Your search keyword '"Ecological niche"' showing total 9,635 results

1. 新安江森林公园阔叶林木本植物生态位与种间联结性.

Author

郑永敏, 吕江波, 吴文骁, 邓建平, 周燕, and 吴家森

Abstract

Copyright of Journal of Forest & Environment is the property of Journal of Forest & Environment Editorial 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

2. Behavioral responses of benthic and nektonic tadpoles to the presence of a benthic predator.

Author

de Souza, Yasmim Caroline Mossioli, Annibale, Fabiane Santana, Pelinson, Rodolfo Mei, and Rossa-Feres, Denise de Cerqueira

Subjects

BODIES of water, TADPOLES, ODONATA, ECOLOGICAL niche, PREDATORY animals, PREDATION

Abstract

We experimentally tested whether the presence of a free benthic predator (Odonata naiads) alters the displacement time, the position occupied in the water column, and the proportion of food consumed by benthic and nektonic tadpoles. The presence of predators did not influence the displacement time or the proportion of food consumed by any of the two species. In the presence of predators, benthic tadpoles avoided the benthic microhabitat, increasing their time in the middle of the water column. This behavior was unexpected since the previous studies indicate that the morphology of benthic tadpoles restricts them to the bottom of water bodies. We, thus, hypothesize that such a drastic behavior change was a consequence of the real risk of predation to which the tadpoles were exposed. Our results are in accordance with the threat-sensitivity hypothesis, in which prey behave flexibly when exposed to different degrees of predation threats. Nektonic tadpoles, however, slightly increased their permanence in the water column in the presence of the same benthic predators. Therefore, we provide support for the hypothesis that predators induce greater behavioral changes in prey that exhibit patterns of microhabitat use similar to theirs. [ABSTRACT FROM AUTHOR]

Published

2024

3. Evolutionary development of mother–child scaffolding for moral comprehension.

Author

Beck, Robert J.

Abstract

This evolutionary developmental study employed an experimental recursive narrative ecological niche, comparing scaffolded mother–child (5-year-old) pairs to unassisted controls as they independently viewed and discussed a realistic fictional family video depicting a father–daughter emotional conflict over the girl's risky behavior, which violated harm/care and fairness/justice moral foundation norms. A microgenetic analysis was conducted on a selected variant pair that demonstrated high adaptive fitness in the niche by employing developmentally advanced cooperative scaffolding tools. The conversational ecosystem phase was characterized by repeated maternal theory-oriented "why" questions and coordinated child causal responses, forming a joint epistemic investigation that facilitated the child's moral understanding of the characters' responsibilities and motives. The pair used quasi-justice procedures to gather evidence, judge, and construct moral attributes for the characters. Their conversational mechanism was supported by mutual mindreading, mental time travel, and empathic communications, as they interacted simultaneously with each other and the story characters. A narrative ecological scaffolding theory emerged, establishing a standard for cooperative epistemic scaffolding between the mother and the child. Future training programs should utilize the Zone of Proximal Development method to instruct similar parent–child pairs. [ABSTRACT FROM AUTHOR]

Published

2024

4. Combined response of polar magnetotaxis to oxygen and pH: Insights from hanging drop assays and microcosm experiments.

Author

Mao, Xuegang, Egli, Ramon, Petersen, Nikolai, and Liu, Xiuming

Subjects

GEOMAGNETISM, MAGNETOTACTIC bacteria, ECOLOGICAL niche, MAGNETIC fields, OXIDATION-reduction reaction

Abstract

Magnetotactic bacteria (MTB) combine passive alignment with the Earth magnetic field with a chemotactic response (magneto-chemotaxis) to reach their optimal living depth in chemically stratified environments. Current magneto-aerotaxis models fail to explain the occurrence of MTB far below the oxic-anoxic interface and the coexistence of MTB cells with opposite magnetotactic polarity at depths that are unrelated with the redox gradient. Here we propose a modified model of polar magnetotaxis which explains these observations, as well as the distinct concentration profiles and magnetotactic advantages of two types of MTB inhabiting a freshwater sediment: a group of unidentified cocci (MC), and a giant rod-shaped bacterium (MB) apparently identical to M. bavaricum (MB). This model assumed that magnetotactic polarity is set by a threshold mechanism in counter gradients of oxygen and a second group of repellents, with, in case of MB, includes H+ ions. MTB possessing this type of polar magnetotaxis can shuttle between two limit depths across the redox gradient (redox taxis), as previously postulated for M. bavaricum and other members of the Nitrospirota group. The magnetotaxis of MB and MC is predominantly dipolar whenever the presence of a magnetic field ensures a magnetotactic advantage. In addition, MB can overcome unfavorable magnetic field configurations through a temporal sensing mechanism. The availability of threshold and temporal sensing mechanisms of different substances can generate a rich variety of responses by different types of MTB, enabling them to exploit multiple ecological niches. [ABSTRACT FROM AUTHOR]

Published

2024

5. Using iNaturalist presence data to produce suitability maps for Triatoma protracta, T. rubida and T. recurva in the American Southwest, Texas and northern Mexico, to identify potential transmission zones of Chagas disease.

Author

Hill, Jeff, Teal, Evan, Cross, Chad L., Sanchez, Zoee, Webber, Michael M., Oxborough, Richard M., and Messenger, Louisa A.

Subjects

CHAGAS' disease, TRIATOMA, CONENOSES, ECOLOGICAL niche, SPECIES diversity, TRYPANOSOMA cruzi

Abstract

There are 11 species of triatomines in the USA, with seven reported in the American Southwest. These species are capable of transmitting Trypanosoma cruzi, the etiological agent of Chagas disease, but are generally sylvatic and rarely infect humans in the USA. iNaturalist is one of the most popular citizen science data portals, where users record encounters with any individual organism. As of November 2023, iNaturalist reported 722 confirmed triatomine observations in the American Southwest. Maximum entropy ecological niche modelling and bioclimatic environmental variables were used to predict zones of highest human-triatomine interaction. Models fit well for Triatoma protracta (0.85), T. rubida (0.94), and T. recurva (0.96). Precipitation in the warmest quarter was most predictive of T. protracta presence, while precipitation in the driest quarter was most predictive of T. rubida and T. recurva. Locations identified in the American Southwest with highest potential for human-triatomine interaction, and potential T. cruzi transmission, were coastal California, the Sierra Nevada foothills, southern Arizona and border areas of northern Mexico. Study findings can be used for targeted surveillance efforts to address the paucity of contemporary information regarding triatomine species diversity and geographical and ecological associations in the American Southwest. [ABSTRACT FROM AUTHOR]

Published

2024

6. Perspectives on blastomycosis in Canada in the face of climate change.

Author

Khadilkar, Amole, Waddell, Lisa, Acheson, Emily S., and Ogden, Nicholas H.

Abstract

Blastomycosis is a disease of potentially varied presentations caused by thermally dimorphic fungi that appear as mold at ambient temperatures and transform to yeast at body temperature. Inhalation of aerosolized fungal spores represents the primary mode of transmission. Exposure may follow outdoor activities that disturb soil, which is warm, moist, acidic and rich in organic debris, particularly within forested areas and in proximity to waterways. Blastomycosis is endemic to several parts of Canada, but is only reportable in Ontario and Manitoba, with Northwestern Ontario being considered a hyperendemic area with average annual incidence rates of over 25 cases per 100,000 population. Delays in diagnosis and treatment are frequently observed as the symptoms and imaging findings of blastomycosis may initially be mistaken for community-acquired pneumonia, tuberculosis or malignancy, which can result in interim disease progression and worsening clinical outcomes. Risks from fungal infections such as blastomycosis are likely to increase with climate change-associated shifts in temperature and rainfall, and this may contribute to the geographic expansion of cases, a phenomenon that appears to be already underway. Further research investigating the ecological niche of Blastomyces and its climate sensitivity could help facilitate better modelling of the potential impacts of climate change on risks to Canadians and inform more effective methods of exposure prevention. Early clinical recognition and treatment of blastomycosis remain the key to minimizing morbidity and mortality. [ABSTRACT FROM AUTHOR]

Published

2024

7. Climate change impacts on the distribution of Dryomys laniger (woolly dormouse) in Türkiye: a data-driven approach.

Author

Helvacı, Zeycan

Subjects

MACHINE learning, FRAGMENTED landscapes, CLIMATE change, SPECIES distribution, ECOLOGICAL niche

Abstract

This study examines the population structure, ecological niche, and vulnerability to climate change of the woolly dormouse Dryomys laniger in Türkiye. Integrating genetic data with species distribution modeling, the research predicts suitable habitats for D. laniger under current and future climate change scenarios until the year 2100. Using an ensemble of two machine learning models, this study finds that by 2040, the range of D. laniger will be reduced significantly, particularly in southern populations. Eastern areas emerge as a potential refuge, showing slight expansion and colonization. The low genetic diversity in this eastern population indicates the need for long-term adaptability of D. laniger. Due to the unique adaptive potential of each population, this research highlights the importance of region-specific management plans to ensure the long-term survival of this species, which appears to be vulnerable to habitat fragmentation. [ABSTRACT FROM AUTHOR]

Published

2024

8. Phosphonates of Pectobacterium atrosepticum : Discovery and Role in Plant–Pathogen Interactions.

Author

Parfirova, Olga, Mikshina, Polina, Petrova, Olga, Smolobochkin, Andrey, Pashagin, Alexander, Burilov, Alexander, and Gorshkov, Vladimir

Subjects

QUORUM sensing, PLANT colonization, PSEUDOMONAS syringae, COLONIZATION (Ecology), ECOLOGICAL niche, PHYTOPATHOGENIC bacteria

Abstract

Many phytopathogens' gene products that contribute to plant–pathogen interactions remain unexplored. In one of the most harmful phytopathogenic bacterium Pectobacterium atrosepticum (Pba), phosphonate-related genes have been previously shown to be among the most upregulated following host plant colonization. However, phosphonates, compounds characterized by a carbon–phosphorus bond in their composition, have not been described in Pectobacterium species and other phytopathogenic bacteria, with the exception of Pseudomonas syringae and Pantoea ananatis. Our study aimed to determine whether Pba synthesizes extracellular phosphonates and, if so, to analyze their physiological functions. We demonstrated that Pba produces two types of extracellular phosphonates: 2-diethoxyphosphorylethanamine and phenylphosphonic acid. Notably, such structures have not been previously described among natural phosphonates. The production of Pba phosphonates was shown to be positively regulated by quorum sensing and in the presence of pectic compounds. Pba phosphonates were found to have a positive effect on Pba stress resistance and a negative effect on Pba virulence. The discovered Pba phosphonates are discussed as metabolites that enable Pba to control its "harmful properties", thereby maintaining its ecological niche (the host plant) in a relatively functional state for an extended period. [ABSTRACT FROM AUTHOR]

Published

2024

9. The response of microbiome assembly within different niches across four stages to the cultivation of glyphosate-tolerant and conventional soybean varieties.

