements in Meaningfulness and Participation and 11 additional descriptors across the six MPH domains. Of these, two elements and nine of the 11 descriptors reached consensus. Conclusion: Findings show that elements of the interRAI HC are oriented toward the physical, functional, and mental health domains. Consequently, complementary assessment elements and/or tools may be needed to support comprehensive assessment of 'Meaningfulness' and 'Participation' in person-centred home and community care. Additional descriptors may also be needed to aid communication regarding the understanding and application of MPH domains. [ABSTRACT FROM AUTHOR]

Published

2023

68. Investigation on the Energy-Absorbing Properties of Bionic Spider Web Structure.

Author

Xie, Baocheng, Wu, Xilong, and Ji, Xuhui

Subjects

*SPIDER webs, *BIONICS, *STRUCTURAL models

Abstract

In recent years, spider webs have received significant attention due to their exceptional mechanical properties, including strength, toughness, elasticity, and robustness. Among these spider webs, the orb web is a prevalent type. An orb web's main framework consists of radial and spiral threads, with elastic and sticky threads used to capture prey. This paper proposes a bionic orb web model to investigate the energy-absorbing properties of a bionic spider web structure. The model considers structural parameters such as radial line length, radial line cross-sectional diameter, number of spiral lines, spiral spacing, and spiral cross-sectional diameter. These parameters are evaluated to assess the energy absorption capability of the bionic spider web structure. Simulation results reveal that the impact of the radial line length and spiral cross-sectional diameter on the energy absorption of the spider web is more significant compared to the radial line cross-sectional diameter, the number of spiral lines, and spiral spacing. Specifically, within a radial line length range of 60–80 mm, the total absorbed energy of a spider web is inversely proportional to the radial line length of the web. Moreover, the number of spiral lines and spiral spacing of the spider web, when within the range of 6–10 turns and 4–5.5 mm, respectively, are proportional to the total energy absorbed. A regression equation is derived to predict the optimal combination of structural parameters for maximum energy absorption. The optimal parameters are determined as follows: radial line length of 63.48 mm, radial line cross-sectional diameter of 0.46 mm, ten spiral lines, spiral spacing of 5.39 mm, and spiral cross-sectional diameter of 0.48 mm. [ABSTRACT FROM AUTHOR]

Published

2023

69. Negative allometry of orb web size in spiders and the implications for the evolution of giant webs.

Author

Paillard, Adele and Arbuckle, Kevin

Subjects

*ORB weavers, *ALLOMETRY, *SPIDER webs, *BODY size

Abstract

Spider webs, and in particular orb webs, are among the most iconic characteristics of spider biology. The evolution of, and developmental changes in, orb webs have been well studied, but we still have a limited understanding of allometric relations between the size of orb webs and spider body size. In this study, we investigate this relationship using measurements from 55 individuals of two common orb-weaving spider (Araneidae) species in South Wales, UK. We recorded body size using two methods: direct measurements with calipers, and estimations from photographs using ImageJ software. We found that these two methods give almost identical measurements, supporting the use of image-based size measurement in many situations where this is advantageous. We also found evidence for negative allometry of orb web size (relative to spider body length), such that larger spiders build proportionately smaller webs. This implies that the 'giant webs' in some orb-weaver species must be the result of a fundamental shift in the constraints or advantages which result in the allometric relationships described here. [ABSTRACT FROM AUTHOR]

Published

2023

70. Pheromone dynamics in virgin and mated females of the sexually cannibalistic orb-web spider Argiope bruennichi (Araneidae).

Author

Weiss, Katharina and Schneider, Jutta M.

Subjects

*FEMALES, *OVIPARITY, *ORB weavers, *QUANTITATIVE chemical analysis, *PHEROMONES, *ANIMAL sexual behavior, *SPIDER venom, *SPIDER webs

Abstract

Female chemical signals are crucial for sexual communication in spiders and convey detailed information about females' mating status or age. However, evidence for chemical communication in spiders is largely behavioral. Only a few spider pheromones are known and quantitative chemical analyses of individual spiders are especially scarce. In the European wasp spider, Argiope bruennichi (Scopoli, 1772), females emit the volatile trimethyl methylcitrate, which attracts males from a distance. A recent study on the role of this pheromone in close-range male mate choice revealed that older virgin females approaching oviposition produce higher amounts of pheromone than younger ones, thereby increasing their attractiveness to males, and stop pheromone signaling shortly after copulation. Here we provide more detailed analyses of temporal dynamics in pheromone production in both virgin and mated female A. bruennichi. Our results corroborate previous observations indicating that male mating behavior in this species is guided by variation in female signaling effort. [ABSTRACT FROM AUTHOR]

Published

2023

71. Visualizing Data Interoperability for Food Systems Sustainability Research--From Spider Webs to Neural Networks.

Author

Jennings-Dobbs, Emily M., Forester, Shavawn M., and Drewnowski, Adam

Subjects

*SPIDER webs, *FOOD consumption, *FOOD composition, *AGRICULTURE, *PRICES, *PROCESSED foods

Abstract

Food systems represent all elements and activities needed to feed the growing global population. Research on sustainable food systems is transdisciplinary, relying on the interconnected domains of health, nutrition, economics, society, and environment. The current lack of interoperability across databases poses a challenge to advancing research on food systems transformation. Crosswalks among largely siloed data on climate change, soils, agricultural practices, nutrient composition of foods, food processing, prices, dietary intakes, and population health are not fully developed. Starting with US Department of Agriculture FoodData Central, we assessed the interoperability of databases from multiple disciplines by identifying existing crosswalks and corresponding visualizations. Our visual demonstration serves as proof of concept, identifying databases in need of expansion, integration, and harmonization for use by researchers, policymakers, and the private sector. Interoperability is the key: ontologies and well-defined crosswalks are necessary to connect siloed data, transcend organizational barriers, and draw pathways from agriculture to nutrition and health. [ABSTRACT FROM AUTHOR]

Published

2023

72. Dynamic evolution of locomotor performance independent of changes in extended phenotype use in spiders.

Author

Kelly, Michael B. J., Khan, Md Kawsar, Wierucka, Kaja, Jones, Braxton R., Shofner, Ryan, Derkarabetian, Shahan, and Wolff, Jonas O.

