Your search keyword '"ABIOTIC environment"' showing total 2,893 results

1. Individual traits modify environmental effects on interaction, connectivity, and productivity of macrophyte community.

Author

Fu, Hui, Guo, Jingjing, He, Xianjun, Chen, Yaoqi, Wu, Zhouhang, Ge, Yili, and Cai, Guojun

Subjects

*LAKES, *ABIOTIC environment, *WATER depth, *PATH analysis (Statistics), *ABSOLUTE value

Abstract

Functional traits of individuals and not just species can regulate ecological interactions with biotic and abiotic environments, yet how individual-level functional diversity (FDind) mediates the environmental effects on community properties (e.g., interaction patterns, connectivity and productivity) remains largely unexplored. Here, we assembled 4432 individuals from 30 macrophyte species across 26 lakes in south China and measured six functional traits -shoot height, specific leaf area, lamina thickness, leaf dry mass content, stem diameter and stem dry mass content—for each individual. We estimated FDind for macrophyte community in each plot using trait probability density framework. Path analysis revealed that functional richness promoted negative interactions (the absolute value of negative: positive cohesion as proxy of community interaction patterns) and thus community productivity at lower total phosphorus (TP) and shallower water, while functional divergence/redundancy reduced negative interaction and thus community productivity at shallower water, lower TP and higher altitude. Functional evenness decreased community productivity at higher TP and deeper water. Functional dissimilarity reduced community connectivity (total cohesion) and thus community productivity at deeper water and higher altitude. Our results highlight that FDind could modify the environmental effects (from local to regional) on the interaction patterns, network connectivity and productivity of macrophyte community. [ABSTRACT FROM AUTHOR]

Published

2024

2. Biotic and abiotic properties mediating sediment microbial diversity and function in a river--lake continuum.

Author

Yabing Gu, Delong Meng, Zhenghua Liu, Min Zhang, Zhaoyue Yang, Huaqun Yin, Yanjie Liang, and Nengwen Xiao

Subjects

ABIOTIC environment, MICROBIAL ecology, EXTREME environments, WATER diversion, BACTERIAL communities, FUNGAL communities

Abstract

A river-lake system plays an important role in water management by providing long-term and frequent water diversions. However, hydrological connectivity in the system can have a profound effect on sediment microbial communities through pH, nutrient concentrations, and benthos invertebrates. Consequently, identifying the key environmental factors and their driving mechanisms is vital for microbial adaptation strategies to extreme environments. In this study, we analyzed the significant difference in sediment bacterial and fungal community structures and diversity indices among Dongting Lake and its tributary rivers, which worked as a typical river-connected lake ecosystem. There were significant differences in biotic and abiotic environments in the sediment habitats of Dongting Lake and its tributary rivers. Random forest analysis revealed that pH and Mollusca were found to be the most important abiotic and biotic variables for predicting both bacterial and fungal community structures, respectively. The beta diversity decomposition analyses showed that the bacterial and fungal community compositional dissimilarities among different sections were dominated by species replacement processes, with more than half of the OTUs in each section being unique. Notably, both biotic and abiotic factors affected the number and the relative abundance of these bacterial and fungal unique OTUs, leading to changes in community composition. Mollusca, pH, TP, NO3-N, and NH4-N were negatively related to the relative abundance of Actinobacteria, Acidobacteria, Gemmatimonadetes, Planctomycetes, and Ascomycota, while Annelida and ORP were positively related to the relative abundance of Actinobacteria and Gemmatimonadetes. Additionally, PICRUSt analysis revealed that the functional dissimilarity among lakes and rivers was strengthened in unique species compared to all species in bacterial and fungal communities, and the changes of functional types helped to improve the habitat environment in the main Dongting Lake and promote the process of microbial growth. From our results, the role of macrozoobenthos and physicochemical characteristics in driving the sediment microbial community spatial variations became clear, which contributed to further understanding of the river-lake ecosystem. [ABSTRACT FROM AUTHOR]

Published

2024

3. Planning for the future: Grasslands, herbivores, and nature‐based solutions.

Author

Borer, Elizabeth T. and Risch, Anita C.

Subjects

*CLIMATE change adaptation, *ABIOTIC environment, *ENVIRONMENTAL degradation, *CLIMATE change conferences, *HERBIVORES, *CLIMATE change & health

Abstract

Global interest and investment in nature‐based solutions (NbS) are rapidly increasing because of the potential of this approach to concurrently counter biodiversity loss, provide cost‐effective measures for climate change adaptations, and maintain natural processes that underpin human health and wellbeing.Recognition is growing that grasslands in many regions will protect carbon stores more effectively than forests in the warmer, drier, more fire‐prone conditions of the future while also serving as hotspots for biodiversity. Yet grasslands have received less attention for their NbS potential. Despite the wide‐ranging goals of this approach, many investments in nature‐based solutions also have focused narrowly on using plants to meet climate pledges, often without considering plant interactions with herbivores and the abiotic environment that jointly control ecosystem functioning and underpin the success of nature‐based solutions.Here, we review the roles that large and small vertebrate and invertebrate herbivores play in the ability of the world's grasslands to provide nature‐based solutions, with a focus on wild herbivore impacts on biodiversity and carbon storage.Synthesis. Planning for nature‐based solutions with a holistic, ecologically informed view that includes the role of herbivores and their interaction with plants and the environment will allow NbS investments to more likely achieve successful, sustainable outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

4. Weathering of Buried Standard Pieces of Serpentine under Varied Soil Treatments and Relevant Analysis of Microbial Community Structure.

Author

Sun, Menglin, Meng, Lei, Cao, Yinhua, Zhang, Yutong, and Lian, Bin

Subjects

*ABIOTIC environment, *SOIL weathering, *SILICATE minerals, *CARBON cycle, *CARBON sequestration

Abstract

Carbon sink processes related to the weathering of silicate minerals are often accompanied by physical, chemical, and biological effects. In particular, plant-microbe synergistic effects are important for soil mineral weathering, but relevant correlation analyses and quantitative studies remain sparse. In this research, a standard serpentine test specimens (STSs) with specific specifications were used to study serpentine weathering under different environmental conditions (abiotic or biotic) and correlated it with the microbial community structure under the growth of Setaria viridis. The results showed that the environment with growing S. viridis had the strongest weathering capacity for STSs, which was 35 times higher than that of the abiotic environment group, and a significant increase in soil inorganic and organic carbon contents compared with the abiotic environment and the environment without plant growth. The bacteria with strong weathering ability were enriched in the soil of around STSs, such as Pseudomonas spp. and Sphingomonas spp. In addition, the fungal community of Ascomycetes is also heavily enriched, accelerating STSs weathering. The addition of bacterial agent (Bacillus subtilis) further promoted the STSs weathering under the growth conditions of S. viridis. The soil surrounding the buried STSs was also enriched with heavy metal tolerant Massilia spp. and disease suppressing Lysobacter spp., while the abundance of fungi functionally associated with pathotypes was reduced, thereby benefiting plant growth. This study provides basic information for the serpentine bio-weathering coupled with carbon sequestration by using plant-microbe synergistic effects. [ABSTRACT FROM AUTHOR]

Published

2024

5. Unravelling drivers of local adaptation through evolutionary functional–structural plant modelling.

Author

de Vries, Jorad, Fior, Simone, Pålsson, Aksel, Widmer, Alex, and Alexander, Jake M.

Subjects

*PLANT phenology, *ABIOTIC environment, *PLANT evolution, *NATURAL selection, *PLANT populations

Abstract

Summary: Local adaptation to contrasting environmental conditions along environmental gradients is a widespread phenomenon in plant populations, yet we lack a mechanistic understanding of how individual agents of selection contribute to this evolutionary process.Here, we developed a novel evolutionary functional–structural plant (E‐FSP) model that recreates local adaptation of virtual plants along an environmental gradient. First, we validate the model by testing if it can reproduce two elevational ecotypes of Dianthus carthusianorum occurring in the Swiss Alps. Second, we use the E‐FSP model to disentangle the relative contribution of abiotic (temperature) and biotic (competition and pollination) selection pressures to elevational adaptation in D. carthusianorum.Our results suggest that elevational adaptation in D. carthusianorum is predominantly driven by the abiotic environment. The model reproduced the qualitative differences between the elevational ecotypes in two phenological (germination and flowering time) and one morphological trait (stalk height), as well as qualitative differences in four performance variables that emerge from G × E interactions (flowering time, number of stalks, rosette area and seed production).Our approach shows how E‐FSP models incorporating physiological, ecological and evolutionary mechanisms can be used in combination with experiments to examine hypotheses about patterns of adaptation observed in the field. [ABSTRACT FROM AUTHOR]

Published

2024

6. Environmental associations of Ophidiomyces ophidiicola, the causative agent of ophidiomycosis in snakes.

Author

Friedeman, Nicholas, Carter, Evin, Kingsbury, Bruce A., Ravesi, Michael J., Josimovich, Jillian M., Matthews, Monica, and Jordan, Mark A.

Subjects

*GROUNDWATER sampling, *ABIOTIC environment, *MYCOSES, *PATHOGENIC fungi, *ENDANGERED species

Abstract

Emerging pathogenic fungi have become a topic of conservation concern due to declines observed in several host taxa. One emerging fungal pathogen, Ophidiomyces ophidiicola, is well documented as the causative agent of ophidiomycosis, otherwise known as snake fungal disease (SFD). O. ophidiicola has been found to cause disease in a variety of snake species across the United States, including the eastern massasauga (Sistrurus catenatus), a federally threatened rattlesnake species. Most work to date has involved detecting O. ophidiicola for diagnosis of infection through direct sampling of snakes, and attempts to detect O. ophidiicola in the abiotic environment to better understand its distribution, seasonality, and habitat associations are lacking. We collected topsoil and groundwater samples from four macrohabitat types across multiple seasons in northern Michigan at a site where Ophidiomyces infection has been confirmed in eastern massasauga. Using a quantitative PCR (qPCR) assay developed for O. ophidiicola, we detected Ophidiomyces DNA in topsoil but observed minimal to no detection in groundwater samples. Detection frequency did not differ between habitats, but samples grouped seasonally showed higher detection during mid-summer. We found no relationships of detection with hypothesized environmental correlates such as soil pH, temperature, or moisture content. Furthermore, the distribution of Ophidiomyces positive samples across the site was not linked to estimated space use of massasaugas. Our data suggests that season has some effect on the presence of Ophidiomyces. Differences in presence between habitats may exist but are likely more dependent on the time of sampling and currently uninvestigated soil or biotic parameters. These findings build on our understanding of Ophidiomyces ecology and epidemiology to help inform where and when snakes may be exposed to the fungus in the environment. [ABSTRACT FROM AUTHOR]

Published

2024

7. Temporal dynamics of scent mark composition in field‐experimental lizard populations.

Author

Baeckens, Simon, Martín, José, Pafilis, Panayiotis, Herrel, Anthony, and Donihue, Colin M.

