Your search keyword '"Biotic communities"' showing total 6,990 results

1. The ephemeral resource patch concept.

Author

Butterworth NJ, Benbow ME, and Barton PS

Subjects

Biota, Biological Evolution, Ecosystem, Biodiversity

Abstract

Ephemeral resource patches (ERPs) - short lived resources including dung, carrion, temporary pools, rotting vegetation, decaying wood, and fungi - are found throughout every ecosystem. Their short-lived dynamics greatly enhance ecosystem heterogeneity and have shaped the evolutionary trajectories of a wide range of organisms - from bacteria to insects and amphibians. Despite this, there has been no attempt to distinguish ERPs clearly from other resource types, to identify their shared spatiotemporal characteristics, or to articulate their broad ecological and evolutionary influences on biotic communities. Here, we define ERPs as any distinct consumable resources which (i) are homogeneous (genetically, chemically, or structurally) relative to the surrounding matrix, (ii) host a discrete multitrophic community consisting of species that cannot replicate solely in any of the surrounding matrix, and (iii) cannot maintain a balance between depletion and renewal, which in turn, prevents multiple generations of consumers/users or reaching a community equilibrium. We outline the wide range of ERPs that fit these criteria, propose 12 spatiotemporal characteristics along which ERPs can vary, and synthesise a large body of literature that relates ERP dynamics to ecological and evolutionary theory. We draw this knowledge together and present a new unifying conceptual framework that incorporates how ERPs have shaped the adaptive trajectories of organisms, the structure of ecosystems, and how they can be integrated into biodiversity management and conservation. Future research should focus on how inter- and intra-resource variation occurs in nature - with a particular focus on resource × environment × genotype interactions. This will likely reveal novel adaptive strategies, aid the development of new eco-evolutionary theory, and greatly improve our understanding of the form and function of organisms and ecosystems., (© 2022 The Authors. Biological Reviews published by John Wiley & Sons Ltd on behalf of Cambridge Philosophical Society.)

Published

2023

2. A Geological Imprint on Plant Biodiversity: Eastern Australia's Cenozoic Volcanic Flora.

Author

Nguyen, Ngoc, Buettel, Jessie C., and Brook, Barry W.

Subjects

*SUPERVISED learning, *BIOTIC communities, *MACHINE learning, *SPECIES diversity, *MULTIVARIATE analysis

Abstract

ABSTRACT Aim Location Taxon Methods Results Main Conclusions Australia's distinct geological history provides key insights into the diversity of its flora. While previous studies have predominantly focused on climate as the main driver of species richness, growing evidence suggests that geological factors also play an important role. This study aims to investigate the influence of Cenozoic volcanic lithologies on terrestrial vascular plant diversity in eastern Australia, disentangling the relative contributions of climate and geology to biodiversity patterns.Eastern Australia.Terrestrial vascular plants.We assessed the patterns of species richness in this region by examining whether sites with Cenozoic volcanic lithologies harbour greater vascular plant diversity, using a permutational multivariate analysis of variance (PERMANOVA). We then used a supervised machine learning algorithm (decision trees) coupled with partial canonical correspondence analysis (CCA) to discriminate the environmental variables influencing species richness and site composition in 230 sites in Queensland, New South Wales, Victoria and Tasmania.Soil profile variability and terrain ruggedness, influenced by underlying volcanic lithologies, emerged as primary predictors of species richness. We found species composition, indicative of distinct ecological communities, showed greater similarity within lithological types and varied significantly across volcanic complexes at different latitudes. Notably, areas of higher species richness corresponded with a greater diversity of stratigraphic units within protected zones.Our study reveals a significant imprint of Cenozoic volcanic activity on present‐day plant species richness and distribution in eastern Australia. We show that geological features, particularly lithology and site complexity, play a crucial role in shaping species richness beyond previously recognised climatic factors. These findings highlight the importance of integrating geological and edaphic factors into conservation strategies, thereby broadening our understanding of ecological dynamics, and guiding more effective biodiversity conservation. [ABSTRACT FROM AUTHOR]

Published

2024

3. Topographic heterogeneity triggers complementary cascades that enhance ecosystem multifunctionality.

Author

Fairchild, Tom P., Walter, Bettina, Mutter, Joshua J., and Griffin, John N.

Subjects

*BIOTIC communities, *STRUCTURAL equation modeling, *NUTRIENT uptake, *COMMUNITY foundations, *HETEROGENEITY

Abstract

Topographic heterogeneity sets the stage for community assembly, but its effects on ecosystem functioning remain poorly understood. Here, we test the hypothesis that topographic heterogeneity underpins multiple cascading species interactions and functional pathways that indirectly control multifunctionality. To do so, we combined experimental manipulation of a form of topographic heterogeneity on rocky shores (holes of various sizes) with a comprehensive assessment of naturally assembled communities and multifunctionality. Structural equation modeling indicated that heterogeneity: (1) enhanced biodiversity by supporting filter feeder richness; (2) triggered a facilitation cascade via reef‐forming (polychaete) and biomass‐dominant (macroalga) foundation species, which in turn broadly supported functionally diverse epibiotic and understory assemblages; and (3) inhibited a key consumer (limpet). The model supported that these mechanisms exerted complementary positive effects on individual functions (e.g., water filtration, ecosystem metabolism, nutrient uptake) and, in turn, collectively enhanced multifunctionality. Topographic heterogeneity may therefore serve as a cornerstone physical attribute by initiating multiple cascades that propagate through ecological communities via foundation species, ultimately manifesting disproportionate effects on ecosystem multifunctionality. [ABSTRACT FROM AUTHOR]

Published

2024

4. Global change experiments in mountain ecosystems: A systematic review.

Author

Dainese, Matteo, Crepaz, Harald, Bottarin, Roberta, Fontana, Veronika, Guariento, Elia, Hilpold, Andreas, Obojes, Nikolaus, Paniccia, Chiara, Scotti, Alberto, Seeber, Julia, Steinwandter, Michael, Tappeiner, Ulrike, and Niedrist, Georg

Subjects

*EVIDENCE gaps, *CLIMATE change, *BIOTIC communities, *WATER supply, *ECOSYSTEM services

Abstract

Mountain ecosystems play an important role globally as centers of biodiversity and in providing ecosystem services to lowland populations, but are influenced by multiple global change drivers such as climate change, nitrogen deposition, or altered disturbance regimes. As global change is accelerating and the consequences for humans and nature are intensifying, there is an increasing demand for understanding and predicting the impacts and implications of global change on mountain ecosystems. Manipulation experiments are one of the major tools for testing the causal impacts of global change and establishing a mechanistic understanding of how these changes may transform the global biota from single organisms to entire ecosystems. Over the past three decades, hundreds of such experiments have been conducted in mountainous regions worldwide. To strengthen the experimental evidence for the possible ecological consequences of global change, we systematically reviewed the literature on global change experiments in mountains. We first investigated the spread of manipulation experiments to test the effects of different global change drivers on key biological and ecological processes from the organism to the ecosystem level. We then examined and discussed the balance of evidence regarding the impact of these global change drivers on biological and ecological processes, and outlined the possible consequences for mountain ecosystems. Finally, we identified research gaps and proposed future directions for global change research in mountain environments. Among the major drivers, temperature was manipulated most frequently, generally showing consistent strong impacts between biological and ecosystem processes, functional groups, and habitat types. There is also strong evidence suggesting that changes in water and nutrient availability have a direct impact on the life history and functioning of mountain organisms. Despite these important findings, there are several gaps that require urgent attention. These include experiments testing adult trees in tropical and boreal regions, assessing animal responses and biotic interactions, and investigating aquatic environments and soil systems more extensively. A broader approach that integrates experimental data with field observations and relies on international collaboration through coordinated experiments could help address these gaps and provide a more consistent and robust picture of the impacts of global change on mountain ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

5. Bird Phylogenetic Diversity Increases With Temperature Worldwide.

Author

Barrios, Pelayo and Martinez‐Nuñez, Carlos

Subjects

*SPECIES diversity, *BIOTIC communities, *BIRD diversity, *BIOLOGICAL extinction, *GENETIC variation, *BIRD populations

Abstract

Aim: Temperature significantly influences the composition and structure of biotic communities at large scales. While its role in shaping taxonomic diversity is well‐documented, its relationship with other facets of biodiversity, like phylogenetic diversity, remains poorly known. Understanding how and to which extent temperature contributes to global patterns of phylogenetic diversity compared to other biodiversity‐structuring factors is crucial for comprehending how bird assemblages are structured worldwide, predicting their response to global‐change drivers and supporting conservation policies focused on preserving bird genetic diversity and evolutionary history. Location: Worldwide. Methods: We analyse the role of temperature in predicting bird regional phylogenetic richness (PD) and divergence (MPD) worldwide, before and after controlling for the effect of species richness (SR). We also assess the shape of this relationship in different biogeographic realms and compare its explanatory power with other key biodiversity‐structuring factors such as elevation, human impact index, net primary productivity and land use diversity. Results: Our findings underscore the high significance and consistency of temperature as a key predictor positively associated with bird PD and MPD across the six main biogeographic realms, even after accounting for SR and latitude, suggesting that temperature modulates the intrinsic capacity of environments to support a diverse array of lineages. In addition, PD and MPD tended to increase at low elevations, but the human‐impact index did not effectively predict bird phylogenetic diversity at this scale. Furthermore, high PD was linked to regions with high primary productivity and high land‐use diversity, although both of these relationships were strongly mediated by SR. Conclusions: This study unveils the key role of temperature in explaining bird phylogenetic diversity worldwide over other key biodiversity‐structuring factors and points to the profound implications that climate change will have on the amount of evolutionary history held in bird assemblages, beyond species extinctions or range shifts alone. [ABSTRACT FROM AUTHOR]

Published

2024

6. Processes regulating local community assembly of plants and spiders in high latitude mountains.

Author

Måsviken, Johannes, Dalén, Love, Norén, Karin, and Dalerum, Fredrik

Subjects

*BIOTIC communities, *CYTOCHROME oxidase, *MOUNTAIN ecology, *CONVERGENT evolution, *SPECIES diversity