Subjects

*BIOLOGICAL evolution, *RUNNING speed, *PHENOTYPIC plasticity, *PREDATORY animals, *SPIDER webs, *SPIDERS

Abstract

Many animals use self-built structures (extended phenotypes) to enhance body functions, such as thermoregulation, prey capture or defence. Yet, it is unclear whether the evolution of animal constructions supplements or substitutes body functions—with disparate feedbacks on trait evolution. Here, using brown spiders (Araneae: marronoid clade), we explored if the evolutionary loss and gain of silken webs as extended prey capture devices correlates with alterations in traits known to play an important role in predatory strikes—locomotor performance (sprint speed) and leg spination (expression of capture spines on front legs). We found that in this group high locomotor performance, with running speeds of over 100 body lengths per second, evolved repeatedly—both in web-building and cursorial spiders. There was no correlation with running speed, and leg spination only poorly correlated, relative to the use of extended phenotypes, indicating that web use does not reduce selective pressures on body functions involved in prey capture and defence per se. Consequently, extended prey capture devices serve as supplements rather than substitutions to body traits and may only be beneficial in conjunction with certain life-history traits, possibly explaining the rare evolution and repeated loss of trapping strategies in predatory animals. [ABSTRACT FROM AUTHOR]

Published

2023

73. Designed Multifunctional Spider Silk Enabled by Genetically Encoded Click Chemistry.

Author

Jiang, Bojing, Tan, Sin Yen, Fang, Shiyu, Feng, Xiaohan, Park, Byung Min, Fok, Hong Kiu Francis, Yang, Zhongguang, Wang, Ri, Kou, Songzi, Wu, Angela Ruohao, and Sun, Fei

Subjects

*SPIDER silk, *CLICK chemistry, *SPIDER venom, *FLUORESCENT proteins, *SPIDER webs, *ENDOTHELIAL cells, *CELL proliferation

Abstract

Spider silk is recognized for its exceptional mechanical properties and biocompatibility, making it a versatile platform for developing functional materials. In this study, a modular functionalization strategy for recombinant spider silk is presented using SpyTag/SpyCatcher chemistry, a prototype of genetically encoded click chemistry. The approach involves AlphaFold2‐aided design of SpyTagged spider silk coupled with bacterial expression and biomimetic spinning, enabling the decoration of silk with various SpyCatcher‐fusion motifs, such as fluorescent proteins, enzymes, and cell‐binding ligands. The silk threads can be coated with a silica layer using silicatein, an enzyme for silicification, resulting in a hybrid inorganic–organic 1D material. The threads installed with RGD or laminin cell‐binding ligands lead to enhanced endothelial cell attachment and proliferation. These findings demonstrate a straightforward yet powerful approach to 1D protein materials. [ABSTRACT FROM AUTHOR]

Published

2023

74. Eff ect of the nutritional quality of primary food on the development, sex ratio, and size of a parasitoid in a quadri-trophic food web.

Author

ČERNECKÁ, L'UDMILA and PEKÁR, Stano

Subjects

*FOOD chains, *FOOD quality, *SEX ratio, *DROSOPHILA melanogaster, *ICHNEUMONIDAE, *SPIDER webs

Abstract

This study explores the eff ect of nutritional composition on the fi tness of consumers in a quadri-trophic food web. Specifi cally, we studied how enrichment of the food of fruit fl ies Drosophila melanogaster (Meigen, 1830) transfers to the spider Phylloneta impressa (L. Koch) (Theridiidae) and its parasitoid wasp, Zatypota percontatoria Mueller (Ichneumonidae). We reared fruit fl ies on balanced, protein-enriched, and lipid-enriched diets, and observed several fi tness-related traits in both the predator and the parasitoid. In spiders, we did not fi nd signifi cant diff erences among treatments in their body size and the probability of building a cocoon web. In parasitoids, we failed to fi nd signifi cant diff erences among treatments in the time to wasp pupation, the duration of pupation, the length of the wasp tibia and pronotum, and the body mass. However, the sex ratio of hatched wasps diff ered signifi cantly among treatments from the expected 1 : 1. In the balanced diet group, the majority of wasps were males. There was a signifi cant positive relationship between the spider prosoma size and the length of the wasp fore wing. Our results suggest that the quality of the food of the primary consumer had little eff ect on the fi tness of the organism at the fourth trophic level. [ABSTRACT FROM AUTHOR]

Published

2023

75. Widow spiders alter web architecture and attractiveness in response to same-sex competition for prey and mates, and predation risk.

Author

Fischer, Andreas, Fernando, Yasasi, Preston, April, Moniz-de-Sa, Sarah, and Gries, Gerhard

Subjects

*PREDATION, *SPIDER webs, *FEMALES, *NATURAL selection, *PHEROMONES, *SPERM competition

Abstract

Female-female competition in animals has rarely been studied. Responses of females that compete context-dependently for mates and prey, and seek safety from predators, are ideally studied with web-building spiders. Cobwebs possess unique sections for prey capture and safety, which can be quantified. We worked with Steaoda grossa females because their pheromone is known, and adjustments in response to mate competition could be measured. Females exposed to synthetic sex pheromone adjusted their webs, indicating a perception of intra-sexual competition via their sex pheromone. When females sequentially built their webs in settings of low and high intra-sexual competition, they adjusted their webs to increase prey capture and lower predation risk. In settings with strong mate competition, females deposited more contact pheromone components on their webs and accelerated their breakdown to mate-attractant pheromone components, essentially increasing their webs' attractiveness. We show that females respond to sexual, social and natural selection pressures originating from intra-sexual competition. Work on Steaoda grossa spiders shows that females respond to sexual, social and natural selection pressures originating from intra-sexual competition. [ABSTRACT FROM AUTHOR]

