Your search keyword '"biological interactions"' showing total 408 results

1. CATEGORIZING AND DEFINING THE DOMINANCE AND SUPPRESSION INTO POSITIVE AND NEGATIVE CONSCIOUS, SUBCONSCIOUS AND UNCONSCIOUS MIND STATES.

Author

JARALI, SHRUTHI SUKHADEV

Subjects

CONSCIOUSNESS, SUBCONSCIOUSNESS, SOCIAL structure, SOCIAL dominance, LOSS of consciousness

Abstract

This study investigates biological interactions and social structures within psychological frameworks in different manifestations of dominance and suppression classifying into conscious, subconscious, and unconscious mind states by looking at empirical research and theoretical models. This paper then details their mechanisms and impacts on individual and group behavior by looking into intentional, semi-intentional, and non-intentional mechanisms, respectively. This study explores the role that dominance and suppression play in forming social and biological hierarchies as well as individual psychologies, in addition to outlining the traits and outcomes of each type. The results are intended to advance knowledge of power relations in various contexts and offer new perspectives on the advantages and disadvantages of dominance and suppression. [ABSTRACT FROM AUTHOR]

Published

2024

2. Effects of host size on progeny sex and survivorship of Hymenoepimecis pinheirensis.

Author

Xavier, Gabriel Máximo, Gonzaga, Marcelo Oliveira, Castro, Vitor Campos de, Silva, William Dias, Valentim, Alisson Montanheiro, and Moura, Rafael Rios

Subjects

*LIFE cycles (Biology), *BIOMASS, *BODY size, *WASPS, *EGGS

Abstract

Parasitoid larvae consume their hosts to obtain the nutritional resources required for their development. Parasitoid wasps can optimally select the size of their hosts by laying unfertilized and fertilized eggs according to the amount of biomass available for consumption by the larvae. However, parasitoids may eventually experience low host availability within the optimal range of body sizes, affecting the survival of their offspring. In this study, we identified a situation in which all available hosts (Leucauge volupis) were smaller than those previously observed to be parasitized by Hymenoepimecis pinheirensis at the same study site. Therefore, we investigated how these parasitoids can bypass the scarcity of ideal hosts. Female wasps biased their oviposition toward the largest L. volupis females available. In this suboptimal scenario, they did not oviposit only unfertilized eggs, which developed into relatively small offspring (males). In this situation, they lay fertilized eggs mainly on larger spiders. Larval mortality was high, but the larvae attached to the larger spiders were more likely to complete their development. In general, H. pinheirensis females managed to target the best hosts available but could not delay the oviposition of fertilized eggs or avoid offspring mortality. Here, we discuss the potential causes of asynchronies in the life cycles of parasitoid wasps and their hosts, the availability of optimal hosts, and how these factors may affect their populations. [ABSTRACT FROM AUTHOR]

Published

2024

3. The Collagen Suprafamily

Author

Xiao, Jianxi, Wang, Min, Series Editor, and Xiao, Jianxi

Published

2024

4. Improvement of rhizosphere—rhizoplane—endosphere bacterial network on salt tolerance of maize after biological enhancement of earthworm and mycorrhizal fungi

Author

Wang, Binglei, Wang, Chong, and Xue, Rue

Published

2024

5. Soil nematode metacommunities in different land covers: Assessment at the local and regional scales.

Author

Niu, Ximei, Wang, Ping, Xie, Zhijing, Gao, Meixiang, Qian, Siru, Saifutdinov, Ruslan, Aspe, Nonillon M., Wu, Donghui, and Guan, Pingting

Subjects

*PLANT parasites, *SOIL nematodes, *DISPERSAL (Ecology), *LAND cover, *SOILS, *SOIL structure

Abstract

The metacommunity theory enhances our understanding of how ecological processes regulate community structure. Yet, unraveling the complexities of soil nematode metacommunity structures across various spatial scales and determining the factors influencing these patterns remains challenging. Therefore, we conducted an investigation on soil nematode metacommunities spanning from north to south in the Northeastern China. Our aim was to test whether nematode metacommunities were structured by different drivers under three land covers (i.e., farmland, grassland and woodland) at the local and regional scales. The results revealed that the Clementsian, Gleasonian and their quasi‐structures of soil nematodes collectively accounted for 93% of the variation across the three land covers at the local and regional scales. These structures suggest that the soil nematode metacommunities in the Northeast China responded to fluctuations in environmental gradients. At the local scale, metacommunities were primarily shaped by biological interactions. At the regional scale, environmental heterogeneity, dispersal limitation and biological interactions all contributed to nematode metacommunities. Meanwhile, biological interactions under three land covers were represented within different trophic groups, with plant parasites predominant in farmlands and bacterivores in grasslands and woodlands. In conclusion, the metacommunity structures of soil nematodes remain stable at different spatial scales and land covers. Biological interactions are widespread among nematodes regardless of changes in spatial scales and land covers. This study reveals the importance of nematode sensitivity to the environment and biological interactions in shaping the nematode metacommunities, potentially enhancing our understanding of the spatial patterns of nematode metacommunities. [ABSTRACT FROM AUTHOR]

Published

2024

6. Biological interactions with Prochlorococcus: implications for the marine carbon cycle.

Author

Cai, Lanlan, Li, Haofu, Deng, Junwei, Zhou, Ruiqian, and Zeng, Qinglu

Subjects

*PROCHLOROCOCCUS, *HETEROTROPHIC bacteria, *CARBON cycle, *CARBON fixation, *PENTOSE phosphate pathway, *EUPHOTIC zone, *OCEAN zoning, *FOOD chains

Abstract

Prochlorococcus is the smallest and most abundant photoautotroph on Earth, contributing significantly to global CO 2 fixation. Under climate change, ocean warming and reduced nutrients are expected to benefit Prochlorococcus , increasing its distribution and global abundance. The presence of helper heterotrophic bacteria facilitates the growth and environmental adaptability of Prochlorococcus , which in turn provide organic carbon and nutrients to heterotrophic bacteria, forming mutualistic interactions that drive marine carbon cycling. The fate of Prochlorococcus is mainly controlled by two top-down drivers, including viral lysis and protist grazing. Viruses primarily recycle Prochlorococcus -fixed carbon within the microbial loop via the viral shunt, and predatory protists transfer Prochlorococcus biomass to higher trophic levels through the grazing food chain. Prochlorococcus phages inhibit carbon fixation of the infected host cells while maintaining the light reactions of photosynthesis and the pentose phosphate pathway to maximize energy and materials for nucleotide biosynthesis which is a bottleneck in phage replication. The unicellular picocyanobacterium Prochlorococcus is the most abundant photoautotroph and contributes substantially to global CO 2 fixation. In the vast euphotic zones of the open ocean, Prochlorococcus converts CO 2 into organic compounds and supports diverse organisms, forming an intricate network of interactions that regulate the magnitude of carbon cycling and storage in the ocean. An understanding of the biological interactions with Prochlorococcus is critical for accurately estimating the contributions of Prochlorococcus and interacting organisms to the marine carbon cycle. This review synthesizes the primary production contributed by Prochlorococcus in the global ocean. We outline recent progress on the interactions of Prochlorococcus with heterotrophic bacteria, phages, and grazers that multifacetedly determine Prochlorococcus carbon production and fate. We discuss that climate change might affect the biological interactions with Prochlorococcus and thus the marine carbon cycle. [ABSTRACT FROM AUTHOR]

Published

2024

7. Root symbionts modify biomass of white clover (Trifolium repens) through changes in radiation interception and radiation-use efficiency.

Author

Druille, Magdalena, Rosso, Marina, García-Parisi, Pablo A., Oesterheld, Martín, and Omacini, Marina

Subjects

*PLANT biomass, *WHITE clover, *BIOMASS, *VESICULAR-arbuscular mycorrhizas, *LEAF area, *SYMBIODINIUM, *HOST plants

Abstract

Context. Root symbionts affect forage production by influencing host plant growth, but their specific effects on canopy intercepted photosynthetically active radiation (IPAR) and its conversion to plant biomass have not been investigated. Aims. We evaluated the extent to which changes in plant biomass resulting from arbuscular mycorrhizal fungi (AMF) and rhizobia can be explained by alterations in IPAR and aboveground and total radiation-use efficiency (RUE: the ratio between shoot or total biomass and IPAR). Methods. Under controlled greenhouse conditions, we evaluated single and dual inoculation effects of AMF and rhizobia on the forage legume white clover (Trifolium repens L.). Experimental units comprised canopies created in trays (50 cm by 34 cm by 13 cm deep). Key results. On average, AMF inoculation increased IPAR by 43%, owing to greater leaf area and density, and decreased total RUE by 30%. Aboveground RUE was lower in AMF-inoculated plants without rhizobial inoculation, despite their higher leaf phosphorus status and greenness during the vegetative and reproductive stages, respectively. Rhizobial inoculation reduced the negative effect of AMF inoculation on aboveground RUE. Conclusions. Both AMF and rhizobia alter white clover structure and function at canopy level. These variations may not be detected if the analysis considers only the impact of root symbionts on plant biomass. Implications. These findings offer valuable insights into the intricate interactions between root symbionts and canopy-level processes, providing a basis for further research at agricultural scale. [ABSTRACT FROM AUTHOR]

Published

2024

8. Biological Connections: A Classroom Activity to Visualize Complex Systems.

Author

Krajcir, Kevin J., Field, Emily K., Fultz, Bradley, Buff, Robin, Gann, Jim, and Neuman-Lee, Lorin A.

