Your search keyword '"phylogenetic diversity"' showing total 568 results

1. Forest and Biodiversity 2: A tree diversity experiment to understand the consequences of multiple dimensions of diversity and composition for long‐term ecosystem function and resilience

Author

Jeannine Cavender‐Bares, Jake J. Grossman, J. Antonio Guzmán Q., Sarah E. Hobbie, Matthew A. Kaproth, Shan Kothari, Cathleen N. Lapadat, Rebecca A. Montgomery, and Maria Park

Subjects

ecosystem function, experimental platform, functional diversity, phylogenetic diversity, remote sensing, tree diversity, Ecology, QH540-549.5, Evolution, QH359-425

Abstract

Abstract We introduce a new “ecosystem‐scale” experiment at the Cedar Creek Ecosystem Science Reserve in central Minnesota, USA to test long‐term ecosystem consequences of tree diversity and composition. The experiment—the largest of its kind in North America—was designed to provide guidance on forest restoration efforts that will advance carbon sequestration goals and contribute to biodiversity conservation and sustainability. The new Forest and Biodiversity (FAB2) experiment uses native tree species in varying levels of species richness, phylogenetic diversity and functional diversity planted in 100 m2 and 400 m2 plots at 1 m spacing, appropriate for testing long‐term ecosystem consequences. FAB2 was designed and established in conjunction with a prior experiment (FAB1) in which the same set of 12 species was planted in 16 m2 plots at 0.5 m spacing. Both are adjacent to the BioDIV prairie‐grassland diversity experiment, enabling comparative investigations of diversity and ecosystem function relationships between experimental grasslands and forests at different planting densities and plot sizes. Within the first 6 years, mortality in 400 m2 monoculture plots was higher than in 100 m2 plots. The highest mortality occurred in Tilia americana and Acer negundo monocultures, but mortality for both species decreased with increasing plot diversity. These results demonstrate the importance of forest diversity in reducing mortality in some species and point to potential mechanisms, including light and drought stress, that cause tree mortality in vulnerable monocultures. The experiment highlights challenges to maintaining monoculture and low‐diversity treatments in tree mixture experiments of large extent. FAB2 provides a long‐term platform to test the mechanisms and processes that contribute to forest stability and ecosystem productivity in changing environments. Its ecosystem‐scale design, and accompanying R package, are designed to discern species and lineage effects and multiple dimensions of diversity to inform restoration of ecosystem functions and services from forests. It also provides a platform for improving remote sensing approaches, including Uncrewed Aerial Vehicles (UAVs) equipped with LiDAR, multispectral and hyperspectral sensors, to complement ground‐based monitoring. We aim for the experiment to contribute to international efforts to monitor and manage forests in the face of global change.

Published

2024

2. Relationship Between Evolutionary Diversity and Aboveground Biomass During 150 Years of Natural Vegetation Regeneration in Temperate China

Author

Qilong Tian, Xiaoping Zhang, Miaoqian Wang, Jie He, Xiaoming Xu, Liang He, Haijie Yi, and Haojia Wang

Subjects

carbon sink, ecosystem function, phylogenetic diversity, phylogenetic structure, vegetation succession, Ecology, QH540-549.5

Abstract

ABSTRACT While the link between plant species diversity and biomass has been well‐studied, the impact of evolutionary diversity on community biomass across long timescales or ongoing change remains a subject of debate. We elucidated the association between evolutionary diversity and community aboveground biomass (AGB) using an ideal experimental system with over 150‐year history of natural vegetation regeneration. Higher phylogenetic diversity facilitated the sampling effect under the influence of environmental filtering, and caused an increase in AGB. Phylogenetic structure varied from aggregation to dispersion during the later period of vegetation recovery (70–150 years), which was correlated with increases in niche complementarity and increasing AGB. Woody plant evolutionary diversity was used as a key to predict the relationship between vegetation recovery and AGB, with a total explanatory power of ~84.7%. Mixed forests composed of evergreen conifers and deciduous broadleaf forests had higher carbon sequestration potential than that of pure forests, which is advantageous for increasing top‐stage AGB. This research expands our knowledge of the causes and effects of biodiversity and ecosystem function dynamics over time and space, which is important for accurately predicting future climate change effects.