Abstract

Aim: Mountains are often used to study how environmental factors influence biodiversity. However, we have limited understanding of the processes causing biodiversity variation in mountains and whether such processes vary across trophic levels and spatial scales. The aim of this study was to evaluate (i) whether community assembly processes varied along elevational gradients, (ii) whether there were differences in such variation between primary producers (vascular plants) and secondary consumers (spiders) and (iii) whether there were scale dependencies in any elevational variation in community assembly. Location: Fennoscandia, Northern Sweden. Taxon: Vascular plants, spiders. Methods: We used phenotypic and phylogenetic dispersion to quantify how elevation influenced community assembly of vascular plants and spiders and whether there were any scale dependencies in such influences. Our original data of plant and spider communities came from our own field surveys, phenotypic dispersion was calculated based on matrices of ecological traits, and phylogenetic dispersion was calculated from phylogenetic trees for each organism group. Trait matrices were based on a combination of literature values and our own measurements. The phylogeny for vascular plants was based on a published plant super‐tree, whereas the phylogeny for spiders was created by ourselves based on the DNA sequences at the mitochondrial cytochrome c oxidase subunit 1 (COI). Results: Plants were environmentally filtered throughout all elevations and scales, but the importance of convergent evolution increased with elevation. For spiders, the importance of environmental filtering as well as niche conservatism increased with elevation. For both groups, communities at smaller scales were more influenced by biotic regulation and niche conservatism than at larger scales. Main Conclusions: Our study highlights both taxonomic differences and scale dependencies in how elevation influences community assembly. We argue that these results can have broad ramifications for our understanding of how spatial variation in biodiversity is generated and maintained. This may have particular relevance for our ability to predict the ecological consequences of climate change. Our results further highlight that high elevation specialists may suffer increased risks of climate driven extinctions due to a combination of increased competition and increased fragmentation of suitable habitats. Particularly for spiders, which had high elevation specialists clustered along specific lineages, such extinctions could lead to significant loss of phylogenetic variation. [ABSTRACT FROM AUTHOR]

Published

2024

7. Four new species and two new records of deep-sea Amphipoda (Crustacea: Peracarida) from Potiguar Basin, north-eastern Brazil.

Author

Souza-Filho, Jesser F., Guedes-Silva, Elkênita, and Andrade, Luiz F.

Subjects

*SPECIES diversity, *AMPHIPODA, *BIOTIC communities, *BENTHOS, *CRUSTACEA

Abstract

Deep-sea amphipods constitute an important part of the ocean benthos, although their species richness is far from fully known. During a survey of the project 'Avaliação da Biota Bentônica e Planctônica na porção offshore das Bacias Potiguar e Ceará' (BPOT), four new species and two new records of amphipods were reported from north-eastern Brazil. The material was collected by bottom trawl nets at depths from 150 to 2057 m in the Potiguar Basin. The species Adeliella debroyerisp. n., Alexandrella cedricisp. n., Epimeria colemanisp. n. and Tectovalopsis potiguara sp. n. are established based on morphological comparisons with their congeners, properly illustrated and discussed. We present the first record of the family Adeliellidae Lowry and Myers, 2017 and genus Adeliella Nicholls, 1938 for the South Atlantic Ocean and the first report of the family Stilipedidae from Brazil. The species Cyphocaris johnsoni Shoemaker, 1934 is herein first recorded from Brazil, providing a geographic and depth range extension, and Parandania boecki (Stebbing, 1888) is reported for the first time in the Rio Grande do Norte state. Additionally, identification keys are provided for global species of Adeliella, Tectovalopsis J.L. Barnard and Ingram, 1990, and Alexandrella Chevreux, 1911, and one for Atlantic species of Epimeria Costa in Hope, 1851. [ABSTRACT FROM AUTHOR]

Published

2024

8. Small Streams Support Beta Diversity in Neotropical Fish Assemblages in the Upper Paraná River Basin.

Author

Córdova Junior, Renner Fernando da Silva, Ferreira, Fabiane Silva, Pinho, Henrique Lopes Ledo, Minillo, Alessandro, Kashiwaqui, Elaine Antoniassi Luiz, and Súarez, Yzel Rondon

Subjects

*BIOTIC communities, *SPECIES diversity, *FRESHWATER fishes, *ENVIRONMENTAL policy, *WATERSHEDS

Abstract

ABSTRACT Variation in species composition along an environmental gradient (β‐diversity) can inform our understanding of biodiversity patterns and species composition. Beta diversity can be partitioned into species contributions to beta diversity (SCBD) and local contributions to beta diversity (LCBD). While SCBD describes the variations in species composition among samples, LCBD measures the uniqueness of a biological community within a larger ecosystem. Recently developed metrics enabled the estimation of species contribution to total beta diversity (SCBD) and the contribution of individual sites to total beta diversity (LCBD). Utilising these metrics, a one‐time survey of 275 sampling points within four sub‐basins of the Upper Paraná River Hydrographic Basin (low‐flow streams, < 5 m3/s) was conducted to assess fish community composition. Our results show that limnological influences at different scales contribute to higher LCBD. However, land use and species richness were not directly linked to this outcome, suggesting that sites with fewer fish species along sub‐basins contributed to higher beta diversity. It was concluded that beta diversity is more influenced by limnological characteristics and the position of sampling sites along the longitudinal gradient than that based on variations in species composition (SCBD). Moreover, high LCBD values were even found in portions of the gradient with lower species richness. This means that small streams in the sub‐basins of the upper Paraná River are unique and are comprised of varied habitats that contribute to increasing diversity. As such, they should be seen as a target in the development of environmental policies designed to conserve their pristine condition. [ABSTRACT FROM AUTHOR]

Published

2024

9. Cyanobacteria can benefit from freshwater salinization following the collapse of dominant phytoplankton competitors and zooplankton herbivores.

Author

Urrutia‐Cordero, Pablo, Langvall, Ola, Weyhenmeyer, Gesa A., Hylander, Samuel, Lundgren, Maria, Papadopoulou, Sofia, Striebel, Maren, Lind, Lovisa, and Langenheder, Silke

Subjects

*BIOTIC communities, *SALINIZATION, *PHOTOSYSTEMS, *PHYSIOLOGICAL stress, *GREEN algae, *ZOOPLANKTON, *CYANOBACTERIAL blooms

Abstract

Freshwater salinization is an increasing threat to lakes worldwide, but despite being a widespread issue, little is known about its impact on biological communities at the base of the food chain. Here we used a mesocosm set‐up coupled with modern high‐frequency sensor technology to identify short‐ and longer‐term responses of phytoplankton to salinization in an oligotrophic lake. We tested the effects of salinization over a gradient of increasing salt concentrations that can be found in natural lakes exposed to road salt contamination (added salt range: from 0 to 1500 mg Cl− L−1). The high‐frequency chlorophyll‐a (chl‐a) fluorescence measurements showed an increasing divergence of chl‐a concentrations along the salinization gradient over time, with substantially lower concentrations at higher salt levels. At the sub‐daily scale, we found a profound suppression of day–night signal cycles with increasing salinity, which could be related to physiological stress due to the impairment of photosynthesis via effects on the photosystem II or potential changes in the active migration of phytoplankton. Community analyses revealed a similar decline pattern for the total phytoplankton biomass and a collapse of the total zooplankton biomass. Interestingly, we found a loss of phytoplankton diversity coupled with a compositional re‐organization involving the loss of dominant green algae but increased biomass of salt‐tolerant cyanobacteria. Altogether, these results suggest that specific cyanobacterial taxa can benefit from freshwater salinization following the collapse of dominant phytoplankton competitors and zooplankton herbivores. The results also highlight the value of autonomous sensor technology to capture novel, small‐scale ecological responses to freshwater salinization, and thereby to track fast changes in primary producer communities. [ABSTRACT FROM AUTHOR]

Published

2024

10. A scientist's guide to Solifugae: how solifuges could advance research in ecology, evolution, and behaviour.

Author

Hebets, Eileen A, Oviedo-Diego, Mariela, Cargnelutti, Franco, Bollatti, Fedra, Calbacho-Rosa, Lucia, Mattoni, Camilo I, Olivero, Paola, Simian, Catalina, Abregú, Debora, Vrech, David E, and Peretti, Alfredo V

Subjects

*SCIENTIFIC knowledge, *BIOTIC communities, *NATURAL history, *ANIMAL behavior, *LIFE sciences

Abstract

Despite having >1200 described species and despite their nearly worldwide distribution and prevalence in many xeric ecosystems, relative to many other arachnid groups, we know little about the natural history and behaviour of animals in the order Solifugae (camel spiders, sun spiders, sun scorpions, etc.). Here, we review the current solifuge literature through the lens of conceptual research areas in ecology, evolution, and behaviour and propose ways in which solifuges can contribute to research in specific subfields, as follows: (i) ecology: community and trophic dynamics; connecting food webs; habitat specialization; and biodiversity and conservation; (ii) evolution: speciation and diversification; activity cycles and associated traits; adaptations for speed; and living in extreme environments; and (iii) behaviour and sensory systems: sleep, quiescence, and diapause; sensory systems and sensory ecology; learning and cognition; and mating systems, sexual selection, and sexual conflict. This resource can provide a starting point for identifying research programmes that will simultaneously contribute basic natural history information about this under-studied group and provide a broader understanding of fundamental concepts and theories across the life sciences. We hope that scientists will take this review as a challenge to develop creative ways of leveraging the unique features of solifuges to advance scientific knowledge and understanding. [ABSTRACT FROM AUTHOR]

Published

2024

11. Aerial eDNA contributes vital information for fungal biodiversity assessment.

Author

Runnel, Kadri, Lõhmus, Piret, Küngas, Kati, Marmor‐Ohtla, Liis, Palo, Anneli, Pütsepp, Geili, Tamm, Heidi, Tammekänd, Indrek, and Lõhmus, Asko

Subjects

*WOOD, *WILDLIFE conservation, *ENDANGERED species, *FOREST biodiversity, *BIOTIC communities

Abstract

Fungal diversity drives key processes in terrestrial ecosystems, but remains challenging to measure in the field and to monitor over time. In particular, we lack methods capable of describing both the regional biotas and fungal related conservation values, such as habitats for rare and threatened fungi. Environmental DNA (eDNA) could serve this purpose, once its validity to capture fungal assemblage properties is established.Using three approaches (full‐season eDNA sampling from air, snapshot visual surveys, and eDNA sampling from dead wood), we present the first comparative assessment of fungal diversity at forest stand scale. The focus was on two well‐known fungal groups (lichens and wood inhabiting basidiomycetes) in old hemiboreal forests.Aerial eDNA revealed regional‐scale cryptic diversity not detected in visual surveys, particularly among lichens and including species of conservation concern. However, at the local population scale, both aerial eDNA and eDNA sampled from dead wood often missed visually detected species. In particular, eDNA sampled from dead wood performed only as a supplementary source of species data. The methods differed in detecting the spatial covariance of wood fungal and lichen diversity, with the combined (most complete) dataset indicating the strongest congruence.Synthesis and applications. Neither eDNA approaches nor visual surveys were able to detect full diversity of local fungi and all species of specific conservation value. However, there is clear merit in combined use of these methods, particularly in pairing aerial eDNA with visual observation‐based surveys on selected taxon groups. This approach can be especially valuable in fungal groups that have challenging taxonomy, inhabit partly inaccessible microhabitats, or have overall high diversity (such as lichens). [ABSTRACT FROM AUTHOR]

Published

2024

12. Multifactorial structuring in a local guild of coprophilic scarab beetles from the Mexican transition zone: Analyses of ecological hypotheses.