Author

Shengqian Chao, Yu Sun, Yin Zhang, Yifan Chen, Lili Song, Peng Li, Xueming Tang, Jingang Liang, and Beibei Lv

Subjects

PLANT diseases, PLANT protection, FUNGAL communities, BACTERIAL communities, ECOLOGICAL niche

Abstract

Introduction: Plants are inherently connected with the microbiome, which plays a crucial role in regulating various host plant biological processes, including immunity, nutrient acquisition, and resistance against abiotic and biotic stresses. Many factors affect the interaction between plants and microbiome. Methods and results: In this study, microbiome samples were collected from five niches (bulk soil, rhizoplane, root endosphere, phylloplane, and leaf endosphere) across four developmental stages (seedling, flowering, podding, and maturity) of various soybean varieties. Composition and structure of bacterial and fungal communities were analyzed using 16S rRNA gene and ITS (Internally Transcribed Spacer) region amplicon sequencing. It was observed that both niches and developmental stages significantly impact on the assembly and composition of soybean microbiome. However, variety, presence of a transgene, and glyphosate application had minimal effects on microbial communities. The dominant microbiome varied across the five niches, with most containing beneficial microbial communities capable of promoting plant growth or increasing disease resistance. Types and abundance of the dominant microbes affected network stability, potentially resulting in functional changes in different ecological niches. Conclusion: This study provides theoretical evidence for microbial protection of plants against diseases and demonstrates that systematic analysis of the composition and diversity of soybean microbiomes can contribute to the development of biological control technologies. [ABSTRACT FROM AUTHOR]

Published

2024

10. Genomic diversity of phages infecting the globally widespread genus Sulfurimonas.

Author

Li, Xiaofeng, Cheng, Ruolin, Zhang, Chuanxi, and Shao, Zongze

Subjects

MICROBIAL genomes, SULFUR metabolism, BIOLOGICAL evolution, ECOLOGICAL niche, GENETIC variation

Abstract

The widespread bacterial genus Sulfurimonas is metabolically versatile and occupies a key ecological niche in different habitats, but its interaction with bacteriophages remains unexplored. Here we systematically investigated the genetic diversity, taxonomy and interaction patterns of Sulfurimonas-associated phages based on sequenced microbial genomes and metagenomes. High-confidence phage contigs related to Sulfurimonas were retrieved from various ecosystems, clustered into 61 viral operational taxonomic units across three viral realms, including Duplodnaviria, Monodnaviria and Varidnaviria. Head-tail phages of Caudoviricetes were assigned to 19 genus-level viral clusters, the majority of which were distantly related to known viruses. Notably, diverse double jelly-roll viruses and inoviruses were also linked to Sulfurimonas, representing two commonly overlooked phage groups. Historical and current phage infections were revealed, implying viral impact on the evolution of host adaptive immunity. Additionally, phages carrying auxiliary metabolic genes might benefit hosts by compensating or augmenting sulfur metabolism. This study highlights the diversity and novelty of Sulfurimonas-associated phages with divergent tailless lineages, providing basis for further investigation of phage-host interactions within this genus. A catalog of phages associated with Sulfurimonas reveals unexplored diversity and potential viral impacts, providing new insight into the phage-host coevolution. [ABSTRACT FROM AUTHOR]

Published

2024

11. Mate‐guarding male desert locusts act as parasol for ovipositing females in an extremely hot desert environment.

Author

Maeno, Koutaro Ould, Ould Ely, Sidi, Ould Mohamed, Sid' Ahmed, Jaavar, Mohamed El Hacen, Benahi, Ahmed Salem, and Ould Babah Ebbe, Mohamed Abdallahi

Subjects

DESERT locust, CLIMATE change adaptation, SUNSHINE, BODY temperature, EARTH temperature, THERMAL tolerance (Physiology), COLD-blooded animals

Abstract

The article discusses the thermal adaptation strategies of desert locusts in the Sahara Desert, focusing on mate-guarding behavior that helps ovipositing females avoid overheating in extremely hot conditions. Male locusts act as parasols for females by mounting them during daytime oviposition, reducing their body temperatures significantly. This mate-guarding behavior may serve as a defensive strategy to cool females and expand their ecological niches. The study suggests that understanding these thermoregulatory strategies could aid in environmentally conscious pest control and help desert locusts adapt to future climate change. [Extracted from the article]

Published

2024

12. The importance of biotic interactions in distribution models of wild bees depends on the type of ecological relations, spatial scale and range.

Author

Moens, Merijn, Biesmeijer, Jacobus C., Huang, Elaine, Vereecken, Nicolas J., and Marshall, Leon

Subjects

SPECIES distribution, HONEY plants, SPATIAL resolution, ECOLOGICAL niche, BODY size, BEES

Abstract

Studies have found that biotic information can play an important role in shaping the distribution of species even at large scales. However, results from species distribution models are not always consistent among studies and the underlying factors that influence the importance of biotic information to distribution models, are unclear. We studied wild bees and plants, and cleptoparasite bees and their hosts in the Netherlands to evaluate how the inclusion of their biotic interactions affects the performance of species distribution models. We assessed model performance through spatial block cross‐validation and by comparing models with interactions to models where the interacting species was randomized. Finally, we evaluated how, 1) spatial resolution, 2) taxonomic rank (genus or species), 3) degree of specialization, 4) distribution of the biotic factor, 5) bee body size and 6) type of biotic interaction, affect the importance of biotic interactions in shaping the distribution of wild bee species using generalized linear models (GLMs). We found that the models of wild bees improved when the biotic factor was included. The model performance improved the most for parasitic bees. Spatial resolution, taxonomic rank, distribution range of the biotic factor and degree of specialization of the modelled species all influenced the importance of the biotic interaction to the models. We encourage researchers to include biotic interactions in species distribution models, especially for specialized species and when the biotic factor has a limited distribution range. However, before adding the biotic factor we suggest considering different spatial resolutions and taxonomic ranks of the biotic factor. We recommend using single species or genus data as a biotic factor in the models of specialist species and for the generalist species, we recommend using an approximate measure of interactions, such as flower richness. [ABSTRACT FROM AUTHOR]

Published

2024

13. New theoretical and analytical framework for quantifying and classifying ecological niche differentiation.

Author

Ascanio, Alfredo, Bracken, Jason T., Stevens, Martin Henry H., and Jezkova, Tereza

Subjects

SALAMANDERS, CONSERVATISM, CLASSIFICATION, SPECIES

Abstract

Ecological niche differentiation is a process that accompanies lineage diversification and community assembly. Traditionally, the degree of niche differentiation is estimated by contrasting niche hypervolumes of two taxa, reconstructed using ecologically relevant variables. These methods disregard the fact that niches can shift in different ways and directions. Without means of discriminating between different types of niche differentiation, important evolutionary and ecological patterns may go unrecognized. Herein, we introduce a new conceptual and methodological framework that allows quantification and classification of niche differentiation and divergence between taxa along single niche axis. This new method, the Niche Divergence Plane, is based on species' responses to an underlying environmental gradient, from which we derive a two‐dimensional plane defined by two indices, niche exclusivity and niche dissimilarity. These two indices identify the proportion of the environmental gradient that is unique to each species, that is, how much of the environmental gradient species do not share (niche breadth exclusivity) and how different the species' responses are along the environmental gradient (niche dissimilarity). Thus, the latter can also be seen as a measure of the differences in niche preference or importance, even when there is significant overlap in niche breadth (i.e., low niche exclusivity). Based on the position of the two indices on the divergence plane, we can distinguish niche conservatism from four other general types of niche divergence: hard, soft, weighted, and nested. We demonstrate that the Niche Divergence Plane complements traditional measures of niche similarity (e.g., Schoener's D or Hellinger's I). Additionally, we show an empirical comparison using the Niche Divergence Plane framework on two Ambystoma salamanders. Overall, we demonstrate that the Niche Divergence Plane is a versatile tool that can be used to complement and expand previous methods of ecological niche comparisons and the study of ecological niche divergence. [ABSTRACT FROM AUTHOR]

Published

2024

14. From eradication to conservation: identifying areas for restoration and management of a Pliocene relic in a changing climate.

Author

Pennartz, Katie J., Tanner, Evan P., Carroll, J. Matthew, Elmore, R. Dwayne, Davis, Craig A., and Fuhlendorf, Samuel D.