Subjects

*TERRITORIAL marking (Animals), *LIZARD populations, *ANIMAL communication, *STEARIC acid, *ABIOTIC environment

Abstract

Animal signals are dynamic traits that can undergo considerable spatial and temporal changes and that are influenced by factors such as age, health condition and interactions with both the abiotic and biotic environment. However, much of our understanding of signal changes throughout an individual's lifetime stems from cross‐sectional, often laboratory‐based, studies focused on visual and auditory signals. Longitudinal field investigations of temporal variation in chemical signals, especially in vertebrates, remain rare despite chemical communication being the most ubiquitous form of information exchange in the natural world. To remedy this, we conducted a unique, replicated field experiment to study the temporal signal dynamics in free‐living lizard populations on natural islands. Specifically, we collected scent marks from individually marked lizards across five populations during the spring of two consecutive years and analysed the lipophilic chemical composition of these scent marks. Our findings demonstrate that the overall scent mark composition of individual lizards changed over time, shifting consistently in both direction and magnitude from year to year among individuals and across replicate populations. Similar patterns were observed for the chemical richness and diversity of scent marks. Temporal variation in the relative proportions of three potentially socially relevant signalling compounds in lizard scent marks revealed a more complex pattern: α‐tocopherol remained stable over time, oleic acid decreased and the change in octadecanoic acid proportion was body size‐dependent. Together, our results provide novel insights into how individual vertebrate chemical signals may fluctuate across space and time. We discuss the potential causes of the observed temporal variability and its consequences for chemical signal evolution. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

8. Abiotic factors that prompt major ecological transitions: Are fish on land to escape an intolerable aquatic environment?

Author

Ord, Terry J., Surovic, Elizabeth A., Vaz, Diego F. B., and Irisarri, Iker

Subjects

*BIOLOGICAL evolution, *ABIOTIC environment, *SPECIES diversity, *COLONIZATION (Ecology), *BODY temperature regulation

Abstract

Colonisation of novel habitats are important events in evolution, but the factors that initially prompt such ecological transitions are often unknown. The invasion of land by fish is an extreme habitat transition that offers an opportunity to empirically investigate the causes of major ecological transitions. The intertidal ecotone—and rock pools in particular—have been an important staging ground for transitions onto land. Classic hypotheses focus on the adverse abiotic conditions of rock pools at low tide as the instigator of fish voluntarily stranding themselves out of water, which can then lead to the evolution of an amphibious lifestyle. To test these hypotheses, we studied the abiotic conditions of 54 rock pools on the island of Guam where there are various species of aquatic, amphibious and terrestrial blenny fishes. We found little support for the expected deterioration of abiotic conditions in standing pools at low tide (salinity, pH and oxygen), and fish were not seen to be excluded from those pools that were found to exhibit poor abiotic conditions (temperature, salinity and pH). Hypoxia was the only factor that might account for the absence of blennies from certain rock pools. Next, we experimentally measured oxygen depletion by an aquatic, mildly amphibious and highly amphibious species of blenny found on Guam in a simulated rockpool to infer the proportion of rock pools at low tide outside the tolerable range of blennies. Rock pools were found to have oxygen levels within the requirements of most blennies and those of other marine fishes reported in the literature. We conclude that the abiotic environment of rock pools alone was unlikely to have instigated the evolution of amphibious behaviour in blennies, at least on Guam. Instead, the broad range of abiotic conditions experienced in rock pools suggests these conditions could have primed amphibious blennies to better endure the novel conditions on land. Any ecotone typified by fluctuations or gradients in abiotic conditions is likely a key transitional environment for the invasion of novel habitats and, as such, are an important location for adaptive evolution and species diversification. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

9. Ontogenetic shifts in leaf biomass allocation in crop plants.

Author

Chen, Renfei, Xiao, Suping, Dong, Chuancong, Xie, Shubin, Zhang, Liang, Wu, Fan, Tu, Chengyi, Liu, Quan-Xing, Wang, Shaopeng, Niinemets, Ülo, Hastings, Alan, Niklas, Karl J, and Deng, Jianming

Subjects

*BIOTIC communities, *ABIOTIC environment, *AGRICULTURE, *PLANT biomass, *COMPETITION (Biology)

Abstract

The article explores the ontogenetic shifts in leaf biomass allocation in crop plants, focusing on the leaf mass ratio and its variations over transient timescales. The study develops a theoretical model to predict how plant-plant interactions affect leaf mass ratios in corn and soybean crops. Results show that leaf mass ratios differ between crop species and even within the same species planted in different years, highlighting the complexity of biomass allocation patterns during plant ontogeny. The research emphasizes the importance of considering plant competition and ontogenetic changes in understanding leaf mass ratio dynamics, providing insights into the mechanisms underlying contrasting empirical observations in plant ecology. [Extracted from the article]

Published

2024

10. Occupancy of Sympatric Central Chimpanzee (Pan troglodytes troglodytes) and Western Lowland Gorilla (Gorilla gorilla gorilla) in Campo Ma'an Conservation Area, Southern Cameroon.

Author

Collins, Emily and Weladji, Robert B.

Subjects

*GORILLA (Genus), *CHIMPANZEES, *ABIOTIC environment, *APES, *FOREST management

Abstract

Sympatric primate species coexist in tropical communities through interactions with the abiotic environment and other species. Determining the factors that influence primate species co-occurrence can help to inform conservation practices. Our study focused on the ecological interactions of central chimpanzees (Pan troglodytes troglodytes) and western lowland gorillas (Gorilla gorilla gorilla) with each other and their environment in a multiuse landscape. We assessed species-specific occupancy at 17 camera trap sites across different land-use types (National Park, Forest Management Units, or Community Lands) between June 2019 and May 2020 and examined the impact of fruit availability and human presence on ape presence. Across the study area, chimpanzees occupied a greater total number of sites than did gorillas, with a significantly higher proportion of occupied sites within the National Park than in other land-use types. The density of fruiting trees positively influenced the presence of gorillas but had no effect on chimpanzee presence. We found no effect of human presence on the presence of either chimpanzees or gorillas, although this analysis was limited to sites where apes were present. The probability of either species being present at a site during a given month remained stable under the conditional presence or absence of the other species, suggesting the absence of interactions between the two species at our study sites. These results support previous findings that the heterogeneous distribution of fruits and preferred resources allows chimpanzees and gorillas to limit direct competition by exploiting different feeding resources. Our findings provide insights on the factors influencing the occupancy of each species, including environmental variables and land-use type, information relevant when monitoring their coexistence within tropical communities. [ABSTRACT FROM AUTHOR]

Published

2024

11. PROSPECTING POTENTIAL AREAS FOR THE DISPOSAL OF CONSTRUCTION WASTE IN THE MUNICIPALITY OF JUAZEIRO DO NORTE-CE, USING GEOSTATISTICAL TOOLS.

Author

Martins da Silva, Érica, de Oliveira Fernandes, Renato, Pereira de Morais, Daniel, Souza Moraes, Alex, Mendes de Oliveira, Fabrynne, Gabriel de Souza, João, da Silva Corrêa de Oliveira Andrade, Júlio, Regueira da Costa, Margarida, Souza Borba, Alexandre Luiz, dos Santos Júnior, Otavio Pereira, Batista Brandão, Yana, and Cavalcanti de Oliveira, Dinaldo

Subjects

CONSTRUCTION & demolition debris, ABIOTIC environment, ENVIRONMENTAL quality, POLLUTION, SOLID waste, HEAVY metals

Abstract

Copyright of Environmental & Social Management Journal / Revista de Gestão Social e Ambiental is the property of Environmental & Social Management Journal 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

12. Composition of Fatty Acids of Lipids of Halophyte Leaves during Adaptation to Saline Soil Using the Example of Plants from the Elton Region.

Author

Nesterov, V. N.

Subjects

SALT tolerance in plants, SOIL salinity, CARBON 4 photosynthesis, SOIL moisture, ABIOTIC environment

Abstract

This work summarizes the results of long-term field studies of 22 species of halophytic plants in the Elton region belonging to 4 families and 14 genera. Plants are classified according to the ecological (salt-accumulating euhalophytes, salt-secreting crinohalophytes, and salt-excluding glycohalophytes) and genetic (C3 and C4 photosynthesis) system. The conditions of the abiotic environment (level of salinity and soil moisture) under which various groups of halophytic plants grew are shown. The composition of fatty acids (FAs) of lipids in halophyte leaves is analyzed. It is concluded that the modulation of halophyte lipids, associated with changes in FAs composition depending on soil salinity and moisture, is one mechanism of plant salt tolerance at the cellular level of organization. [ABSTRACT FROM AUTHOR]

Published

2024

13. Shrub encroachment of coastal ecosystems depends on dune elevation.

Author

Woods, Natasha N. and Zinnert, Julie C.