Author

Moctezuma, Victor, Halffter, Gonzalo, and Escobar, Federico

Subjects

*BIOTIC communities, *SCARABAEIDAE, *BIODIVERSITY, *ECOLOGICAL zones, *HETEROGENEITY

Abstract

Different hypotheses have been proposed to explain the environmental gradients‐biotic structuring relationship. Nevertheless, several inconsistencies have arisen when only one hypothesis is chosen to explain the biological diversity patterns. Our aim is to test a multiple hypotheses approach to explain the structure of a coprophilic scarab local guild.Coprophilic Scarabaeoidea beetles were sampled for 33 sites along the study region (Los Chimalapas, Oaxaca, Mexico). Several environmental variables were used to test four hypotheses for geographic gradients: Productivity, ambient energy, habitat heterogeneity and temporal heterogeneity. Generalised linear mixed models were used to test the relationship of the hypotheses on the abundance, species richness and Shannon‐Wiener diversity of the local guild. Moreover, canonical correspondence analysis was performed to analyse the effects on species composition.Abundance was negatively affected by the simultaneous effect between two habitat heterogeneity factors, while both species richness (positive effect) and Shannon‐Wiener diversity (negative effect) were mainly related to productivity, and species composition was mainly explained by habitat heterogeneity.We conclude that multiple hypotheses, both based on species‐energy and heterogeneity, need to be considered to explain biotic setting of communities, ensembles, assemblages, local guilds and other complex biotic systems. [ABSTRACT FROM AUTHOR]

Published

2024

13. The impacts of fire vary among vertical strata: Responses of ant communities to long‐term experimental burning.

Author

Brassard, François, Murphy, Brett P., and Andersen, Alan N.

Subjects

FIRE ecology, ANT communities, BIOTIC communities, ECOLOGICAL disturbances, FIRE ants, ANT colonies

Abstract

Fire is a powerful tool for conservation management at a landscape scale, but a rigorous evidence base is often lacking for understanding its impacts on biodiversity in different biomes. Fire‐induced changes to habitat openness have been identified as an underlying driver of responses of faunal communities, including for ants. However, most studies of the impacts of fire on ant communities consider only epigeic (foraging on the soil surface) species, which may not reflect the responses of species inhabiting other vertical strata. Here, we examine how the responses of ant communities vary among vertical strata in a highly fire‐prone biome. We use a long‐term field experiment to quantify the effects of fire on the abundance, richness, and composition of ant assemblages of four vertical strata (subterranean, leaf litter, epigeic, and arboreal) in an Australian tropical savanna. We first document the extent to which each stratum harbors distinct assemblages. We then assess how the assemblage of each stratum responds to three fire‐related predictors: fire frequency, fire activity, and vegetation cover. Each stratum harbored a distinct ant assemblage and showed different responses to fire. Leaf litter and epigeic ants were most sensitive to fire because it directly affects their microhabitats, but they showed contrasting negative and positive responses, respectively. Subterranean ants were the least sensitive because of the insulating effects of soil. Our results show that co‐occurring species of the same taxonomic group differ in the strength and direction of their response to fire depending on the stratum they inhabit. As such, effective fire management for biodiversity conservation should consider species in all vertical strata. [ABSTRACT FROM AUTHOR]

Published

2024

14. 1115. Callicarpa glabra Koidz: Lamiaceae.

Author

Takeda, Kazuya, Yamanaka, Masumi, and Vasques, Diego T.

Subjects

*ADAPTIVE radiation, *BIOTIC communities, *ISLANDS, *LAMIACEAE, *BIODIVERSITY

Abstract

Summary: Callicarpa glabra Koidz., described from the Bonin Islands in 1918, is illustrated. Its ecology and evolution are discussed along with the adaptive radiation of Callicarpa in the Bonin Islands. Oceanic island biota offer fascinating examples of evolution, but are also vulnerable to disturbance, so further efforts are needed to conserve the biodiversity of the Bonin Islands. [ABSTRACT FROM AUTHOR]

Published

2024

15. Invasive Glossy Buckthorn (Frangula alnus) Has Weak Impact on Native Understory Plant and Saprophagous Macroarthropod Communities.

Author

Roberge, Gabrielle, Handa, Ira Tanya, Juette, Tristan, and Kneeshaw, Daniel

Subjects

*INTRODUCED species, *UNDERSTORY plants, *BIOTIC communities, *PITFALL traps, *PLANT communities

Abstract

Glossy buckthorn (Frangula alnus Miller) is an invasive alien plant species (IAPS) rapidly expanding in North America but is largely understudied compared to the common buckthorn (Rhamnus cathartica). Our study investigated the effects of a 27-year-old F. alnus invasion on native understory plant and saprophagous macroarthropod communities in a wet deciduous woodland in Southern Québec, Canada. We hypothesized a decreased taxonomic diversity and a change in community composition of both indicator taxa with increasing F. alnus density. The understory plant and saprophagous macroarthropod communities were characterized, respectively, through vegetation surveys and pitfall trapping across a density gradient of 43 plots invaded by F. alnus. Our results demonstrated that F. alnus did not exert a strong influence on species community composition, although the homogenization of understory plant communities was observed. Despite several decades of F. alnus invasion at our study site, the consequences on the selected indicator taxa were overall relatively small, suggesting that the magnitude of effects is variable. We suggest that further investigation at a larger scale should be performed to evaluate the effect of F. alnus on a broad diversity of indicators and understand any context dependency. [ABSTRACT FROM AUTHOR]

Published

2024

16. Temporal turnover in species' ranks can explain variation in Taylor's slope for ecological timeseries.

Author

Ghosh, Shyamolina and Matthews, Blake

Subjects

*BIOTIC communities, *TIME series analysis, *EXPONENTS, *BIODIVERSITY, *SPECIES

Abstract

The scaling exponent relating the mean and variance of the density of individual organisms in space (i.e., Taylor's slope: zspace) is well studied in ecology, but the analogous scaling exponent for temporal datasets (ztime) is underdeveloped. Previous theory suggests the narrow distribution of ztime (e.g., typically 1–2) could be due to interspecific competition. Here, using 1694 communities time series, we show that ztime can exceed 2, and reaffirm how this can affect our inference about the stabilizing effect of biodiversity. We also develop a new theory, based on temporal change in the ranks of species abundances, to help account for the observed ztime distribution. Specifically, we find that communities with minimal turnover in species' rank abundances are more likely to have higher ztime. Our analysis shows how species‐level variability affects our inference about the stability of ecological communities. [ABSTRACT FROM AUTHOR]

Published

2024

17. Implementing high-throughput insect barcoding in microbiome studies: impact of non-destructive DNA extraction on microbiome reconstruction.

Author

Andriienko, Veronika, Buczek, Mateusz, Meier, Rudolf, Srivathsan, Amrita, Łukasik, Piotr, and Kolasa, Michał R.

Subjects

BIOTIC communities, INSECT communities, INSECT diversity, GENE amplification, BACTERIAL communities, MICROBIAL diversity

Abstract

Background: Symbiotic relationships with diverse microorganisms are crucial for many aspects of insect biology. However, while our understanding of insect taxonomic diversity and the distribution of insect species in natural communities is limited, we know much less about their microbiota. In the era of rapid biodiversity declines, as researchers increasingly turn towards DNA-based monitoring, developing and broadly implementing approaches for high-throughput and cost-effective characterization of both insect and insect-associated microbial diversity is essential. We need to verify whether approaches such as high-throughput barcoding, a powerful tool for identifying wild insects, would permit subsequent microbiota reconstruction in these specimens. Methods: High-throughput barcoding ("megabarcoding") methods often rely on non-destructive approaches for obtaining template DNA for PCR amplification by leaching DNA out of insect specimens using alkaline buffers such as HotSHOT. This study investigated the impact of HotSHOT on microbial abundance estimates and the reconstructed bacterial community profiles. We addressed this question by comparing quantitative 16S rRNA amplicon sequencing data for HotSHOT-treated or untreated specimens of 16 insect species representing six orders and selected based on the expectation of limited variation among individuals. Results: We find that in 13 species, the treatment significantly reduced microbial abundance estimates, corresponding to an estimated 15-fold decrease in amplifiable 16S rRNA template on average. On the other hand, HotSHOT pre-treatment had a limited effect on microbial community composition. The reconstructed presence of abundant bacteria with known significant effects was not affected. On the other hand, we observed changes in the presence of low-abundance microbes, those close to the reliable detection threshold. Alpha and beta diversity analyses showed compositional differences in only a few species. Conclusion: Our results indicate that HotSHOT pre-treated specimens remain suitable for microbial community composition reconstruction, even if abundance may be hard to estimate. These results indicate that we can cost-effectively combine barcoding with the study of microbiota across wild insect communities. Thus, the voucher specimens obtained using megabarcoding studies targeted at characterizing insect communities can be used for microbiome characterizations. This can substantially aid in speeding up the accumulation of knowledge on the microbiomes of abundant and hyperdiverse insect species. [ABSTRACT FROM AUTHOR]

Published

2024

18. Exploring the driving factors of bryophyte assemblage distribution patterns in Tibet.

Author

Gu, Jiqi, Song, Xiaotong, Ye, Yanhui, Shao, Xiaohong, Liao, Yujia, Shao, Xiaoming, Michalska-Smith, Matthew, and Venkatanarayanan, Naven Narayanan

Subjects

BRYOPHYTES, ALPINE regions, STOCHASTIC processes, PLANT diversity, BIOTIC communities, HABITATS

Abstract

Plant communities are complex systems shaped by a combination of deterministic and stochastic ecological processes. Bryophytes are an essential component of plant diversity in natural ecosystems, yet our understanding of their community ecology needs to catch up to that of other organisms. The unique geological history, alpine climatic conditions, and high habitat heterogeneity of Tibet provide suitable areas for bryophytes to survive in the alpine regions. Therefore, field surveys were conducted across 184 plots in forest, thicket, and herbaceous vegetation of Tibet to investigate the role of deterministic processes such as biological interactions and abiotic effects, along with stochastic processes, in shaping the distribution of bryophyte assemblages. We employed various analytical methods, including mixed effects models, partial least squares path modeling, null model analysis, and neutral community models. The study showed that bryophyte richness was highest in forests. Bryophyte assemblages showed greater segregation in forest and thicket environments compared to herbaceous vegetation. As the influence of stochastic processes increased, that of deterministic processes decreased from forests through thickets to herbaceous vegetation. Deterministic processes were the main driving forces for the bryophyte assemblage pattern. Soil properties and climatic factors, particularly pH played a key role in determining bryophyte patterns in Tibet. This study has deepened our comprehension of how deterministic and stochastic ecological processes interplay and shape bryophyte distribution patterns in Tibet. [ABSTRACT FROM AUTHOR]

Published

2024

19. Species interactions and eco-evolutionary dynamics of dispersal: the diversity dependence of dispersal.

Author

Bonte, Dries, Keith, Sally, and Fronhofer, Emanuel A.