Abstract

Biological interactions and associations underlie life's processes at every level of organization. Here, we present a classroom activity that allows students to visualize and understand the connections within almost any biological system, from cell functions to ecological relationships. We recommend that instructors implement this activity to review course content and enhance students' system-thinking abilities. [ABSTRACT FROM AUTHOR]

Published

2024

9. Soil nematode metacommunities in different land covers: Assessment at the local and regional scales

Author

Ximei Niu, Ping Wang, Zhijing Xie, Meixiang Gao, Siru Qian, Ruslan Saifutdinov, Nonillon M. Aspe, Donghui Wu, and Pingting Guan

Subjects

biological interactions, dispersal limitation, environmental heterogeneity, metacommunity structure, nematode community assemblage, spatial scales, Ecology, QH540-549.5

Abstract

Abstract The metacommunity theory enhances our understanding of how ecological processes regulate community structure. Yet, unraveling the complexities of soil nematode metacommunity structures across various spatial scales and determining the factors influencing these patterns remains challenging. Therefore, we conducted an investigation on soil nematode metacommunities spanning from north to south in the Northeastern China. Our aim was to test whether nematode metacommunities were structured by different drivers under three land covers (i.e., farmland, grassland and woodland) at the local and regional scales. The results revealed that the Clementsian, Gleasonian and their quasi‐structures of soil nematodes collectively accounted for 93% of the variation across the three land covers at the local and regional scales. These structures suggest that the soil nematode metacommunities in the Northeast China responded to fluctuations in environmental gradients. At the local scale, metacommunities were primarily shaped by biological interactions. At the regional scale, environmental heterogeneity, dispersal limitation and biological interactions all contributed to nematode metacommunities. Meanwhile, biological interactions under three land covers were represented within different trophic groups, with plant parasites predominant in farmlands and bacterivores in grasslands and woodlands. In conclusion, the metacommunity structures of soil nematodes remain stable at different spatial scales and land covers. Biological interactions are widespread among nematodes regardless of changes in spatial scales and land covers. This study reveals the importance of nematode sensitivity to the environment and biological interactions in shaping the nematode metacommunities, potentially enhancing our understanding of the spatial patterns of nematode metacommunities.

Published

2024

10. Chemical analysis and hydroalcoholic extract activity of ferns on the mutualist fungus of leafcutter ants

Author

Isabella Rodrigues Lancellotti, Fábio Vieira Araujo, Leandro Machado Rocha, and Marcelo Guerra Santos

Subjects

antifungals, biological interactions, Leucoagaricus gongylophorus, pteridophytes., Biology (General), QH301-705.5, Botany, QK1-989

Abstract

Abstract Leafcutter ants are among the most important agricultural and forest pests in the Neotropical region, given that they use plant matter as substrate for the growth of their mutualist fungus Leucoagaricus gongylophorus. Plant-based insecticides and fungicides have shown potential for controlling these ants. The present study assessed the hydroalcoholic extract activity of four fern fronds (dry and rainy periods) on the mutualist fungus of leafcutter ants. Fungal mycelium suspensions were seeded on the surface of tubes containing fern extracts at a concentration of 5 mg/mL and 100 μg/mL. The chemical profile of the extracts was analyzed by thin layer chromatography (TLC). Extracts (dry period) at a concentration of 5 mg/mL inhibited the growth of the fungus: Macrothelypteris torresiana and Dicksonia sellowiana (less than 20%), Niphidium crassifolium (approximately 40%), Parapolystichum effusum extract (100%). None of the extracts (dry and rainy periods) inhibited fungal growth at a concentration of 100 μg/mL. The chemical profile analysis of the extracts indicated the presence of beta-sitosterol, friedelinol, rutin, and kaempferol. The crude extracts of P. effusum and N. crassifolium were the most promising in future formulations of antifungal products. Thus, ferns are potential plants in the search for environmentally-friendly substances for sustainable agriculture.

Published

2024

11. Seasonality regulates the taxonomic and functional compositions of protists responding to climate warming in forest ecosystems

Author

Fangfang Li, Anqi Sun, Xiaofei Liu, Peixin Ren, Bing‐Xue Wu, Ju‐Pei Shen, Li Bi, Ji‐Zheng He, Yusheng Yang, and Hang‐Wei Hu

Subjects

biological interactions, climate warming, ecosystem functions, forest ecosystems, protists, Agriculture (General), S1-972, Environmental sciences, GE1-350

Abstract

Abstract Introduction Protists are unicellular eukaryotes including important predators, parasites and phototrophs, and play pivotal roles in organic matter decomposition, biogeochemical nutrient cycling and various ecosystem functions. Unravelling the impact of climate warming on soil protists is paramount in predicting how these microorganisms will continue to provide essential ecosystem services in the face of changing climatic conditions. Materials and Methods We examined the effects of 5‐year simulated climate warming scenario, with temperatures increased by 4°C above ambient levels, on the diversity and community composition of soil protists, as well as their interactions with other microorganisms in both natural and plantation forest ecosystems during three seasons: summer, autumn and winter. Results We found a season‐dependent response of protists to climate warming, with a significant decrease in protist diversity during winter in natural forests. Furthermore, we identified significant alterations in the community compositions of protists during summer in both natural and plantation forests, as well as during winter in both forest types, under warming. Our analysis pinpointed specific functional protist taxa, such as consumers, parasites and phototrophs, which exhibited significant shifts in their relative abundances under warming. Additionally, we found that warming facilitated trophic interactions between protists and bacteria, while also strengthening interactions between bacterial and fungal communities. Warming could induce direct modifications in protist community compositions or indirectly affect them by modifying bacterial and fungal communities, as revealed by structural equation modelling. Conclusion These findings demonstrate the substantial impact of warming on the taxonomic and functional compositions of protists in forest ecosystems, with the magnitude of these effects varying across seasons. Our study implicates that ongoing climate warming could have significant consequences for the profiles of soil protists, as well as their trophic interactions with bacteria and fungi, highlighting the importance of considering these effects for the sustainable provision of ecosystem functions.

Published

2023

12. Biomolecule and Bioentity Interaction Databases in Systems Biology: A Comprehensive Review.

Author

Baltoumas, Fotis, Zafeiropoulou, Sofia, Karatzas, Evangelos, Koutrouli, Mikaela, Thanati, Foteini, Voutsadaki, Kleanthi, Gkonta, Maria, Hotova, Joana, Kasionis, Ioannis, Hatzis, Pantelis, and Pavlopoulos, Georgios

Subjects

associations, biological interactions, biomedical networks, data integration, databases, network biology, Animals, Computational Biology, Databases, Factual, Humans, Medical Informatics, Protein Binding, Protein Interaction Mapping, Protein Interaction Maps, RNA, Signal Transduction, Software, Systems Biology

Abstract

Technological advances in high-throughput techniques have resulted in tremendous growth of complex biological datasets providing evidence regarding various biomolecular interactions. To cope with this data flood, computational approaches, web services, and databases have been implemented to deal with issues such as data integration, visualization, exploration, organization, scalability, and complexity. Nevertheless, as the number of such sets increases, it is becoming more and more difficult for an end user to know what the scope and focus of each repository is and how redundant the information between them is. Several repositories have a more general scope, while others focus on specialized aspects, such as specific organisms or biological systems. Unfortunately, many of these databases are self-contained or poorly documented and maintained. For a clearer view, in this article we provide a comprehensive categorization, comparison and evaluation of such repositories for different bioentity interaction types. We discuss most of the publicly available services based on their content, sources of information, data representation methods, user-friendliness, scope and interconnectivity, and we comment on their strengths and weaknesses. We aim for this review to reach a broad readership varying from biomedical beginners to experts and serve as a reference article in the field of Network Biology.

Published

2021

13. Fungal Alcohol Dehydrogenases: Physiological Function, Molecular Properties, Regulation of Their Production, and Biotechnological Potential.