Subjects

CHLORIDE content of water, GROUND cover plants, GROUND vegetation cover, WOODY plants, ABIOTIC environment, SAND dunes

Abstract

Woody plant encroachment is influenced by interactions between the physical environment and vegetation, which create heterogenous microenvironments some of which favor shrub recruitment through mitigation of the abiotic environment. Encroachment of native shrub, Morella cerifera into grasslands on Hog Island, Virginia has been attributed to warmer winter temperature; however, recruitment of seedlings in grasslands may be impacted by multiple factors at the level of the microhabitat. Our study focuses on a critical gap in understanding factors specifically influencing M. cerifera seedling recruitment and survival. By experimentally planting M. cerifera seedlings at varying dune elevations and grass densities, we tested hypotheses that dune elevation influences the microclimate, soil characteristics and vegetation cover and that grass cover/density is related to shrub establishment. We tested these hypotheses through gathering data from temperature data loggers, conducting soil water content and chloride analyses, and determining percent cover of grasses relative to dune elevation. Results indicate that dune elevation was positively related to moderated temperatures with reduced temperature extremes and vegetation cover/composition that led to favorable locations for M. cerifera establishment and growth. Where dune elevation is > 2 m, we document an upper limit of grass cover on natural seedling establishment, suggesting a switch from facilitative to competitive effects with grass density. Overall, our work demonstrates interactions between dune elevation and medium grass density has a facilitative influence on M. cerifera establishment and can be used for future predictions of shrub growth with rising sea-levels. [ABSTRACT FROM AUTHOR]

Published

2024

14. Does the karst spring improve fish abiotic habitat in mountain streams?

Author

Agnieszka Rajwa-Kuligiewicz and Anna Bojarczuk

Subjects

abiotic environment, fish species, groundwater recharge, streamflow, tatra mts., water chemistry, water temperature, River, lake, and water-supply engineering (General), TC401-506, Irrigation engineering. Reclamation of wasteland. Drainage, TC801-978

Abstract

Mountain streams constitute challenging habitat for many fish species due to rapid and variable flow, cool temperature, and limited food resources. Groundwaters recharge by karst spring may however mitigate harsh habit conditions of mountain streams providing niches for different fish species. This study aims to assess the suitability of mountain streams, replenished by karst springs, for various fish species like alpine bullhead, European grayling, brown and brook trout. The study was conducted in the Chochołowski Stream in the Western Tatra Mountains, Poland. The assessment of abiotic habitat is based on different characteristics of hydrological and thermal regimes as well as water chemical composition investigated between 01.09.2012 and 31.09.2014. The findings reveal that: 1) downstream variability of habitat abiotic conditions (such as water temperature, flow, water chemical composition) may affect the distribution of fish species, 2) karst springs contribute up to 100% of the stream’s recharge during periods of winter low flow, 3) karstic groundwater reduces the variability and amplitudes of stream water temperature and weaken the periodicity in water temperature associated with daily course of air temperature and solar radiation, 4) groundwaters prevent stream freezing in winter and moderate summer temperatures, 5) increasing mineralisation of water below the spring recharge may positively affect fish distribution. The findings underscore the importance of karst springs in modifying the abiotic conditions of fish habitat in mountain streams.

Published

2024

15. Identification of drought-induced forest damage in 2022 and of its key site condition drivers through satellite imagery

Author

Bucha Tomáš, Pavlenda Pavel, Konôpka Bohdan, Tomaštík Julián, Chudá Juliána, and Surový Peter

Subjects

sentinel-2 images, rainfall deficit, defoliation, climate change, abiotic environment, Forestry, SD1-669.5

Abstract

An extensive discoloration (yellowing, browning), and defoliation (leaf loss) were observed in Slovak forests during the summer of 2022. These phenomena are attributed to the combination of very low atmospheric precipitation and extremely high air temperatures from June to early August. In this study, the deterioration of forest health was analysed by comparing the image classification of Sentinel-2 satellite data from the year of intense drought occur-rence, 2022, with that from a referenced year without drought occurrence, 2020. The results indicated that in 2022, the proportion of heavily damaged stands with defoliation exceeding 50% doubled, reaching 19.3% (417,000 ha), and an area of 223,000 ha experienced an increase in defoliation by 30% or more. The damage exhibited an uneven spatial distribution, with the most significant impact observed in the western and southern parts of central Slovakia, as well as partially in the southern part of eastern Slovakia. Further GIS analyses revealed that forests growing on slopes with southern aspects suffered more severe damage than with northern exposures. However, the difference between the most damaged forests with south-southeast exposure (12.2%) and the least damaged ones with north-northwest exposure (8.2%) was only 4%. The level of damage gradually decreased with increasing altitude. Nevertheless, compared to previous studies, the damage was significantly manifested even in the fourth forest vegetation zone, up to an elevation of approximately 800 m. Regarding soil texture, which influences the water regime, the damage gradually decreased with decreasing sand content, ranging from sandy soils (17.5%) to clayey soils (6.6%).

Published

2024

16. Seasonal habitat use and diel vertical migration in female spurdog in Nordic waters.

Author

Klöcker, C. Antonia, Albert, Ole Thomas, Ferter, Keno, Bjelland, Otte, Lennox, Robert J., Albretsen, Jon, Pohl, Lotte, Dahlmo, Lotte Svengård, Queiroz, Nuno, and Junge, Claudia

Subjects

PREGNANT women, SPRING, AUTUMN, ABIOTIC environment, WAVELETS (Mathematics)

Abstract

Background: Studying habitat use and vertical movement patterns of individual fish over continuous time and space is innately challenging and has therefore largely remained elusive for a wide range of species. Amongst sharks, this applies particularly to smaller-bodied and less wide-ranging species such as the spurdog (Squalus acanthias Linnaeus, 1758), which, despite its importance for fisheries, has received limited attention in biologging and biotelemetry studies, particularly in the North-East Atlantic. Methods: To investigate seasonal variations in fine-scale niche use and vertical movement patterns in female spurdog, we used archival data from 19 pregnant individuals that were satellite-tagged for up to 365 days in Norwegian fjords. We estimated the realised niche space with kernel densities and performed continuous wavelet analyses to identify dominant periods in vertical movement. Triaxial acceleration data were used to identify burst events and infer activity patterns. Results: Pregnant females frequently utilised shallow depths down to 300 m at temperatures between 8 and 14 °C. Oscillatory vertical moments revealed persistent diel vertical migration (DVM) patterns, with descents at dawn and ascents at dusk. This strict normal DVM behaviour dominated in winter and spring and was associated with higher levels of activity bursts, while in summer and autumn sharks predominantly selected warm waters above the thermocline with only sporadic dive and bursts events. Conclusions: The prevalence of normal DVM behaviour in winter months linked with elevated likely foraging-related activity bursts suggests this movement behaviour to be foraging-driven. With lower number of fast starts exhibited in warm waters during the summer and autumn months, habitat use in this season might be rather driven by behavioural thermoregulation, yet other factors may also play a role. Individual and cohort-related variations indicate a complex interplay of movement behaviour and habitat use with the abiotic and biotic environment. Together with ongoing work investigating fine-scale horizontal movement as well as sex- and age-specific differences, this study provides vital information to direct the spatio-temporal distribution of a newly reopened fishery and contributes to an elevated understanding of the movement ecology of spurdog in the North-East Atlantic and beyond. [ABSTRACT FROM AUTHOR]

Published

2024

17. Natural and synthetic molecules with potential to enhance biofilm formation and virulence properties in Pseudomonas aeruginosa.

Author

Jeong, Geum-Jae, Khan, Fazlurrahman, Tabassum, Nazia, and Kim, Young-Mog

Subjects

*ABIOTIC environment, *PATHOGENIC microorganisms, *CYSTIC fibrosis, *METABOLITES, *LUNG infections, *PSEUDOMONAS aeruginosa

Abstract

Pseudomonas aeruginosa can efficiently adapt to changing environmental conditions due to its ubiquitous nature, intrinsic/acquired/adaptive resistance mechanisms, high metabolic versatility, and the production of numerous virulence factors. As a result, P. aeruginosa becomes an opportunistic pathogen, causing chronic infection in the lungs and several organs of patients suffering from cystic fibrosis. Biofilm established by P. aeruginosa in host tissues and medical device surfaces has been identified as a major obstruction to antimicrobial therapy. P. aeruginosa is very likely to be closely associated with the various microorganisms in the host tissues or organs in a pathogenic or nonpathogenic behavior. Aside from host-derived molecules, other beneficial and pathogenic microorganisms produce a diverse range of secondary metabolites that either directly or indirectly favor the persistence of P. aeruginosa. Thus, it is critical to understand how P. aeruginosa interacts with different molecules and ions in the host and abiotic environment to produce extracellular polymeric substances and virulence factors. Thus, the current review discusses how various natural and synthetic molecules in the environment induce biofilm formation and the production of multiple virulence factors. [ABSTRACT FROM AUTHOR]

Published

2024

18. Biodiversity promotes urban ecosystem functioning.

Author

Weiskopf, Sarah R., Lerman, Susannah B., Isbell, Forest, and Lyn Morelli, Toni

Subjects

*URBAN ecology, *ABIOTIC environment, *URBAN biodiversity, *CITIES & towns, *NUTRIENT cycles

Abstract

The proportion of people living in urban areas is growing globally. Understanding how to manage urban biodiversity, ecosystem functions, and ecosystem services is becoming more important. Biodiversity can increase ecosystem functioning in non‐urban systems. However, few studies have reviewed the relationship between biodiversity and ecosystem functioning in urban areas, which differ in species compositions, abiotic environments, food webs, and turnover rates. We reviewed evidence of biodiversity–ecosystem functioning relationships in urban environments and assessed factors that influence the relationship direction. Based on 70 studies, relationships between biodiversity and ecosystem functioning were more positive than negative in urban areas, especially for pollination and nutrient cycling and retention. Surprisingly, positive and negative relationships between biodiversity and biomass production and storage were equally not statistically different, perhaps due to extensive plant management in urban areas. The number of studies and geographic coverage of our review was still insufficient to provide a general predictive framework for when biodiversity positively impacts ecosystem functioning. We identify gaps and opportunities to improve urban biodiversity–ecosystem functioning research and discuss how our findings can improve urban green space management. [ABSTRACT FROM AUTHOR]

Published

2024

19. HISTORICAL TERRITORIALIZATION OF MINING COMPANIES IN THE STATE OF BAHIA.

Author

Silva de Menezes, Luciano, Marques dos Santos, Juracy, Cardoso Maia, Ícaro, and Santana Menezes, Flávia Jussara

Subjects

MINING corporations, MINING methodology, PROSPECTING, SOCIOECONOMICS, ABIOTIC environment, POPULATION, LEGAL norms, ECOSYSTEMS

Abstract

Copyright of Environmental & Social Management Journal / Revista de Gestão Social e Ambiental is the property of Environmental & Social Management Journal 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

20. The Combined Use of GIS and Generative Artificial Intelligence in Detecting Potential Geodiversity Sites and Promoting Geoheritage.