Subjects

*BIOTIC communities, *SPECIES distribution, *FOOD chains, *ECOSYSTEMS, *BIODIVERSITY, *COEXISTENCE of species

Abstract

Dispersal plays a pivotal role in the eco-evolutionary dynamics of spatially structured populations, communities and ecosystems. As an individual-based trait, dispersal is subject to both plasticity and evolution. Its dependence on conditions and context is well understood within single-species metapopulations. However, species do not exist in isolation; they interact locally through various horizontal and vertical interactions. While the significance of species interactions is recognized for species coexistence and food web functioning, our understanding of their influence on regional dynamics, such as their impact on spatial dynamics in metacommunities and meta-food webs, remains limited. Building upon insights from behavioural and community ecology, we aim to elucidate biodiversity as both a driver and an outcome of connectivity. By synthesizing conceptual, theoretical and empirical contributions from global experts in the field, we seek to explore how a more mechanistic understanding of diversity–dispersal relationships influences the distribution of species in spatially and temporally changing environments. Our findings highlight the importance of explicitly considering interspecific interactions as drivers of dispersal, thus reshaping our understanding of fundamental dynamics including species coexistence and the emergent dynamics of metacommunities and meta-ecosystems. We envision that this initiative will pave the way for advanced forecasting approaches to understanding biodiversity dynamics under the pressures of global change. This article is part of the theme issue 'Diversity-dependence of dispersal: interspecific interactions determine spatial dynamics'. [ABSTRACT FROM AUTHOR]

Published

2024

20. Diverse biological communities promote SOM molecular diversity and compositional transformations during natural fallow stage in paddy fields.

Author

Gao, Guozhen, Li, Pengfa, Liu, Ming, Cui, Jian, Wu, Meng, and Li, Zhongpei

Subjects

PLANT exudates, BIOTIC communities, CROPPING systems, MICROBIAL diversity, PLANT diversity, BACTERIAL diversity

Abstract

Monoculture cultivation patterns in agro-ecosystems only provide less varied soil organic matter (SOM) molecules of plant origin. Whether and how the natural fallow stage between cultivation seasons facilitates the restoration of SOM molecular diversity and mitigates the adverse impacts of constant cropping pattern is elusive. Here, we utilized FT-ICR-MS, UHPLC-MS/MS, and high-throughput sequencing to investigate the biological change processes in SOM molecular composition under cultivation and fallow status in a long-farmed paddy field. Our study showed that SOM molecular diversity increased by 45.70%–85.36% in fallow stage compared to rice cultivation season. SOM molecular diversity was positively correlated with bacterial diversity and root exudate molecular diversity, and negatively correlated with fungal diversity. Notably, root exudate molecular diversity accounted for 48.48% of the variation in SOM molecular diversity. The increased SOM molecular diversity in fallow stage was attributed more to the diverse plant-produced molecules than the microbe-consumed molecules. Plant species turnover resulted in the conversion of root exudate components to Organoheterocyclic compounds and Organic acids/derivatives from rice planting stage to fallow stage. Recruited microbes were dominated by Basidiomycita, Ascomycota, Acidobacteria, Chloroflexi and Proteobacteria, resulting in the transformation from carbohydrates, lipid-like SOM molecules to lipid-like and lignin-like SOM molecules. Both field and microcosm experiments confirmed that root exudates are the main source of SOM molecules, and are influenced by the soil microbial community. This study provides solid evidence that fallow status in agro-ecosystems provides explosion of biodiversity and counteracts the negative effects of long-term monoculture cultivation on SOM diversity. Highlights: • Natural fallow promotes soil organic matter molecular diversity in paddy fields. • Plant diversity and bacterial diversity increase in fallow stage. • Root exudates increase SOM molecular diversity by mediating microbial communities. • Variations in the composition of biological communities drive transformations in SOM molecular composition. [ABSTRACT FROM AUTHOR]

Published

2024

21. <italic>Laiyangoraphidia delicata</italic> gen. et sp. nov., a new snakefly (Insecta: Raphidioptera: Mesoraphidiidae) from the Lower Cretaceous Laiyang Formation of China.

Author

Chen, Yuqian, Jarzembowski, Edmund A., Chen, Lei, and Luo, Cihang

Subjects

*BIOTIC communities, *MESOZOIC Era, *INSECTS, *BIODIVERSITY, *TAXONOMY

Abstract

A new genus and species of snakefly, Laiyangoraphidia delicata gen. et sp. nov., is described from the Lower Cretaceous Laiyang Formation, eastern Shandong, China. This is another genus characterised by the short pterostigma in Mesoraphidiidae. Its complex branching structure and the absence of crossveins between and inside RP and MA suggest it may be a transitional taxon between Grammoraphidia and Proraphidia. This discovery enriches our knowledge on the biodiversity of Raphidioptera from the Lower Cretaceous Laiyang Formation. [ABSTRACT FROM AUTHOR]

Published

2024

22. Effects of amphibian genetic diversity on ecological communities.

Author

Benard, Michael F., Burke, David J., Carrino-Kyker, Sarah R., Krynak, Katherine, and Relyea, Rick A.

Subjects

*WOOD frog, *BIOTIC communities, *GENETIC variation, *AMPHIBIAN diversity, *PHENOTYPIC plasticity

Abstract

The amount of genetic diversity within a population can affect ecological processes at population, community, and ecosystem levels. However, the magnitude, consistency, and scope of these effects are largely unknown. To investigate these issues, we conducted two experiments manipulating the amount of genetic diversity and environmental factors in larval amphibians. The first experiment manipulated wood frog genetic diversity, the presence or absence of caged predators, and competition from leopard frogs to test whether these factors affected survival, growth, and morphology of wood frogs and leopard frogs. The second experiment manipulated wood frog genetic diversity, the presence or absence of uncaged predators, and resource abundance to test whether these factors affected wood frog traits (survival, morphology, growth, development, and behavior) and other components of the ecological community (zooplankton abundance, phytoplankton, periphyton, and bacterial community structure). Genetic diversity did not affect wood frog survival, growth, and development in either experiment. However, genetic diversity did affect the mean morphology of wood frog tadpoles in the first experiment and the abundance and distribution of zooplankton in the second experiment. It did not affect phytoplankton abundance, periphyton abundance, or bacterial community structure. While effect sizes (Cohen's d) of genetic diversity were approximately half those of environment treatments, the greatest effect sizes were for interaction effects between genetic diversity and environment. Our results indicate that genetic diversity can have a large effect on ecological processes, but the direction of those effects is highly dependent upon environmental conditions, and not easily predicted from simple measures of traits. [ABSTRACT FROM AUTHOR]

Published

2024

23. The importance of facilitative interactions in mediating climate change impact on biodiversity.

Author

Kéfi, Sonia, Lortie, C J., and Cavieres, Lohengrin A.

Subjects

*BIOTIC communities, *ECOLOGICAL integrity, *ECOSYSTEMS, *TEMPERATE forests, *ECOLOGICAL resilience, *BIOLOGICAL invasions

Abstract

Global change is a multifaceted, unprecedented crisis hitting the life support system of our planet. Among global changes, climate change is regarded as one of the most grave threats to biodiversity because of its direct impacts on species and ecosystems integrity and because of its indirect consequences through synergistic effects with other global change factors such as biological invasions. The challenges presented to either reduce or mitigate this biodiversity crisis derived from climate change require novel synthesis and innovation in ecological and evolutionary theory. Positive species interactions within and between trophic levels can play a key role in the resilience of ecological communities. Depending on the tolerance of nurse species to different aspects of climate change, communities can be more or less resilient to those changes. This knowledge has important implications for both natural communities and agroecosystems. Further, our fundamental understanding of the role of positive interactions can also enable both effective conservation and restoration levers in space and time. This special issue includes studies addressing the role of facilitative interactions on the response of ecological systems to climate change. Key concepts examined included stress, gradients, nurse species, spatial scale, translocation, phylogenetics alongside physiochemicals, and variation in the capacity of species to buffer changes. Alpine, tundra, drylands and temperate forests were directly tested, but salient principles were relevant to all ecosystems including a contribution on soil biota and also a call to more open data and collaborative science. Together, this corpus of work highlighted the significance of facilitative interactions in mitigating many of the effects of climate change on biodiversity. [ABSTRACT FROM AUTHOR]

Published

2024

24. Comparison of the coexistence pattern of mangrove macrobenthos between natural and artificial reforestation.

Author

Guo, Pingping, Lin, Yufeng, Sheng, Yifei, Gu, Xuan, Deng, Yijuan, Zhang, Yamian, Wang, Wenqing, and Wang, Mao

Subjects

*BIOTIC communities, *TREE planting, *ECOLOGICAL niche, *DETERMINISTIC processes, *ECOSYSTEM services, *MANGROVE ecology

Abstract

The abandoned pond‐to‐mangrove restoration project provides greater advantages than tidal flats afforestation in restoring mangrove ecosystem services and will be the primary method for mangrove restoration in the future. The existing methods for abandoned pond‐to‐mangrove restoration include artificial restoration through 'dike‐breaking, filling with imported soil and tree planting' and natural restoration through 'dike‐breaking and natural succession'. However, little is known about which restoration strategy (natural or artificial restoration) provides more benefits to the biodiversity of mangrove macrobethos. Given a prevailing view suggested that artificial restoration should be the preferred approach for accelerating recovery of biodiversity and vegetation structure in tropical regions, we hypothesised higher macrobenthic biodiversity and more complex community structure in artificial restoration than in natural restoration. To test this hypothesis, macrobenthic biodiversity and ecological processes were monitored in a typical abandoned pond‐to‐mangrove area of Dongzhaigang Bay, China, where artificial and natural restoration methods were used concurrently. Differences in macrobenthic biodiversity, community structure and ecological processes were compared using diversity indices, complex network analysis and null models. Similar species composition and ecological niche overlap and width among macrobenthos were observed at artificial and natural restoration sites. The biotic heterogeneity and interaction among macrobenthos were higher at the natural restoration sites than at the artificial restoration sites. Macrobenthos community assembly at natural and artificial restoration sites was both determined by deterministic processes, with environmental filtering dominating, which explained 52% and 54% of the variations in macrobenthic community structures respectively. Although our findings did not validate the research hypothesis, higher biotic heterogeneity and species interaction among macrobenthos could support natural restoration as the primary method for abandoned pond‐to‐mangrove projects, because it is a nature‐based solution for mangrove restoration. [ABSTRACT FROM AUTHOR]