Author

Gutiérrez-Corona, J. Félix, González-Hernández, Gloria Angélica, Padilla-Guerrero, Israel Enrique, Olmedo-Monfil, Vianey, Martínez-Rocha, Ana Lilia, Patiño-Medina, J. Alberto, Meza-Carmen, Víctor, and Torres-Guzmán, Juan Carlos

Subjects

*DEHYDROGENASES, *FUNGAL metabolism, *ALCOHOL, *ENZYME metabolism, *CELL metabolism, *VASOPRESSIN

Abstract

Fungal alcohol dehydrogenases (ADHs) participate in growth under aerobic or anaerobic conditions, morphogenetic processes, and pathogenesis of diverse fungal genera. These processes are associated with metabolic operation routes related to alcohol, aldehyde, and acid production. The number of ADH enzymes, their metabolic roles, and their functions vary within fungal species. The most studied ADHs are associated with ethanol metabolism, either as fermentative enzymes involved in the production of this alcohol or as oxidative enzymes necessary for the use of ethanol as a carbon source; other enzymes participate in survival under microaerobic conditions. The fast generation of data using genome sequencing provides an excellent opportunity to determine a correlation between the number of ADHs and fungal lifestyle. Therefore, this review aims to summarize the latest knowledge about the importance of ADH enzymes in the physiology and metabolism of fungal cells, as well as their structure, regulation, evolutionary relationships, and biotechnological potential. [ABSTRACT FROM AUTHOR]

Published

2023

14. Influence of Intrinsic Impedance on the Phase of Propagation Pulse Through Biologic Tissue.

Author

Ketata, M., Loussert, A., Dhieb, M., Lahiani, M., and Ghariani, H.

Subjects

*BIOLOGICAL interfaces, *FINITE differences, *PERMITTIVITY, *PHASE shifters, *TISSUES

Abstract

The aim of this study is to examine the influence of the variation of the intrinsic impedance on the phase of a Gaussian pulse during propagation through a biological tissue. This paper describes a method for varying the intrinsic impedance while retaining the characteristics of the propagation medium. The propagation medium is considered as the superposition of four semi-infinite layers each characterized by their thickness, their conductivity, and their dielectric constant. These last parameters, on which the intrinsic impedance depends, are functions of the pulsation of the medium. In this work, we will test the continuity of the phase shift of the signal at the level of interfaces of biological layers with respect to that of the starting point as the function of the excitation pulsation. Next, we are going to vary the intrinsic. Next, we examine the influence of the variation of the intrinsic impedance at the interface on the phase shift of the signal at that level. We will adopt the Finite Difference Time Domain (FDTD) method to simulate the propagation of a Gaussian pulse. This method which is validated in previous work showed robustness to obtained signals very close to the reality at the interfaces. For these two tests, we will notice that the variation of intrinsic impedance has no influence on the variation of the phase at the interfaces. [ABSTRACT FROM AUTHOR]

Published

2023

15. Hierarchically embedded interaction networks represent a missing link in the study of behavioral and community ecology

Author

Montiglio, PO, Gotanda, KM, Kratochwil, CF, Laskowski, KL, and Farine, DR

Subjects

Biological Sciences, Ecology, biological interactions, eco-evolutionary processes, gene-phenotype interactions, multilayer networks, nested networks, gene–phenotype interactions, Evolutionary Biology, Zoology, Behavioral Science & Comparative Psychology, Evolutionary biology

Abstract

Because genes and phenotypes are embedded within individuals, and individuals within populations, interactions within one level of biological organization are inherently linked to interactors at others. Here, we expand the network paradigm to consider that nodes can be embedded within other nodes, and connections (edges) between nodes at one level of organization form "bridges" for connections between nodes embedded within them. Such hierarchically embedded networks highlight two central properties of biological systems: 1) processes occurring across multiple levels of organization shape connections among biological units at any given level of organization and 2) ecological effects occurring at a given level of organization can propagate up or down to additional levels. Explicitly considering the embedded structure of evolutionary and ecological networks can capture otherwise hidden feedbacks and generate new insights into key biological phenomena, ultimately promoting a broader understanding of interactions in evolutionary theory.

Published

2020

16. Ecological Interaction in the Proliferation of Phytoparasitic Nematodes in Coffee var. Typica.

Author

Morales-Aranibar, Luis, Yucra, Francisca Elena Yucra, Estrada, Nivia Marisol Pilares, Salcedo, Eliseo Pumacallahui, Morales-Aranibar, Carlos, Gutiérrez, Nataniel Linares, Aguilar, Oscar Mamani, Chura, Richar Marlon Mollinedo, Contreras, Wilberth Caviedes, Aguilera, Jorge González, Zuffo, Alan Mario, and Bernardo, Janaina Tauil

Subjects

*PLANT nematodes, *NEMATODES, *PEARSON correlation (Statistics), *SOIL nematodes, *NEMATODE-plant relationships, *PRINCIPAL components analysis, *MOUNTAIN soils

Abstract

Phytoparasitic nematodes are a common problem in coffee production worldwide. In Peru, the proliferation of phytoparasitic nematodes in Coffea arabica L. var. Typica has negative impacts on coffee production and huge economic losses. The objective of this study was to determine the ecological interactions that influence the proliferation of phytoparasitic nematodes in C. arabica var. Typica in Quillabamba, Cusco, Peru. The density of phytoparasitic nematodes in the soil and root was evaluated using the modified Baermann channel method. Identification of genera and species of phytoparasitic nematodes was carried out in the different samples, based on descriptions and taxonomic keys. Physical and chemical parameters of the soil were evaluated. Principal component analysis (PCA) and a correlation network were employed to distribute the different species of nematodes. The variables soil texture, organic matter, pH, altitude, temperature and humidity were used. During the sampling, several genera of plant-parasitic nematodes were identified in addition to various categories of nematodes. Meloidogyne exigua, Pratylenchus coffeae, Allotrichodorus longispiculis and Helicotylenchus longicaudatus are among the specific species of nematodes identified. The genus with the highest incidence was Meloidogyne spp. with 77.3% in soil and 96% in roots, reaching an average density of 340 nematodes in 100 g of soil and 368 nematodes in 1 g of roots. The PCA results show that 63.7% of the variability of the data is retained in the first two components. PCA shows that the sampled areas were differentiated and grouped with the evaluated characteristics, while the nematodes overlap in the representation of the analysis, thus making it difficult to select them. Pearson's correlation showed a negative correlation between altitude and soil nematode density (−0.22), suggesting that conditions at higher altitudes may be more unfavorable for nematode growth. In addition, a positive correlation was found between soil pH and organic matter (0.93, p < 0.001) and may influence nematode density. The factors that influence the density of nematodes in the soil and plant roots are multiple and complex, and their understanding is essential for the success of coffee production. The finding of the current study may be useful in the development of sustainable strategies for managing nematodes in coffee network production. [ABSTRACT FROM AUTHOR]

Published

2023

17. Microbial Biological Control of Fungi Associated with Grapevine Trunk Diseases: A Review of Strain Diversity, Modes of Action, and Advantages and Limits of Current Strategies.

Author

Mesguida, Ouiza, Haidar, Rana, Yacoub, Amira, Dreux-Zigha, Assia, Berthon, Jean-Yves, Guyoneaud, Rémy, Attard, Eléonore, and Rey, Patrice

Subjects

*GRAPES, *DIEBACK, *FUNGI, *CARBENDAZIM, *VITICULTURE, *GRAPE diseases & pests, *BIOLOGICAL pest control agents, *MICROBIOLOGICAL assay

Abstract

Grapevine trunk diseases (GTDs) are currently among the most important health challenges for viticulture in the world. Esca, Botryosphaeria dieback, and Eutypa dieback are the most current GTDs caused by fungi in mature vineyards. Their incidence has increased over the last two decades, mainly after the ban of sodium arsenate, carbendazim, and benomyl in the early 2000s. Since then, considerable efforts have been made to find alternative approaches to manage these diseases and limit their propagation. Biocontrol is a sustainable approach to fight against GTD-associated fungi and several microbiological control agents have been tested against at least one of the pathogens involved in these diseases. In this review, we provide an overview of the pathogens responsible, the various potential biocontrol microorganisms selected and used, and their origins, mechanisms of action, and efficiency in various experiments carried out in vitro, in greenhouses, and/or in vineyards. Lastly, we discuss the advantages and limitations of these approaches to protect grapevines against GTDs, as well as the future perspectives for their improvement. [ABSTRACT FROM AUTHOR]

Published

2023

18. Assessing abiotic correlations of an indicator species with sympatric riparian birds in a threatened submontane river–forest system using joint species modelling.