Author

Wolniewicz, Paweł

Subjects

GENERATIVE artificial intelligence, LANGUAGE models, GEOGRAPHIC information systems, GEODIVERSITY, ABIOTIC environment

Abstract

The concept of geosites and geodiversity sites that document selected elements of geodiversity has proved to be extremely useful in the preservation and communication of the abiotic diversity of the Earth. However, the process of the designation, description, evaluation and, finally, promotion of geosites requires a fair amount of effort. This hinders the recognition of geosites and the development of geoparks in many areas that would otherwise benefit from their rich but undervalued abiotic environment. To rectify this, the present study introduces the use of automated geographic information system (GIS) mapping and generative artificial intelligence (GAI) for the designation and promotion of points of geological interest and potential geodiversity sites. When used effectively, these techniques permit the rapid development of geodiversity site inventories and, eventually, their dissemination to the general public and decision-makers. In this study, GAI is employed to produce diverse promotional content, both textual and visual, that facilitates geoscientific communication. A case study of an aspiring geopark located in Poland (Central Europe) is discussed, showing that GAI has the potential to enable the rapid development of easy-to-understand and diverse educational materials, limiting the amount of resources and labour required for the effective promotion of geodiversity. [ABSTRACT FROM AUTHOR]

Published

2024

21. Among‐population variation in drought responses is consistent across life stages but not between native and non‐native ranges.

Author

Nagy, Dávid U., Thoma, Arpad E., Al‐Gharaibeh, Mohammad, Callaway, Ragan M., Flory, S. Luke, Frazee, Lauren J., Hartmann, Matthias, Hensen, Isabell, Jandová, Kateřina, Khasa, Damase P., Lekberg, Ylva, Pal, Robert W., Samartza, Ioulietta, Shah, Manzoor A., Sheng, Min, Slate, Mandy, Stein, Claudia, Tsunoda, Tomonori, and Rosche, Christoph

Subjects

*CANADIAN horseweed, *ABIOTIC environment, *PLANT performance, *DROUGHTS

Abstract

Summary: Understanding how widespread species adapt to variation in abiotic conditions across their ranges is fundamental to ecology. Insight may come from studying how among‐population variation (APV) in the common garden corresponds with the environmental conditions of source populations. However, there are no such studies comparing native vs non‐native populations across multiple life stages.We examined APV in the performance and functional traits of 59 Conyza canadensis populations, in response to drought, across large aridity gradients in the native (North America) and non‐native (Eurasia) ranges in three experiments. Our treatment (dry vs wet) was applied at the recruitment, juvenile, and adult life stages.We found contrasting patterns of APV in drought responses between the two ranges. In the native range, plant performance was less reduced by drought in populations from xeric than mesic habitats, but such relationship was not apparent for non‐native populations. These range‐specific patterns were consistent across the life stages.The weak adaptive responses of non‐native populations indicate that they can become highly abundant even without complete local adaptation to abiotic environments and suggest that long‐established invaders may still be evolving to the abiotic environment. These findings may explain lag times in invasions and raise concern about future expansions. [ABSTRACT FROM AUTHOR]

Published

2024

22. Neighbour‐detection causes shifts in allocation across multiple organs to prepare plants for light competition.

Author

Uyehara, Isaac K., Bechinger, Trixie, Jordan, Alex, and van Kleunen, Mark

Subjects

*PHOTOSYNTHETICALLY active radiation (PAR), *COMMON sunflower, *ABIOTIC environment, *PLANT competition, *PLANT growth, *ROOT growth

Abstract

To maximize their fitness, plants have to adjust their allocation strategy according to their abiotic and biotic environments. Plants can use the ratio of red to far‐red light (R:FR) to sense neighbours, allowing them to modify their growth in response to aboveground competition.In this study, we used supplemental FR light to artificially lower the R:FR of the lower leaves of common sunflowers (Helianthus annuus) to examine how plants change their growth in response to the threat of neighbours. We combined this treatment with a nitrogen fertilization treatment to investigate how responses to neighbour‐detection interact with nitrogen limitation.Plants grown in low R:FR increased in height at the expense of root growth, resulting in nitrogen limitation that restricted leaf growth. However, we found that plants reduced their nitrogen investment into leaves in low R:FR. By weakening the nitrogen sink strength of these lower leaves before they experienced low photosynthetically active radiation, plants were able to preemptively allocate nitrogen to leaves higher in the canopy.Plants responded to the perception of neighbours by simultaneously diverting resources from root growth to stem elongation and from leaves threatened by neighbours to leaves that would pose a threat to neighbours. This whole‐plant response to neighbour‐detection enables plants to change their allocation in a way that simultaneously manages their limited nitrogen and prepares them for future light competition. Read the free Plain Language Summary for this article on the Journal blog. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

23. Freshwater megafauna shape ecosystems and facilitate restoration.

Author

He, Fengzhi, Svenning, Jens‐Christian, Chen, Xing, Tockner, Klement, Kuemmerle, Tobias, le Roux, Elizabeth, Moleón, Marcos, Gessner, Jörn, and Jähnig, Sonja C.

Subjects

*RESTORATION ecology, *FRESHWATER biodiversity, *MEGAFAUNA, *ABIOTIC environment, *ECOLOGICAL disturbances, *FRESH water

Abstract

Freshwater megafauna, such as sturgeons, giant catfishes, river dolphins, hippopotami, crocodylians, large turtles, and giant salamanders, have experienced severe population declines and range contractions worldwide. Although there is an increasing number of studies investigating the causes of megafauna losses in fresh waters, little attention has been paid to synthesising the impacts of megafauna on the abiotic environment and other organisms in freshwater ecosystems, and hence the consequences of losing these species. This limited understanding may impede the development of policies and actions for their conservation and restoration. In this review, we synthesise how megafauna shape ecological processes in freshwater ecosystems and discuss their potential for enhancing ecosystem restoration. Through activities such as movement, burrowing, and dam and nest building, megafauna have a profound influence on the extent of water bodies, flow dynamics, and the physical structure of shorelines and substrata, increasing habitat heterogeneity. They enhance nutrient cycling within fresh waters, and cross‐ecosystem flows of material, through foraging and reproduction activities. Freshwater megafauna are highly connected to other freshwater organisms via direct consumption of species at different trophic levels, indirect trophic cascades, and through their influence on habitat structure. The literature documenting the ecological impacts of freshwater megafauna is not evenly distributed among species, regions, and types of ecological impacts, with a lack of quantitative evidence for large fish, crocodylians, and turtles in the Global South and their impacts on nutrient flows and food‐web structure. In addition, population decline, range contraction, and the loss of large individuals have reduced the extent and magnitude of megafaunal impacts in freshwater ecosystems, rendering a posteriori evaluation more difficult. We propose that reinstating freshwater megafauna populations holds the potential for restoring key ecological processes such as disturbances, trophic cascades, and species dispersal, which will, in turn, promote overall biodiversity and enhance nature's contributions to people. Challenges for restoration actions include the shifting baseline syndrome, potential human–megafauna competition for habitats and resources, damage to property, and risk to human life. The current lack of historical baselines for natural distributions and population sizes of freshwater megafauna, their life history, trophic interactions with other freshwater species, and interactions with humans necessitates further investigation. Addressing these knowledge gaps will improve our understanding of the ecological roles of freshwater megafauna and support their full potential for facilitating the development of effective conservation and restoration strategies to achieve the coexistence of humans and megafauna. [ABSTRACT FROM AUTHOR]

Published

2024

24. Impact of Urbanization on Indigenous Carnivorous Plants Species: A study from Bhubaneswar Smart City, Odisha, India.

Author

Pradhan, Bikram, Dash, Anhita, Mishra, Shakti Prasad, Jena, Manaswini, and Mallick, Samarendra Narayan

Subjects

URBANIZATION, CARNIVOROUS plants, PLANT diversity, ENDEMIC plants, ABIOTIC environment, BIOTIC communities, INSECT diversity, BIOINDICATORS

Abstract

The article investigates the impact of urbanization on indigenous carnivorous plant species in Bhubaneswar Smart City in Odisha, India. The study observes the effect of infrastructure construction activities on the abiotic and biotic components of the native ecosystem and on indigenous species and terrestrial insect diversity that threatens carnivorous plant diversity. It also examines the role of carnivorous plants as ecological indicator.