Subjects

GENERAL circulation model, KEYSTONE species, CURRENT distribution, ECOLOGICAL models, ECOLOGICAL niche

Abstract

By 1985, approximately 400,000 ha of the keystone species Shinnery oak's (Quercus havardii) historic distribution had been eliminated for agricultural purposes across the southwestern United States. These trends indicate a need for targeted conservation and restoration efforts, especially considering the increased attention received for its role in providing habitat for endangered fauna. Setting spatially explicit conservation targets can be challenging for species with limited distributions, as the change in climate conditions over time may disconnect the relationship between environmental suitability and static, topo‐edaphic factors. Our objective was to identify areas for Shinnery oak restoration and conservation and explore the role climate plays in determining these areas while considering topo‐edaphic relationships. We constructed ecological niche models to estimate Shinnery oak's distribution under current climate conditions and temporally transferred our model using an ensemble‐mean of general circulation models to identify areas predicted to retain environmental suitability for Shinnery oak through 2100. The current distribution model was best informed by one climate and two topo‐edaphic variables. We created a second distribution model excluding topo‐edaphic variables to estimate future plant–climate relationships. Incorporating insights from models informed by both static (e.g. soil) and dynamic (e.g. climate) variables, we identified areas for conservation characterized by persistent climate suitability and high soil type suitability. Lastly, we incorporated data on land use and ownership to explore socio‐ecological influences on management decisions. By identifying areas of agreement between our modeled distributions and considering social context, we prioritized conservation areas where environmental suitability persists under changing conditions to facilitate restoration success. [ABSTRACT FROM AUTHOR]

Published

2024

15. Pore‐forming aegerolysin and MACPF proteins in extremotolerant or extremophilic fungi.

Author

Kraševec, Nada

Subjects

FUNGAL genomes, ASPERGILLUS niger, ENDANGERED species, ECOLOGICAL niche, PROTEIN domains, PERFORINS

Abstract

Aegerolysin proteins are involved in various interactions by recognising a molecular receptor in the target organism. The formation of pores in combination with larger, non‐aegerolysin‐like protein partners (such as membrane attack complex/perforin proteins [MACPFs]) is one of the possible responses in the presumed competitive exclusion of other organisms from the ecological niche. Bicomponent pairs are already observed at the gene level. Fungi growing under extreme conditions can be divided into ubiquitous and extremotolerant generalists which can compete with mesophilic species and rare, isolated extremophilic and extremotolerant specialists with narrow ecological amplitude that cannot compete. Under extreme conditions, there are fewer competitors, so fungal specialists generally produce less diverse and complicated profiles of specialised molecules. Since extremotolerant and extremophilic fungi have evolved in numerous branches of the fungal tree of life and aegerolysins are unevenly distributed across fungal genomes, we investigated whether aegerolysins, together with their partner proteins, contribute to the extreme survival ecology of generalists and specialists. We compiled a list of 109 thermo‐, psihro‐, acido‐, alkali‐, halo‐, metallo‐ and polyextremo‐tolerant/‐philic fungal species. Several challenges were identified that affected the outcome: renaming fungal species, defining extremotolerant/extremophilic traits, identifying extremotolerant/extremophilic traits as metadata in databases and linking fungal isolates to fungal genomes. The yield of genomes coding aegerolysins or MACPFs appears to be lower in extremotolerant/extremophilic fungi compared to all fungal genomes. No candidates for pore‐forming gene pairs were identified in the genomes of extremophilic fungi. Aegerolysin and MACPFs partner pairs were identified in only two of 69 species with sequenced genomes, namely in the ubiquitous metallotolerant generalists Aspergillus niger and A. foetidus. These results support the hypothesised role of these pore‐forming proteins in competitive exclusion. [ABSTRACT FROM AUTHOR]

Published

2024

16. Is it all about size? Dismantling the integrated phenotype to understand species coexistence and niche segregation.

Author

Reyes‐Puig, Carolina, Enriquez‐Urzelai, Urtzi, Carretero, Miguel A., and Kaliontzopoulou, Antigoni

Subjects

ECOLOGICAL niche, BODY size, EXTRATERRESTRIAL resources, ECOPHYSIOLOGY, UNIVARIATE analysis

Abstract

Copyright of Functional Ecology is the property of Wiley-Blackwell 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

17. Bees travelling south: Climate‐induced range shifts and suitable habitat losses in south‐eastern neotropics.

Author

Pereira, Felipe W., Araujo, Matheus L., Brum, Fernanda T., Melo, Gabriel A. R., Moura, Mauricio O., and Gonçalves, Rodrigo B.

Subjects

BIOLOGICAL extinction, ECOLOGICAL niche, ECOLOGICAL models, SPECIES diversity, SPECIES distribution

Abstract

Aim: To provide an assessment of climate change impacts on a set of wild pollinators restricted to one of the regions with the greatest diversity of bees in the world. Also, we aimed to test whether functional groups responded differently to climate projections. Location: South‐eastern South America (SES). Taxon: Bees (Hymenoptera: Apidae sensu lato). Methods: We selected 18 species of bees mostly restricted to the SES region, modelled their distributions and assessed the possible impacts of near future (2050) climate change in species richness and shifts in range centroids. Potential impacts related to different functional groups were evaluated through t‐tests. Results: SES species richness was projected to decrease in the northernmost regions and increase southward. Most bee species were predicted to shift their range centroids towards the south‐west and south, while suitable stable areas were found in southern Brazil. We also found higher proportional losses in suitable areas for eusocial species compared to solitary ones, while generalists showed slightly lower gains than specialists. Main Conclusion: SES bees are likely to undergo changes in the near future, with projected losses of species at northern portions and southward increases. The identified stable areas in southern Brazil underscore the importance of conservation efforts in the region, particularly in natural grasslands – an endangered habitat with high bee diversity. Although our results suggest higher vulnerability for functional groups traditionally considered more resilient, it is essential to acknowledge that other factors, including habitat and mutualists availability, behavioural particularities, phenology and range size, must be determinants for the vulnerability of species to ongoing climate change. [ABSTRACT FROM AUTHOR]

Published

2024

18. Testing molecular date estimates using an ecological and vicariant case study in treefrogs: The Geological‐Ecological Molecular Calibration.

Author

Jowers, Michael J., Pajares, Jesús Muñoz, Weber, John, Arkle, Jeanette, Arenas‐Castro, Salvador, Ho, Simon Y. W., Rivas, Gilson A., Murphy, John C., Borzée, Amaël, Pyron, R. Alexander, Perez‐Losada, Marcos, De Freitas, Mayke, Downie, J. Roger, Moreno‐Rueda, Gregorio, Forcina, Giovanni, and Sánchez‐Ramírez, Santiago

Subjects

PLIOCENE Epoch, HYLIDAE, MOLECULAR clock, NUCLEOTIDE sequence, ECOLOGICAL niche

Abstract

Aim: To date a vicariant event through the mutualistic relationship of a hylid frog and its bromeliad host found across two isolated mountain ranges as part of an island–continental split and to use this information to calibrate a molecular dating analysis of hylids. Location: South America. Time Period: Pliocene. Major Taxa Studied: Treefrogs, Arboranae. Methods: Pliocene tectonic movements sank a portion of a mountain range that connected present‐day Trinidad (island) and northern Venezuela, eventually isolating populations of the golden tree frog Phytotriades auratus and its host bromeliad Glomeropitcairnia erectiflora on both sides of a saltwater barrier. We estimated the submersion rate timing of the vicariant event, then employed ecological niche modelling to establish the distribution of the frog and its host to the Pliocene. We generated nucleotide sequence data for the hylid on each side of the marine barrier and proposed a biogeographic calibration for the split between populations. Using Bayesian phylogenetic analysis, we evaluated the impact of incorporating this biogeographic calibration on estimates of treefrog divergence times. Results: A relatively continuous, high‐elevation mountain range existed before the Pliocene and the opening of the Gulf of Paria (4.45 ± 0.85 Ma). Phytotriades auratus and G. erectiflora would have been distributed across the Paria and Northern Range mountains as a single population since the Pliocene. Divergence times among treefrogs (Arboranae) were older than those inferred using fossil calibrations alone, with mean age estimates for subfamilies and genera being ~2 and ~1.2 million years older, respectively. Main Conclusions: Our study presents a biogeographic calibration based on a vicariant model that connects the evolution of the populations of a hylid through geology and ecological data. The implementation of this date as a molecular clock calibration reduces the uncertainty in date estimates for the shallower nodes in the phylogeny of Arboranae. [ABSTRACT FROM AUTHOR]

Published

2024

19. Enterprise ecological niche measurement and competitive effect analysis based on digital business recognition.

Author

RunYi, Li and Bin, Gu

Subjects

ECOLOGICAL niche, ARTIFICIAL intelligence, INTERNET of things, CORPORATION reports, CLOUD computing

Abstract

Previous studies have emphasised the positive role of digital technologies in gaining competitive advantage, but the differences between technologies and the role of environmental matching have been overlooked. In this paper, we explore the relative positions and competitive landscape formed by digital technology firms. First, the study uses an NLP approach to measure corporate ecological niche based on digital business, which includes two indicators of width and overlap, and the original corpus comes from the annual reports of 409 listed companies. Then, based on the ecological niche separation theory, we analyse the competitive effects. The results show that the competitive effect formed by the representative digital technology enterprises can be divided into complementary, independent and substitution. Among them, cloud computing and big data enterprises are at the stage of complementary effect, blockchain enterprises form a unique independent competitive pattern, while the substitution effect of artificial intelligence and Internet of Things enterprises is more obvious. This paper implements an ecological niche measure that embodies digital features, which delivers fresh and useful insights into the application of the ecological niche theory in the digital environments and further reveals the unique competitive dynamics in the digital environment. [ABSTRACT FROM AUTHOR]

Published

2024

20. Nutrient depletion and phytoplankton shifts driven by the Pearl River plume in the Taiwan Strait.

Author

Zhuyin Tong, Changyun Wang, Lizhen Lin, Lingqi Ma, and Bangqin Huang

Subjects

REGIONS of freshwater influence, FOOD chains, ECOLOGICAL niche, CARBON cycle, STRAITS

Abstract

The intrusion of the Pearl River plume into the Taiwan Strait provides a unique case study that challenges traditional assumptions about the impacts of nutrient-rich river plumes on coastal phytoplankton communities. In this study, we conducted a detailed analysis of nutrient dynamics and phytoplankton composition within the Taiwan Strait, focusing on the effects of the Pearl River plume. Our findings reveal significant nutrient depletion, particularly of nitrogen, in the surface waters as the plume extends seaward, resulting in nitrogen limitation and a marked reduction in phytoplankton biomass. Vertical stratification within the Taiwan Strait creates distinct ecological niches, with the mid-layer supporting a deep chlorophyll maximum and the surface layer becoming dominated by the picophytoplankton Synechococcus. This shift from diatom-dominated communities to Synechococcus dominance has far-reaching implications for carbon cycling and food web dynamics in the region. Our results suggest that the Pearl River plume's influence on the Taiwan Strait represents a departure from the typical nutrient enrichment associated with river plumes, highlighting the complexity of coastal biogeochemical processes. [ABSTRACT FROM AUTHOR]

Published

2024

21. Community composition and seasonal dynamics of microplastic biota in the Eastern Mediterranean Sea.

Author

Davidov, Keren, Marsay, Katherine S., Itzahri, Sheli, Rubin-Blum, Maxim, Sobral, Paula, Kranzler, Chana F., and Oren, Matan