Author

Xu, Wenyu, Gong, Ye, Wang, Lin, Yao, Jiyuan, and Wang, Haitao

Subjects

*RARE birds, *SPECIES distribution, *RIPARIAN areas, *BIRD communities, *ENDANGERED species, *COMPETITION (Biology)

Abstract

Aim: To assess the abiotic correlations between indicator species and others in the community. Additionally, we evaluated the importance of environmental variables in driving the co‐occurrence patterns of the coexisting riparian bird species within a threatened aquatic and terrestrial system. Location: Seven classic submontane rivers in riparian ecosystems of the Changbai Mountains in eastern Jilin Province, China, elevation ranging from 351 to 942 m. Methods: Joint species distribution models (JSDMs) were applied to examine the relative importance of abiotic and potential species associations driving the abundance and cooccurrence of bird species along submontane riparian zones. The abiotic factors were examined with a focus on the scaly‐sided Merganser and the coexisting bird species potentially sharing or interacting within the same niche. Results: We found that the co‐occurrence patterns of submontane riparian bird species were dominantly driven by numerous positive correlations when incorporating abiotic variables. The scaly‐sided Merganser exhibited the greatest number of correlations with other species and exhibited significant responses to most of the measured environmental variables. Land cover diversity, proportion of gravel bars, and channel width were the most common environmental factors affecting riparian bird species distribution. Conclusions: Using JSDM, we found that the indicator roles of the scaly‐sided Merganser are mainly derived from shared environmental responses with coexisting riparian bird species; moreover, the composition of submontane riparian bird communities is affected by both environmental variables and potential species associations. Our results verified the central role of the scaly‐sided Merganser as an indicator species in submontane riparian ecosystems due to their strict physical environment preferences and extensive connections with other sympatric riparian bird species, primarily through shared environmental intersections. Our results emphasize the crucial necessity for simultaneously considering environmental predictors and potential species associations in modelling species distributions and to better realizing the roles of indicators in practical applications. [ABSTRACT FROM AUTHOR]

Published

2023

19. Niche models as a tool to inform restoration and conservation strategies: the case of Jubaea chilensis (palm, Arecaceae) and its seed disperser Octodon degus (rodent, Octodontidae)

Author

Ignacio Núñez-Hidalgo, Marina Fleury, and Ramiro O. Bustamante

Subjects

Jubaea chilensis, biological interactions, species distribution models (SDMs), multi-scale approach, effective disperser, ecological conservation, Forestry, SD1-669.5, Environmental sciences, GE1-350

Abstract

IntroductionBiotic interactions are a crucial component of the plant regeneration process, which has been traditionally studied at more local scales, providing the tools for planning and decision-making. Studies showing the signature of species interactions at coarser spatial scales contrasting with animal-plant interactions at fine scales have been scarce. This study aimed at integrating an approach, over both biogeographic and local scales, by testing two endemic species of Mediterranean central Chile: the relict and southernmost threatened Chilean palm Jubaea chilensis (Chilean palm; Molina; Baillón) and the caviomorph scatter-hoarding rodent Octodon degus (Degu; Molina), on which this palm currently relies for seed dispersal.MethodsIntegrating Geographic Information Systems and Ecological Niche Modeling, the intensity of seed-rodent interactions from a territorial perspective was evaluated in the range of the palm, at a biogeographic scale, identifying areas with greater or lesser potential for seed-rodent interactions; and in local populations, incorporating a variety of environmental factors that might affect palm regeneration.ResultsThe present results show that the rodent (Octodon degus) may play a role in Chilean palm (Jubaea chilensis) seed dispersal and seed establishment, since; Chilean palm regeneration is higher in areas where both species co-occur. At a local scale, a prominent overlap between palm seedlings and degu burrows was also found, which, allied with other abiotic variables such as altitude and topographic humidity, are crucial for successful palm regeneration.DiscussionUnderstanding the full extent of animal-plant interactions and how they are affected by habitat perturbation in a wide range will provide essential information for the design of effective conservation and management strategies, such as rewilding based on plant species.

Published

2023

20. Long-Term Succession on Offshore Wind Farms and the Role of Species Interactions.

Author

Zupan, Mirta, Rumes, Bob, Vanaverbeke, Jan, Degraer, Steven, and Kerckhof, Francis

Subjects

*OFFSHORE wind power plants, *COMMUNITIES, *COMMUNITY development, *MARINE ecology, *ECOLOGICAL succession

Abstract

The presence of biofouling communities in very large densities in offshore wind farms (OWFs) generates broad effects on the structure and functioning of the marine ecosystem, yet the mechanisms behind the temporal development of these communities remain poorly understood. Here, we use an 11-year series on biofouling fauna from OWFs installed in Belgian waters to determine succession patterns and to unravel the role of biological interactions in shaping community development. Our analysis shows that biological interactions, besides age and location, affect diversity patterns in OWFs. The abundance of foundation species, predators, and space occupiers was significantly related to richness and/or diversity. The trends in richness, diversity, and community composition suggest that no permanent stable climax is reached after 11 years, which can be linked to the dynamic and disturbance-prone environment of offshore fouling communities. [ABSTRACT FROM AUTHOR]

Published

2023

21. Urban Design for Biodiversity

Author

Friedman, Avi and Friedman, Avi

Published

2021

22. Origen y retos actuales de la diversidad vegetal en las sierras Béticas, un área de diversidad de importancia global

Author

Universidad de Sevilla. Departamento de Biología Vegetal y Ecología, Ministerio de Ciencia e Innovación (MICIN). España, European Commission (EC). Fondo Europeo de Desarrollo Regional (FEDER), Pugnaire, Francisco I., Arista Palmero, Montserrat, Carrión, José S., Devesa, Juan A., Herrera, Carlos M., Nieto Feliner, Gonzalo, Alonso, Conchita, Universidad de Sevilla. Departamento de Biología Vegetal y Ecología, Ministerio de Ciencia e Innovación (MICIN). España, European Commission (EC). Fondo Europeo de Desarrollo Regional (FEDER), Pugnaire, Francisco I., Arista Palmero, Montserrat, Carrión, José S., Devesa, Juan A., Herrera, Carlos M., Nieto Feliner, Gonzalo, and Alonso, Conchita

Abstract

Las sierras Béticas, con una extensión inferior al 8% de la Península ibérica, contienen el 45% de su flora. Hay casos como el de Sierra Nevada, que representando sólo el 0,4% de la superficie peninsular, contiene el 25% de su flora, alcanzando en las cumbres un 30-40% de endemismos. Con una aproximación multidisciplinar, abordamos la dimensión de la diversidad biológica que albergan, los mecanismos y procesos que la han originado y sustentado y qué amenazas afectan a esta concentración regional tan elevada de biodiversidad., The Betic ranges, with an area of less than 8% of the Iberian Peninsula, contain 45% of its flora. There are cases such as the Sierra Nevada range, which represents only 0.4% of the peninsular surface but contains 25% of its flora, reaching 30-40% endemism in the summits. With a multidisciplinary approach, we address the dimension of the biological diversity they host, the mechanisms and processes that originated and sustained it, and the threats affecting this biodiversity hotspot.

Published

2024

23. Host-Pathogen Interaction Databases: Tools for Rapid Understanding of Microbial Pathogenesis.

Author

Khan AA, Wakchoure P, Farooq F, Shiddiky MJA, and Jain SK

Abstract

Understanding of microbial pathogenesis has greatly revolutionized after conventional culture-based techniques are replaced by molecular methods. This technological shift is generating huge host-pathogen interactions (HPIs) data. Moreover, computational predictions of biological interactions are also adding to HPI understanding. Recently, several dedicated databases are developed for exclusively cataloging HPIs. Present article covers about some available HPI databases, types, and evolution of this area, along with recent trends in the application of these databases for biological research. As per the recent understanding in microbial pathogenesis, HPIs are considered highly dynamic in nature with multiple outcomes, which goes beyond simple microbes-disease association. Therefore, careful cataloging of complete information about HPIs can open several avenues to understand microbial pathogenesis considering their multifaceted effects on host system. HPI databases are indispensable tools for understanding microbial pathogenesis, and this article provides comprehensive information about their uses in the field of microbial pathogenesis research., (© 2024 Wiley Periodicals LLC.)