Published

2023

76. Rheological and Biological Impact of Printable PCL‐Fibers as Reinforcing Fillers in Cell‐Laden Spider‐Silk Bio‐Inks.

Author

Schaefer, Natascha, Andrade Mier, Mateo S., Sonnleitner, David, Murenu, Nicoletta, Ng, Xuen Jen, Lamberger, Zan, Buechner, Margitta, Trossmann, Vanessa T., Schubert, Dirk W., Scheibel, Thomas, and Lang, Gregor

Subjects

*SPIDER silk, *RHEOLOGY (Biology), *SPIDER webs, *MATRIX effect, *MICROSTRUCTURE, *CELL survival, *RHEOLOGY, *FIBERS

Abstract

The development of bio‐inks capable of being 3D‐printed into cell‐containing bio‐fabricates with sufficient shape fidelity is highly demanding. Structural integrity and favorable mechanical properties can be achieved by applying high polymer concentrations in hydrogels. Unfortunately, this often comes at the expense of cell performance since cells may become entrapped in the dense matrix. This drawback can be addressed by incorporating fibers as reinforcing fillers that strengthen the overall bio‐ink structure and provide a second hierarchical micro‐structure to which cells can adhere and align, resulting in enhanced cell activity. In this work, the potential impact of collagen‐coated short polycaprolactone‐fibers on cells after being printed in a hydrogel is systematically studied. The matrix is composed of eADF4(C16), a recombinant spider silk protein that is cytocompatible but non‐adhesive for cells. Consequently, the impact of fibers could be exclusively examined, excluding secondary effects induced by the matrix. Applying this model system, a significant impact of such fillers on rheology and cell behavior is observed. Strikingly, it could be shown that fibers reduce cell viability upon printing but subsequently promote cell performance in the printed construct, emphasizing the need to distinguish between in‐print and post‐print impact of fillers in bio‐inks. [ABSTRACT FROM AUTHOR]

Published

2023

77. Context Influences the Role of Birds in Pest Control: The Interactive Effects of Agricultural Crop and Farm1.

Author

Calaor, Jerilyn Jean M., Cook, Eric, McKee, Jennifer L., Hooshiar, Eliza, Miller, Ross, and Rogers, Haldre S.

Subjects

*CROPS, *PEST control, *ARCHIPELAGOES, *EGGPLANT, *SPIDER webs, *AGRICULTURE

Abstract

Birds often prey on agricultural pests, potentially making them effective pest management agents; thus, changes in bird populations may have impacts on plant health. Using an exclosure treatment, we test whether birds reduce herbivore damage and increase crop yield on the island of Luta in the Mariana Island chain. We focused on Luta because the nearby island of Guåhan has experienced widespread bird loss due to an invasive snake, and thus, this experiment simulating bird loss could provide an indication of potential cascading impacts to agriculture on Guåhan. We planted two crops—eggplant and long bean—within bird exclosure and control treatments at three working farms, and measured herbivore damage, crop yield, and spider web abundance in the presence and absence of birds. The influence of birds varied among crops and farms. Herbivore damage did not differ between treatments in long bean, but damage was greater for eggplant in the absence of birds at one farm ("Farm 3"). Yield of eggplant did not differ between treatments, but yield and weight of long bean was lower in the absence of birds at Farm 1. Spider webs were 270% greater in the absence of birds at Farm 1, whereas spider webs were more abundant in the presence of birds at the other two farms. These results suggest that birds may control pest populations, but the effects vary depending on the crop and environmental context. [ABSTRACT FROM AUTHOR]

Published

2023

78. Could an Anterior Cruciate Ligament Be Tissue-Engineered from Silk?

Author

Hahn, Judith, Gögele, Clemens, and Schulze-Tanzil, Gundula

Subjects

*ANTERIOR cruciate ligament, *CELL adhesion, *SILK, *SPIDER silk, *SPIDER webs, *TISSUE engineering, *SERICIN, *SILKWORMS

Abstract

Silk has a long history as an exclusive textile, but also as a suture thread in medicine; nowadays, diverse cell carriers are manufactured from silk. Its advantages are manifold, including high biocompatibility, biomechanical strength and processability (approved for nearly all manufacturing techniques). Silk's limitations, such as scarcity and batch to batch variations, are overcome by gene technology, which allows for the upscaled production of recombinant "designed" silk proteins. For processing thin fibroin filaments, the sericin component is generally removed (degumming). In contrast to many synthetic biomaterials, fibroin allows for superior cell adherence and growth. In addition, silk grafts demonstrate superior mechanical performance and long-term stability, making them attractive for anterior cruciate ligament (ACL) tissue engineering. Looking at these promising properties, this review focusses on the responses of cell types to silk variants, as well as their biomechanical properties, which are relevant for ACL tissue engineering. Meanwhile, sericin has also attracted increasing interest and has been proposed as a bioactive biomaterial with antimicrobial properties. But so far, fibroin was exclusively used for experimental ACL tissue engineering approaches, and fibroin from spider silk also seems not to have been applied. To improve the bone integration of ACL grafts, silk scaffolds with osteogenic functionalization, silk-based tunnel fillers and interference screws have been developed. Nevertheless, signaling pathways stimulated by silk components remain barely elucidated, but need to be considered during the development of optimized silk cell carriers for ACL tissue engineering. [ABSTRACT FROM AUTHOR]

Published

2023

79. Study of enterprise risk management on large contractors in Indonesia.

Author

Tsaniyah, Labibah, Susilowati, Fajar, and Adipradana, Arrizka Yanuar

Subjects

*RISK management in business, *BUSINESS enterprises, *PROBABILITY measures, *SPIDER webs, *CONTRACTORS