Published

2024

3. Imprints of land use history and disturbance regime in phylogenetic diversity of Mediterranean plant communities

Author

Anna Mastrogianni, Diogenis A. Kiziridis, Magdalini Pleniou, Fotios Xystrakis, Spyros Tsiftsis, and Ioannis Tsiripidis

Subjects

competition, disturbance, forest, grassland, land use change, phylogenetic diversity, Ecology, QH540-549.5

Abstract

Abstract Mediterranean landscapes were drastically affected by high levels of abandonment of agricultural and other land practices during the last century. These changes in land use can have significant effects on diversity patterns by altering disturbance and competition equilibria within plant communities at the landscape level. Particularly, such changes have been found to affect the patterns of phylogenetic diversity and structure by causing nonrandom losses of species through filtering effects and landscape homogenization. By investigating diversity patterns across a region submitted to high levels of land use changes, located in a (sub‐) mountainous area of northwestern Greece (northern Pindus), we aimed at understanding the patterns of phylogenetic diversity and structure in relation to land abandonment and the subsequent recovery of natural vegetation. We sampled 250 vegetation plots equally divided in grasslands and forests, distributed across the different classes of land use occurring in the general study area based on the period since the last change in land use. Standardized metrics of Faith's phylogenetic diversity, mean phylogenetic distance, and mean nearest taxon distance were used to investigate phylogenetic diversity patterns across communities and different land‐use regimes. A Principal Coordinates of Phylogenetic Structure analysis was employed to evaluate the variation in lineage composition among communities, and boosted regression trees were used to identify the relative influence of community differentiation (as captured by the classification of sampling plots in ecologically and floristically distinct vegetation communities), plant life strategies (competition, stress tolerance, and disturbance), and climatic, topographic, and soil variables on phylogenetic diversity metrics. Community differentiation was identified as the main driver of phylogenetic patterns. Additionally, phylogenetic diversity and structure were observed as having a statistically significantly negative correlation with disturbance, a statistically significantly positive correlation with stress tolerance, and a weaker positive correlation with competition. Phylogenetic clustering was observed for the early successional grassland communities submitted to stronger effects of disturbance, while phylogenetic randomness (or rarely overdispersion) was observed in forest communities submitted to stronger effects of competition. Finally, phylogenetic clustering of grassland communities was more evident shortly after land abandonment.

Published

2024

4. Remote sensing for site selection in vegetation survey along a successional gradient in post‐industrial vegetation

Author

Quadri A. Anibaba, Marcin K. Dyderski, Gabriela Woźniak, and Andrzej M. Jagodziński

Subjects

functional diversity, indicator species, phylogenetic diversity, post‐mining sites, species composition, Ecology, QH540-549.5

Abstract

Abstract Vegetation characteristics are an important proxy to measure the outcome of ecological restoration and monitor vegetation changes. Similarly, the classification of remotely sensed images is a prerequisite for many field ecological studies. We have a limited understanding of how the remote sensing approach can be utilized to classify spontaneous vegetation in post‐industrial spoil heaps that dominate urban areas. We aimed to assess whether an objective a priori classification of vegetation using remotely sensed data allows for ecologically interpretable division. We hypothesized that remote sensing‐based vegetation clusters will differ in alpha diversity, species, and functional composition; thereby providing ecologically interpretable division of study sites for further analyses. We acquired remote‐sensing data from Sentinel 2A for each studied heap from July to September 2020. We recorded vascular plant species and their abundance across 400 plots on a post‐coal mine in Upper Silesia, Poland. We assessed differences in alpha diversity indices and community‐weighted means (CWMs) among remote sensing‐based vegetation units. Analysis of remotely sensed characteristics revealed five clusters that reflected transition in vegetation across successional gradients. Analysis of species composition showed that the 1st (early‐succession), 3rd (late‐succession), and 5th (mid‐succession) clusters had 13, 10, and 12 exclusive indicator species, respectively, however, the 2nd and 4th clusters had only one species. While the 1st, 2nd, and 4th can be combined into a single cluster (early‐succession), we found the lowest species richness in the 3rd cluster (late‐succession) and the highest in the 5th cluster (mid‐succession). Shannon's diversity index revealed a similar trend. In contrast, the 3rd cluster (late‐succession) had significantly higher phylogenetic diversity. The 3rd cluster (late‐succession) had the lowest functional richness and the highest functional dispersion. Our approach underscored the significance of a priori classification of vegetation using remote sensing for vegetation surveys. It also highlighted differences between vegetation types along a successional gradient in post‐mining spoil heaps.