Published

2024

24. Investigation of Biological Activity of Nanoparticles Using Cell Lines

Author

Tejaswi, Jasti, Anirudh, Kaligotla Venkata Subrahmanya, Majeti, Lalitha Rishika, Kotagiri, Divya, Shaik, Khasim Beebi, Chaitanya, Kolluru Viswanatha, Siddhardha, Busi, editor, Dyavaiah, Madhu, editor, and Kasinathan, Kaviyarasu, editor

Published

2020

25. Seaweeds in the Antarctic Marine Coastal Food Web

Author

Momo, Fernando R., Cordone, Georgina, Marina, Tomás I., Salinas, Vanesa, Campana, Gabriela L., Valli, Mariano A., Doyle, Santiago R., Saravia, Leonardo A., Gómez, Iván, editor, and Huovinen, Pirjo, editor

Published

2020

26. Plastics and Microplastics: Impacts in the Marine Environment

Author

Steer, Madeleine, Thompson, Richard C., Streit-Bianchi, Marilena, editor, Cimadevila, Margarita, editor, and Trettnak, Wolfgang, editor

Published

2020

27. Fungal Alcohol Dehydrogenases: Physiological Function, Molecular Properties, Regulation of Their Production, and Biotechnological Potential

Author

J. Félix Gutiérrez-Corona, Gloria Angélica González-Hernández, Israel Enrique Padilla-Guerrero, Vianey Olmedo-Monfil, Ana Lilia Martínez-Rocha, J. Alberto Patiño-Medina, Víctor Meza-Carmen, and Juan Carlos Torres-Guzmán

Subjects

alcohol dehydrogenase, biological interactions, biotechnology prospective, fungi, function, transcriptional regulation, Cytology, QH573-671

Abstract

Fungal alcohol dehydrogenases (ADHs) participate in growth under aerobic or anaerobic conditions, morphogenetic processes, and pathogenesis of diverse fungal genera. These processes are associated with metabolic operation routes related to alcohol, aldehyde, and acid production. The number of ADH enzymes, their metabolic roles, and their functions vary within fungal species. The most studied ADHs are associated with ethanol metabolism, either as fermentative enzymes involved in the production of this alcohol or as oxidative enzymes necessary for the use of ethanol as a carbon source; other enzymes participate in survival under microaerobic conditions. The fast generation of data using genome sequencing provides an excellent opportunity to determine a correlation between the number of ADHs and fungal lifestyle. Therefore, this review aims to summarize the latest knowledge about the importance of ADH enzymes in the physiology and metabolism of fungal cells, as well as their structure, regulation, evolutionary relationships, and biotechnological potential.

Published

2023

28. Polymorphisms of the 11q23.3 Locus Affect the Risk and Mortality of Coronary Artery Disease.

Author

Iwanicki, Tomasz, Iwanicka, Joanna, Balcerzyk-Matić, Anna, Nowak, Tomasz, Mizia-Stec, Katarzyna, Bańka, Paweł, Filipecki, Artur, Krauze, Jolanta, Jarosz, Alicja, Górczyńska-Kosiorz, Sylwia, Ochalska-Tyka, Anna, Żak, Iwona, and Niemiec, Paweł

Subjects

*CORONARY artery disease, *LOCUS (Genetics), *ANGIOGRAPHY, *MORTALITY, CARDIOVASCULAR disease related mortality

Abstract

Background: The present study aimed to determine whether the polymorphisms of the 11q23.3 locus affect the risk and mortality of coronary artery disease in 5-year and 10-year observations. Methods: The study group consisted of 519 subjects: 276 patients with CAD and 243 blood donors as controls. The genotyping of polymorphisms (rs10750097, rs3741298, and rs1729410) was performed using the TaqMan-PCR method. Survival was defined as the period from the angiographic confirmation of CAD to cardiovascular death, and the endpoint was defined as death from cardiovascular causes. Results: The G allele of the rs1729410 polymorphism increased the risk of CAD (OR = 1.55, p = 0.04) and showed a synergistic correlation with overweight/obesity (additive synergy index (SI) = 11.01, p < 0.001). The carriers of the GG genotype and over-normative LDL levels increased the risk of CAD by over 12-fold higher than expected (multiplicative synergy index (SIM) = 12.34, p < 0.001). In the case of the rs10750097 variant, an effect on mortality was shown in both 5-year and 10-year periods. Conclusion: The results revealed that the rs1729410 polymorphism increases the risk of CAD in synergy with traditional risk factors, and the rs10750097 polymorphism of the 11q23.3 locus affects the risk of death in patients with CAD. [ABSTRACT FROM AUTHOR]

Published

2022

29. ReflectU: A Mirror-Based Intelligent Interactive System for Intuitive Remote Control.

Author

Zhang, Yu, Liu, Mingming, Nie, Jiangtian, Ding, Qicheng, Duan, Yong, Zhang, Yang, and Xiong, Zehui

Abstract

Large interactive displays are widely used in industrial scenarios to enhance ubiquitous and seamless human–machine interactions. However, few studies have paid attention to design implicit interaction that users can directly manipulate physical circumstance without touch or specific gesture. This article proposes ReflectU, a novel reflection-based approach that leverages mirror reflection for a natural and implicit interactive method for remote control, i.e., user will be able to directly interact with physical circumstance just via the reflection of their bare hands. We compare its performance with that of other two generally known devices: Wii Remoter and Microsoft Kinect. Moreover, performance metrics of ReflectU are evaluated in real-life scenarios and provide evidence in convincing performance in both the tasks requiring instant targeting and trajectory control. Furthermore, ReflectU is reported by users to be the most intuitive and satisfactory approach among all three candidates in user studies. Future industrial applications of the reflection-base mirror approach are discussed. [ABSTRACT FROM AUTHOR]

Published

2022

30. Fungal endophytes improve the performance of host plants but do not eliminate the growth/defence trade‐off.

Author

Atala, Cristian, Acuña‐Rodríguez, Ian S., Torres‐Díaz, Cristian, and Molina‐Montenegro, Marco A.

Subjects

*ENDOPHYTIC fungi, *PLANT growth, *HOST plants, *PLANT performance, *BOTANY, *PLANT ecology, *RYEGRASSES, *PLANT defenses

Abstract

This supports not only the existence of a trade-off between growth/reproduction and defence to herbivory without the participation of the plant endophytes, but also that the trade-off persists, at least in this species, in symbiotic (E+) plants (Fig. From these studies, we assume that the experimental design (E+ and E- plants) effectively disrupts any potential positive effect of the plant-microbe symbiosis in E- plants. Keywords: biological interactions; extreme environments; fungal endophytes; symbiosis; trade-off EN biological interactions extreme environments fungal endophytes symbiosis trade-off 384 387 4 06/20/22 20220715 NES 220715 Acknowledgements Our thanks to Marc-André Selosse for his constructive comments that allowed us to focus and highlight the fundamental aspects of our I Letter i . Fungal endophytes improve the performance of host plants but do not eliminate the growth/defence trade-off. [Extracted from the article]

Published

2022

31. Beyond phoresy: symbioses between dung beetles (Coleoptera: Scarabaeidae: Scarabaeinae) and mites (Acari).

Author

Noriega, Jorge Ari, Halliday, Bruce, Weston, Paul, Thotagamuwa, Agasthya, and Gurr, Geoff

Subjects

*DUNG beetles, *SCARABAEIDAE, *COMMENSALISM, *MITES, *ECOLOGICAL succession, *SYMBIOSIS, *BEETLES

Abstract

Decomposers are an essential component in any ecosystem and excrement represents one of the most abundant resources. Dung beetles and mites are important taxa in this microhabitat and interact in complex ways. Usually, a phoretic association is assumed, with mites merely being transported by beetles, but the extent of this relationship is poorly understood. We performed a comprehensive literature search and identified 245 relevant articles from which we recognised three major forms of symbiosis: i) commensalism, constituting phoresy with no cost to the host, ii) parasitism, in which predation, competition, or antagonism feature to the detriment of one partner, and iii) mutualism, in which both beetle and mite derive benefit. We examine the evidence for commensal phoresy, negative effects (parasitism, predation, or competition), and mutualism. Further, we identify as research priorities the exploration of ecological succession and seasonal dynamics, the effect of introduced mite species on ecosystem services, and co-evolution. In conclusion, the association and potential success of a hypothetical “phoresy” between mites and dung beetles depend on several variables that need to be evaluated. Finally, there is a lack of empirical data regarding dung beetle-mite interactions, with a large knowledge gap in several aspects, mainly because phoresy remains understudied. [ABSTRACT FROM AUTHOR]

Published

2022

32. Aprendizaje de las interacciones biológicas que se presentan entre los organismos en los ecosistemas de la Institución Educativa Barrio Santa Margarita.