Abstract

Increased infrastructure development demands improvement of the construction sector considered a high-risk industry. Hence, Contractors are required to analyze the company's risk management. This study aims to measure the maturity of risk management, map the pattern of its application, and identify several influencing factors. This study uses a quantitative method with a descriptive statistical approach. Primary data was obtained from questionnaires and structured interviews, while secondary data from previous literature reviews. The risk management maturity level is measured by the Risk and Insurance Management Society (RIMS) for Enterprise Risk Management (ERM) framework, mapped its implementation pattern with Spider web, and measured the probability of impact using ISO 31000:2018. According to the data analysis results, the level of ERM maturity accounts for 61% of large contractors in the DKI Jakarta area at the highest level (Leadership). The ERM process has reached a very good pattern of implementation, while the worst aspect is the level of knowledge in assessing the root causes that occur. Management performance is the dominant output in supporting ERM implementation, including risk management techniques, internal knowledge, skills, and personnel expertise. The percentage of results proves that the inhibiting factors for ERM are legal compliance requirements and company ratings with high impact probability values and are not aligned with the low implementation pattern. It shows that the company's risk management implementation is not in line with the level of risk, thus requiring routine procedures that are fast, precise, and efficient to solve the impact. In addition, existing controls and internal company monitoring are also carried out effectively. This research is expected to help provide an overview of Enterprise Risk Management (ERM) implementation on large contractors in Indonesia. Therefore, this research can provide recommendations for improvement areas to improve company performance, and it can be used as a reference to assist the development of Risk Management at the company level in the future. [ABSTRACT FROM AUTHOR]

Published

2023

80. IN SCIENCE JOURNALS.

Author

P. D. S., S. T. S., J. S. Y., J. S. T., M. L. N., C. N. F., M. A. F, S. H. R, B. E. L, D. J., C. A., J. S., H. J. S., and I. S. O.

Subjects

*G protein coupled receptors, *SPIDER venom, *SPIDER webs, *THERMODYNAMICS, *SARS-CoV-2

Abstract

The article focuses on the mechanisms underlying colitis, a severe adverse event associated with cancer immunotherapy using immune checkpoint inhibitors like anti-CTLA-4 antibodies. It mentions the study by Lo et al. reveals that CTLA-4 blockade-induced colitis is dependent on gut microbiota composition, involving unrestrained T cell activation and concurrent depletion of regulatory T cells.

Published

2024

81. Unraveling the Significance of Draglines: Female Sexual Signalization in the Nursery-Web Spider, Pisaura mirabilis.

Author

Ježová, Zuzana, Prokop, Pavol, Zvaríková, Martina, and Zvarík, Milan

Subjects

*HIGH performance liquid chromatography, *SPIDERS, *SEXUAL selection, *FEMALES, *SILK production, *SPIDER webs, *PLANT nurseries

Abstract

Simple Summary: Various signals are used in insects to identify mates. Signals based on visual, acoustic, or chemical communication play an important role in sexual selection. Frequently occurring chemical-based signals are the most important and understudied field of communication. Spiders use a wide variety of chemicals to find potential mates, but, until now, only a few spider-used pheromones have been identified. The nursery-web spider, Pisaura mirabilis, does not build a typical net, but leaves draglines on the ground. In our research, we investigated the role of chemical signals in female draglines influenced by factors such as spider ontogeny, nutritional status, and female mating status. Our findings indicate that the chemical signals of eggsac-carrying females were similarly sexually attractive to females not carrying eggsac. Draglines of adult and hungry females functioned, in contrast, as stimulation for male motivation to invest more silk in gift production. Chemical differences in female draglines were identified, but they did not always correspond with male behavior. We suggest the integration of behavioral and chemical approaches to better understand animal behavior in future research. Chemical signals used by animals to attract the opposite sex are well known in insects, but heavily understudied in spiders. We investigated the role of chemical signals in female draglines in a gift-giving spider, Pisaura mirabilis, using combined data from behavioral tests and high-performance liquid chromatography (HPLC). We also investigated whether the quality of sexual signalization is influenced by crucial factors, such as female spider ontogeny, nutritional status, and mating status. We found that draglines of adult (versus subadult) and hungry (versus fed) females stimulated male motivation to produce nuptial gift, and highly sexually excited males invested more silk in gift production than less sexually excited males. Unexpectedly, chemical signals of eggsac-carrying females were similarly sexually attractive to draglines of adult females not carrying eggsac. HPLC identified significant chemical differences in female draglines, but these differences did not always correspond to male behavior. The integration of behavioral and chemical approaches is required to better understand animal behavior in future research. [ABSTRACT FROM AUTHOR]

Published

2023

82. Perfect Roman Domination of Some Cycle Related Graphs.

Author

Akwu, Abolape Deborah

Subjects

*DOMINATING set, *SPIDER webs, *TENSE (Grammar), *ROMANS

Abstract

In this paper, we continue the study of perfect Roman dominating functions in graphs. A perfect Roman dominating PRD function on a graph G = (V;E) is a function f: V (G) → f0; 1; 2g satisfying the condition that every vertex v with f(v) = 0 is adjacent to exactly one vertex neighbor u with f(u) = 2. The weight of PRD function is the sum of its function values over all the vertices. The perfect Roman domination number of G denoted by PR (G) is the minimum weight of a PRD function in G. We present the perfect Roman domination number of some cycle related graphs such as helm graphs, sunlet graphs and ower snark graphs. If G is a spider web graph, we show that γP/R (G) ≥ 2/3 [G]. [ABSTRACT FROM AUTHOR]

Published

2023

83. Nature-inspired spider web shaped UHF RFID reader antenna for IoT and healthcare applications.

Author

Sharif, Abubakar, kumar, Rajesh, Arshad, Kamran, Assaleh, Khaled, Chattha, Hassan Tariq, Imran, Muhammad Ali, and Abbasi, Qammer Hussain