Published

2024

5. Soil flooding filters evolutionary lineages of tree communities in Amazonian riparian forests

Author

Sthefanie do Nascimento Gomes deSouza, Darlisson Mesquita Batista, Adriano Costa Quaresma, Ana Luiza Costa, Layon Oreste Demarchi, Bianca Weiss Albuquerque, Viviane Pagnussat Klein, Gildo Feitoza, Angélica Faria de Resende, Gisele Biem Mori, Florian Wittmann, Leidiane Leão Oliveira, Amanda Frederico Mortati, Alan Cavalcanti daCunha, Jochen Schongart, Aline Lopes, Maria Teresa Fernandez Piedade, and Thiago André

Subjects

endemism, overdispersion, phylogenetic diversity, randomness, wetlands, Ecology, QH540-549.5

Abstract

Abstract Inundations in Amazonian black‐water river floodplain result in the selection of different tree lineages, thus promoting coexistence between species. We investigated whether Amazonian tree communities are phylogenetically structured and distributed along a flooding gradient from irregularly flooded forests along streams embedded within upland (terra‐firme) forest to seasonally flooded floodplains of large rivers (igapós). Floristic inventories and hydrological monitoring were performed along the Falsino River, a black‐water river in the eastern Amazon within the Amapá National Forest. We constructed a presence‐and‐absence matrix and generated a phylogeny using the vascular plant database available in GenBank. We calculated the standardized values of the metrics of phylogenetic diversity (ses.PD), average phylogenetic distance (ses.MPD), and average nearest‐neighbor distance (ses.MNTD) to test whether the history of relationships between species in the community is influenced by inundation. We used the phylogenetic endemism (PE) metric to verify the existence of taxa with restricted distribution. Linear regressions were used to test whether phylogenetic metrics have a significant relationship with the variables: maximum flood height, maximum water table depth, and maximum flood amplitude. The results show that forests subject to prolonged seasonal flooding have reduced taxon richness, low phylogenetic diversity, and random distribution of lineages within communities. On the other hand, terra‐firme riparian forests showed higher rates of taxon richness, diversity, and phylogenetic dispersion, in addition to greater phylogenetic endemism. These results indicate that seasonal and predictable soil flooding filters tree lineages along the hydrographic gradient. Different adaptations to root waterlogging are likely requirements for colonization in these environments and may represent an important factor in the diversification of tree lineages in the Amazon biome.

Published

2024

6. A link between evolution and society fostering the UN sustainable development goals

Author

Luc De Meester, Ella Vázquez‐Domínguez, Rees Kassen, Félix Forest, Mauricio R. Bellon, Britt Koskella, Rosa A. Scherson, Licia Colli, Andrew P. Hendry, Keith A. Crandall, Daniel P. Faith, Craig J. Starger, R. Geeta, Hitoshi Araki, Ehsan M. Dulloo, Caroline Souffreau, Sibylle Schroer, and Marc T. J. Johnson

Subjects

contemporary evolutionary change, ecosystem services, genetic diversity, past evolutionary change, phylogenetic diversity, present evolutionary change, Evolution, QH359-425