Author

Galeano Marín, Juan David

Subjects

MEMORIZATION, CRITICAL theory, POSTURE, LEARNING, ECOSYSTEMS

Abstract

Copyright of Bio-grafía. Escritos Sobre la Biología y su Enseñanza is the property of Universidad Pedaggica Nacional 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

2022

33. Revisiting gold nanoshells as multifunctional biomedical nanotools.

Author

Topete, Antonio, Varela, Alejandro, Navarro-Real, Mariana, Rial, Ramón, Pardo, Alberto, and Taboada, Pablo

Subjects

*GLOBAL Positioning System, *GOLD nanoparticles, *OPTICAL properties, *BIOLOGICAL systems, *NANOSTRUCTURES, *NANOCARRIERS

Abstract

The application of gold nanoparticles in the biomedical field has been widely explored in the last decades owing to their high biocompatibility, easy functionalization, and their structurally highly dependent optical properties. Among the different types of gold-based nanostructures, gold nanoshells (GNSs) are a particularly interesting option due to their complex dual structure, which allows the integration of several functionalities and a wide tunability of their optical response. Despite the remarkable progress made for the design of GNSs with the optimal characteristics for the intended application, the development of nanosystems that display the desired functionalities and preserve them in biological environments while showing effective targeting capability is still a challenge. In this review, the different synthetic routes proposed for the design of GNSs, their most remarkable optical properties, and the most relevant concerns associated with their interaction with biological systems are discussed. The application of these nanostructures for different diagnostic and/or therapeutic purposes is also reviewed. Finally, major remaining barriers to the clinical translation of GNSs and potential future directions of research in this field are critically commented. [Display omitted] • GNSs with different shapes, geometries, and structures have been designed. • The optical properties of GNSs can be tuned within a broad range in the NIR biological windows. • GNSs are efficient drug nanocarriers and excellent photothermal therapeutic agents. • GNSs display outstanding biosensing and bioimaging capabilities. • Preliminary clinical assays showed the potential of GNSs as safety theragnostic tools. [ABSTRACT FROM AUTHOR]

Published

2025

34. Ecological Interaction in the Proliferation of Phytoparasitic Nematodes in Coffee var. Typica

Author

Luis Morales-Aranibar, Francisca Elena Yucra Yucra, Nivia Marisol Pilares Estrada, Eliseo Pumacallahui Salcedo, Carlos Morales-Aranibar, Nataniel Linares Gutiérrez, Oscar Mamani Aguilar, Richar Marlon Mollinedo Chura, Wilberth Caviedes Contreras, Jorge González Aguilera, Alan Mario Zuffo, and Janaina Tauil Bernardo

Subjects

biological interactions, ecological relationships, environmental factors, biological diversity, multivariate analysis, Agriculture

Abstract

Phytoparasitic nematodes are a common problem in coffee production worldwide. In Peru, the proliferation of phytoparasitic nematodes in Coffea arabica L. var. Typica has negative impacts on coffee production and huge economic losses. The objective of this study was to determine the ecological interactions that influence the proliferation of phytoparasitic nematodes in C. arabica var. Typica in Quillabamba, Cusco, Peru. The density of phytoparasitic nematodes in the soil and root was evaluated using the modified Baermann channel method. Identification of genera and species of phytoparasitic nematodes was carried out in the different samples, based on descriptions and taxonomic keys. Physical and chemical parameters of the soil were evaluated. Principal component analysis (PCA) and a correlation network were employed to distribute the different species of nematodes. The variables soil texture, organic matter, pH, altitude, temperature and humidity were used. During the sampling, several genera of plant-parasitic nematodes were identified in addition to various categories of nematodes. Meloidogyne exigua, Pratylenchus coffeae, Allotrichodorus longispiculis and Helicotylenchus longicaudatus are among the specific species of nematodes identified. The genus with the highest incidence was Meloidogyne spp. with 77.3% in soil and 96% in roots, reaching an average density of 340 nematodes in 100 g of soil and 368 nematodes in 1 g of roots. The PCA results show that 63.7% of the variability of the data is retained in the first two components. PCA shows that the sampled areas were differentiated and grouped with the evaluated characteristics, while the nematodes overlap in the representation of the analysis, thus making it difficult to select them. Pearson’s correlation showed a negative correlation between altitude and soil nematode density (−0.22), suggesting that conditions at higher altitudes may be more unfavorable for nematode growth. In addition, a positive correlation was found between soil pH and organic matter (0.93, p < 0.001) and may influence nematode density. The factors that influence the density of nematodes in the soil and plant roots are multiple and complex, and their understanding is essential for the success of coffee production. The finding of the current study may be useful in the development of sustainable strategies for managing nematodes in coffee network production.

Published

2023

35. Microbial Biological Control of Fungi Associated with Grapevine Trunk Diseases: A Review of Strain Diversity, Modes of Action, and Advantages and Limits of Current Strategies

Author

Ouiza Mesguida, Rana Haidar, Amira Yacoub, Assia Dreux-Zigha, Jean-Yves Berthon, Rémy Guyoneaud, Eléonore Attard, and Patrice Rey

Subjects

Botryosphaeria dieback, Esca, Eutypa dieback, biological interactions, plant microbiome, microbial interactions, Biology (General), QH301-705.5

Abstract

Grapevine trunk diseases (GTDs) are currently among the most important health challenges for viticulture in the world. Esca, Botryosphaeria dieback, and Eutypa dieback are the most current GTDs caused by fungi in mature vineyards. Their incidence has increased over the last two decades, mainly after the ban of sodium arsenate, carbendazim, and benomyl in the early 2000s. Since then, considerable efforts have been made to find alternative approaches to manage these diseases and limit their propagation. Biocontrol is a sustainable approach to fight against GTD-associated fungi and several microbiological control agents have been tested against at least one of the pathogens involved in these diseases. In this review, we provide an overview of the pathogens responsible, the various potential biocontrol microorganisms selected and used, and their origins, mechanisms of action, and efficiency in various experiments carried out in vitro, in greenhouses, and/or in vineyards. Lastly, we discuss the advantages and limitations of these approaches to protect grapevines against GTDs, as well as the future perspectives for their improvement.

Published

2023

36. Biocompatible a-SiC:H-Based Bistable MEMS Membranes With Piezoelectric Switching Capability in Fluids.

Author

Moll, Philipp, Pfusterschmied, Georg, Schneider, Michael, Dorfmeister, Manuel, Knafl, Sebastian, Wanzenboeck, Heinz D., and Schmid, Ulrich

Abstract

In this paper, we demonstrate biocompatible micromachined buckled membranes for the operation in liquids. The membranes feature diameters between 600 and 800 $\mu \text{m}$ as well as integrated piezoelectric thin film actuators, thus enabling switching between the bistable states. The membrane material is known to be not biocompatible, hence a hydrogenated amorphous silicon carbide (a-SiC:H) layer is deposited on the surface. For demonstration purposes, a 70 nm ±3 nm thin a-SiC:H coating with a specific silicon to carbon ratio was chosen, with a negligible impact on the overall switching performance of the bistable membranes. Furthermore, a relation between the membrane center velocity at the first characteristic resonance frequency and the switching ability of a membrane in different viscous fluids is shown. Based on a small signal analysis the switching behavior can be predicted. The membranes were successfully switched in liquids with a dynamic viscosity up to 286 mPa $\cdot \text{s}$. The biocompatibility of the membranes was examined by growing Caco-2 cells, a human carcinoma cell line, on a-SiC:H thin films, featuring different carbon contents and organic surface treatments. The proliferation and adhesion of the cells on the substrates are examined in an empirical cell growth and removal study. Only a-SiC:H surfaces pre-treated with an O2-plasma and coated with Collagen Type I indicated to provide an environment of improved cell adhesiveness compared to other surface treatments. The biological investigations resulted in good cell proliferation, that also depends on the altered hydrophilicity of the surface, as well as on the carbon content of the a-SiC:H thin films. This study reveals that a broad range of biocompatible a-SiC:H surfaces can be prepared, whereby the cell growth can be tailored in terms of proliferation and adhesion for different biomedical application scenarios. Finally, this paper reports on the mechanical features of bistable, buckled membranes and their suitability as a growth substrate for human cell cultures, due to the good biocompatibility of a-SiC:H thin films. We therefore suggest that it will be feasible to grow cells on bistable MEMS membranes, enabling cell experiments in liquid medical environments, with both mechanically excitable and biocompatible surfaces. [2022-0006] [ABSTRACT FROM AUTHOR]

Published

2022

37. Foliar and Soil Treatments of Brassica napus That Elicit Antibiosis in Brevicoryne brassicae.

Author

Javed, Muhammad Wajid, Hasan, Mansoor ul, Sagheer, Muhammad, Sahi, Shahbaz Talib, and Mankin, Richard W.