Published

2024

25. Untranslated yet indispensable—UTRs act as key regulators in the environmental control of gene expression.

Author

Hardy, Emma C and Balcerowicz, Martin

Subjects

*GENE expression, *ABIOTIC environment, *GENETIC translation, *ALTERNATIVE RNA splicing, *PLANT genes

Abstract

To survive and thrive in a dynamic environment, plants must continuously monitor their surroundings and adjust their development and physiology accordingly. Changes in gene expression underlie these developmental and physiological adjustments, and are traditionally attributed to widespread transcriptional reprogramming. Growing evidence, however, suggests that post-transcriptional mechanisms also play a vital role in tailoring gene expression to a plant's environment. Untranslated regions (UTRs) act as regulatory hubs for post-transcriptional control, harbouring cis -elements that affect an mRNA's processing, localization, translation, and stability, and thereby tune the abundance of the encoded protein. Here, we review recent advances made in understanding the critical function UTRs exert in the post-transcriptional control of gene expression in the context of a plant's abiotic environment. We summarize the molecular mechanisms at play, present examples of UTR-controlled signalling cascades, and discuss the potential that resides within UTRs to render plants more resilient to a changing climate. [ABSTRACT FROM AUTHOR]

Published

2024

26. Selection favours high spread and asymmetry of flower opening dates within plant individuals.

Author

Ehrlén, Johan and Valdés, Alicia

Subjects

*ABIOTIC environment, *FLOWERING time, *FRUIT seeds, *FLOWERS, *PLANT selection, *DATE palm

Abstract

Natural selection on traits expressed repeatedly by individuals is usually investigated with a focus on mean values, although within‐individual trait distributions often differ also in other aspects, such as their spread and shape. In plants producing multiple flowers during a season, there might not be a single optimal flowering time, but rather an optimal distribution of flower opening dates. This optimal distribution might depend on both resource allocation patterns and interactions with the abiotic and biotic environment. In this study, we quantified mean, variance, skewness and kurtosis of 495 individual flowering schedules (5287 flowers) over 3 years, and assessed phenotypic selection on these aspects of the within‐individual distribution of opening dates in the perennial herb Lathyrus vernus. We also explored how selection on within‐individual variation in flowering schedules was related to effects on two fitness components: fruit set and the proportion of seeds escaping pre‐dispersal predation. Within‐individual variation in phenology was larger than, or at least similar to, among‐individual variation in all years. We found phenotypic selection on several aspects of individual flowering schedules. In 1 year, selection favoured plants with higher variance in opening dates, and this coincided with a higher fruit set in plants with an increased spread of the flowering schedule. In two of the study years, selection favoured a higher asymmetry of the flowering schedule, and plants with more right‐skewed distributions had higher fruit set and higher proportions of seeds escaping predation. Both fruit set and seed predation increased with an earlier mean flowering, resulting in no net selection on mean flowering date. Synthesis: Our results suggest that phenotypic selection on the spread and shape of flower opening date distributions might be at least as important as selection on the mean flowering date. In a broad sense, this implies that we should consider the entire trait distribution if we aim to understand the evolution of traits that are expressed multiple times within individuals. [ABSTRACT FROM AUTHOR]

Published

2024

27. Light wavelength modulates search behavior performance in zebrafish.

Author

Waalkes, Matthew R., Leathery, Maegan, Peck, Madeline, Barr, Allison, Cunill, Alexander, Hageter, John, and Horstick, Eric J.

Subjects

*SEARCHING behavior, *BRACHYDANIO, *WAVELENGTHS, *LIGHT sources, *ABIOTIC environment, *VISIBLE spectra

Abstract

Visual systems have evolved to discriminate between different wavelengths of light. The ability to perceive color, or specific light wavelengths, is important as color conveys crucial information about both biotic and abiotic features in the environment. Indeed, different wavelengths of light can drive distinct patterns of activity in the vertebrate brain, yet what remains incompletely understood is whether distinct wavelengths can invoke etiologically relevant behavioral changes. To address how specific wavelengths in the visible spectrum modulate behavioral performance, we use larval zebrafish and a stereotypic light-search behavior. Prior work has shown that the cessation of light triggers a transitional light-search behavior, which we use to interrogate wavelength-dependent behavioral modulation. Using 8 narrow spectrum light sources in the visible range, we demonstrate that all wavelengths induce motor parameters consistent with search behavior, yet the magnitude of search behavior is spectrum sensitive and the underlying motor parameters are modulated in distinct patterns across short, medium, and long wavelengths. However, our data also establishes that not all motor features of search are impacted by wavelength. To define how wavelength modulates search performance, we performed additional assays with alternative wavelengths, dual wavelengths, and variable intensity. Last, we also tested blind larvae to resolve which components of wavelength dependent behavioral changes potentially include signaling from non-retinal photoreception. These findings have important implications as organisms can be exposed to varying wavelengths in laboratory and natural settings and therefore impose unique behavioral outputs. [ABSTRACT FROM AUTHOR]

Published

2024

28. A meta‐analysis of the effects of climate change‐related abiotic factors on aboveground and belowground plant‐associated microbes.

Author

Quiroga, Gabriela, Castagneyrol, Bastien, Abdala‐Roberts, Luis, and Moreira, Xoaquín

Subjects

*RHIZOSPHERE microbiology, *ABIOTIC environment, *PLANT-microbe relationships, *MICROORGANISMS, *CONTRAST effect, *RHIZOBACTERIA, *RHIZOSPHERE

Abstract

The abiotic environment exerts strong effects on plant‐associated microbes, shaping their interactions with plants and resulting ecosystem processes. However, these abiotic effects on plant–microbe interactions are often highly specific and contingent on the abiotic driver or microbial group, requiring synthesis work describing general patterns and from this generate hypotheses and guide mechanistic work. To address this, we conducted a meta‐analysis of the effects of climate change‐related abiotic factors, namely warming, drought, and eCO2, on plant‐associated microbes distinguishing by microbial taxonomic or biological group (bacteria, fungi or virus) and the plant part where microbes are found or associated with (phyllosphere or rhizosphere). We found abiotic driver‐specific patterns, whereby drought significantly reduced microbial abundance, whereas warming and eCO2 had no significant effects. In addition, these abiotic effects were contingent on the microbial taxonomic group, with fungi being negatively affected by drought but positively affected by warming (eCO2 enrichment had no effect), whereas bacteria and viruses were not significantly affected by any factor. Likewise, rhizospheric microbes were negatively affected by drought but positively affected by warming (eCO2 enrichment had no effect), whereas phyllospheric microbes were not significantly affected by any factor. Collectively, these findings point to important implications for global change research by highlighting contrasting effects of climate change‐related abiotic drivers on plant‐associated microbes and the contingency of such effects on microbe life histories and the nature of their interactions with plants. [ABSTRACT FROM AUTHOR]

Published

2024

29. Global Review on Environmental Impacts of Onshore Wind Energy in the Field of Tension between Human Societies and Natural Systems.

Author

Sander, Leon, Jung, Christopher, and Schindler, Dirk

Subjects

*WIND power, *ENVIRONMENTAL impact analysis, *EVIDENCE gaps, *ABIOTIC environment, *WIND power plants

Abstract

Deploying onshore wind energy as a cornerstone of future global energy systems challenges societies and decision-makers worldwide. Expanding wind energy should contribute to a more sustainable electricity generation without harnessing humans and their environment. Opponents often highlight the negative environmental impacts of wind energy to impede its expansion. This study reviews 152 studies to synthesize, summarize, and discuss critically the current knowledge, research gaps, and mitigation strategies on the environmental impacts of onshore wind energy. The investigated effects comprise impacts on the abiotic and biotic environment, with birds and bats in particular, noise and visual impacts. Effects are discussed in the context of social acceptance, other energy technologies, and wind energy expansion in forests. This review illustrates that many effects are highly case-specific and must be more generalizable. Studies are biased regarding the research focus and areas, needing more standardized research methods and long-term measurements. Most studies focus on the direct mortality of birds and bats at wind farms and are concentrated in Europe and North America. Knowledge gaps persist for many impact categories, and the efficacy of mitigation strategies has yet to be proven. More targeted, unbiased research is required that allows for an objective evaluation of the environmental impacts of wind energy and strategies to mitigate them. Impacts, such as those on biodiversity, need to be addressed in the context of other anthropogenic influences and the benefits of wind energy. This forms the basis for a socially acceptable, efficient, and sustainable expansion of wind energy. [ABSTRACT FROM AUTHOR]

Published

2024

30. Fine-scale clonal structure of the lingonberry Vaccinium vitis-idaea under the nurse plant Pinus pumila vegetation in an alpine region, Mt. Norikura.

Author

Sugimoto, Kensuke, Kawai, Rio, Koizumi, Takahiko, Matsuo, Ayumi, Suyama, Yoshihisa, and Mizuki, Inoue

Subjects

*ALPINE regions, *MOUNTAIN plants, *VACCINIUM, *ABIOTIC environment, *PINE, *SHRUBS, *PINACEAE

Abstract

The nurse effect is a positive interaction in which a nurse plant improves the abiotic environment for another species (beneficiary plant) and facilitates its establishment. The evergreen shrub Vaccinium vitis-idaea (a beneficiary plant) grows mainly under the dwarf shrub Pinus pumila (a nurse plant) in the alpine regions of central Japan. However, whether V. vitis-idaea shrubs under various P. pumila shrubs spread through clonal growth and/or seeds remains unclear. We investigated the clonal structure of V. vitis-idaea under the nurse plant P. pumila in Japanese alpine regions. MIG-seq analysis was conducted to clarify the clonal diversity of V. vitis-idaea in isolated and patchy P. pumila plots on a ridge (PATs), and in a plot covered by dense P. pumila on a slope adjacent to the ridge (MAT) on Mt. Norikura, Japan. We detected 28 multilocus genotypes in 319 ramets of V. vitis-idaea across 11 PATs and MAT. Three genets expanded to more than 10 m in the MAT. Some genets were shared among neighboring PATs or among PATs and MAT. These findings suggest that the clonal growth of V. vitis-idaea plays an important role in the sustainability of populations. The clonal diversity of V. vitis-idaea was positively related with the spatial size of PATs and was higher in MAT than in PATs at a small scale. Therefore, the spatial spread of the nurse plant P. pumila might facilitate the nurse effect on the genetic diversity of beneficiary plants, leading to the sustainability of beneficiary populations. [ABSTRACT FROM AUTHOR]

Published

2024

31. High tolerance to zinc but no evidence for local adaptation in the aquatic plant Lemna minor.

Author

Vámos, Sofia, Li, Cheng, Moradi, Aboubakr, and van Moorsel, Sofia J.