Subjects

*ANTENNAS (Electronics), *SPIDER webs, *ANTENNA design, *RADIO frequency identification systems, *MICROSTRIP transmission lines, *MICROSTRIP antennas, *BIOLOGICALLY inspired computing

Abstract

This paper proposes a nature-inspired spider web-shaped ultra-high frequency (UHF) radio frequency identification (RFID) reader antenna and battery-free sensor-based system for healthcare applications. This antenna design consists of eight concentric decagons of various sizes and five straight microstrip lines.These lines are connected to the ground using 50 Ω resistors from both ends, except for one microstrip line that is reserved for connecting a feeding port. The reader antenna design features fairly strong and uniform electric and magnetic field characteristics. It also exhibits wideband characteristics, covering whole UHF RFID band (860–960 MHz) and providing a tag reading volume of 200 × 200 × 20 mm 3 . Additionally, it has low gain characteristics, which are necessary for the majority of nearfield applications to prevent the misreading of other tags. Moreover, the current distribution in this design is symmetric throughout the structure, effectively resolving orientation sensitivity issues commonly encountered in low-cost linearly polarized tag antennas. The measurement results show that the reader antenna can read medicine pills tagged using low-cost passive/battery-free RFID tags, tagged expensive jewelry, intervenes solution, and blood bags positioned in various orientations. As a result, the proposed reader antenna-based system is a strong contender for near-field RFID, healthcare, and IoT applications. [ABSTRACT FROM AUTHOR]

Published

2023

84. In vitro Blood–Brain barrier model based on recombinant spider silk protein nanomembranes for evaluation of transcytosis capability of biomolecules.

Author

Hjelm, Linnea Charlotta, Hedhammar, My, and Löfblom, John

Subjects

*BLOOD-brain barrier, *SPIDER silk, *TRANSCYTOSIS, *SPIDER webs, *CELL morphology, *BIOMOLECULES, *CENTRAL nervous system

Abstract

The blood–brain barrier (BBB) limits the uptake of central nervous system (CNS)-targeting drugs into the brain. Engineering molecular shuttles for active transportation across the barrier has thus potential for improving the efficacy of such drugs. In vitro assessment of potential transcytosis capability for engineered shuttle proteins facilitates ranking and the selection of promising candidates during development. Herein, the development of an assay based on brain endothelial cells cultured on permeable recombinant silk nanomembranes for screening of transcytosis capability of biomolecules is described. The silk nanomembranes supported growth of brain endothelial cells to form confluent monolayers with relevant cell morphology, and induced expression of tight-junction proteins. Evaluation of the assay using an established BBB shuttle antibody showed transcytosis over the membranes with an apparent permeability that significantly differed from the isotype control antibody. • Recombinant spider silk nanomembranes support the growth of brain endothelial cells. • Silk membranes are only 1 μm thick with ECM like structure and good protein permeability. • Brain endothelial cells cultivated on silk nanomembranes can be used as a simple BBB model. • The in vitro blood–brain barrier model showed higher transcytosis for an antibody brain shuttle compared to control. [ABSTRACT FROM AUTHOR]

Published

2023

85. Bioinspired "cage traps" for closed-loop lead management of perovskite solar cells under real-world contamination assessment.

Author

Luo, Huaiqing, Li, Pengwei, Ma, Junjie, Li, Xue, Zhu, He, Cheng, Yajie, Li, Qin, Xu, Qun, Zhang, Yiqiang, and Song, Yanlin

Subjects

PEROVSKITE, EXTREME weather, SOLAR cells, ENVIRONMENTAL risk, SPIDER behavior, PHOTOVOLTAIC power systems, PHYSISORPTION, SPIDER webs, FUSION reactor blankets

Abstract

Despite the remarkable progress made in perovskite solar cells, great concerns regarding potential Pb contamination risk and environmental vulnerability risks associated with perovskite solar cells pose a significant obstacle to their real-world commercialization. In this study, we took inspiration from the ensnaring prey behavior of spiders and chemical components in spider web to strategically implant a multifunctional mesoporous amino-grafted-carbon net into perovskite solar cells, creating a biomimetic cage traps that could effectively mitigate Pb leakage and shield the external invasion under extreme weather conditions. The synergistic Pb capturing mechanism in terms of chemical chelation and physical adsorption is in-depth explored. Additionally, the Pb contamination assessment of end-of-life perovskite solar cells in the real-world ecosystem, including Yellow River water and soil, is proposed. The sustainable closed-loop Pb management process is also successfully established involving four critical steps: Pb precipitation, Pb adsorption, Pb desorption, and Pb recycling. Our findings provide inspiring insights for promoting green and sustainable industrialization of perovskite solar cells. Potential lead contamination risk and environmental vulnerability risk impose a significant obstacle for the commercialization of perovskite solar cells. Here, the authors create a biomimetic cage traps to mitigate lead leakage and establish a sustainable closed-loop lead management process. [ABSTRACT FROM AUTHOR]

Published

2023

86. Modeling and design of heterogeneous hierarchical bioinspired spider web structures using deep learning and additive manufacturing.

Author

Wei Lu, Lee, Nic A., and Buehler, Markus J.