Subjects

*RAPESEED, *ANTIBIOSIS, *SALICYLIC acid, *SOIL amendments, *CITRIC acid

Abstract

In screenhouses, foliar and soil applications of induced resistance (IR), nutrient deterrence (ND), and soil amendment (SAM) treatments to canola, Brassica napus L., reduced fitness in an aphid pest, Brevicoryne brassicae L. Effects of different combinations and doses of IR, ND, and SAM on aphids were compared with those of labeled doses of Carbosulfan and a control. Dose differences between treatments and the control were found for several measures of B. brassicae fitness, including Kaplan–Meier functions, reproduction time, effective fecundity (Md), intrinsic rates of natural increase (rm), relative growth rate (RGR), and generation time. Progeny, development/pre-reproductive period, and percent progeny nymph survival were also significantly different from the control. Carbosulfan was the most rapidly acting treatment; however, 1 mM salicylic acid (SA) produced statistically significant reductions in aphid fitness compared to the control, followed by 1 mM citric acid (CA), 0.5 mM SA, and 0.5 mM CA. Silicon (Si) at 50 kg/ha was the most effective ND approach. Ammonium sulfate (AS) only decreased fitness at 25 kg/ha. The SAM combinations of both elemental sulfur (ES) and bio-sulfur (BS) treatments with compost (Cp) also yielded statistically significant aphid fitness reductions. These results provide context for future exploration of IR, ND, and SAM approaches to improve canola yield and reduce aphid damage. [ABSTRACT FROM AUTHOR]

Published

2022

38. What we really know about the composition and function of microalgae cell coverings? - an overview

Author

Cíntia de Almeida Gonçalves and Cleber Cunha Figueredo

Subjects

algal coverings variety, biological interactions, cell surface, molecular structures, taxonomical value, Botany, QK1-989

Abstract

ABSTRACT Cell coverings can be observed in all major groups of organisms, which include animals, plants, fungi, protists and prokaryotes. They play a key role in assuring cell survival or adaptation to certain environmental conditions. Since the term algae refers to a polyphyletic and very artificial group, the cell coverings of these organisms are very diverse in molecular composition and with different arrangements. Differences have taxonomic value since they allow microalgae phyla or even minor taxonomic groups, such as classes, orders or families, to be distinguished. Understanding the structure of cell coverings is also fundamental for the use of microalgae to obtain products of commercial value. Despite its importance, the composition and architecture of microalgae coverings is still poorly understood, especially considering the great diversity of organisms. Diatom frustules are the most studied coverings due their uses in areas of bio- and nanotechnology. There is a lack of information about the cell wall, lorica, periplast, amphiesma and scales. This study is a review with the aim of synthesizing literature information on microalgae cell coverings to describe their compositions, arrangements, functions and industrial uses.

Published

2021

39. Ants associate with microlepidoptera galleries in leaves of Acrostichum danaeifolium Langsd. & Fisch.

Author

Marcelo Guerra Santos, Isabella Rodrigues Lancellotti, Gemagno Marinho Ribeiro, Rennan Leite Martins Coutinho, and Rodrigo Machado Feitosa

Subjects

Biological interactions, Arthropods, Fern-insect interactions, Focal species, Zoology, QL1-991

Abstract

ABSTRACT Acrostichum danaeifolium, a Neotropical fern, occurs preferentially in marshy areas or at the margins of lakes and mangroves. Microlepidoptera larvae burrow through the petioles of the fern, preferentially on the non-expanded leaves. The galleries in the petiole create a new microhabitat, harboring a rich fauna of arthropods. The aim of the present study was to assess the richness of ants associated with its petiole. The study was conducted in a population of A. danaefolium from the Atlantic Forest in Rio de Janeiro state, Southeastern Brazil. Six collections were carried out every two months (2009-2010), three in the dry and three in the rainy season. The leaves were divided into three development stages: non-expanded leaves (NEL), expanded leaves (EL) and senescent leaves (SL). Seven leaves from each phase were randomly collected from seven individuals. A total of fifteen ant species were recorded. The species with the highest frequency and density in fern petioles were Camponotus crassus and Crematogaster curvispinosa. The highest ant richness and abundance was found in senescent leaves. The high number of ants found in the petioles of Acrostichum danaefolium qualifies it as a potential key species in the marshes and flooded areas where it occurs.

Published

2022

40. Long-Term Succession on Offshore Wind Farms and the Role of Species Interactions

Author

Mirta Zupan, Bob Rumes, Jan Vanaverbeke, Steven Degraer, and Francis Kerckhof

Subjects

biofouling, north sea, ecological succession, biological interactions, artificial hard substrate, offshore wind farms, Biology (General), QH301-705.5

Abstract

The presence of biofouling communities in very large densities in offshore wind farms (OWFs) generates broad effects on the structure and functioning of the marine ecosystem, yet the mechanisms behind the temporal development of these communities remain poorly understood. Here, we use an 11-year series on biofouling fauna from OWFs installed in Belgian waters to determine succession patterns and to unravel the role of biological interactions in shaping community development. Our analysis shows that biological interactions, besides age and location, affect diversity patterns in OWFs. The abundance of foundation species, predators, and space occupiers was significantly related to richness and/or diversity. The trends in richness, diversity, and community composition suggest that no permanent stable climax is reached after 11 years, which can be linked to the dynamic and disturbance-prone environment of offshore fouling communities.

Published

2023

41. A Robust Lyapunov Criterion for Nonoscillatory Behaviors in Biological Interaction Networks.

Author

Angeli, David, Al-Radhawi, Muhammad Ali, and Sontag, Eduardo D.

Subjects

*BIOLOGICAL networks, *LIMIT cycles, *FOOD additives, *LYAPUNOV functions, *EXPONENTIAL stability, *DIFFERENTIAL inclusions

Abstract

We introduce the notion of nonoscillation, propose a constructive method for its robust verification, and study its application to biological interaction networks (also known as, chemical reaction networks). We begin by revisiting Muldowney’s result on the nonexistence of periodic solutions based on the study of the variational system of the second additive compound of the Jacobian of a nonlinear system. We show that exponential stability of the latter rules out limit cycles, quasi-periodic solutions, and broad classes of oscillatory behavior. We focus then on nonlinear equations arising in biological interaction networks with general kinetics, and we show that the dynamics of the aforementioned variational system can be embedded in a linear differential inclusion. We then propose algorithms for constructing piecewise linear Lyapunov functions to certify global robust nonoscillatory behavior. Finally, we apply our techniques to study several regulated enzymatic cycles, where available methods are not able to provide any information about their qualitative global behavior. [ABSTRACT FROM AUTHOR]

Published

2022

42. Sharpshooters: Context Dependent Snap Modulation in Pistol Shrimp

Author

Nadeau, Noah

Subjects

Biological oceanography, Biomechanics, Behavioral sciences, biological interactions, cavitation bubble, modulation, pistol shrimp, snapping shrimp, water jet

Abstract

Pistol shrimp have one of the fastest, loudest, and deadliest weapons in the ocean. The rapid snap of their modified claw generates a water jet and cavitation bubble that is used to ward off predators, subdue prey, and settle disputes. It is suggested that pistol shrimp can control the volume they let into the socket of their snapping claw, thereby affecting the force of their strikes. The goal of this study was to determine if pistol shrimp exhibit context-dependent snap modulation. We hypothesized that (1) pistol shrimp would snap with different power in response to different stimuli, and (2) that the predator would induce the most powerful snap while the conspecific would induce the least powerful snap. Two species of pistol shrimp, Alpheus clamator and Synalpheus lockingtoni, were presented stimuli in random order: predator (shore crab), prey (red rock shrimp), conspecific, and control (paintbrush). Snaps were recorded with a high-speed video camera (25,000 fps) and hydrophone, from which water jet dimensions and velocity were calculated. Results show that there is great variability in total water jet velocity, with the prey stimulus inducing a weaker snap than all other stimuli. Yet all other snap characteristics were consistent across stimuli. Pistol shrimp appear to modulate their snap based on context, but to a limited extent, thereby supporting our main hypothesis. This study provides deeper insights into the biomechanics of the pistol shrimp snap, and a better ecological understanding of how they use this potent weapon.

Published

2022

43. Biological responses to engineered nanomaterials: Needs for the next decade

Author

Rosenzweig, Ze'ev [Univ. of Maryland, Baltimore, MD (United States)]

Published

2015

44. Antagonism between killer yeast strains as an experimental model for biological nucleation dynamics

Author

Andrea Giometto, David R Nelson, and Andrew W Murray

Subjects

physical biology, ecology, evolution, antagonism, toxin, biological interactions, Medicine, Science, Biology (General), QH301-705.5

Abstract

Antagonistic interactions are widespread in the microbial world and affect microbial evolutionary dynamics. Natural microbial communities often display spatial structure, which affects biological interactions, but much of what we know about microbial antagonism comes from laboratory studies of well-mixed communities. To overcome this limitation, we manipulated two killer strains of the budding yeast Saccharomyces cerevisiae, expressing different toxins, to independently control the rate at which they released their toxins. We developed mathematical models that predict the experimental dynamics of competition between toxin-producing strains in both well-mixed and spatially structured populations. In both situations, we experimentally verified theory’s prediction that a stronger antagonist can invade a weaker one only if the initial invading population exceeds a critical frequency or size. Finally, we found that toxin-resistant cells and weaker killers arose in spatially structured competitions between toxin-producing strains, suggesting that adaptive evolution can affect the outcome of microbial antagonism in spatial settings.

Published

2021

45. Ozone disrupts the communication between plants and insects in urban and suburban areas: an updated insight on plant volatiles.