Subjects

*LEMNA minor, *AQUATIC plants, *DUCKWEEDS, *PLANT adaptation, *ABIOTIC environment, *HEAVY metal toxicology

Abstract

Duckweeds are a widely distributed and economically important aquatic plant family that have high potential for phytoremediation of polluted water bodies. We collected four ecotypes of the common duckweed Lemna minor from the four corners of Switzerland and assessed how their home versus away environments influenced their growth. Additionally, we investigated their response to a metal pollutant (zinc, Zn) in both their home and away environments. Zn is found in freshwater systems and can become harmful to plants at elevated concentrations. We hypothesized that growing in their home environment would help the plants buffer the negative effect of the metal pollutant. To test this, we measured Lemna growth in a common garden experiment in a glasshouse where the four ecotypes were grown in each of the water environments, as well as in three different concentrations of Zn. To investigate whether interactions between Lemna and its microbial community can enhance or reduce tolerance to heavy metal pollution, we sampled chlorophyll‐a as a proxy for algal biomass. Finally, we measured total nitrogen and total organic carbon to describe the abiotic environment in more detail. The four Lemna ecotypes exhibited significantly different growth rates across the water treatments. This difference in fitness was matched with DNA sequencing revealing genetic differentiation between the four ecotypes. However, the effect of the water and Zn treatment on Lemna growth was the same for all ecotypes. We did not find evidence for local adaptation; instead, we observed strong plastic responses. Lemna growth rates were higher under higher Zn concentrations. This positive effect of Zn on Lemna growth could be in part due to reduced competition with algae. We conclude that L. minor ecotypes may exhibit large differences in growth rate, but that the species overall has a high Zn tolerance and strong plastic adaptive potential in novel environments. [ABSTRACT FROM AUTHOR]

Published

2024

32. Identification of pathways required for Salmonella to colonize alfalfa using TraDIS-Xpress.

Author

Holden, Emma R., Assaf, Justin Abi, Al-Khanaq, Haider, Vimont, Noemie, Webber, Mark A., and Trampari, Eleftheria

Subjects

*SALMONELLA enterica serovar typhimurium, *DECONTAMINATION of food, *ABIOTIC environment, *BACTERIAL colonies, *FOOD pathogens, *SALMONELLA

Abstract

Enteropathogenic bacteria, such as Salmonella, have been linked to numerous fresh produce outbreaks, posing a significant public health threat. The ability of Salmonella to persist on fresh produce for extended periods is partly attributed to its capacity to form biofilms, which pose a challenge to food decontamination and can increase pathogenic bacterial load in the food chain. Preventing Salmonella colonization of food products and food processing environments is crucial for reducing the incidence of foodborne outbreaks. Understanding the mechanisms of establishment on fresh produce will inform the development of decontamination approaches. We used Transposon-Directed Insertion site Sequencing (TraDIS-Xpress) to investigate the mechanisms used by Salmonella enterica serovar Typhimurium to colonize and establish on fresh produce over time. We established an alfalfa colonization model and compared the findings to those obtained from glass surfaces. Our research ident ified distinct mechanisms required for Salmonella establishment on alfalfa compared with glass surfaces over time. These include the type III secretion system (sirC), Fe-S cluster assembly (iscA), curcumin degradation (curA), and copper tolerance (cueR). Shared pathways across surfaces included NADH hydrogenase synthesis (nuoA and nuoB), fimbrial regulation (fimA and fimZ), stress response (rpoS), LPS O-antigen synthesis (rfbJ), iron acquisition (ybaN), and ethanolamine utilization (eutT and eutQ). Notably, flagellum biosynthesis differentially impacted the colonization of biotic and abiotic environments over time. Understanding the genetic underpinnings of Salmonella establishment on both biotic and abiotic surfaces over time offers valuable insights that can inform the development of targeted antibacterial therapeutics, ultimately enhancing food safety throughout the food processing chain. [ABSTRACT FROM AUTHOR]

Published

2024

33. Population Dynamics of Rugose Spiralling Whitefly, Aleurodicus rugioperculatus Martin on Coconut in Winter.

Author

Khatik, A. N., More, S. A., Bansode, G. M., Chaudhari, C. S., and Tamboli, N. D.

Subjects

COCONUT, ALEYRODIDAE, ABIOTIC environment, POPULATION dynamics, WINTER

Abstract

The article presents a study on the population dynamics of rugose spiralling whitefly on coconut and their correlation with abiotic factors. Topics discussed include the popularity of coconut, data on correlation between weather parameters and rugose spirally whitefly population during winter season, and important role of weather parameters in the incidence of rugose spiralling whitefly.

Published

2024

34. Abundance of Tylenchid Nematodes in Banana (Musa sp.) fields with soil abiotic factors in Vasai, Palghar (M.S), India.

Author

Balu, Avhad Sunil, N. S., Zambare, and E., Avhad Anil

Subjects

TYLENCHIDA, NEMATODES, ABIOTIC environment, SOIL sampling

Abstract

The article presents a study which examined how the abundance of tylenchid nematodes changes in response to various abiotic soil factors in Vasai, Palghar in Maharashtra, India. Topics discussed include site selection for taxonomic and ecological studies, procedure of sampling of soil, and processing of soil samples and extraction of nematodes.

Published

2024

35. Underpinning Plant Intelligence-A New Arena in Plant Cognition.

Author

Das, Mousumi

Subjects

COGNITION, CHEMICAL plants, ABIOTIC environment, DECISION making, ECOLOGICAL niche, STATISTICAL decision making, PLANT dispersal

Abstract

Like other organisms plants also face crucial challenges for survival and better fitness in a wide range of ecological niches. Complex behaviors like learning, memory, information acquisition, communication, resolving problems and decision making abilities for their own benefits in an ever changing environment are also common in plants like humans and other animals. Plants sense and respond to biotic and abiotic factors of the environment to assess resources. Plants are good timekeepers as well. Without having proper brain and nervous system plants are able to interact with themselves and other organisms via chemical talking. In some plant species emissions of certain volatile chemicals during herbivore attacks are indications of social interactions. These are evidences regarding the occurrence of kin recognitions and responses in plant growth and development in complex environmental conditions. Certain species of plants show the act of mimicry. By adopting different dispersal mechanisms plant reduces parent-offspring and offspring-offspring competition. Seed-dispersal mutualism is a complex physiological interaction between plants and animals. For the last few years the relevance of plant cognition and behavioral ecology has received much attention. Collecting various sensory inputs from the surrounding environment (perception), transducing the signals within the body (cognition) and adapting various strategies plant ensures an output for better survival and reproductive fitness. All these mechanisms explore the domain of plant intelligence. [ABSTRACT FROM AUTHOR]

Published

2024

36. Does the karst spring improve fish abiotic habitat in mountain streams?

Author

Rajwa-Kuligiewicz, Agnieszka and Bojarczuk, Anna

Subjects

FISH habitats, SPRING, ABIOTIC environment, GROUNDWATER recharge, WATER temperature

Abstract

Mountain streams constitute challenging habitat for many fish species due to rapid and variable flow, cool temperature, and limited food resources. Groundwaters recharge by karst spring may however mitigate harsh habit conditions of mountain streams providing niches for different fish species. This study aims to assess the suitability of mountain streams, replenished by karst springs, for various fish species like alpine bullhead, European grayling, brown and brook trout. The study was conducted in the Chochołowski Stream in the Western Tatra Mountains, Poland. The assessment of abiotic habitat is based on different characteristics of hydrological and thermal regimes as well as water chemical composition investigated between 01.09.2012 and 31.09.2014. The findings reveal that: 1) downstream variability of habitat abiotic conditions (such as water temperature, flow, water chemical composition) may affect the distribution of fish species, 2) karst springs contribute up to 100% of the stream's recharge during periods of winter low flow, 3) karstic groundwater reduces the variability and amplitudes of stream water temperature and weaken the periodicity in water temperature associated with daily course of air temperature and solar radiation, 4) groundwaters prevent stream freezing in winter and moderate summer temperatures, 5) increasing mineralisation of water below the spring recharge may positively affect fish distribution. The findings underscore the importance of karst springs in modifying the abiotic conditions of fish habitat in mountain streams. [ABSTRACT FROM AUTHOR]

Published

2024

37. Mycorrhizal arbitrage, a hypothesis: How mycoheterotrophs could profit from inefficiencies in the biological marketplace.

Author

Steidinger, Brian S.

Subjects

*ARBITRAGE, *PLANT life cycles, *LIFE cycles (Biology), *ABIOTIC environment, *MARKETPLACES, *MYCORRHIZAL fungi

Abstract

Mycoheterotrophy, whereby plants acquire both carbon and nutrients from a fungal partner, is an evolutionarily puzzling phenomenon. According to biological market models, mycoheterotrophs have nothing to offer and thus should be shunned as trading partners by discriminating fungi. Nevertheless, mycoheterotrophy is common, particularly among orchids, and an estimated 10% of all plant species are facultatively mycoheterotrophic at early stages in their life cycle. Reconciling mycoheterotrophy with biological market models, I describe how mycoheterotrophs could use arbitrage trading to net a profit of carbon and nutrients, without acquiring either from the abiotic environment. The model requires that mycoheterotrophs simultaneously buy and sell both carbon and nutrients, exploiting variability in the trading ratios offered by mycorrhizal fungi. The model relies on several conditions, including the ability of the mycoheterotroph to form indirect hyphal associations with two or more neighbouring autotrophic mycorrhizal associations, the existence of variable carbon:nutrient exchange ratios among these associations and the ability of mycoheterotrophs to invert the net‐direction of resource trade. Evidence that these conditions occur in a state of nature varies from incontrovertible to plausible given available models. The arbitrage model provides evolutionary rationale for mycoheterotrophy from both the plant and fungal perspective. Accordingly, mycoheterotrophs match trading ratios offered by autotrophic plants and, thus, need not be antagonists. The model makes novel predictions that distinguish it from source‐sink models, most notably in the existence of resource exchange inversions at the plant‐mycorrhizal interface. Finally, the model emphasizes market inefficiencies as the foundation on which mycoheterotrophs construct an arbitrage niche. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

38. Population-specific responses to pollution exposure suggest local adaptation of invasive red swamp crayfish Procambarus clarkii along the Mediterranean French coastline.