Subjects

MARINE pollution, ECOLOGICAL niche, SEAWATER, MICROPLASTICS, DIATOMS

Abstract

Marine plastic pollution poses a growing environmental threat, with microplastics accumulating in the global oceans. This study profiles the seasonal dynamics and taxonomic composition of the plastisphere, the microplastic ecosystem, in the Eastern Mediterranean Sea. Using long-read 16 S and 18 S metabarcoding, we analyzed offshore microplastic and whole seawater samples across each season over a two-year period. The analysis revealed a higher richness of prokaryotic communities on microplastics compared to seawater, which was predominantly composed of Proteobacteria and Bacteroidota and exhibited notable seasonal variability. Benthic eukaryotes were enriched on microplastics compared to the surrounding seawater. Diatoms (Bacillariophyceae), in particular, showed significant enrichment within the microplastic eukaryotic community with primarily pennate diatoms of Amphora, Navicula, and Nitzschia genera, whereas the seawater included mostly centric diatoms. Seasonal fluctuations were less pronounced in the microplastic communities than in seawater, highlighting the relative stability of this new human-made ecosystem. These findings underscore the unique ecological niche of microplastic-associated communities in marine environments. [ABSTRACT FROM AUTHOR]

Published

2024

22. Light-driven integration of diazotroph-derived nitrogen in euphotic nitrogen cycle.

Author

Shen, Hui, Wan, Xianhui S., Zou, Wenbin, Dai, Minhan, Xu, Min N., and Kao, Shuh-Ji

Subjects

EUPHOTIC zone, ECOLOGICAL niche, NITRIFICATION, NITROGEN, BIOAVAILABILITY, NITROGEN cycle

Abstract

The bioavailable nitrogen fixed by diazotrophs is critical for sustaining productivity in the oligotrophic ocean. Despite this, understanding how diazotroph-derived nitrogen integrates into the nitrogen cycle within the euphotic zone remains unknown. Here, we investigated nitrogen fixation rates in the particulate and dissolved fractions within the euphotic zone of the North Pacific Subtropical Gyre. Our findings reveal the proportion of nitrogen fixation rates in the dissolved fraction increases with depth. Light manipulation experiments uncover that reduced light levels can stimulate the net release of diazotroph-derived nitrogen, aligning with our depth-related observations. Furthermore, we identify two distinct transfer pathways vertically associated with light-driven ecological niches. Specifically, the released diazotroph-derived nitrogen is transferred to non-diazotrophic plankton in the upper layers. Meanwhile, in the lower layers, it contributes to the nitrification process. Our results underscore the high bioavailability of diazotroph-derived nitrogen and its rapid integration into the nitrogen cycle through multiple pathways within the well-lit ocean. New study finds diazotroph-derived nitrogen is utilized by phytoplankton in upper euphotic zone, while below, it is used by nitrifiers. The newly identified pathways reveal the marine nitrogen cycle may be more interconnected than previously recognized. [ABSTRACT FROM AUTHOR]

Published

2024

23. The epidemic occurrence of decline disease in bayberry trees altered plant and soil related microbiome and metabolome.

Author

Ren, Haiying, Huang, Xuefang, Wang, Zhenshuo, Abdallah, Yasmine, Ayoade, Solabomi Olaitan, Qi, Xingjiang, Yu, Zheping, Wang, Qi, Mohany, Mohamed, Al-Rejaie, Salim S., Li, Bin, and Li, Gang

Subjects

ECOLOGICAL niche, DISEASE incidence, BACTERIAL communities, MICROBIAL communities, PLANT-soil relationships, FUNGAL communities

Abstract

Background: In China, decline disease with unknown etiology appeared as an epidemic among bayberry trees in the southern area of the Yangtze River. Furthermore, the use of beneficial microbes has been reported to be able to reduce the incidence of this disease, emphasizing the association of this disease with microorganisms. Therefore, it has become critical to uncover the microbiome's function and related metabolites in remodeling the immunity of bayberry trees under biotic or abiotic stresses. Results: The amplicon sequencing data revealed that decline disease significantly altered bacterial and fungal communities, and their metabolites in the four distinct niches, especially in the rhizosphere soils and roots. Furthermore, the microbial communities in the four niches correlated with the metabolites of the corresponding niches of bayberry plants, and the fungal and bacterial networks of healthy trees were shown to be more complex than those of diseased trees. In addition, the role of microbiome in the resistance of bayberry trees to the occurrence of decline disease was justified by the isolation, identification, and characterization of important microorganisms such as significantly enriched Bacillus ASV804, Pseudomonas ASV815 in healthy plants, and significantly enriched Stenotrophomonas ASV719 in diseased plants. Conclusion: Overall, our study revealed that the occurrence of decline disease altered the microbiome and its metabolites in four ecological niches in particular rhizosphere soils and roots of bayberry, which provides new insight into the control of bayberry decline disease. [ABSTRACT FROM AUTHOR]

Published

2024

24. Breaking muscle: neurotoxic and myotoxic effects of Central American snake venoms and the relative efficacies of antivenom and varespladib.

Author

Jones, Lee, Lay, Mimi, Neri-Castro, Edgar, Zarzosa, Vanessa, Hodgson, Wayne C., Lewin, Matthew, and Fry, Bryan G.

Subjects

SNAKE venom, PIT vipers, VENOM, ANTIVENINS, ECOLOGICAL niche

Abstract

Background: The snake genera Atropoides, Cerrophidion, and Metlapilcoatlus form a clade of neotropical pit vipers distributed across Mexico and Central America. This study evaluated the myotoxic and neurotoxic effects of nine species of Atropoides, Cerrophidion, and Metlapilcoatlus, and the neutralising efficacy of the ICP antivenom from Costa Rica against these effects, in the chick biventer cervicis nerve-muscle preparation. Given the prominence of PLA2s within the venom proteomes of these species, we also aimed to determine the neutralising potency of the PLA2 inhibitor, varespladib. Results: All venoms showed myotoxic and potential neurotoxic effects, with differential intra-genera and inter-genera potency. This variation was also seen in the antivenom ability to neutralise the muscle damaging pathophysiological effects observed. Variation was also seen in the relative response to the PLA2 inhibitor varespladib. While the myotoxic effects of M. mexicanus and M. nummifer venoms were effectively neutralised by varespladib, indicating myotoxicity is PLA2 mediated, those of C. godmani and M. olmec venoms were not, revealing that the myotoxicity is driven by non-PLA2 toxin types. Conclusions: This study characterises the myotoxic and neurotoxic venom activity, as well as neutralisation of venom effects from the Atropoides, Cerrophidion, and Metlapilcoatlus clade of American crotalids. Our findings contribute significant clinical and evolutionary knowledge to a clade of poorly researched snakes. In addition, these results provide a platform for future research into the reciprocal interaction between ecological niche specialisation and venom evolution, as well as highlighting the need to test purified toxins to accurately evaluate the potential effects observed in these venoms. [ABSTRACT FROM AUTHOR]

Published

2024

25. Nutrient depletion and phytoplankton shifts driven by the Pearl River plume in the Taiwan Strait.

Author

Zhuyin Tong, Changyun Wang, Lizhen Lin, Lingqi Ma, and Bangqin Huang

Subjects

REGIONS of freshwater influence, FOOD chains, ECOLOGICAL niche, CARBON cycle, STRAITS

Abstract

The intrusion of the Pearl River plume into the Taiwan Strait provides a unique case study that challenges traditional assumptions about the impacts of nutrientrich river plumes on coastal phytoplankton communities. In this study, we conducted a detailed analysis of nutrient dynamics and phytoplankton composition within the Taiwan Strait, focusing on the effects of the Pearl River plume. Our findings reveal significant nutrient depletion, particularly of nitrogen, in the surface waters as the plume extends seaward, resulting in nitrogen limitation and a marked reduction in phytoplankton biomass. Vertical stratification within the Taiwan Strait creates distinct ecological niches, with the mid-layer supporting a deep chlorophyll maximum and the surface layer becoming dominated by the picophytoplankton Synechococcus. This shift from diatom-dominated communities to Synechococcus dominance has farreaching implications for carbon cycling and food web dynamics in the region. Our results suggest that the Pearl River plume's influence on the Taiwan Strait represents a departure from the typical nutrient enrichment associated with river plumes, highlighting the complexity of coastal biogeochemical processes. [ABSTRACT FROM AUTHOR]

Published

2024

26. The response of microbiome assembly within different niches across four stages to the cultivation of glyphosate-tolerant and conventional soybean varieties.

Author

Shengqian Chao, Yu Sun, Yin Zhang, Yifan Chen, Lili Song, Peng Li, Xueming Tang, Jingang Liang, and Beibei Lv

Subjects

PLANT diseases, PLANT protection, FUNGAL communities, BACTERIAL communities, ECOLOGICAL niche

Abstract

Introduction: Plants are inherently connected with the microbiome, which plays a crucial role in regulating various host plant biological processes, including immunity, nutrient acquisition, and resistance against abiotic and biotic stresses. Many factors affect the interaction between plants and microbiome. Methods and Results: In this study, microbiome samples were collected from five niches (bulk soil, rhizoplane, root endosphere, phylloplane, and leaf endosphere) across four developmental stages (seedling, flowering, podding, and maturity) of various soybean varieties. Composition and structure of bacterial and fungal communities were analyzed using 16S rRNA gene and ITS (Internally Transcribed Spacer) region amplicon sequencing. It was observed that both niches and developmental stages significantly impact on the assembly and composition of soybean microbiome. However, variety, presence of a transgene, and glyphosate application had minimal effects on microbial communities. The dominant microbiome varied across the five niches, with most containing beneficial microbial communities capable of promoting plant growth or increasing disease resistance. Types and abundance of the dominant microbes affected network stability, potentially resulting in functional changes in different ecological niches. Conclusion: This study provides theoretical evidence for microbial protection of plants against diseases and demonstrates that systematic analysis of the composition and diversity of soybean microbiomes can contribute to the development of biological control technologies. [ABSTRACT FROM AUTHOR]

Published

2024

27. Gelada genomes highlight events of gene flow, hybridisation and local adaptation that track past climatic changes.

Author

Caldon, Matteo, Mutti, Giacomo, Mondanaro, Alessandro, Imai, Hiroo, Shotake, Takayoshi, Oteo Garcia, Gonzalo, Belay, Gurja, Morata, Jordi, Trotta, Jean‐Rémi, Montinaro, Francesco, Gippoliti, Spartaco, and Capelli, Cristian