Published

2024

25. Beta diversity and regionalization of the western Atlantic marine biota.

Author

Oliveira, Ubirajara, Azevedo, Fernanda, Dias, Alan, de Almeida, Ana Carolina Sousa, Senna, André R., Marques, Antonio C., Rezende, Dafinny, Hajdu, Eduardo, Lopes‐Filho, Erick Alves Pereira, Pitombo, Fábio Bettini, de Oliveira, Gabriela Moura, Doria, João Gabriel, Carraro, João Luís, De‐Paula, Joel Campos, Bahia, Juliana, de Araujo, Juliana Magalhães, Paresque, Karla, Vieira, Leandro Manzoni, Fernandes, Luanny Martins, and Cardoso, Micaele Niobe Martins

Subjects

*MARINE biodiversity, *MARINE biodiversity conservation, *MARINE species diversity, *BIOTIC communities, *SPECIES distribution, *BIOGEOGRAPHY

Abstract

Aim: Understanding the factors determining marine community variations is important for biogeography and conservation. Beta diversity is a metric for mapping species composition variations between communities and regionalizing biota. Ecoregions are commonly used for regionalization, but their empirical testing has been limited. Our aim is to map marine species composition variations in the Western Atlantic, identify variables related to these variations, and regionalize areas based on community distribution. Additionally, we test whether currently proposed ecoregions represent unique biota units and specific environmental conditions. Location: Western Atlantic Ocean. Taxon: Vertebrates, invertebrates and algae. Methods: We constructed a large marine biodiversity database, including vertebrates, invertebrates, and algae, totalling over 4 million records. We used the generalized dissimilarity model (GDM) to identify variables most related to species composition variations and map beta‐diversity variations. We employed an unsupervised classifier for community regionalization. To test if the ecoregion regionalization boundaries are corroborated by species distribution data, we used the Sørensen index. To assess if ecoregions correspond to environmental units, we checked if areas had distinct environmental conditions using a PCA of 134 marine environmental variables. Results: The GDM explained a high variation in species composition, 61% in the complete database. Analysing vertebrates, invertebrates and algae separately also yielded relatively high results: 46%, 54%, and 33%, respectively. Coastal areas differed from open sea areas in composition. Environmental variables combined better explained beta diversity than isolated variables. The regionalization based on GDM was not congruent with ecoregion boundaries. Moreover, ecoregions showed no distinction in species composition or environmental conditions. Main Conclusions: This study's regionalization is crucial for marine biodiversity conservation, focusing on understanding species composition patterns between coastal and open sea areas to develop tailored conservation strategies. Despite sampling limitations, the study advances marine biogeography knowledge by analysing over 4 million species records and 134 environmental variables. This comprehensive approach enhances understanding marine species distribution and diversity and aiding the development of effective conservation measures. [ABSTRACT FROM AUTHOR]

Published

2024

26. Morpho-taxonomic Revision of the Lichen Genus Psora Hoffm. (Psoraceae, Lecanorales) from India.

Author

Vishal Kumar, Upreti, Dalip Kumar, and Nayaka, Sanjeeva

Subjects

*BIOTIC communities, *SPECIES, *LICHENS

Abstract

Three species of the genus Psora are recognized in India including Psora crenata (Taylor) Reinke, P. decipiens (Hedw.) Hoffm. and P. himalayana (C. Bab.) Timdal. Among them, P. crenata is described as a new record to the lichen biota of India. Descriptions, illustrations and distributions are provided for each species together with a key to all species of Psora known from India. [ABSTRACT FROM AUTHOR]

Published

2024

27. Does weed diversity mitigate yield losses?

Author

Zingsheim, Marie L. and Döring, Thomas F.

Subjects

ANIMAL diversity, WEED control, ENERGY crops, CROP yields, BIOTIC communities

Abstract

While intensive control of weed populations plays a central role in current agriculture, numerous studies highlight the multifaceted contribution of weeds to the functionality and resilience of agroecosystems. Recent research indicates that increased evenness within weed communities may mitigate yield losses in contrast to communities characterized by lower diversity, since weed species that strongly affect crop yields, also dominate weed communities, with a concurrent reduction of evenness. If confirmed, this observation would suggest a paradigm shift in weed management towards promoting higher community diversity. To validate whether the evenness of weed communities is indeed linked to higher crop productivity, we conducted two field experiments: one analyzing the effects of a natural weed community in an intercrop of faba bean and oat, and the other analyzing the effects of artificially created weed communities, together with the individual sown weed species, in faba bean, oats and an intercrop of both crops. The evenness of the weed communities ranged from 0.2 to 0.9 in the natural weed community, from 0.2 to 0.7 in faba bean, from 0 to 0.8 in the intercrop and from 0.3 to 0.9 in oats. Neither the natural nor the artificial weed community showed significant effects of evenness on crop grain yield or crop biomass. The results of this study do not validate a positive relationship of crop productivity and weed evenness, possibly due to low weed pressure and the absence of competitive effects but suggest that also less diverse weed communities may be maintained without suffering yield losses. This is expected to have far reaching implications, since not only diverse weed communities, but also higher abundances of few weed species may contribute to ecosystem functions and may support faunal diversity associated with weeds. [ABSTRACT FROM AUTHOR]

Published

2024

28. Challenges of molecular barcode-based identification of earthworm specimens for biodiversity assessment.

Author

Barraux, Andréa, Noël, Shanèze, Roy, Virginie, Dupont, Lise, Vivien, Regis, and Sun, Jing

Subjects

MITOCHONDRIAL DNA, EARTHWORMS, CYTOCHROME oxidase, CYTOCHROME c, BIOTIC communities, BIODIVERSITY, LUMBRICIDAE

Abstract

Specimen identification at the species level is a critical challenge for understanding community structure and conserving biodiversity. The use of mitochondrial DNA barcodes, in addition to morphology, has proven to be a useful tool for earthworm identification, but it has also raised difficulties. Thus, approaches to delineating molecular operational taxonomic units (MOTUs) from cytochrome c oxidase subunit 1 (COI) or 16S rDNA sequence data often reveal more mitochondrial lineages than morphospecies, raising the question of whether these MOTUs should be used as taxonomic entities in community structure studies. Here, we used a newly acquired dataset of 576 COI barcodes of earthworms from Metropolitan France that were clustered in 36 MOTUS, corresponding to 21 morphospecies. We also incorporated data gathered from the literature to investigate this question. In order to match our MOTUs with already-described mitochondrial lineages, we downloaded reference sequences from the GenBank and BOLD platforms. In light of the difficulties encountered in recovering these sequences, we recommend that any new mitochondrial lineage described in a study be named consistently with previous works. Next, we analyzed the biological, ecological, and molecular data available in the literature on the different mitochondrial lineages that matched our MOTUs in order to determine if there was a consensus for species delimitation. Although the study specimens mainly belong to the Lumbricidae, which is one of the most studied families of earthworms, the data are often missing to determine if the MOTUs correspond to different species. Pending revision of the taxonomy, MOTUs for which mitochondrial divergence has been confirmed by morphological differences should be considered distinct taxonomic entities in community structure studies. In the absence of morphological differences and pending more data, we propose to distinguish for these analyses, within sexually reproducing morphospecies, the MOTUs for which mitochondrial divergence has been confirmed by multilocus nuclear data, while in the case of reproduction by parthenogenesis, ecological differences between MOTUs are necessary to consider them as different taxonomic entities. [ABSTRACT FROM AUTHOR]

Published

2024

29. A structured approach for building multi‐community State and Transition Models to support conservation planning.

Author

Good, Megan K., Rumpff, Libby, Fraser, Hannah, Gould, Elliot, Jones, Christopher S., Prober, Suzanne M., Bourne, Mark, Butt, Nathalie, Byrne, Margaret, Duncan, David H., Gorrod, Emma, Gosper, Carl R., Jordan, Rebecca, McIntyre, Sue, Moore, Joslin L., Nerenberg, Shana, Pulsford, Stephanie, Richards, Anna E., Rogers, Daniel J., and Sinclair, Steve

Subjects

*BIOTIC communities, *DECISION trees, *FORESTS & forestry, *ECOSYSTEMS, *BIODIVERSITY

Abstract

Global declines in ecosystem extent and condition mean there is an increasing demand for recovery and conservation plans. Conservation plans for ecological communities require a management framework with measurable, time‐bound objectives. Efficient and structured processes that facilitate timely and comparable conservation plans are essential, especially where resources are constrained. We describe a process to streamline the development of conservation plans by combining functionally similar community sub‐types into a multi‐community State and Transition Model that can be used to guide conservation planning. We demonstrate this approach in a case study using eucalypt dominated woodlands of southern Australia—an ecosystem which occupies a vast geographical range across temperate Australia and includes many distinct vegetation communities, a growing number of which are endangered or threatened. Australian woodland ecologists (grouped according to their knowledge of three broad woodland sub‐types) were asked to develop causal chains to describe all factors associated with transitions among woodland condition states, and estimate the likelihoods associated with each transition at two time‐scales. The resultant State and Transition Model includes a set of eight general condition states that are common to eucalypt dominated woodlands, and 364 unique causal chains describing the drivers of all plausible transitions. We include an example of how the same information can be presented as a series of decision trees aimed at supporting on‐ground management decisions. The case study demonstrates that it is possible to construct a detailed State and Transition Model that synthesizes knowledge across multiple similar vegetation communities. To date, State and Transition Models focused on single communities or a smaller spatial scale, and this is the first attempt to construct a nationally relevant multi‐community State and Transition Model via a structured and participatory process. Synthesis and applications. This approach can be applied at multiple spatial scales to improve and streamline the development of robust conservation plans to improve how we plan for, implement and measure global biodiversity outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

30. A diversity of diversities: Do complex environmental effects underpin associations between below‐ and above‐ground taxa?

Author

Seaton, Fiona M., George, Paul B. L., Alison, Jamie, Jones, Davey L., Creer, Simon, Smart, Simon M., Emmett, Bridget A., and Robinson, David A.