Author

Raffalli, Marie-Catherine, Bojórquez-Sánchez, Ana María, Lignot, Jehan-Hervé, and Martínez-Alarcón, Diana

Subjects

CRAYFISH, PROCAMBARUS clarkii, ABIOTIC environment, COASTAL wetlands, GENETIC variation, COASTS, WETLANDS, SWAMPS

Abstract

Anthropogenic stressors can have an impact in a broad range of physiological processes and can be a major selective force leading to rapid evolution and local population adaptation. In this study, three populations of the invasive crayfish Procambarus clarkii were investigated. They are geographically separated for at least 20 years, and live in different abiotic environments: a freshwater inland lake (Salagou lake) with no major anthropogenic influence and two other coastal wetlands regularly polluted by pesticides along the Mediterranean coast (Camargue region and Bages-Sigean lagoon). Collected adults were genetically characterized using the mitochondrial COI gene and haplotype frequencies were analyzed for genetic variability within and between populations. Results revealed a higher genetic diversity for these invasive populations than any previous report in France, with more than seven different haplotypes in a single population. The contrasting genetic diversity between the Camargue and the other two populations suggest different times and sources of introduction. To identify differences in key physiological responses between these populations, individuals from each population were maintained in controlled conditions. Data on oxygen consumption rates indicate that the Salagou and Bages-Sigean populations possess a high inter-individual variability compared to the Camargue population. The low individual variability of oxygen consumption and low genetic diversity suggest a specific local adaptation for the Camargue population. Population-specific responses were identified when individuals were exposed to a pesticide cocktail containing azoxystrobin and oxadiazon at sublethal concentrations. The Salagou population was the only one with altered hydro-osmotic balance due to pollutant exposure and a change in protease activity in the hepatopancreas. These results revealed different phenotypic responses suggesting local adaptations at the population level. [ABSTRACT FROM AUTHOR]

Published

2024

39. Unravelling the impact of environmental factors in shaping plant microbiomes.

Author

Pérez‐Lorente, Alicia Isabel, Romero, Diego, and Molina‐Santiago, Carlos

Subjects

*QUINOA, *SUSTAINABLE agriculture, *BOTANY, *LIFE sciences, *AGRICULTURE, *ABIOTIC environment

Abstract

This article discusses the role of environmental factors in shaping the plant microbiome, specifically focusing on the influence of bacterial and fungal communities on plant responses to water stress. The article highlights recent studies that examine the impact of different genotypes and levels of water stress on bacterial communities in quinoa plants and the relationship between environmental factors and fungal communities in apple fruit. The findings emphasize the importance of understanding plant microbiome dynamics for developing effective crop protection strategies and improving agricultural sustainability. The article suggests that microbiome-based strategies, which manipulate the plant microbiome, offer promising approaches for addressing crop productivity challenges while minimizing the use of harmful chemicals. [Extracted from the article]

Published

2024

40. Suffering makes you weaker: Limited evolutionary adaptation in competitively inferior populations.

Author

Chen, Nan and Zhang, Quan‐Guo

Subjects

*ABIOTIC environment, *PSEUDOMONAS fluorescens, *COMPETITION (Biology), *ESCHERICHIA coli, *SUFFERING

Abstract

Interspecific competition can hinder populations from evolutionarily adapting to abiotic environments, particularly by reducing population size and niche space; and feedback may arise between competitive ability and evolutionary adaptation. Here we studied populations of two model bacterial species, Escherichia coli and Pseudomonas fluorescens, that evolved in monocultures and cocultures for approximately 2400 generations at three temperatures. The two species showed a reversal in competitive dominance in cocultures along the temperature gradient. Populations from cocultures where they had been competitively dominant showed the same magnitude of fitness gain as those in monocultures. However, competitively inferior populations in cocultures showed limited abiotic adaptation compared with those in monocultures. The inferior populations in cocultures were also more likely to evolve weaker interspecific competitive ability, or go extinct. The possible competitive ability‐adaptation feedback may have crucial consequences for population persistence. [ABSTRACT FROM AUTHOR]

Published

2024

41. Self‐help or self‐sabotage? A common invader's soil legacy does not impede, and may facilitate, potential competitors.

Author

Lee, Katie, Endriss, Stacy B., and Blossey, Bernd

Subjects

ABIOTIC environment, BIOCOMPLEXITY, SOILS, INTRODUCED plants, PLANT-soil relationships

Abstract

Introduced plants create lasting abiotic and biotic changes to soil that are increasingly implicated as major drivers of invasion success, yet models for investigating patterns in the impacts of these soil legacies are lacking. Here, we used Bohemian knotweed (Reynoutria × bohemica) to present a novel approach for testing whether accounting for diverse evolutionary drivers can clarify how an invader's soil legacy mediates its success. For most tested species, R. × bohemica's soil legacy did not influence seedling performance irrespective of its evolutionary history or the evolutionary novelty of species that share its soil. However, we found the relative importance of legacy effects versus other mechanisms of invader dominance depends on the life stage of the plants growing in soil conditioned by the invader. While the effects of R. × bohemica's soil legacy on seedling performance were context dependent, emergence was, on average, higher in R. × bohemica‐conditioned soils than in unconditioned soils. Thus, contrary to theory, R. × bohemica's soil legacy not only fails to impede potential competitors but may also facilitate them. Our results are particularly powerful: we detected novel insights in the face of biological complexity, even for R. × bohemica, which likely does not depend on heterospecific plant–soil feedbacks for its competitive dominance in its introduced range. Designing rigorous investigations that explore how plant species' evolutionary histories mediate an invader's soil legacy across diverse abiotic environments, as shown here, is key for producing insights in other systems. [ABSTRACT FROM AUTHOR]

Published

2024

42. Biomass Allocation of China's Forests as Indicated by a Literature-Based Allometry Database.

Author

Hao, Yajie, Sun, Zhongyi, and Tan, Zheng-Hong

Subjects

BIOMASS, ABIOTIC environment, FOREST biomass, DATABASES, BIOMASS conversion, RAIN forests, TEMPERATE forests

Abstract

Allometry reflects the quantitative relationship between the allocation of resources among different organs. Understanding patterns of forest biomass allocation is critical to comprehending global climate change and the response of terrestrial vegetation to climate change. By collecting and reorganizing the existing allometric models of tree species in China, we established a database containing over 3000 empirical allometric models. Based on this database, we analyzed the model parameters and the effect of climate on forest biomass allocation under the context of 'optimal allocation theory'. We showed that (1) the average and median exponent of power functions for above-ground biomass were 2.344 and 2.385, respectively, which significantly deviated from the theoretical prediction of 2.667 by metabolic theory (p < 0.01). (2) The parameters of the allometric model were not constant, and not significantly correlated with temperature, precipitation, latitude, and elevation (p > 0.05), but were more closely related to individual size (p < 0.01). (3) Among different types of forests, the proportion of above-ground biomass in tropical rainforests and subtropical evergreen rainforests was significantly higher than that in temperate forests and boreal forests (p < 0.05). The proportion of trunk and branch biomass allocated to tropical rainforest was significantly higher than that of boreal forest (p < 0.05), while the proportion of root and leaf biomass allocated to tropical rainforest was significantly lower than that of boreal forest (p < 0.05). (4) The abiotic environment plays a crucial role in determining the allocation of plant biomass. The ratio of below-ground/above-ground biomass is significantly and negatively correlated with both temperature and rainfall (p < 0.01), and significantly and positively correlated with altitude and latitude (p < 0.01). This means that as temperature and rainfall increase, there is a decrease in the amount of biomass allocated to below-ground structures such as roots. On the other hand, as altitude and latitude increase, there is an increase in below-ground biomass allocation. These findings highlight the importance of considering the influence of abiotic factors on plant growth and development. [ABSTRACT FROM AUTHOR]

Published

2024

43. Determinants of rapid adaptation in species with large variance in offspring production.

Author

Korfmann, Kevin, Temple‐Boyer, Marie, Sellinger, Thibaut, and Tellier, Aurélien

Subjects

*GENETIC drift, *REPRODUCTION, *ABIOTIC environment, *SPECIES, *SWEEPSTAKES, *POPULATION genetics, *NITROGEN fixation, *FISH diversity

Abstract

The speed of population adaptation to changing biotic and abiotic environments is determined by the interaction between genetic drift, positive selection and linkage effects. Many marine species (fish, crustaceans), invertebrates and pathogens of humans and crops, exhibit sweepstakes reproduction characterized by the production of a very large amount of offspring (fecundity phase) from which only a small fraction may survive to the next generation (viability phase). Using stochastic simulations, we investigate whether the occurrence of sweepstakes reproduction affects the efficiency of a positively selected unlinked locus, and thus, the speed of adaptation since fecundity and/or viability have distinguishable consequences on mutation rate, probability and fixation time of advantageous alleles. We observe that the mean number of mutations at the next generation is always the function of the population size, but the variance increases with stronger sweepstakes reproduction when mutations occur in the parents. On the one hand, stronger sweepstakes reproduction magnifies the effect of genetic drift thus increasing the probability of fixation of neutral allele and decreasing that of selected alleles. On the other hand, the time to fixation of advantageous (as well as neutral) alleles is shortened by stronger sweepstakes reproduction. Importantly, fecundity and viability selection exhibit different probabilities and times to fixation of advantageous alleles under intermediate and weak sweepstakes reproduction. Finally, alleles under both strong fecundity and viability selection display a synergistic efficiency of selection. We conclude that measuring and modelling accurately fecundity and/or viability selection are crucial to predict the adaptive potential of species with sweepstakes reproduction. [ABSTRACT FROM AUTHOR]

Published

2024

44. Understanding the dynamic interactions of root-knot nematodes and their host: role of plant growth promoting bacteria and abiotic factors.

Author

Habteweld, Alemayehu, Kantor, Mihail, Kantor, Camelia, and Handoo, Zafar

Subjects

PLANT growth, HOST plants, ROOT-knot nematodes, AGRICULTURE, ABIOTIC environment, CROP growth

Abstract

Root-knot nematodes (Meloidogyne spp., RKN) are among the most destructive endoparasitic nematodes worldwide, often leading to a reduction of crop growth and yield. Insights into the dynamics of host-RKN interactions, especially in varied biotic and abiotic environments, could be pivotal in devising novel RKN mitigation measures. Plant growth-promoting bacteria (PGPB) involves different plant growth-enhancing activities such as biofertilization, pathogen suppression, and induction of systemic resistance. We summarized the up-todate knowledge on the role of PGPB and abiotic factors such as soil pH, texture, structure, moisture, etc. in modulating RKN-host interactions. RKN are directly or indirectly affected by different PGPB, abiotic factors interplay in the interactions, and host responses to RKN infection. We highlighted the tripartite (host-RKNPGPB) phenomenon with respect to (i) PGPB direct and indirect effect on RKNhost interactions; (ii) host influence in the selection and enrichment of PGPB in the rhizosphere; (iii) how soil microbes enhance RKN parasitism; (iv) influence of host in RKN-PGPB interactions, and (v) the role of abiotic factors in modulating the tripartite interactions. Furthermore, we discussed how different agricultural practices alter the interactions. Finally, we emphasized the importance of incorporating the knowledge of tripartite interactions in the integrated RKN management strategies. [ABSTRACT FROM AUTHOR]

Published

2024

45. Effects of species diversity on trait expression of the clonal herb Taraxacum officinale and its relation to genotype diversity and phenotypic plasticity.