Subjects

WHOLE genome sequencing, CLIMATE change, GENE flow, ECOLOGICAL niche, SPECIES hybridization

Abstract

Theropithecus gelada, the last surviving species of this genus, occupy a unique and highly specialised ecological niche in the Ethiopian highlands. A subdivision into three geographically defined populations (Northern, Central and Southern) has been tentatively proposed for this species on the basis of genetic analyses, but genomic data have been investigated only for two of these groups (Northern and Central). Here we combined newly generated whole genome sequences of individuals sampled from the population living south of the East Africa Great Rift Valley with available data from the other two gelada populations to reconstruct the evolutionary history of the species. Integrating genomic and paleoclimatic data we found that gene‐flow across populations and with Papio species tracked past climate changes. The isolation and climatic conditions experienced by Southern geladas during the Holocene shaped local diversity and generated diet‐related genomic signatures. [ABSTRACT FROM AUTHOR]

Published

2024

28. Bacterial and Symbiodiniaceae communities' variation in corals with distinct traits and geographical distribution.

Author

Villela, Livia Bonetti, da Silva-Lima, Arthur Weiss, Moreira, Ana Paula Barbosa, Aiube, Yuri Ricardo Andrade, Ribeiro, Felipe de Vargas, Villela, Helena Dias Muller, Majzoub, Marwan E., Amario, Michelle, de Moura, Rodrigo Leão, Thomas, Torsten, Peixoto, Raquel Silva, and Salomon, Paulo Sergio

Subjects

BACTERIAL communities, ECOLOGICAL niche, DNA sequencing, MICROBIAL communities, PREGNANT women, CORALS

Abstract

Coral microbiomes play crucial roles in holobiont homeostasis and adaptation. The host's ability to populate broad ecological niches and to cope with environmental changes seems to be related to the flexibility of the coral microbiome. By means of high-throughput DNA sequencing we characterized simultaneously both bacterial (16S rRNA) and Symbiodiniaceae (ITS2) communities of four reef-building coral species (Mussismilia braziliensis, Mussismilia harttii, Montastraea cavernosa, and Favia gravida) that differ in geographic distribution and niche specificity. Samples were collected in a marginal reef system (Abrolhos, Brazil) in four sites of contrasting irradiance and turbidity. Biological filters governed by the host are important in shaping corals' microbiome structure. More structured associated microbial communities by reef site tend to occur in coral species with broader geographic and depth ranges, especially for Symbiodiniaceae, whereas the endemic and habitat-specialist host, M. braziliensis, has relatively more homogenous bacterial communities with more exclusive members. Our findings lend credence to the hypothesis that higher microbiome flexibility renders corals more adaptable to diverse environments, a trend that should be investigated in more hosts and reef areas. [ABSTRACT FROM AUTHOR]

Published

2024

29. The response of microbiome assembly within different niches across four stages to the cultivation of glyphosate-tolerant and conventional soybean varieties.

Author

Shengqian Chao, Yu Sun, Yin Zhang, Yifan Chen, Lili Song, Peng Li, Xueming Tang, Jingang Liang, and Beibei Lv

Subjects

PLANT diseases, PLANT protection, FUNGAL communities, BACTERIAL communities, ECOLOGICAL niche

Abstract

Introduction: Plants are inherently connected with the microbiome, which plays a crucial role in regulating various host plant biological processes, including immunity, nutrient acquisition, and resistance against abiotic and biotic stresses. Many factors affect the interaction between plants and microbiome. Methods and results: In this study, microbiome samples were collected from five niches (bulk soil, rhizoplane, root endosphere, phylloplane, and leaf endosphere) across four developmental stages (seedling, flowering, podding, and maturity) of various soybean varieties. Composition and structure of bacterial and fungal communities were analyzed using 16S rRNA gene and ITS (Internally Transcribed Spacer) region amplicon sequencing. It was observed that both niches and developmental stages significantly impact on the assembly and composition of soybean microbiome. However, variety, presence of a transgene, and glyphosate application had minimal effects on microbial communities. The dominant microbiome varied across the five niches, with most containing beneficial microbial communities capable of promoting plant growth or increasing disease resistance. Types and abundance of the dominant microbes affected network stability, potentially resulting in functional changes in different ecological niches. Conclusion: This study provides theoretical evidence for microbial protection of plants against diseases and demonstrates that systematic analysis of the composition and diversity of soybean microbiomes can contribute to the development of biological control technologies. [ABSTRACT FROM AUTHOR]

Published

2024

30. Anthropogenic and climate change-driven coastline dynamics will erode future nesting habitats of the kentish plover on the central adriatic coast.

Author

Villalobos Perna, Priscila, Finizio, Michele, Carranza, Maria Laura, Innangi, Michele, Bongiovanni, Silvina Beatriz, Andino, Natalia, and Di Febbraro, Mirko

Subjects

COASTAL ecosystem health, LANDSCAPE protection, ECOLOGICAL models, ECOLOGICAL niche, LIFE history theory

Abstract

Shorebirds play a crucial role in assessing the health of coastal ecosystems due to their life history, behaviour, migratory patterns, and feeding preferences. Many shorebird species are experiencing population declines worldwide, driven by habitat loss and climate change. Understanding these challenges requires extensive data on their distribution and breeding ecology. The Kentish Plover (Anarhynchus alexandrinus) is a small shorebird that constructs its nests on sandy beaches. However, there is a scarcity of data regarding the reproductive ecology of this species in many areas, including the Molise region of Southern Italy. This study aimed at assessing the potential role of environmental variables derived from remote sensing to model current and future Kentish Plover nesting habitat suitability accounting for future scenarios of coastal dynamics in 2040. Data on Kentish Plover nests were collected along the Molise coast over several years and used to calibrate ecological niche models (ENMs) relying on environmental variables derived from coastal images. Kentish Plover nesting habitat suitability was mostly affected by distance from open sand, artificial surfaces, shoreline, and herbaceous vegetation and forested areas. The study predicts an average decline of more than 22% in suitable nesting environments for the Kentish Plover within the next two decades. Results indicated that our modelling approach can offer valuable insights for the conservation strategy of Kentish Plover in the region. In conclusion, we assert that preserving the nesting habitat of the Kentish Plover will not only safeguard this species, but also other species that inhabit similar environments, along with providing protection for coastal landscapes and associated ecosystem services. [ABSTRACT FROM AUTHOR]

Published

2024

31. Migratory birds modulate niche tradeoffs in rhythm with seasons and life history.

Author

Yanco, Scott W., Oliver, Ruth Y., Iannarilli, Fabiola, Carlson, Ben S., Heine, Georg, Mueller, Uschi, Richter, Nina, Vorneweg, Bernd, Andryushchenko, Yuriy, Batbayar, Nyambayar, Dagys, Mindaugas, Desholm, Mark, Galtbalt, Batbayar, Gavrilov, Andrey E., Goroshko, Oleg A., Ilyashenko, Elena I., Ilyashenko, Valentin Yu, Månsson, Johan, Mudrik, Elena A., and Natsagdorj, Tseveenmyadag

Subjects

RESOURCE availability (Ecology), CRANES (Birds), NATURAL history, MIGRATORY birds, ANIMAL mechanics

Abstract

Movement is a key means by which animals cope with variable environments. As they move, animals construct individual niches composed of the environmental conditions they experience. Niche axes may vary over time and covary with one another as animals make tradeoffs between competing needs. Seasonal migration is expected to produce substantial niche variation as animals move to keep pace with major life history phases and fluctuations in environmental conditions. Here, we apply a time-ordered principal component analysis to examine dynamic niche variance and covariance across the annual cycle for four species of migratory crane: common crane (Grus grus, n = 20), demoiselle crane (Anthropoides virgo, n = 66), black-necked crane (Grus nigricollis, n = 9), and white-naped crane (Grus vipio, n = 9). We consider four key niche components known to be important to aspects of crane natural history: enhanced vegetation index (resources availability), temperature (thermoregulation), crop proportion (preferred foraging habitat), and proximity to water (predator avoidance). All species showed a primary seasonal niche "rhythm" that dominated variance in niche components across the annual cycle. Secondary rhythms were linked to major species-specific life history phases (migration, breeding, and nonbreeding) as well as seasonal environmental patterns. Furthermore, we found that cranes' experiences of the environment emerge from time-dynamic tradeoffs among niche components. We suggest that our approach to estimating the environmental niche as a multidimensional and time-dynamical system of tradeoffs improves mechanistic understanding of organism-environment interactions. [ABSTRACT FROM AUTHOR]

Published

2024

32. Global assessment of aquatic Isoëtes species ecology.

Author

Azzella, Mattia M., Vecchia, Alice Dalla, Abeli, Thomas, Alahuhta, Janne, Amoroso, Victor B., Ballesteros, Enric, Bertrin, Vincent, Brunton, Daniel, Bobrov, Alexander A., Caldeira, Cecilio, Ceschin, Simona, Chemeris, Elena V., Čtvrtlíková, Martina, de Winton, Mary, Gacia, Esperança, Grishutkin, Oleg G., Hofstra, Deborah, Ivanova, Daniella, Ivanova, Maria O., and Konotop, Nikita K.

Subjects

ECOLOGICAL assessment, ECOLOGICAL niche, NUMBERS of species, ENVIRONMENTAL databases, WETLAND plants

Abstract

Isoëtes are iconic but understudied wetland plants, despite having suffered severe losses globally mainly because of alterations in their habitats. We therefore provide the first global ecological assessment of aquatic Isoëtes to identify their environmental requirements and to evaluate if taxonomically related species differ in their ecology.The assessment resulted in an extensive new database on aquatic Isoëtes, ecological niche analyses, and descriptive species accounts. We compiled a global database that includes all known environmental data collected from 1935 to 2023 regarding aquatic Isoëtes. We then evaluated the environmental drivers of 16 species using 2,179 global records. Additionally, we used hypervolume analysis to quantify the ecological niches of the two species with the greatest number of records, finding significant differences and evidence that Isoëtes echinospora occupies a wider ecological niche than Isoëtes lacustris.Fifty‐nine species (30% of the c. 200 Isoëtes species known today) were categorised as aquatic and were mainly reported in the Americas and northern Europe. About 38% of the aquatic species are threatened with extinction or are endemic to a small region, according to the International Union for Conservation of Nature's Red List in 2023. Many species were determined to be sensitive to certain water physical and chemical factors, generally preferring oligotrophic conditions such as low total phosphorus, moderate total nitrogen, moderate to low pH, and low conductivity.This analysis includes ecological data in the assessment of rare/threatened aquatic plants globally. This new database and the ecological analyses completed defined the ecological requirements of several species and identified knowledge gaps, which can aid management actions and future research.This paper highlights ecological significance and environmental sensitivities of aquatic Isoëtes. The current level of knowledge is inadequate for a large proportion of known taxa. We affirm the extreme need to support global, collaborative initiatives on which to build future conservation strategies. [ABSTRACT FROM AUTHOR]

Published

2024

33. First Report of Complete Genome Analysis of Multiple Drug Resistance Proteus mirabilis KUST‐1312 Isolate From Migratory Birds in China: A Public Health Threat.