Subjects

*SPIDER webs, *DEEP learning, *MORPHOLOGY, *GEOMETRIC series, *NONEQUILIBRIUM thermodynamics

Abstract

Spider webs are incredible biological structures, comprising thin but strong silk filament and arranged into complex hierarchical architectures with striking mechanical properties (e.g., lightweight but high strength, achieving diverse mechanical responses). While simple 2D orb webs can easily be mimicked, the modeling and synthesis of 3D-based web structures remain challenging, partly due to the rich set of design features. Here, we provide a detailed analysis of the heterogeneous graph structures of spider webs and use deep learning as a way to model and then synthesize artificial, bioinspired 3D web structures. The generative models are conditioned based on key geometric parameters (including average edge length, number of nodes, average node degree, and others). To identify graph construction principles, we use inductive representation sampling of large experimentally determined spider web graphs, to yield a dataset that is used to train three conditional generative models: 1) an analog diffusion model inspired by nonequilibrium thermodynamics, with sparse neighbor representation; 2) a discrete diffusion model with full neighbor representation; and 3) an autoregressive transformer architecture with full neighbor representation. All three models are scalable, produce complex, de novo bioinspired spider web mimics, and successfully construct graphs that meet the design objectives. We further propose an algorithm that assembles web samples produced by the generative models into larger-scale structures based on a series of geometric design targets, including helical and parametric shapes, mimicking, and extending natural design principles toward integration with diverging engineering objectives. Several webs are manufactured using 3D printing and tested to assess mechanical properties. [ABSTRACT FROM AUTHOR]

Published

2023

87. Limit analysis of strut nets.

Author

Amendola, Ada, Fortunato, Antonio, Fraternali, Fernando, Mattei, Ornella, Milton, Graeme W, and Seppecher, Pierre

Subjects

*SPIDER webs, *PETRI nets, *MASONRY, *AIRY functions, *DISCRETE systems, *POLYHEDRA, *POLYGONS

Abstract

Truss structures composed of members that work exclusively in tension or in compression appear in several problems of science and engineering, e.g., in the study of the resisting mechanisms of masonry structures, as well as in the design of spider web-inspired web structures. This work generalizes previous results on the existence of cable webs that are able to support assigned sets of nodal forces under tension. We extend such a problem to the limit analysis of compression-only "strut nets" subjected to fixed and variable nodal loads. These systems provide discrete element models of masonry bodies, which lie inside the polygon/polyhedron with vertices at the points of application of the given forces ("underlying masonry structures"). It is assumed that fixed nodal forces are combined with variable forces growing proportionally to a scalar multiplier (load multiplier), and that the supporting strut net is subjected to kinematic constraints at given nodal positions. [ABSTRACT FROM AUTHOR]

Published

2023

88. Latest developments in food-grade delivery systems for probiotics: A systematic review.

Author

Gao, Yuxing, Wang, Xin, Xue, Changhu, and Wei, Zihao

Subjects

*PROBIOTICS, *SPIDER webs, *FOOD science, *FUNCTIONAL foods, *SILKWORMS

Abstract

Tremendous progress in the inseparable relationships between probiotics and human health has enabled advances in probiotic functional foods. To ensure the vitality of sensitive probiotics against multiple harsh conditions, rising food-grade delivery systems for probiotics have been developed. This review gives a summary of recently reported delivery vehicles for probiotics, analyzes their respective merits and drawbacks and makes comparisons among them. Subsequently, the applications and future prospects are discussed. According to the types of encapsulating probiotics, food-grade delivery systems for probiotics can be classified into "silkworm cocoons" and "spider webs", which are put forward in this paper. The former, which surrounds the inner probiotics with the outer protective layers, includes particles, emulsions, beads, hybrid electrospun nanofibers and microcapsules. While hydrogels and bigels belong to the latter, which protects probiotics with the aid of network structures. The future prospects include preferable viability and stability of probiotics, co-delivery systems, targeted gut release of probiotics, delivery of multiple strains, more scientific experimental verification and more diversified food products, which will enlighten further studies on delivering probiotics for human health. Taken together, delivery vehicles for probiotics are-or will soon be-in the field of food science, with further applications under development. [ABSTRACT FROM AUTHOR]

Published

2023

89. Which side are you on? Spider web positioning affects prey capture more than body colour.

Author

Salgado-Roa, Fabian C., Stuart-Fox, Devi, Castañeda, Edwin, Tique Obando, Maira S., and Medina, Iliana

Subjects

SPIDER webs, COLOR, LIGHT intensity, APOSEMATISM, SPIDERS

Abstract

Colour has been hypothesized to play a crucial role in prey capture for sit-and-wait predators that rely on visual cues to deceive their prey. Prey capture success has been directly linked to colouration in spiders; however, evidence so far focuses mostly on dorsal colouration, excluding ventral patterns that are visible to prey and may be relevant for prey attraction. Here, we explored whether the dorsal and ventral colouration of a colour polymorphic spider is associated with light environment and prey capture success. We quantified the number of prey captured across three dorsal (black, white, and yellow) and two ventral (black and a mosaic yellow/orange pattern) morphs of Gasteracantha cancriformis, considering light intensity on dorsal and ventral sides. We found that spiders capture more prey in low light environments, and that individuals often expose their dorsal colouration towards low light levels. We did not find significant differences in prey capture rate between morphs dorsally or ventrally. These results indicate that how and where spiders position their web can be more important for prey capture than colouration. Alternative hypotheses such as aposematism, camouflage and thermoregulation deserve more attention in future studies that aim to understand the role of colouration in spiders and the factors causing spider colour polymorphisms. [ABSTRACT FROM AUTHOR]

Published

2023

90. Wet spinning is employed to produce spider silk with high elasticity.

Author

Zhang, Jie, Gong, Mengxin, and Meng, Qing

Subjects

SPIDER silk, ELASTICITY, SPIDER webs, MECHANICAL ability, SCHWANN cells, CELL growth, SILK production

Abstract

Spider silk exhibits exceptional strength and elasticity in its natural form. Over the course of several decades, researchers have been working on artificially spinning recombinant spider silk proteins (spidroin) in order to replicate the remarkable mechanical properties of natural spider silk. In this study, we utilized the wet spinning method to investigate the relationship between the concentration of the coagulation bath and fiber performance. We discovered that the concentration of methanol plays a crucial role in determining the continuity, diameter, and mechanical properties of the fibers. Lower concentrations of methanol favor the production of continuous, thinner fibers with higher strain. Additionally, secondary stretching during the spinning process contributes to the production of silk fibers with stable mechanical properties and thermal stability. By employing different concentrations of methanol and applying additional stretching, we successfully produced silk fibers with a high strain of 2.1652 ± 0.3871 mm/mm. Furthermore, these wet-spun fibers demonstrated the ability to promote the growth of Schwann cells, indicating their potential application in the field of biomedical engineering. Hence, the exceptional mechanical properties and the ability to promote cellular growth make the obtained spider silk fibers highly promising for various biomedical applications. [ABSTRACT FROM AUTHOR]

Published

2023

91. Lampshade web spider Ectatosticta davidi chromosome-level genome assembly provides evidence for its phylogenetic position.