Author

De Giorgi, Francesca, Roscher, Christiane, and Durka, Walter

Subjects

*PHENOTYPIC plasticity, *COMMON dandelion, *SPECIES diversity, *PLANT species diversity, *GENOTYPES, *ABIOTIC environment

Abstract

Plant species respond to varying plant species diversity and associated changes in their abiotic and biotic environment with changes in their phenotype. However, it is not clear to what degree this phenotypic differentiation is due to genotype diversity within populations or phenotypic plasticity of plant individuals. We studied individuals of 16 populations of the clonal herb Taraxacum officinale grown in plant communities of different species richness in a 17‐year‐old grassland biodiversity experiment (Jena Experiment). We collected 12 individuals in each population to measure phenotypic traits and identify distinct genotypes using microsatellite DNA markers. Plant species richness did not influence population‐level genotype and trait diversity. However, it affected the expression of several phenotypic traits, e.g. leaf and inflorescence number, maximum leaf length and seed mass, which increased with increasing plant species richness. Moreover, population‐level trait diversity correlated positively with genotype richness for leaf dry matter content (LDMC) and negatively with inflorescence number. For several traits (i.e. seed mass, germination rate, LDMC, specific leaf area (SLA)), a larger portion of variance was explained by genotype identity, while variance in other traits (i.e. number of inflorescences, leaf nitrogen concentration, leaf number, leaf length) resided within genotypes and thus was mostly due to phenotypic plasticity. Overall, our findings show that plant species richness positively affected the population means of some traits related to whole‐plant performance, whose variation was achieved through both phenotypic plasticity and genotype composition of a population. [ABSTRACT FROM AUTHOR]

Published

2024

46. Disturbance sensitivity shapes patterns of tree species distribution in Afrotropical lowland rainforests more than climate or soil.

Author

Núñez, Chase L., Clark, James S., and Poulsen, John R.

Subjects

*SPECIES distribution, *ABIOTIC environment, *RAIN forests, *HUMAN ecology, *TROPICAL forests, *FOREST biodiversity

Abstract

Understanding how tropical forests respond to abiotic environmental changes is critical for preserving biodiversity, mitigating climate change, and maintaining ecosystem services in the coming century. To evaluate the relative roles of the abiotic environment and human disturbance on Central African tree community composition, we employ tree inventory data, remotely sensed climatic data, and soil nutrient data collected from 30 1‐ha plots distributed across a large‐scale observational experiment in forests that had been differently impacted by logging and hunting in northern Republic of Congo. We show that the composition of Afrotropical plant communities at this scale responds to human disturbance more than to climate, with particular sensitivities to hunting and distance to the nearest village (a proxy for other human activities, including tree‐cutting and gathering). These findings contrast neotropical predictions, highlighting the unique ecological, evolutionary, and anthropogenic history of Afrotropical forests. [ABSTRACT FROM AUTHOR]

Published

2024

47. Mosaic of local adaptation between white clover and rhizobia along an urbanization gradient.

Author

Murray‐Stoker, David and Johnson, Marc T. J.

Subjects

*WHITE clover, *RHIZOBIUM leguminosarum, *ABIOTIC environment, *URBANIZATION, *PLANT-microbe relationships, *PHYSIOLOGICAL adaptation

Abstract

Urbanization frequently alters the biotic and abiotic environmental context. Variation in both the biotic and abiotic environment can result in selection mosaics that lead to locally adapted phenotypes. Ecological changes to urban environments can result in evolutionary responses across a diverse array of plants and animals, but the effects of urbanization on local adaptation and coevolution between species remain largely unstudied.Using a common garden experiment of 30 populations and 1080 plants, we tested for local adaptation in the mutualism between white clover (Trifolium repens) and rhizobia (Rhizobium leguminosarum symbiovar trifolii) along an urbanization gradient. We asked: (Q1) are white clover and rhizobia locally adapted? (Q2) Does nitrogen (N) addition mediate the strength of local adaptation? (Q3) Is the strength of local adaptation in host plants related to the strength of local adaptation in rhizobia, as expected if white clover and rhizobia are coadapting? And (Q4) how does the degree of local adaptation vary with urbanization?We found evidence for local adaptation for both white clover and rhizobia, with stronger signatures of local adaptation for rhizobia than white clover (Q1). While N addition positively affected plant biomass and negatively affected nodule density, N addition did not consistently mediate patterns of local adaptation (Q2). The strength of local adaptation was positively related between white clover and rhizobia under N addition, suggesting that soil N mediates coadaptation between white clover and rhizobia (Q3). We did not find a consistent relationship between measures of urbanization and local adaptation (Q4). Additionally, fitness responses for white clover and rhizobia were unrelated to Rhizobium abundance and local adaptation was unrelated to the broader bacterial microbiome in the soil inoculants or root endosphere.Synthesis. Our results show a spatial mosaic in local adaptation, with stronger local adaptation for rhizobia than white clover. While urbanization does influence the ecology of plant–microbe interactions, our study suggests urbanization does not disrupt local adaptation and coevolution among mutualists. [ABSTRACT FROM AUTHOR]

Published

2024

48. Defining Fitness in Evolutionary Ecology.

Author

Wadgymar, Susana M., Sheth, Seema, Josephs, Emily, DeMarche, Megan, and Anderson, Jill

Subjects

*BIOLOGICAL fitness, *ABIOTIC environment, *LIFE spans, *LONGEVITY, *RESEARCH personnel

Abstract

An understanding of biological fitness is central to theory and practice in ecology and evolution, yet fitness remains an elusive concept to define and is challenging to measure accurately. Fitness reflects an individual's ability to pass its alleles on to subsequent generations. Researchers often quantify proxies for fitness, such as survival, growth, or reproductive success. However, it can be difficult to determine lifetime fitness, especially for species with long life spans. The abiotic and biotic environment strongly affects the expression of fitness, which means that fitness components can vary through both space and time. This spatial and temporal heterogeneity results in the impressive range of adaptations that we see in nature. Here, we review definitions of fitness and approaches to measuring fitness at the level of genes, individuals, genotypes, and populations and highlight that fitness is a key concept linking ecological and evolutionary thought. [ABSTRACT FROM AUTHOR]

Published

2024

49. Recent progress in online detection methods of bioaerosols.

Author

Taicheng An, Zhishu Liang, Zhen Chen, and Guiying Li

Subjects

*MICROBIOLOGICAL aerosols, *ABIOTIC environment, *MASS spectrometry, *VIRAL transmission, *COVID-19 pandemic

Abstract

The aerosol transmission of coronavirus disease in 2019, along with the spread of other respiratory diseases, caused significant loss of life and property; it impressed upon us the importance of real-time bioaerosol detection. The complexity, diversity, and large spatiotemporal variability of bioaerosols and their external/internal mixing with abiotic components pose challenges for effective online bioaerosol monitoring. Traditional methods focus on directly capturing bioaerosols before subsequent time-consuming laboratory analysis such as culture-based methods, preventing the high-resolution time-based characteristics necessary for an online approach. Through a comprehensive literature assessment, this review highlights and discusses the most commonly used real-time bioaerosol monitoring techniques and the associated commercially available monitors. Methods applied in online bioaerosol monitoring, including adenosine triphosphate bioluminescence, laser/light-induced fluorescence spectroscopy, Raman spectroscopy, and bioaerosol mass spectrometry are summarized. The working principles, characteristics, sensitivities, and efficiencies of these real-time detection methods are compared to understand their responses to known particle types and to contrast their differences. Approaches developed to analyze the substantial data sets obtained by these instruments and to overcome the limitations of current real-time bioaerosol monitoring technologies are also introduced. Finally, an outlook is proposed for future instrumentation indicating a need for highly revolutionized bioaerosol detection technologies. [ABSTRACT FROM AUTHOR]

Published

2024

50. Long-Term Consequences of PTI Activation and Its Manipulation by Root-Associated Microbiota.

Author

Nakano, Ryohei Thomas and Shimasaki, Tomohisa

Subjects

*METABOLIC reprogramming, *COMPETITIVE exclusion (Microbiology), *PATTERN perception, *DISEASE resistance of plants, *ABIOTIC environment

Abstract

In nature, plants are constantly colonized by a massive diversity of microbes engaged in mutualistic, pathogenic or commensal relationships with the host. Molecular patterns present in these microbes activate pattern-triggered immunity (PTI), which detects microbes in the apoplast or at the tissue surface. Whether and how PTI distinguishes among soil-borne pathogens, opportunistic pathogens, and commensal microbes within the soil microbiota remains unclear. PTI is a multimodal series of molecular events initiated by pattern perception, such as Ca2+ influx, reactive oxygen burst, and extensive transcriptional and metabolic reprogramming. These short-term responses may manifest within minutes to hours, while the long-term consequences of chronic PTI activation persist for days to weeks. Chronic activation of PTI is detrimental to plant growth, so plants need to coordinate growth and defense depending on the surrounding biotic and abiotic environments. Recent studies have demonstrated that root-associated commensal microbes can activate or suppress immune responses to variable extents, clearly pointing to the role of PTI in root–microbiota interactions. However, the molecular mechanisms by which root commensals interfere with root immunity and root immunity modulates microbial behavior remain largely elusive. Here, with a focus on the difference between short-term and long-term PTI responses, we summarize what is known about microbial interference with host PTI, especially in the context of root microbiota. We emphasize some missing pieces that remain to be characterized to promote the ultimate understanding of the role of plant immunity in root–microbiota interactions. [ABSTRACT FROM AUTHOR]

Published

2024