Subjects

*PLANT diversity, *BIODIVERSITY, *SOIL animals, *VESICULAR-arbuscular mycorrhizas, *SOIL microbiology, *PLANT-soil relationships, *BIOTIC communities

Abstract

To predict how biodiversity will respond to global change, it is crucial to understand the relative roles of abiotic drivers and biotic interactions in driving associations between the biodiversity of disparate taxa. It is particularly challenging to understand diversity–diversity links across domains and habitats, because data are rarely available for multiple above‐ and below‐ground taxa across multiple sites.Here, we analyse data from a unique biodiversity data set gathered across a variety of oceanic temperate terrestrial habitats in Wales, comprising 300 sites with co‐located soil microbial, plant, bird and pollinator surveys along with climate and soil physicochemical information. Soil groups are analysed using metabarcoding of the 16S, ITS1 and 18S DNA regions, allowing in‐depth characterisation of microbial and soil animal biodiversity.We explore biodiversity relationships along three aspects of community composition: First, we assess correlation between the alpha diversity of different groups. Second, we assess whether biotic turnover between sites is correlated across different groups. Finally, we investigate the co‐occurrence of individual taxa across sites. In each analysis, we assess the contribution of linear or nonlinear environmental effects.We find that a positive correlation between alpha diversity of plants, soil bacteria, soil fungi, soil heterotrophic protists, bees and butterflies is in fact driven by complex nonlinear responses to abiotic drivers. In contrast, environmental variation did not account for positive associations between the diversity of plants and both birds and AM fungi, suggesting a role for biotic interactions.Both the diversity and taxon‐level associations between the differing soil groups remained even after accounting for nonlinear environmental gradients. Above‐ground, spatial factors played larger roles in driving biotic communities, while linear environmental gradients were sufficient to explain many group‐ and taxon‐level relationships.Synthesis. Our results show how nonlinear responses to environmental gradients drive many of the relationships between plant biodiversity and the biodiversity of above‐ and below‐ground biological communities. Our work shows how different aspects of biodiversity might respond nonlinearly to changing environments and identifies cases where management‐induced changes in one community could either influence other taxa or lead to loss of apparent biological associations. [ABSTRACT FROM AUTHOR]

Published

2024

31. Time is of the essence: A general framework for uncovering temporal structures of communities.

Author

Yin, Hannah and Rudolf, Volker H. W.

Subjects

*QUESTION & answer websites, *BIOTIC communities, *GRAPH theory, *TIME series analysis, *CLIMATE change

Abstract

Ecological communities are inherently dynamic: species constantly turn over within years, months, weeks or even days. These temporal shifts in community composition determine essential aspects of species interactions and how energy, nutrients, information, diseases and perturbations 'flow' through systems. Yet, our understanding of community structure has relied heavily on static analyses not designed to capture critical features of this dynamic temporal dimension of communities. Here, we propose a conceptual and methodological framework for quantifying and analysing this temporal dimension. Conceptually, we split the temporal structure into two definitive features, sequence and duration, and review how they are linked to key concepts in ecology. We then outline how we can capture these definitive features using perspectives and tools from temporal graph theory. We demonstrate how we can easily integrate ongoing research on phenology into this framework and highlight what new opportunities arise from this approach to answer fundamental questions in community ecology. As climate change reshuffles ecological communities worldwide, quantifying the temporal organization of communities is imperative to resolve the fundamental processes that shape natural ecosystems and predict how these systems may change in the future. [ABSTRACT FROM AUTHOR]

Published

2024

32. Biodiversity of macroalgae does not differentially suppress coral performance: The other side of a biodiversity issue.

Author

Clements, Cody S., Pratte, Zoe A., Stewart, Frank J., and Hay, Mark E.

Subjects

*BIOTIC communities, *CORALS, *MARINE algae, *BIODIVERSITY, *SYMBIODINIUM, *CORAL bleaching, *SPECIES diversity, *FIELD research

Abstract

Hundreds of studies now document positive relationships between biodiversity and critical ecosystem processes, but as ecological communities worldwide shift toward new species configurations, less is known regarding how the biodiversity of undesirable species will shape the functioning of ecosystems or foundation species. We manipulated macroalgal species richness in experimental field plots to test whether and how the identity and diversity of competing macroalgae affected the growth, survival, and microbiome of a common coral in Mo'orea, French Polynesia. Compared to controls without algal competitors, coral growth was significantly suppressed across three macroalgal monocultures, a polyculture of the same three macroalgae, and plots containing inert seaweed mimics; coral mortality was limited and did not differ significantly among treatments. One macroalga suppressed coral growth significantly less than the other two, but none differed from the inert mimic in terms of coral suppression. The composition, dispersion, and diversity of coral microbiomes in treatments with live macroalgae or inert plastic mimics did not differ from controls experiencing no competition. Microbiome composition differed between two macroalgal monocultures and a monoculture versus plastic mimics, but no other microbiome differences were observed among macroalgal or mimic treatments. Together, these findings suggest that algal diversity does not alter harmful impacts of macroalgae on coral performance, which could be accounted for by physical structure alone in these field experiments. While enhancing biodiversity is a recognized strategy for promoting desirable species, it would be worrisome if biodiversity also enhanced the negative impacts of undesirable species. We documented no such effects in this investigation. [ABSTRACT FROM AUTHOR]

Published

2024

33. Native and Non-Indigenous Biota Associated with the Cymodocea nodosa (Tracheophyta, Alismatales) Meadow in the Seas of Taranto (Southern Italy, Mediterranean Sea).

Author

Denti, Giuseppe, Rubino, Fernando, Cecere, Ester, and Petrocelli, Antonella

Subjects

*INTRODUCED species, *COASTAL organisms, *TERRITORIAL waters, *BIOTIC communities, *PHANEROGAMS

Abstract

The collection of photos during the systematic monitoring activities is useful to witness the ecological role of marine phanerogams as hosts for a rich variety of organisms in coastal and transitional waters. Cymodocea nodosa is present in the Taranto seas. In Mar Piccolo, it reached high coverage in a short amount of time, up to 100%, due to the improvement in environmental conditions. The most recent observations showed that it offers a welcoming habitat for several vertebrates and invertebrates, native and non-indigenous, as well as to micro- and macroalgae. The NPPR-funded activities will make these observations more robust and structural. [ABSTRACT FROM AUTHOR]

Published

2024

34. Inventory of lichenised and lichenicolous fungi of Nordaustlandet, Svalbard.

Author

Konoreva, Liudmila A., Chesnokov, Sergey V., and Bolshakov, Sergey Yu.

Subjects

LICHENS, NUMBERS of species, FUNGI, INVENTORIES, BIOTIC communities, SUBSPECIES

Abstract

Nordaustlandet is the northernmost and one of the most inaccessible regions of Svalbard. The lichens of the Nordaustlandet were studied most actively from the mid-nineteenth century to the 40 s of the twentieth century. It was during this period that significant collections of lichens were collected, which still form the basis for some taxonomic studies. Thanks to large-scale research conducted by the Avrorin Polar-Alpine Botanical Garden-Institute of the Kola Science Center of the Russian Academy of Sciences for 3 years (2010–2012), we were able to make a significant contribution to the knowledge of Nordaustlandet lichens. The study of the lichen biota of Murchisonfjorden prompted us to summarise all the information about the lichens and lichenophilous fungi of Nordaustlandet, as well as to evaluate the degree of detection of the lichen flora. The checklist includes 477 lichen species, 2 subspecies and 22 species and one subspecies of lichenicolous fungi, of which Calogaya bryochrysion, Diplotomma lutosum, Flavoplaca flavocitrina, Lecanora intumescens and Zwackhiomyces coepulonus are reported for the first time for the Svalbard archipelago and another 40 species—for Nordaustlandet. The richest in terms of the number of species is Gustav V Land (415 species and two subspecies of lichens and 18 species and one subspecies of lichenicolous fungi). An assessment of lichen biota diversity using an integrated approach based on Hill numbers showed that the data cover a maximum of 80.93% of the total number of lichen species in the study area. [ABSTRACT FROM AUTHOR]

Published

2024

35. Phenospectral similarity as an index of ecological integrity.

Author

Darko, Patrick Osei, Laliberté, Etienne, Kalacska, Margaret, Arroyo-Mora, J. Pablo, Gonzalez, Andrew, and Zuloaga, Juan

Subjects

ECOLOGICAL integrity, NATURE conservation, BIOTIC communities, BIODIVERSITY conservation, REMOTE-sensing images, BIODIVERSITY

Abstract

In collaboration with the International Union for the Conservation of Nature (IUCN) Taskforce on Biodiversity and Protected Areas, countries worldwide are working to develop a new systematic approach to inform the Key Biodiversity Areas (KBAs) initiative. The goal is to map KBAs from the national to global scales with a baseline international standard in support of biodiversity conservation efforts. According to the IUCN standard, one of the five criteria used to identify potential KBAs, is the Ecological Integrity (EI) of the ecosystem. Sites identified with respect to EI must have an intact ecological community and be characterized by minimal anthropogenic disturbance. In this study, a new EI metric, phenospectral similarity (PSpecM), has been developed and implemented in Google Earth Engine to identify potential forest stands of high EI from a large set of candidate stands. The implementation of PSpecM requires a network of known reference sites of high EI and target ecological units of the same land cover type for comparison to help identify potential sites of high EI. Here, we tested PSpecM on a ~12,000 km² study area in the Laurentian region, Quebec, Canada, using Sentinel-2 and PlanetScope (Dove) satellite imagery. Considering the phenological effect on reflectance, we found a 2,700 km² spatial extent, equivalent to approximately 22% of the study area, commonly delineated as potential areas of high EI by both PlanetScope (Dove) and Sentinel-2. Without consideration of phenology, the total area delineated as potential areas of high EI increased to 5,505 km², equivalent to around 45% of the study area. Our results show that PSpecM can be computed for rapid assessments of forest stands to identify potential areas of high EI on a large geographic scale and serve as an additional conservation tool that can be applied to the ongoing global and national identification of KBAs. [ABSTRACT FROM AUTHOR]

Published

2024

36. Sources of confusion in global biodiversity trends.

Author

Boënnec, Maëlys, Dakos, Vasilis, and Devictor, Vincent

Subjects

*BIODIVERSITY monitoring, *BIODIVERSITY, *LITERATURE reviews, *BIOTIC communities, *BIODIVERSITY conservation