Author

Fan, Zheng, Wang, Lu-Yu, Xiao, Lin, Tan, Bing, Luo, Bin, Ren, Tian-Yu, Liu, Ning, Zhang, Zhi-Sheng, and Bai, Ming

Subjects

*SPIDER webs, *GENE families, *SPIDERS, *NATURAL resources, *CHROMOSOMES, *GENOMES

Abstract

The spider of Ectatosticta davidi, belonging to the lamp-shade web spider family, Hypochilidae, which is closely related to Hypochilidae and Filistatidae and recovered as sister of the rest Araneomorphs spiders. Here we show the final assembled genome of E. davidi with 2.16 Gb in 15 chromosomes. Then we confirm the evolutionary position of Hypochilidae. Moreover, we find that the GMC gene family exhibit high conservation throughout the evolution of true spiders. We also find that the MaSp genes of E. davidi may represent an early stage of MaSp and MiSp genes in other true spiders, while CrSp shares a common origin with AgSp and PySp but differ from MaSp. Altogether, this study contributes to addressing the limited availability of genomic sequences from Hypochilidae spiders, and provides a valuable resource for investigating the genomic evolution of spiders. The assembly of the E. davidi genomic sequence suggests that E. davidi might represent the earliest diversified group among the true spiders and provides a valuable genomic resource for further biological and genetic studies on spiders. [ABSTRACT FROM AUTHOR]

Published

2023

92. Micrometer‐Scale Optical Web Made of Spider Dragline Fibers with Optical Gate Operations.

Author

Hendra, Yamagishi, Hiroshi, Heah, Wey Yih, Malay, Ali D., Numata, Keiji, and Yamamoto, Yohei

Subjects

*SILK, *SPIDER silk, *SPIDER webs, *OPTICAL fibers, *OPTICAL losses, *OPTICAL devices, *LOGIC circuits

Abstract

Dragline silk fibers produced by spiders are a masterpiece structural protein that is durable even in the wild conditions. Dragline silk fibers are known to have excellent mechanical toughness and flexibility and further possess optical transparency, which are highly promising as textiles, sensors, and optical devices. Here, the authors show that the dragline silk microfibers act as good optical waveguides with the optical loss coefficient as small as 0.03 decibel per micrometer. The light transportation in the dragline silk fiber is performed by fluorescence energy transfer between two microspheres located on a suspended dragline silk microfiber. By utilizing a micromanipulation equipment, micrometer‐scale spider web‐like structures are fabricated. The experimentally observed optical waveguiding properties of the weaves match well with simulation results using simple mathematical models. Furthermore, optical logic gate operations are demonstrated using photoswitchable microsphere resonators attached on the dragline fibers. [ABSTRACT FROM AUTHOR]

Published

2023

93. Development of a Patient-Reported Outcome Measure to Assess Symptoms Associated with Cataract Surgery and Intraocular Lens Implants.

Author

Hays, Ron D., MacRae, Scott, Holladay, Jack, Tarver, Michelle E., Lum, Flora, Stark, Walter, Weidmer, Beverly, Kumar, Nisha, Lau, George, Nguyen, Tieuvi, Schallhorn, Steven, Eydelman, Malvina, and Masket, Samuel

Subjects

*INTRAOCULAR lenses, *CATARACT surgery, *VISUAL perception, *VISUAL acuity, *SPIDER webs, *PHACOEMULSIFICATION, *PHOTOREFRACTIVE keratectomy

Abstract

To develop a standardized patient-reported outcome measure of visual perceptions and symptoms for implanted premium and monofocal intraocular lenses (IOLs). Observational study before and after IOL implants to assess the measure and symptom experience. Adults scheduled for binocular implantation of the same IOL type completed the survey at baseline prior to surgery (n = 716) and postoperatively (n = 554). Most respondents were female (64%), White (81%), 61 or older (89%), and had some college or more education (62%). Administration was by web survey with mail follow-up and phone reminders. Frequency, severity, and level of symptom bother in the last 7 days for 14 symptoms: (1) glare, (2) hazy vision, (3) blurry vision, (4) starbursts, (5) halos, (6) snowballs, (7) floaters, (8) double images, (9) rings and spider webs, (10) distortion, (11) light flashes with eyes closed, (12) light flashes with eyes open, (13) shimmering images, and (14) dark shadows. The median correlation among having 14 symptoms at baseline was only 0.19. Mean uncorrected binocular visual acuity improved from a preoperative value of 0.47 logarithm of the minimum angle of resolution (logMAR; Snellen 20/59) to a postoperative value of 0.12 (20/26) and best-corrected binocular visual acuity improved from 0.23 logMAR (20/34) preoperative to 0.05 logMAR (20/22) postoperative. The most bothersome symptoms were reduced after surgery: preoperative/postoperative glare (84%/36%), blurry vision (68%/22%), starbursts (66%/28%), hazy vision (63%/18%), snowballs (55%/17%), and halos (52%/22%). All symptoms decreased significantly (P < 0.0001) from before to after surgery except for dark crescent-shaped shadows (4%/4%). The percentage of symptoms rated as quite a bit or extremely bothersome declined from before to after surgery except for dark crescent-shaped shadows (29%/32%): blurry vision (54%/15%), snowballs (52%/14%), glare (49%/15%), and halos (46%/14%). Having monofocal IOL implants was associated with significantly more reduction in halos, starbursts, glare, and rings and spider webs, but less improvement in self-reported general vision. This study provides support for the 37-item Assessment of IntraOcular Lens Implant Symptoms (AIOLIS) instrument for use to assess symptoms and general perceptions of vision in clinical studies and clinical care. Proprietary or commercial disclosure may be found after the references. [ABSTRACT FROM AUTHOR]