Author

Masui, Noboru, Agathokleous, Evgenios, Mochizuki, Tomoki, Tani, Akira, Matsuura, Hideyuki, and Koike, Takayoshi

Abstract

Plant–insect interactions are basic components of biodiversity conservation. To attain the international Sustainable Development Goals (SDGs), the interactions in urban and in suburban systems should be better understood to maintain the health of green infrastructure. The role of ground-level ozone (O3) as an environmental stress disrupting interaction webs is presented. Ozone mixing ratios in suburbs are usually higher than in the center of cities and may reduce photosynthetic productivity at a relatively higher degree. Consequently, carbon-based defense capacities of plants may be suppressed by elevated O3 more in the suburbs. However, contrary to this expectation, grazing damages by leaf beetles have been severe in some urban centers in comparison with the suburbs. To explain differences in grazing damages between urban areas and suburbs, the disruption of atmospheric communication signals by elevated O3 via changes in plant-regulated biogenic volatile organic compounds and long-chain fatty acids are considered. The ecological roles of plant volatiles and the effects of O3 from both a chemical and a biological perspective are presented. Ozone-disrupted plant volatiles should be considered to explain herbivory phenomena in urban and suburban systems. [ABSTRACT FROM AUTHOR]

Published

2021

46. Shifting interactions among bacteria, fungi and archaea enhance removal of antibiotics and antibiotic resistance genes in the soil bioelectrochemical remediation

Author

Xiaodong Zhao, Xiaojing Li, Yue Li, Yang Sun, Xiaolin Zhang, Liping Weng, Tianzhi Ren, and Yongtao Li

Subjects

Soil bioelectrochemical remediation, Bioelectricity generation, Antibiotic degradation, Antibiotic resistance genes, Biological interactions, Fuel, TP315-360, Biotechnology, TP248.13-248.65

Abstract

Abstract Background Antibiotics and antibiotic resistance genes (ARGs) are two pollutants in soil, especially ARGs as one of the top three threats to human health. The performance of soil microbial fuel cells (MFCs) fuelled with antibiotics was investigated. Results In this study, soil MFCs spiked with tetracycline exhibited optimal bioelectricity generation, which was 25% and 733% higher than those of MFCs spiked with sulfadiazine and control, respectively. Compared with the non-electrode treatment, not only did functional micro-organisms change in open- and closed-circuit treatments, but also the microbial affinities, respectively, increased by 50% and 340% to adapt to higher removal of antibiotics. For the open-circuit treatment, the ineffective interspecific relation of micro-organisms was reduced to assist the removal efficiency of antibiotics by 7–27%. For the closed-circuit treatment, an intensive metabolic network capable of bioelectricity generation, degradation and nitrogen transformation was established, which led to 10–35% higher removal of antibiotics. Importantly, the abundances of ARGs and mobile genetic element (MGE) genes decreased after the introduction of electrodes; especially in the closed-circuit treatment, the highest reduction of 47% and 53% was observed, respectively. Conclusions Soil MFCs possess advantages for the elimination of antibiotics and ARGs with sevenfold to eightfold higher electricity generation than that of the control treatment. Compared with sulphonamides, the enhancement removal of tetracycline is higher, while both potential ARG propagation risk is reduced in soil MFCs. This study firstly synchronously reveals the relationships among bacteria, fungi and archaea and with ARGs and MGE genes in soil bioelectrochemical systems.

Published

2019

47. Predicting of Associations Between MicroRNA and Human Diseases Based on Multiple Similarities and Arbitrarily-Order Proximity Network Embedding

Author

Xiujin Wu, Wenhua Zeng, Yuxiu Xu, Beizhan Wang, Xiangrong Liu, Fan Lin, and Gil Alterovitz

Subjects

Bioinformatics, biomedical informatics, biological interactions, prediction methods, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Microbe-RNAs (miRNAs) play an important role and are associated with human diseases. However, considering the high cost and time-consuming biological experiments, using effective computational methods to discover the underlying association between the miRNAs and diseases would be valuable. This study presents a novel computational prediction model based on multiple-similarity and arbitrarily-order proximity network embedding. We obtain the Gaussian similarity from the disease-miRNA interaction matrix for the miRNA and disease. Then, considering the Gaussian similarity, disease semantic, phenotype similarity, and the miRNA functional similarity, we compute the miRNA-miRNA similarity matrix and the disease-disease similarity matrix. Most importantly, we improved the SVD matrix decomposition to extract the primary feature vector. We called it arbitrarily-order proximity network embedding method. By multiplying the feature vectors together, we calculate the final miRNA-disease association score matrix. According to the ranking scores, we can know which miRNA is mostly relevant to a disease. This process proved that our method achieved better prediction performance than other methods. In the experiment, after adding arbitrarily-order proximity network embedding to the inductive matrix completion method [1], the AUC of our method in leave-one-out cross-validation increased dramatically from 0.8034 to 0.92306. Meanwhile, the studies of three cases, namely, prostate neoplasms, breast neoplasms, and lung neoplasms, of the top 50 potential miRNAs predicted by our method were validated by the database of dbDEMC and mir2disease. This finding indicated that our method can effectively obtain the potential disease miRNA candidates. Comparison of our work with other algorithms reveals its reliable performance.

Published

2019

48. Editorial: Biointerfacing 2D Nanomaterials and Engineered Heterostructures

Author

Alfredo Maria Gravagnuolo, Eden Morales-Narváez, and Alessandro Martucci

Subjects

nanomaterials, biointerfaces, biological interactions, nanotoxicology, nanodevices, nanobiotechnology, Biotechnology, TP248.13-248.65

Published

2021

49. Foliar and Soil Treatments of Brassica napus That Elicit Antibiosis in Brevicoryne brassicae

Author

Muhammad Wajid Javed, Mansoor ul Hasan, Muhammad Sagheer, Shahbaz Talib Sahi, and Richard W. Mankin

Subjects

biological interactions, bio-sulfur, citric acid, organic compost, plant resistance inducers, salicylic acid, Agriculture

Abstract

In screenhouses, foliar and soil applications of induced resistance (IR), nutrient deterrence (ND), and soil amendment (SAM) treatments to canola, Brassica napus L., reduced fitness in an aphid pest, Brevicoryne brassicae L. Effects of different combinations and doses of IR, ND, and SAM on aphids were compared with those of labeled doses of Carbosulfan and a control. Dose differences between treatments and the control were found for several measures of B. brassicae fitness, including Kaplan–Meier functions, reproduction time, effective fecundity (Md), intrinsic rates of natural increase (rm), relative growth rate (RGR), and generation time. Progeny, development/pre-reproductive period, and percent progeny nymph survival were also significantly different from the control. Carbosulfan was the most rapidly acting treatment; however, 1 mM salicylic acid (SA) produced statistically significant reductions in aphid fitness compared to the control, followed by 1 mM citric acid (CA), 0.5 mM SA, and 0.5 mM CA. Silicon (Si) at 50 kg/ha was the most effective ND approach. Ammonium sulfate (AS) only decreased fitness at 25 kg/ha. The SAM combinations of both elemental sulfur (ES) and bio-sulfur (BS) treatments with compost (Cp) also yielded statistically significant aphid fitness reductions. These results provide context for future exploration of IR, ND, and SAM approaches to improve canola yield and reduce aphid damage.

Published

2022

50. Assessing climatic and intrinsic factors that drive arthropod diversity in bird nests

Author

Gaston O. Carvallo, Manuel López-Aliste, Mercedes Lizama, Natali Zamora, and Giselle Muschett

Subjects

biological interactions, invertebrates, mediterranean-type ecosystem, taxonomic composition, Oceanography, GC1-1581, Zoology, QL1-991

Abstract

Bird nests are specialized structures that act as microrefuge and a source of food for arthropods. Nest arthropod richness and composition may vary according to the nest builder, geographical location and nest size. Because information on nest arthropods is scarce, there are even fewer studies on the drivers of nest arthropod diversity. We characterized arthropod diversity in cup- and dome-shaped nests along a 130 km latitudinal gradient in the mediterranean-type region of Central Chile and, we assessed whether nest dimensions and climatic factors explain richness (alpha-diversity). Then, we evaluated whether climatic differences between sites explain arthropod nest composition (beta-diversity). All collected nests hosted at least one arthropod specimen. We identified 43 taxonomic entities (4.2 entities per nest ± 0.5, mean ± SE, n = 27 nests) belonging to 18 orders and five classes: Arachnida, Diplopoda, Entognatha, Insecta and Malacostraca. We observed differences in nest arthropod richness and composition related to sites but not bird species. Larger nests supported greater arthropod richness. Furthermore, we observed that climatic differences explain the variation in arthropod composition between sites. Nests in the northern region (drier and warmer) mainly hosted Hemipterans and Hymenopterans. Contrary, nests in the southern region (humid and colder) hosted species of Collembola, Dermaptera, and Diplopoda. Positive relationship between nests surface area with arthropod richness suggests us that larger nests may keep more resources. Our study sheds light on a crucial interaction which may have potential consequences for insect assemblage composition and bird reproductive biology.

Published

2020