Author

Gao, Jiayu, Liu, Shufa, Bano, Sadia, Xia, Xueshan, Baloch, Zulqarnain, and Samrat, Subodh

Subjects

MULTIDRUG resistance, MIGRATORY birds, MICROBIOLOGICAL techniques, DRUG resistance in microorganisms, ECOLOGICAL niche

Abstract

Proteus mirabilis, a gram‐negative bacterium, poses a significant public health threat due to its multidrug‐resistant (MDR) characteristics. Here, for the first time, we report the isolation and comprehensive genome analysis of an MDR strain, P. mirabilis KUST‐1312, obtained from migratory birds in Yunnan Province, China. A total of 65 samples, including migratory bird feces, soil, and water from Dianchi Lake, were collected. Standard microbiological techniques were employed to isolate the P. mirabilis KUST‐1312 strain from these samples. Genomic sequencing was conducted using a hybrid assembly strategy, combining Illumina and Oxford nanopore sequencing technologies. Phenotypic testing revealed the MDR nature of P. mirabilis KUST‐1312, displaying resistance to various antibiotics except gentamicin and Cefotaxime. Notably, 15 antimicrobial resistance genes (ARGs), including aph(3′)‐Ia, cat, tet(J), bleO, dfrA12, aadA2, AAC(3)‐IId, bla-TEM-1B, erm(42),aph(6)‐Id, blaPER-1, sul2, aph(3′')‐Ib(2copies), and aph(3′)‐VIb, were identified on a single chromosome. These 15 ARGs were dispersed along three MDR regions, and the boundaries of these regions were consistently flanked by copies of insertion sequences and also contained other genetic elements. Phylogenetic analysis revealed the close relation of P. mirabilis KUST‐1312 with environmental and clinical isolates reported from other continents rather than with Asian isolates. In conclusion, this study reports the first‐ever isolation of an MDR P. mirabilis KUST‐1312 strain from migratory birds globally, particularly in China. There is a need to explore further its prevalence in detail in various ecological niches, including migratory birds. [ABSTRACT FROM AUTHOR]

Published

2024

34. The Gut Microbiome and Lignocellulose Digestion in Constrictotermes cyphergaster (Termitidae: Nasutitermitinae): A Termite Incorporating Lichen into Its Diet.

Author

Arab, Alberto, Paulino, Luciana Campos, Rolim, Maria Socorro Lacerda, Menezes, Letícia Ramos de, Oliveira, Mário Herculano de, dos Santos, Renato Augusto Corrêa, Cairo, João Paulo Lourenço Franco, Bezerra-Gusmão, Maria Avany, Costa-Leonardo, Ana Maria, Cunha, Hélida, and Sillam-Dussès, David

Subjects

METABOLITES, SHOTGUN sequencing, GUT microbiome, ECOLOGICAL niche, TERMITES

Abstract

Lichen-feeding termites occupy a distinctive ecological niche. This feeding behavior underscores a complex interplay between the termites' digestive abilities and the biochemical properties of lichens, known for their resilience and production of secondary metabolites. Understanding the dietary preferences and digestive mechanisms of these termites offers insights into their ecological roles and the evolutionary adaptations that enable them to exploit such a specialized food source. We conducted experiments with Constrictotermes cyphergaster, feeding it with different combinations of its natural food sources: wood bark and lichen from host trees. Gut microbial communities were analyzed through 16S rRNA sequencing and shotgun metagenomics. Our results revealed that a diet containing lichens induces a shift in microbiota composition and increases the abundance of genes encoding an AA3 enzyme with a role in lignin digestion. This study emphasizes the potential role of lichens in enhancing the digestive capabilities of termites, highlighting the intricate relationships between diet, gut microbiota, and enzymatic activity in Termitidae. [ABSTRACT FROM AUTHOR]

Published

2024

35. Niche construction and niche choice by aphids infesting wheat ears.

Author

Bühler, Andreas and Schweiger, Rabea

Subjects

PLANT exudates, METABOLOMIC fingerprinting, INSECT societies, GREENBUG, SAP (Plant)

Abstract

The niche of aphids is largely defined by their consumption of plant phloem sap and its composition, including nutrients and specialized metabolites. Niche construction is the change of the environment by organisms, which may influence the fitness of these organisms and their offspring. To better understand interactions between plants and aphids, it is necessary to investigate whether aphids modify the chemical composition of the phloem sap of their host plants and whether conspecifics are affected by previous infestation. In the current study, ears of wheat (Triticum aestivum) plants were infested with clonal lineages of the English grain aphid (Sitobion avenae) or were left uninfested. The metabolic composition of ear phloem sap exudates was analyzed through amino acid profiling and metabolic fingerprinting. Aphids of the clonal lineages were either put on previously aphid-infested or on uninfested ears and their colony sizes followed over time. Furthermore, it was investigated whether aphids choose one treatment group over another. Sitobion avenae infestation affected the relative concentrations of some metabolites in the phloem exudates of the ears. Compared to uninfested plants, the relative concentration of asparagine was higher after aphid infestation. Colonies grew significantly larger on previously aphid-infested ears, which the aphids also clearly chose in the choice experiment. The pronounced positive effect of previous infestation on aphid colonies indicates niche construction, while the choice of these constructed niches reveals niche choice by S. avenae on wheat. The interplay between these different niche realization processes highlights the complexity of interactions between aphids and their hosts. [ABSTRACT FROM AUTHOR]

Published

2024

36. Discovery of Gibellula floridensis from Infected Spiders and Analysis of the Surrounding Fungal Entomopathogen Community.

Author

Joseph, Ross A., Masoudi, Abolfazl, Valdiviezo, Mateo J., and Keyhani, Nemat O.

Subjects

ECOLOGICAL niche, FOREST litter, FOOD chains, SPIDERS, METARHIZIUM, FUNGAL communities

Abstract

Characterization of fungal spider pathogens lags far behind their insect counterparts. In addition, little to nothing is known concerning the ecological reservoir and/or fungal entomopathogen community surrounding infection sites. Five infected spider cadavers were identified in the neo-tropical climate of north-central Florida, USA, from three of which viable cultures were obtained. Multi-locus molecular phylogenetic and morphological characterization identified one isolate as a new Gibellula species, here named, Gibellula floridensis, and the other isolates highly similar to Parengyodontium album. The fungal entomopathogen community surrounding infected spiders was sampled at different habitats/trophic levels, including soil, leaf litter, leaf, and twig, and analyzed using ITS amplicon sequencing. These data revealed broad but differential distribution of insect-pathogenic fungi between habitats and variation between sites, with members of genera belonging to Metarhizium and Metacordyceps from Clavicipitaceae, Purpureocillium and Polycephalomyces from Ophiocordyceps, and Akanthomyces and Simplicillium from Cordycipitaceae predominating. However, no sequences corresponding to Gibellula or Parengyodontium, even at the genera levels, could be detected. Potential explanations for these findings are discussed. These data highlight novel discovery of fungal spider pathogens and open the broader question regarding the environmental distribution and ecological niches of such host-specific pathogens. [ABSTRACT FROM AUTHOR]

Published

2024

37. Strawberries in a warming world: examining the ecological niche of Fragaria×ananassa Duch – Across different climate scenarios.

Author

da Silva, Lidiane Rodrigues, Araújo, Fausto Henrique Vieira, Ferreira, Sabrina Rodrigues, dos Santos, José Carlos Barbosa, de Abreu, Caique Menezes, Siqueira da Silva, Ricardo, and Regina da Costa, Márcia

Subjects

CLIMATE change, ECOLOGICAL niche, STRAWBERRIES, GENETIC programming, CULTIVARS

Abstract

BACKGROUND: Strawberry (Fragaria×ananassa Duch.) is a species of great economic and nutritional importance. It is widely cultivated in different regions of the world. However, climatic factors have a significant influence on its production. OBJECTIVE: To evaluate the ecoclimatic suitability and growth index of F.×ananassa in the face of the impacts of climate change in Brazil and the world. METHODS: The potential global distribution of F.×ananassa it was based on predicted global climate changes using CLIMEX and the A1B and A2 emissions scenario for the years 2050 and 2100. CLIMEX weekly growth index (GIw) was applied, and productivity data in commercial strawberry cultivation in Brazilian areas were collected. RESULTS: The results indicate a progressive reduction in areas suitable for strawberry cultivation globally, mainly on the African continent, Australia, China, and the Americas for the years 2050 and 2100. In Brazil, only the South region and part of the Southeast will continue to be suitable for strawberry production. CONCLUSIONS: The CLIMEX model predicts a reduction in the suitable area for cultivating Fragaria×ananassa Duch between 2050 and 2100 due to climate change. The generated maps can help identify new cultivation areas and support genetic improvement programmes to develop cultivars more tolerant to heat. [ABSTRACT FROM AUTHOR]

Published

2024

38. Ecological niche modeling of the Leopardus tigrinus complex sheds light on its elusive evolutionary history.

Author

Bonilla-Sánchez, Alejandra, Sartor, Caroline Charão, Fox-Rosales, Lester Alexander, Feijó, Anderson, Ramírez-Fernández, José D, Brenes-Mora, Esteban, Mooring, Michael S, Blankenship, Steven R, Sánchez-Lalinde, Catalina, Nascimento, Fabio Oliveira do, Zug, Rebecca, Oliveira, Marcelo Juliano, Marinho, Paulo Henrique Dantas, Ferreira, Guilherme Braga, Solari, Sergio, Oliveira, Tadeu Gomes de, and Eizirik, Eduardo