Abstract

Populations and ecological communities are changing worldwide, and empirical studies exhibit a mixture of either declining or mixed trends. Confusion in global biodiversity trends thus remains, while assessing such changes is of major social, political, and scientific importance. Part of this variability may arise from the difficulty to reliably assess global biodiversity trends. Here, we conducted a literature review of studies documenting the temporal dynamics of global biodiversity. We classified the differences among approaches, data, and methodology used by the reviewed papers to reveal common findings and sources of discrepancies. We show that reviews and meta‐analyses, along with the use of global indicators, are more likely to conclude that trends are declining. On the other hand, the longer the data are available, the more nuanced are the trends they generate. Our results also highlight the lack of studies providing information on the impact of synergistic pressures on a global scale, making it even more difficult to understand the driving factors of the observed changes and how to decide conservation plan accordingly. Finally, we stress the importance of taking into account the sources of confusion identified, as well as the complexity of biodiversity changes, in order to implement effective conservation strategies. In particular, biodiversity dynamics are almost systematically assumed to be linear, while non‐linear trends are largely neglected. Clarifying the sources of confusion in global biodiversity trends should strengthen large‐scale biodiversity monitoring and conservation. [ABSTRACT FROM AUTHOR]

Published

2024

37. Native fish assemblages in natural lakes across Japan: Endemism deterioration lasting centuries.

Author

Dai, Bingguo, Matsuzaki, Shin‐ichiro S., Negishi, Junjiro N., Xia, Zhijun, Alam, Md. Khorshed, and Jiang, Zhongguan

Subjects

*NATIVE fishes, *ENDEMIC fishes, *ENDEMIC species, *BIOTIC communities, *BIODIVERSITY, *FRESHWATER biodiversity, *FISH diversity

Abstract

Aim: This study aimed to illustrate the changing diversity patterns of native freshwater fish in the past two centuries and to identify priority locations for native fish conservation to counter future degradation. Location: Japanese archipelago. Methods: We used the published native fish fauna data in 39 lakes across Japan, analysing historical and current diversity and projecting future distribution patterns based on the Japanese Red List. We assessed fish assemblages' taxonomic, phylogenetic, and functional alpha and beta diversity across different periods. Additionally, we proposed a cumulative diversity index that incorporated taxonomic, phylogenetic and functional facets, and then examined its relationship with the latitudinal positioning of the lakes across periods. Results: We observed a significant decrease in the richness of native freshwater fish since historical periods. Accompanying this decline were significant reductions in both phylogenetic relatedness and functional redundancy. Fish beta diversity increased from the past to the present and is predicted to decline drastically, indicating an ongoing homogenization process. Using the cumulative diversity index, we identified Hokkaido and Kyushu as crucial habitats for endemic fishes. These islands, with unique biogeographical backgrounds, contributed substantially to the national dissimilarity patterns of native fish assemblages in the historical period. However, the contribution is diminishing due to the ongoing decline in fish endemism. Main Conclusions: The conservation priority of native freshwater fish in Japan should be assigned to Hokkaido and Kyushu due to the inhabited endemic species. The proposed framework for assessing the cumulative diversity of biotic communities presented the potential to aid macroecological explorations that underpin biodiversity conservation. [ABSTRACT FROM AUTHOR]

Published

2024

38. Stereo-video landers can rapidly assess marine fish diversity and community assemblages.

Author

Matthews, Kinsey E., Fields, Ryan T., Cieri, Kathleen P., Mohay, Jacklyn L., Gleason, Mary G., and Starr, Richard M.

Subjects

FISH diversity, MARINE fishes, FISHING villages, SPECIES diversity, CONTINENTAL slopes, FISH communities, BIOTIC communities

Abstract

Climate change and anthropogenic stressors affect the distribution, abundance, and diversity of fish communities across the world. To understand rapidly changing biotic communities, resource managers need a method to quickly and efficiently document temporal and spatial changes in community assemblages across various spatial scales. In this study, we describe the use of new video lander tools to survey fish communities in rocky marine habitats on the continental shelf and slope in California, USA. We evaluate how fish diversity metrics determined by video surveys vary among geographically distinct areas. Our results demonstrate that species diversity, evenness, and richness vary spatially across the coast. Furthermore, community assemblages differ at both broad and fine spatial scales because of differences among habitats. Length frequencies and densities of species in this study were similar to those reported in previous studies. As community assemblages and biodiversity metrics shift in response to changing stressors, it is increasingly important to develop tools and methodologies to detect and rapidly monitor these changes. [ABSTRACT FROM AUTHOR]

Published

2024

39. Navigating a broken river: Understanding the ecological consequences of fragmentation on benthic life.

Author

Sofi, Mohd Sharjeel, Bhat, Sami Ullah, and Muslim, Mohd

Subjects

BIOTIC communities, AQUATIC biodiversity, RIVER ecology, BIODIVERSITY conservation, FRAGMENTED landscapes, FRESHWATER biodiversity

Abstract

Habitat fragmentation is emerging as a leading cause of biodiversity decline in riverine ecosystems. Several natural and human factors contribute to the fragmentation of rivers. River fragmentation is a growing problem that is widely spread and poses a significant challenge to the conservation of freshwater biodiversity, but its impact is not fully documented and acknowledged. Fragmentation impedes the movement of aquatic organisms and alters natural flow regimes, disrupting habitats and trophic supplies for aquatic biodiversity. It can also affect the adaptive ability of organisms to natural environmental changes, leading to a change in the structure and function of biotic communities. To understand the effects of fragmentation on river ecology, it is crucial to link its spatial and structural implications. This article examines the occurrence and frequency of fragmentation and its effects on the ecological community of benthic biota. This review aims to elucidate the overall effects of fragmentation on river ecology and recommends the possible measures to mitigate its impact. Urgent action is required to establish a comprehensive global network of free‐flowing river systems and revive previously exploited rivers in different regions to enhance the protection and sustainable utilization of river ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

40. Achieving "nature positive" requires net gain legislation: Reforms underway in Australia highlight key challenges.

Author

Thomas, Hannah, Yi Fei Chung, Maron, Martine, Rhodes, Jonathan R., Simmonds, Jeremy S., Ward, Michelle S., and Williams, Brooke A.

Subjects

*BIOTIC communities, *REFORMS, *ECOLOGICAL integrity, *COMMUNITY-based programs, *BIODIVERSITY, *ENVIRONMENTAL degradation

Abstract

The article focuses on the concept of "nature positive" and its growing adoption as a framework for biodiversity conservation. Topics include Australia's pioneering commitment to nature positive reforms, the challenges in translating these commitments into effective policy, and the proposed steps for achieving genuine nature positive outcomes, such as legislating for absolute net gain and mitigating biodiversity loss from development.

Published

2024

41. Cecelia Stokes.

Subjects

*HISTORY of biology, *BIOTIC communities, *REWARD (Psychology), *BOTANY, *NATURAL history

Abstract

The document profiles Cecelia Stokes, a first-generation queer PhD student in fungal ecology and evolution at the University of Wisconsin-Madison. Stokes was inspired by the southern Appalachian Mountains to pursue plant science and later shifted her focus to fungi. She aims to demystify fungal ecology and contribute to conservation efforts. Stokes is motivated by curiosity, a quest for knowledge, and a desire to create an inclusive science community. She credits her mentors and advisors for shaping her scientific journey and looks up to them as role models. The document also highlights Stokes' favorite New Phytologist papers on ectomycorrhizal fungi and her favorite fungus, Pseudoboletus parasiticus. [Extracted from the article]

Published

2024

42. Biodiversity is enhanced by sequential resource utilization and environmental fluctuations via emergent temporal niches.

Author

Bloxham, Blox, Lee, Hyunseok, and Gore, Jeff

Subjects

*COMPETITION (Biology), *NUMBERS of species, *BIOTIC communities, *RESOURCE exploitation, *BIODIVERSITY, *GROWING season

Abstract

How natural communities maintain their remarkable biodiversity and which species survive in complex communities are central questions in ecology. Resource competition models successfully explain many phenomena but typically predict only as many species as resources can coexist. Here, we demonstrate that sequential resource utilization, or diauxie, with periodic growth cycles can support many more species than resources. We explore how communities modify their own environments by sequentially depleting resources to form sequences of temporal niches, or intermediately depleted environments. Biodiversity is enhanced when community-driven or environmental fluctuations modulate the resource depletion order and produce different temporal niches on each growth cycle. Community-driven fluctuations under constant environmental conditions are rare, but exploring them illuminates the temporal niche structure that emerges from sequential resource utilization. With environmental fluctuations, we find most communities have more stably coexisting species than resources with survivors accurately predicted by the same temporal niche structure and each following a distinct optimal strategy. Our results thus present a new niche-based approach to understanding highly diverse fluctuating communities. Author summary: Natural ecosystems feature huge numbers of coexisting species, and understanding what dynamics arise from this complexity is a core focus of ecology. Here, we study these dynamics from the perspective of resource competition. In many ecosystems, resources (i.e. food) become available in discrete pulses (for example, at the start of a growing season) and are depleted between pulses. When multiple resources are available, some resources are inevitably depleted faster than others. When species consume resources one at a time but with preference orders that differ between species, sequential resource depletions create rich patterns of species sometimes being in direct competition and sometimes competing for separate resources. We explore these rich dynamics and show that when fluctuations in the relative supply of each resource varies from one pulse to another so does the resource depletion order. These variations allow many more species than resources to coexist, violating the canonical "competitive exclusion principle". We develop a framework of temporal niches that illuminates the competitive dynamics within these communities and accurately predicts which species will survive. The predictive power of these temporal niches represents a significant advance in our ability to understand complex communities from the perspective of resource competition. [ABSTRACT FROM AUTHOR]

Published

2024

43. Long‐term shift towards shady and nutrient‐rich habitats in Central European temperate forests.

Author

Vild, Ondřej, Chudomelová, Markéta, Macek, Martin, Kopecký, Martin, Prach, Jindřich, Petřík, Petr, Halas, Petr, Juříček, Michal, Smyčková, Marie, Šebesta, Jan, Vojík, Martin, and Hédl, Radim

Subjects

*TEMPERATE forests, *HABITATS, *FOREST biodiversity, *PLANT diversity, *SPECIES diversity, *BIOTIC communities

Abstract

Summary: Biodiversity world‐wide has been under increasing anthropogenic pressure in the past century. The long‐term response of biotic communities has been tackled primarily by focusing on species richness, community composition and functionality. Equally important are shifts between entire communities and habitat types, which remain an unexplored level of biodiversity change.We have resurveyed > 2000 vegetation plots in temperate forests in central Europe to capture changes over an average of five decades. The plots were assigned to eight broad forest habitat types using an algorithmic classification system. We analysed transitions between the habitat types and interpreted the trend in terms of changes in environmental conditions.We identified a directional shift along the combined gradients of canopy openness and soil nutrients. Nutrient‐poor open‐canopy forest habitats have declined strongly in favour of fertile closed‐canopy habitats. However, the shift was not uniform across the whole gradients.We conclude that the shifts in habitat types represent a century‐long successional trend with significant consequences for forest biodiversity. Open forest habitats should be urgently targeted for plant diversity restoration through the implementation of active management. The approach presented here can be applied to other habitat types and at different spatio‐temporal scales. [ABSTRACT FROM AUTHOR]