Published

2023

94. Improving reservoir permeability by electric pulse controllable shock wave.

Author

Zhu, Xinguang, Feng, Chun, and Cheng, Pengda

Subjects

HYDRAULIC fracturing, SHOCK waves, PERMEABILITY, TECHNOLOGICAL innovations, COMPRESSION fractures, SPIDER webs

Abstract

Controllable shock wave (CWS) parameters such as amplitude, operating area and number of operations are easy to control and have received extensive attention as a potential new technology for reservoir permeability enhancement. Based on the continuous-discontinuous element method (CDEM) and considering the coupling mechanism of reservoir deformation, failure, pore seepage and fracture flow, a multiphysical field coupling model of reservoir permeability enhancement under CWS is proposed. Under the fluid–solid coupling condition, the formation and development dynamic process of reservoir fractures are obtained, and the change of reservoir permeability is also obtained. The compression fracture zone, tensile fracture zone and undamaged zone are formed around the wellbore. After repeated impact, the number of fractures is more sensitive to tectonic stress, the fracture aperture is more sensitive to reservoir strength. Different from hydraulic fracturing, a large number of fractures in different directions will appear around the main fracture after repeated impact, forming a complex fracture network similar to spider web, which may be beneficial to improve reservoir permeability. The permeability of reservoirs with different tectonic stresses and strengths increases nonlinearly and monotonicly with repeated impacts. Based on CDEM, the change of reservoir permeability with tectonic stress, strength and impact times is obtained, which is a nonlinear monotonic three-dimensional relationship. Based on that relationship, the parameters of CWS can be controlled to predict the change of reservoir permeability, such as peak pressure, duration, impact times, etc. Therefore, it can optimize the reservoir fracturing scheme and improve the reservoir fracturing efficiency, which has considerable practical significance in engineering. [ABSTRACT FROM AUTHOR]

Published

2023

95. MODELING WILDFIRE IGNITION ORIGINS IN SOUTHERN CALIFORNIA USING LINEAR NETWORK POINT PROCESSES

Author

Uppala, Medha and Handcock, Mark S

Subjects

Point processes, linear network, spatiotemporal modeling, pseudolikelihood, Berman-Turner method, spider webs, wildfires, ignition origins, road networks, Statistics & Probability, Statistics, Econometrics

Published

2020

96. "So Long, Marianne".

Author

CLARK, VANESSA

Subjects

*NON-monogamous relationships, *SPIDER webs, *SUICIDAL ideation

Abstract

The article focuses on the lyrics of Leonard Cohen's song "So Long, Marianne," which reflects on love, loss, and emotional complexity, including the themes of yearning and separation, the symbolism of the song's imagery, and the emotional tone conveyed through the lyrics.

Published

2024

97. Spin a wicked web this autumn.

Author

Graham, Matty

Subjects

CANON camera, SPIDER webs, STREAMING video & television, WATER gardens, CAMERA tripods

Abstract

The article in PhotoPlus magazine discusses the art of capturing close-up shots of dew-covered spider webs in gardens during autumn. It emphasizes the importance of using a macro lens for detailed shots and suggests using a water sprayer bottle to mimic morning dew for added effect. The article provides step-by-step instructions on setting up the camera, focusing, and editing the images to enhance the final result. It encourages beginners to explore this photography technique in their own backyards or local parks. [Extracted from the article]

Published

2024

98. POCKETS.

Author

LEWAND, ANDREW

Subjects

WHITE-tailed deer hunting, OUTDOOR clothing, SPIDER webs, SHARED housing, CONFECTIONERY stores

Abstract

This article from Deer & Deer Hunting recounts the author's memories of going on a white-tailed deer hunt with their father. The author describes their father's collection of camouflage clothing and how they were given an oversized coat to wear. The coat had deep pockets that held candy wrappers and debris from past hunts. Years later, after the father's passing, the author rediscovers the coat and passes it down to their own son, creating a connection between generations of hunters. [Extracted from the article]

Published

2024

99. Christmas Spider.

Subjects

BEADWORK, CHRISTMAS trees, CHRISTMAS decorations, CHRISTMAS, SPIDER webs

Abstract

The article "Christmas Spider" from Creative Beading provides a step-by-step guide on creating a Christmas ornament using beads and wire. The story of the Christmas Spider legend is also shared, where spiders decorate a Christmas tree with webs that turn into shimmering silver and gold. The article suggests including a spider ornament on your Christmas tree as a tradition. [Extracted from the article]

Published

2024

100. Spiders might lure prey with fireflies.

Author

DE JESÚS, ERIN GARCIA

Subjects

*ORB weavers, *SPIDER webs, *FIREFLIES, *RESEARCH personnel, *MALES

Abstract

Orb weaver spiders have been observed tricking male fireflies into blinking in a pattern similar to that of a female firefly, which lures other males into their webs. This behavior allows the spiders to capture more prey and stock up on food. Researchers have found that male fireflies are more likely to get caught in webs and change their flashing pattern when an orb weaver spider is present. The spiders handle fireflies differently than nonflashing beetle species, wrapping them lightly in silk so their lanterns are still visible. The exact mechanism behind the change in signals is still unknown, but researchers suspect that the spider's bite or venom may play a role. [Extracted from the article]

Published

2024