Subjects

ECOLOGICAL niche, ECOLOGICAL models, REGIONAL differences, ENTROPY, HABITATS

Abstract

The evolutionary history and taxonomy of the Leopardus tigrinus species complex have been studied based on several approaches, mostly employing genetic and morphological data, leading to distinct classification schemes. We approached this problem from an ecological perspective, with 2 main goals: (i) to evaluate ecological niche differences among regional L. tigrinus populations to determine the extent of ecological divergence among them; and (ii) to identify environmental barriers to historical dispersal that could have driven differentiation among the proposed groups. We modeled the ecological niche of all taxonomic/geographic groups proposed so far to comprise the L. tigrinus complex using the Maximum Entropy algorithm, and evaluated geographic and ecological niche differences among them. Furthermore, we investigated possible environmental barriers to historical dispersal that could have driven differentiation among regional groups. We evaluated 4 hypothetical barriers across 3 time periods to assess their potential historical effect. We found high ecological divergence between northeastern tigrina populations and the northern Andean and Central American tigrinas. Other groups within the L. tigrinus complex are less divergent. In addition, the Guiana Shield tigrina, where the type locality of the species is located, seems to be ecologically similar to populations from northeastern Brazil while also showing some overlap with Andean populations. The Panama center, the Llanos of Colombia and Venezuela, and the Amazon region were identified as historical barriers for tigrina dispersal across all time periods. The inferred historical barriers and ecological divergence observed in this study contribute to the inference of evolutionary differentiation among geographic groups comprising the L. tigrinus complex, revealing areas of consistently low habitat suitability that have likely contributed to divergence among regional populations. [ABSTRACT FROM AUTHOR]

Published

2024

39. Comparative Analyses of Lycodon rufozonatus and Lycodon rosozonatus Gut Microbiota in Different Regions.

Author

Zhu, Fei, Sun, Ke, Zhang, He, Lu, Jing, Guo, Peng, Zhang, Jiaqi, Xu, Yu, and Lyu, Bing

Subjects

GUT microbiome, GLYCOSIDASES, MICROBIAL diversity, ECOLOGICAL niche, MICROBIAL communities

Abstract

The interactions between hosts and the gut microbiota are intricate and can significantly affect the ecology and evolution of both parties. Various host traits, including taxonomy, diet, social behaviour, and external factors such as prey availability and the local environment, all play an important role in shaping composition and diversity of the gut microbiogta. In this study, we explored the impact of intestinal microorganisms on the host in adapting to their respective ecological niches in two species of snakes. We collected feces from Lycodon rufozonatus and Lycodon rosozonatus from different geographical locations and used 16S rRNA gene sequencing technology to sequence the v3‐v4 region. The results revealed that there was no significant difference in the alpha diversity of intestinal microorganisms between L. rufozonatus and L. rosozonatus. The gut microbiota of all individuals comprised four main phyla: Pseudomonadota, Bacteroidota, Bacillota, and Actinomycetota. At the genus level, the genus Salmonella dominated the enterobacterial microbiota in the samples from Hainan, while there was no obvious dominant genus in the enterobacterial microbiota of the samples from the other four localities. Comparative analysis of enzyme families annotated to the gut microbiota between L. rufozonatus and L. rosozonatus from the four sampling regions by CAZy carbohydrate annotation revealed that nine enzyme families differed significantly in terms of glycoside hydrolases (GHs). In addition, we compared the composition of gut microbial communities between L. rufozonatus and L. rosozonatus and investigated the impact of the differences on their functions. Our results will provide insights into the coevolution of host and gut microbes. [ABSTRACT FROM AUTHOR]

Published

2024

40. Comparison of Foraging Strategies and Effects of the Wapiti and Siberian Roe Deer on Japanese Yew.

Author

Wang, Xianzhe, Feng, Jianan, Hong, Yang, Du, Hairong, and Zhang, Minghai

Subjects

SIKA deer, RED deer, ELK, PROBABILITY density function, ECOLOGICAL niche

Abstract

The foraging strategies of sympatric ungulates with similar ecological niches are important for understanding ecological niche differentiation, resource utilization, competition, and coexistence and for understanding the ecological impacts on plant communities in the ecosystem. The behavior of the wapiti (Cervus elaphus) and Siberian roe deer (Capreolus pygargus) foraging on Japanese yew (Taxus cuspidata) has affected its succession and renewal in the northeastern forests of China, which has become an urgent problem for the relevant departments. This study analyzed the foraging strategies of the wapiti and Siberian roe deer on Japanese yew from July 2021 to January 2024 using field investigations and infrared camera monitoring in the Muling National Nature Reserve, Heilongjiang Province, China. It was found that the wapiti and Siberian roe deer have different foraging strategies in terms of time, space, and behavior. Temporally, they both preferred to forage for the saplings of the Japanese yew during the winter season, the degree of overlap in foraging rhythms was medium (Dhat1 = 0.67), and the diurnal foraging activity index (DRAI) of the wapiti was larger than that of the Siberian roe deer. Spatially, the suitable foraging habitat of the Siberian roe deer was twice that of the wapiti, and their overlap was low in the location and direction of saplings and the distance of the seed tree. Behaviorally, the foraging intensity of the wapiti was high, and that of Siberian roe deer was low. Foraging reduced the average primary branch height, number of new branches, and length of lateral branches of saplings, and the influence of the wapiti was significantly greater than that of the Siberian roe deer. This study provides a scientific basis for solving the conservation and management problems of the deer animals foraging on Japanese yew and contributes to further understanding of the competition‐coexistence mechanism of sympatric species. [ABSTRACT FROM AUTHOR]

Published

2024

41. Colonization of North America Boosted the Diversification of Whiptail Lizards.

Author

Nappo, Humberto Coelho and Colli, Guarino Rinaldi

Subjects

ECOLOGICAL niche, BODY temperature, BODY size, LIZARDS, TEMPERATURE effect

Abstract

Diversification is frequently associated with change—anything from colonizing a new area to evolving a new trait. Once a lineage changes, the organisms may be able to exploit previously unavailable ecological opportunities and release pressures from predators, parasites, and competitors, which may increase the speciation rate. Modern teiid lizards originated in South America but managed to colonize and diversify in North America. We assessed whether geographic distribution, body size, and body temperatures are associated with teiid diversification using GeoHiSSE and inverse equal‐splits statistics with simulation tests. We also estimated speciation rates with MiSSE to account for the effect of unmeasured variables. Moreover, we assessed the ecological niche overlap between North American (including Caribbean) teiids and their sister clade in South America. Our results indicate that only distribution range affected diversification, but we discuss that the available data might not have been enough to assess the effect of body temperatures. We also show that North American teiids have a broader ecological niche encompassing almost all environmental conditions used by their sister clade in South America but expanding mainly toward arid areas. Our results suggest that this expansion significantly impacted teiid diversification due to the seizing of ecological opportunities or ecological release, but we do not discard possible effects of phenotypic evolution. [ABSTRACT FROM AUTHOR]

Published

2024

42. Prehatch Calls and Coordinated Birth in Turtles.

Author

Jorgewich‐Cohen, Gabriel, Wheatley, Madeleine, Gaspar, Lucas Pacciullio, Praschag, Peter, Lubberink, Nicole Scholte, Ming, Keesha, Rodriguez, Nicholas A., and Ferrara, Camila R.

Subjects

ANIMAL sexual behavior, ECOLOGICAL niche, CROCODILIANS, TURTLES, SYNCHRONIC order

Abstract

Hatching synchronisation is widespread in oviparous taxa. It has been demonstrated that many species use sounds to coordinate synchronous hatching, being widespread among archosaurs (birds and crocodilians). Recent studies have shown that some turtle species produce vocalisations from within the egg, but the role of this behaviour in synchronising hatch is untested. The small amount of information about sound production by turtle embryos, limited to a handful of closely related species, precludes any inferences based on differences in their ecology, reproductive behaviour and phylogenetic context. With the goal to investigate if coordinated synchronous behaviour is mediated by within‐egg vocalisations in turtles, we recorded clutches from six different turtle species. The selected animals present different ecological and reproductive niches and belong to distinct phylogenetic lineages at the family level. We aimed to understand: (1) what is the phylogenetic distribution of within‐egg vocal behaviour among turtles; (2) if asynchronous turtle species vocalise from within the egg; (3) if clutch size influences synchronous behaviour and (4) if within‐egg turtle calls follow any phylogenetic signal. The new evidence provides light to the current knowledge about synchronous behaviour and within‐egg calls, challenging previous hypothesis that within‐egg sounds are accidentally produced as side‐effects of other behaviours. [ABSTRACT FROM AUTHOR]

Published

2024

43. Body Mass Shapes Most Life History Traits and a Fast‐Slow Continuum in Amphibians.

Author

Cejp, Benjamin and Griebeler, Eva Maria

Subjects

LIFE history theory, PRINCIPAL components analysis, SALAMANDERS, ECOLOGICAL niche, REPTILES, AMPHIBIANS

Abstract

Amphibians have the least studied life histories among vertebrates, although they have unique and the most diverse life histories within this group. We compiled a new dataset on adult body mass and 16 other life history traits of 2069 amphibian species across three orders (1796 frogs, 236 salamanders, 37 caecilians). These traits characterise fecundity, offspring development from egg deposition to metamorphosis and adult life. We established allometric models on traits for all amphibians and each of the three orders to assess a potential scaling of traits to body mass and then checked whether allometric slopes were consistent with two different metabolic scaling exponents. Further, we examined a possible fast‐slow continuum in all amphibians, as well as in each of the two orders frogs and salamanders by applying principal component analysis (PCA) to five traits. Our allometric models indicated a positive scaling to body mass for 11 traits across all amphibians, 12 in frogs, and 10 in salamanders, and for five out of eight traits analysed in caecilians. Allometric slopes on most traits characterising offspring development were not significant. All slopes did not support a three‐quarter metabolic scaling exponent, whereas slopes on age at maturity and maximum longevity were consistent with an amphibian metabolic scaling exponent of 0.88. As in fishes, reptiles, birds, and mammals, the first axes of our PCAs indicated a body mass‐dependent fast‐slow continuum in amphibians. Amphibian species of slow life histories have larger body masses, later sexual maturities and longer lifespans and lay more and larger eggs than species of fast life histories, a pattern also known from reptiles. The second axes indicated a trade‐off between egg size and number. As this trade‐off was nearly independent of body mass, we hypothesise that amphibians have occupied a broad range of ecological niches without evolutionary changes in body mass. [ABSTRACT FROM AUTHOR]

Published

2024

44. Population genetics of the ribbon worm Lineus sanguineus (Heteronemertea: Lineidae) from the Southwestern Atlantic.

Author

Jordan, Dione O., Mendes, Cecili B., Sobral-Souza, Thadeu, and Andrade, Sónia C. S.