Published

2024

44. A unified framework for partitioning the drivers of stability of ecological communities.

Author

Segrestin, Jules, Götzenberger, Lars, Valencia, Enrique, de Bello, Francesco, and Lepš, Jan

Subjects

*BIOTIC communities, *DATA analysis, *BIODIVERSITY, *ECOSYSTEMS

Abstract

Aim: Identifying the drivers of ecological stability is critical for ensuring the maintenance of ecosystem functioning and services, particularly in a changing world. Different ecological mechanisms by which biological communities stabilize ecosystem functions (i.e. "stabilizing effects") have been proposed, yet with various theoretical expectations and debated conclusions. Here we propose a unified framework that aims at reconciling, and combining, different approaches to reliably test the strength of three stabilizing effects on the temporal constancy of ecosystem functions: the effects of (a) dominant species, (b) species asynchrony, and (c) diversity. Innovation: Compared to existing developments the approach allows, for the first time, disentangling these three stabilizing effects at the level of individual communities. So far this was not possible, and conclusions depended on indirect tests and comparative analyses across communities. We also propose a graphical representation of the relative contributions of the three stabilizing effects on a ternary plot, allowing us to easily compare communities sampled in various ecological contexts in a standardized space. Main conclusions: Our study answers the current need for a unified framework to link theoretical concepts on the temporal stability of ecological communities to data analysis. The present development promises flexible tests for a deeper understanding of the ecological stabilization of biodiversity and the relative importance of its components. [ABSTRACT FROM AUTHOR]

Published

2024

45. Impacts of noise pollution from high-speed rail and road on bird diversity: a case study in a protected area of Italy.

Author

Bergamini, Ester, Prandelli, Sofia, Minelli, Fausto, and Gatti, Roberto Cazzolla

Subjects

BIRD diversity, NOISE pollution, PROTECTED areas, RAILROADS, BIOTIC communities, BIRD populations, HIGH speed trains

Abstract

The disturbance of infrastructures may affect biological communities that are exposed to them. This study assesses the impact of high-speed (highway and railway) infrastructures in a protected study site, the Natural Reserve Fontanili di Corte Valle Re (Emilia–Romagna, Italy). We compared bird diversity with sound intensity and frequency in three sampling areas, increasingly distant from the infrastructures at the border with the reserve, during the last 4 years (2019–2022), monitoring sedentary, nesting, and migratory bird species. We hypothesize a decreasing diversity closer to the source of disturbance, which is mostly attributable to noise pollution. Our findings confirmed this trend, and we show that, in particular, disturbance seems to influence species richness more than the total abundance of birds. We also discovered that highway disturbance was much higher than railway in terms of frequency and duration. In light of these results, we suggest that some species, which have a behavioral ecology strongly based on singing to communicate with each other for their reproductive and defensive strategies, may suffer more from constant acoustic disturbance. The installation of effective noise barriers to shield the sound produced by the highways should be considered a mandatory request not only in proximity to houses but also in the vicinity of protected areas. [ABSTRACT FROM AUTHOR]

Published

2024

46. Liberate the power of biodiversity literature as FAIR digital objects.

Author

Agosti, Donat, Bénichou, Laurence, Casino, Ana, Nielsen, Lars Holm, Ruch, Patrick, Kishor, Puneet, Penev, Lyubomir, Mergen, Patricia, and Arvanitidis, Christos

Subjects

BIODIVERSITY, ARTIFICIAL intelligence, TAXONOMY, PHENOTYPES, BIOTIC communities

Abstract

Knowledge about biodiversity is largely embedded in a daily growing corpus of over 500 million pages of biodiversity literature that is not machine-actionable. It is thus not open to building a biodiversity knowledge graph, or facilitating the use of artificial intelligence tools. This hinders the completion of a much-needed taxonomic name reference system, prevents the discovery of the biotic interactions underpinning the prediction and understanding of global change trends and consequences, viral spillovers, annotation of genes with their respective phenotypes, and their citations in various domains dealing with biological species such as conservation, agriculture, medicine, life sciences and industry, necessary to achieve the objectives of the Green Deal and address the targets identified in the Global Biodiversity Framework. This Policy Brief highlights key actions that can liberate the scientific data published, exploit their use , promote an enhanced way to publish, and ultimately foster excellence and innovation in biodiversity science, monitoring and conservation. [ABSTRACT FROM AUTHOR]

Published

2024

47. Diversity of Macrophytes and Macroinvertebrates in Different Types of Standing Waters in the Drava Field.

Author

Germ, Mateja, Tertinek, Žiga, and Zelnik, Igor

Subjects

MACROPHYTES, RIPARIAN plants, INVERTEBRATES, RIPARIAN areas, BIOTIC communities, PONDS

Abstract

The diversity of macrophytes and macroinvertebrates in small standing waters of different origins and characteristics was investigated. This survey covered 19 ponds in the Drava field in northeastern Slovenia. The influence of the macrophytes on the macroinvertebrates was investigated and the main environmental factors that had the most significant influence on the composition of the two communities were identified. Sixty-seven taxa of macrophytes and seventy-three families of macroinvertebrates were identified. We found that a diverse macrophyte community has a positive effect on the macroinvertebrate community. In contrast, the dominance of a single macrophyte species has a strong negative influence on the richness of the macroinvertebrate community. The taxonomic richness and abundance of the macroinvertebrate community in the natural ponds was statistically significantly higher than that in artificial ponds. The significant differences in the environmental characteristics between the natural and artificial ponds, such as the macrophyte cover, conductivity, and riparian zone width, may account for these differences. Our study suggests that a greater diversity of macrophyte and macroinvertebrate communities in natural ponds is enabled by abundant but diverse macrophyte cover, low phosphorus content, and wide riparian zones, which require appropriate management of ponds and their catchments. [ABSTRACT FROM AUTHOR]

Published

2024

48. A new symmetrodont mammal from the Early Cretaceous Jehol Biota of Ningcheng Basin, Inner Mongolia, Northeast China.

Author

HONGGANG ZHANG, CHANG-FU ZHOU, and ZHE-XI LUO

Subjects

*FOSSIL vertebrates, *BIOTIC communities, *DINOSAURS, *BICUSPIDS, *BIODIVERSITY

Abstract

Recently, a dinosaur assemblage with three-dimensional preservation of the Early Cretaceous Jehol Biota has been discovered in the Ningcheng Basin, Inner Mongolia, China. Of the vertebrate fossils, a new spalacotherioid "symmetrodont" mammal is described here as Ningchengodon foxi gen. et sp. nov. The specimen is an incomplete right dentary characterized by a lower dental formula of i3/c1/p3/m5, with molar cusps in acute-triangulation. Cusps e and f embraced cusp d of the preceding molar forming a molar interlocking, reported here for the first time for acute-angled spalacotherioids. Phylogenetically, the new taxon is placed in the clade of Spalacotherioidea, and clustered at the base of the paraphyletic zhangheotheriids although its relationship is not further resolved with other zhangheotheriids. Additionally, the ultimate premolar replacement is simultaneous with the m5 eruption as in Origolestes lii and Zhangheotherium quinquecuspidens. This discovery enriches the biodiversity of spalacotherioids, and further highlights the complexity of the Zhangheotheriidae in evolution. [ABSTRACT FROM AUTHOR]

Published

2024

49. DNA metabarcoding of light trap samples vs. morphological species identification.

Author

Strutzenberger, Patrick, Gottsberger, Brigitte, Bodner, Florian, Bartusel, Fabian, Jerga, Daniel, and Fiedler, Konrad

Subjects

*INSECT traps, *GENETIC barcoding, *BIOTIC communities, *BIODIVERSITY monitoring, *SPECIES

Abstract

DNA metabarcoding has developed into a commonly used tool for biodiversity assessment and monitoring. How results from DNA metabarcoding are compared with studies based on 'classic', in most cases morphological species identification, is still unclear. Studies investigating species detection against a known baseline are virtually non‐existent.In this study, we used light trap samples collected in eastern Austria to investigate the concordance between morphological species lists and results obtained from COI metabarcoding using the Illumina MiSeq platform. Two primer combinations of different lengths (313 and 205 bp) were compared to assess the influence of amplicon length.Species detection rates ranged between 0.38 and 0.69; the shorter amplicon had on average higher species detection rates compared with the longer amplicon. Singleton species were less likely to be detected through metabarcoding.The major determinant for a species to be detected was its biomass, viz. smaller species had a lower chance to be detected. However, there is also evidence of taxonomic bias on the level of superfamilies. While the influence of biomass is to be expected, the presence of taxonomic bias gives reason for concern and requires further studies. Such a bias can be of significance when metabarcoding is used to determine conservation measures. Ordination analyses of all sampling sites showed that as far as community ecology is concerned, the overall pattern obtained from the full species list was mostly preserved in our metabarcoding results. [ABSTRACT FROM AUTHOR]

Published

2024

50. Updated List of Bryophytes from Cape Verde Archipelago.

Author

Sim-Sim, Manuela, Martins, Anabela, and Garcia, Cesár Augusto

Subjects

*BRYOPHYTES, *ARCHIPELAGOES, *LIVERWORTS, *BOTANY, *BIOTIC communities

Abstract

The aim of the present study is to update the list of bryophytes in the Cape Verde archipelago, with a focus on its distinctive terrestrial biota. The research was carried out through a combination of herbarium collections revision and fieldwork conducted from 2016 to 2019. The revised list includes 185 bryophyte taxa (175 species, 5 subspecies, and 5 varieties) from 93 genera and 42 families. Notably, 8 taxa are endemic, and the inclusion of 35 new taxa further enriches the bryophyte diversity of the archipelago. The distribution of bryophyte taxa varies across islands, with Santo Antão, São Nicolau, and Fogo exhibiting particularly high diversity. Acrocarpous mosses are the most common growth form (58.4%), followed by pleurocarpous mosses, thalloid liverworts (15.1% each), and leafy liverworts (11.4%). In conclusion, this study provides valuable insights into the bryophyte diversity of southern Macaronesia enhancing our understanding of its unique flora and emphasizing the imperative need for conservation efforts. [ABSTRACT FROM AUTHOR]

Published

2024