Subjects

CYTOCHROME oxidase, POPULATION genetics, GENETIC variation, ECOLOGICAL niche, ECOLOGICAL models, MITOCHONDRIAL DNA

Abstract

Characterizing the genetic diversity of a species is crucial for understanding the factors that influence its local dispersion and population dynamics. Additionally, it provides insights into local processes that may affect the distribution of other species. Lineus sanguineus (Rathke, 1799) is a widely distributed species commonly found on fouling fauna along rocky shores. This species can reproduce asexually by fissiparity, and its pilidium larva facilitates dispersal, similar to other heteronemerteans. The present study utilized a population genetics approach combined with Ecological Niche Modeling analysis to evaluate L. sanguineus populations along the Brazilian coast. We used sequences from two mtDNA regions, 16S ribosomal RNA (16SrRNA) and cytochrome c oxidase subunit 1 (COI), and one nuclear region, Internal Transcribed Spacer 1 (ITS-1), from 85 specimens sampled in nine locations. Genetic diversity analysis revealed greater genetic variation for the ITS-1 marker compared to mtDNA, as evidenced by higher intrapopulation diversity values. There was no clear geographic pattern, and the AMOVA analysis revealed low to moderate genetic structuring and high connectivity among sampled localities, with most of the genetic variation contained within populations. The pairwise FST results indicate high genetic structuring between the Northeast and localities along the South and Southeast of Atlantic coastlines. This pattern suggests that Brazilian oceanic currents play an important role in species connectivity. The paleodistribution pattern demonstrated that the colonization could have occured from the South to the Northeast of the continent. These results reinforce that sexual reproduction and larval dispersion play a vital role in the connectivity of these Southwest Atlantic populations and that oceanographic currents, rafting and artificial transport facilitate these processes. [ABSTRACT FROM AUTHOR]

Published

2024

45. Microhabitat association and resistance of Tanaidacea (Crustacea) to tropical cyclones in rocky intertidal areas of central-eastern Taiwan.

Author

Tzeng, You-Wei, Hsueh, Pan-Wen, and Wei, Chih-Lin

Subjects

ROGUE waves, BIOTIC communities, TROPICAL cyclones, ENDANGERED species, ECOLOGICAL niche

Abstract

The community ecology and microhabitat association of tanaidaceans in three rocky intertidal areas of central-eastern Taiwan were investigated in April and August 2012. Typhoon Saola impacted the study areas 2 weeks before the August survey, providing an opportunity to examine community responses to extreme wave exposures. Among the 3,622 individuals and 12 species collected, Chondrochelia taitungensis, Paraleptochelia setosa, Synapseudes hansmuelleri, Zeuxo shitipingensis, and Zeuxo zorro comprised approximately 95% of the total abundance. Surprisingly, the tanaidacean abundance, diversity, composition, and microhabitat specialization exhibited little impact from the typhoons, indicating that these tube dwellers can resist such extreme wave impacts. Spatial variation in the abundance of dominant species, species diversity, and composition among tanaidacean communities was attributed to differences in rock formations, microhabitat availability, and species' limited dispersive ability and potential interspecific competitive interactions. While the dominant species exhibited a more generalized microhabitat association, the relatively rare species displayed some specialization. This study pioneers investigation into microhabitat associations among rocky intertidal tanaidaceans. Future studies should incorporate sustained monitoring of community dynamics and microhabitat associations, integrating essential climatic variables into the analysis to predict community responses to natural or anthropogenic disturbances. [ABSTRACT FROM AUTHOR]

Published

2024

46. Trophic ecology of two non-native cyprinid fish, the common carp Cyprinus carpio and the bleak Alburnus alburnus.

Author

Balzani, Paride, Avramović, Mladen, Delgado, Antonio, Haubrock, Phillip J., Kouba, Antonín, Fernandez, Maria, and Monteoliva, Agustin P.

Subjects

STABLE isotope analysis, NATIVE fishes, FRESHWATER fishes, INTRODUCED species, ECOLOGICAL niche

Abstract

The introduction of non-native fish species poses a significant threat to biodiversity. In Spain, the common carp Cyprinus carpio (Linnaeus, 1758) and the bleak Alburnus alburnus (Linnaeus, 1758) are both established and sometimes co-occurring non-native species. Here, we investigated the trophic ecology of these species using an integrative approach, combining dietary and stable isotope analyses, to understand seasonal variations in their feeding ecology and potential niche overlap. We found a variable pattern for the gonadosomatic index of the two species in spring and autumn, suggesting the occurrence of extended reproductive periods for both A. alburnus and C. carpio. The gut content and isotopic niche analyses showed seasonal niche shifts, as well as interspecific niche partitioning and potential feeding competition. Notably, we found remains of small fish in the gut of both species and one entire individual of Gambusia holbrooki (Girard, 1859) in the carp gut, highlighting the potential of both species to prey also upon native fish fry or juveniles. Moreover, A. alburnus showed an ontogenetic shift toward prey from higher trophic levels and from the littoral/benthic environment, while C. carpio showed an increase in the proportion of prey from the pelagic environment with size. [ABSTRACT FROM AUTHOR]

Published

2024

47. sabinaNSDM: An R package for spatially nested hierarchical species distribution modelling.

Author

Mateo, Rubén G., Morales‐Barbero, Jennifer, Zarzo‐Arias, Alejandra, Lima, Herlander, Gómez‐Rubio, Virgilio, and Goicolea, Teresa

Subjects

SPECIES distribution, SPATIAL ecology, ECOLOGICAL niche, MODELS & modelmaking, ECOLOGICAL models, HIERARCHICAL Bayes model

Abstract

Copyright of Methods in Ecology & Evolution is the property of Wiley-Blackwell 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

48. Modelling the ecohydrological plasticity in soil hydraulic properties of Sphagnum mosses.

Author

McCarter, Colin P. R., Golubev, Vitaly, and Whittington, Pete

Subjects

WATER table, PEAT mosses, KEYSTONE species, HYDRAULIC conductivity, CARBON sequestration

Abstract

Sphagnum mosses are a keystone peatland species whose ecohydrology governs carbon sequestration processes in many peatlands. Globally, there are ~380 Sphagnum species that occupy a wide range of ecohydrological niches (microforms) based on their ability to grow at or above the water table, broadly grouped by hummock (furthest from water table), lawn, and hollow (closest to water table) microforms. The further from the water table a given species can grow is controlled by the ability to effectively retain and transmit water to the capitula (growing surface) during dry periods. However, Sphagnum species can have a relatively plastic ecohydrological niche, often occupying different niches (microforms) in different environments. We used numerical modelling parameterized by previous field and laboratory studies to compare the hydrological function between Sphagnum hummock, lawn, and hollow microforms. We determined (a) how two different organizations of a hummock of Sphagnum fuscum and (b) a lawn or hollow of S. magellanicum (S. divinum/S. medium) or S. rubellum differed between two different overarching climates (sub‐humid boreal and humid temperate). The hydrological function, expressed as the cumulative water fluxes, was similar between species and ecohydrological microform (water table position) when water was plentiful, despite differences in soil hydraulic properties of the same species, but began to diverge during a prolonged simulated dry period (30‐day drought). These results suggest a single species of Sphagnum moss can exhibit a wide range of soil hydraulic properties (i.e., sphagnum morphology) but have essentially the same consequential hydrology. Only the S. fuscum from the sub‐humid climate was hydrologically stressed enough to show differences in the simulated evaporation rates. This study highlights the need for more physical research to determine the sensitivity of Sphagnum spp.'s soil hydraulic properties to overarching hydroclimatic factors so that we can more effectively incorporate these processes into large‐scale numerical modelling efforts. [ABSTRACT FROM AUTHOR]

Published

2024

49. Studies on Heterotic Trends in Blackgram [Vigna mungo (L.) Hepper] for Yield and Earliness.

Author

Reddy, A. Kavitha, Reddy, D. Mohan, Vemireddy, Lakshminarayana R., Sudhakar, P., and Reddy, B. V. Bhaskara

Subjects

SEED yield, PLANT selection, HETEROSIS, ECOLOGICAL niche, SEED industry, BLACK gram

Abstract

Background: As blackgram cultivation is majorly spread in rain fed areas, breeding short duration and high yielding blackgram varieties is of profound importance to tackle terminal moisture stress and reap impressive yields by breaking the yield plateau. Hence, the present study was aimed to identify highly heterotic cross combinations for yield and earliness. Methods: Six parents along with 15 F1s were evaluated (rabi, 2019) for seed yield and its component traits along with earliness to estimate the magnitude of heterosis. Result: The cross LBG-752 x TBG-104 exhibited heterosis estimates in desirable direction for yield and earliness. The next best crosses were LBG-752 x PU-31, TU-40 x TBG-104, LBG-752 x TU-40 and IPU-2-43 x TBG-104. Because of its autogamous genetic architecture and biological constraints in large scale economic hybrid seed production, heterosis could be exploited only by isolating the early maturing and high yielding segregants followed by bi-parental or recurrent selection in early segregating generations and single plant selection in subsequent generations that would result in short duration and high yielding blackgram variety that fits well into different ecological niches. [ABSTRACT FROM AUTHOR]

Published

2024

50. Scouts vs. usurpers: alternative foraging strategies facilitate coexistence between neotropical Cathartid vultures.

Author

Beirne, Christopher, Thomas, Mark, Basto, Arianna, Flatt, Eleanor, Diaz, Giancarlo Inga, Chulla, Diego Rolim, Mullisaca, Flor Perez, Quispe, Rosio Vega, Quispe, Caleb Jonatan Quispe, Forsyth, Adrian, and Whitworth, Andrew

Subjects

LOCATION data, ECOLOGICAL niche, SHORT stature, BIOTIC communities, ANIMAL mechanics, TROPHIC cascades, COEXISTENCE of species

Abstract

Copyright of Ibis is the property of Wiley-Blackwell 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