Abstract

Abstract Given the multitude of challenges Earth is facing, sustainability science is of key importance to our continued existence. Evolution is the fundamental biological process underlying the origin of all biodiversity. This phylogenetic diversity fosters the resilience of ecosystems to environmental change, and provides numerous resources to society, and options for the future. Genetic diversity within species is also key to the ability of populations to evolve and adapt to environmental change. Yet, the value of evolutionary processes and the consequences of their impairment have not generally been considered in sustainability research. We argue that biological evolution is important for sustainability and that the concepts, theory, data, and methodological approaches used in evolutionary biology can, in crucial ways, contribute to achieving the UN Sustainable Development Goals (SDGs). We discuss how evolutionary principles are relevant to understanding, maintaining, and improving Nature Contributions to People (NCP) and how they contribute to the SDGs. We highlight specific applications of evolution, evolutionary theory, and evolutionary biology's diverse toolbox, grouped into four major routes through which evolution and evolutionary insights can impact sustainability. We argue that information on both within‐species evolutionary potential and among‐species phylogenetic diversity is necessary to predict population, community, and ecosystem responses to global change and to make informed decisions on sustainable production, health, and well‐being. We provide examples of how evolutionary insights and the tools developed by evolutionary biology can not only inspire and enhance progress on the trajectory to sustainability, but also highlight some obstacles that hitherto seem to have impeded an efficient uptake of evolutionary insights in sustainability research and actions to sustain SDGs. We call for enhanced collaboration between sustainability science and evolutionary biology to understand how integrating these disciplines can help achieve the sustainable future envisioned by the UN SDGs.

Published

2024

7. An assessment of methods to combine evolutionary history and conservation: A case study in the Brazilian campo rupestre

Author

Raquel C. Pizzardo, Eimear Nic Lughadha, Juliana Gastaldello Rando, Félix Forest, Anselmo Nogueira, Luana S. Prochazka, Barnaby E. Walker, and Thais Vasconcelos

Subjects

campo rupestre, Chamaecrista, EDGE, EDGE2, mountain range, phylogenetic diversity, Biology (General), QH301-705.5, Botany, QK1-989

Abstract

Abstract Premise Conservation policies typically focus on biodiversity hotspots. An alternative approach involves analyzing the evolutionary history of lineages in geographic areas along with their threat levels to guide conservation efforts. Mountains exhibit high levels of plant species richness and micro‐endemism, and biogeographic studies commonly point to recent and rapid evolutionary radiations in these areas. Using a nearly endemic clade of legumes, our study evaluates conservation prioritization approaches in the campo rupestre, a Neotropical ecosystem associated with mountaintops that is located between two biodiversity hotspots. Methods We compared the EDGE and EDGE2 metrics, which combine the evolutionary distinctiveness and the extinction risk of a species in a single value. These metrics are compared with traditional metrics used to assess conservation priority, such as phylogenetic diversity. Results The EDGE values reported are lower than those of other studies using this metric, mostly due to the prevalence of threatened species with short phylogenetic branch lengths (low values of evolutionary distinctiveness). Certain areas of campo rupestre with relatively high phylogenetic diversity and EDGE values do not correspond to areas with high species richness, agreeing with previous studies on biodiversity hotspots. Discussion Our study highlights the necessity of conservation of the campo rupestres as well as advantages and disadvantages of using EDGE, EDGE2, and phylogenetic diversity for appropriate selection of conservation areas with rapid evolutionary radiations. The selection of the metrics will depend primarily on the life history of the focus group and the data availability, as well as the conservation approach.

Published

2024

8. Niche dimensions in soil oribatid mite community assembly under native and introduced tree species

Author

Johanna Elisabeth Noske, Jing‐Zhong Lu, Ina Schaefer, Mark Maraun, Stefan Scheu, and Ting‐Wen Chen

Subjects

acari, beech, douglas fir, environmental filtering, niche partitioning, phylogenetic diversity, Ecology, QH540-549.5

Abstract

Abstract Forest soils are a critical component of terrestrial ecosystems and host a large number of animal decomposer species. One diverse and abundant decomposer taxon is oribatid mites (Acari: Oribatida), whose species composition varies with forest type and tree species composition. We used functional traits that indicate different niche dimensions, to infer assembly processes of oribatid mite communities in monocultures and mixed forests of native and introduced tree species. We found that coexisting species differed more in the resource‐related niche dimension, i.e., reproductive mode and trophic guild, than in the morphological dimension, e.g., body length and width, sclerotization and concealability. These results suggest that both filtering and partitioning processes structure oribatid mite communities. In native European beech forests, but not in non‐native Douglas fir forests, oribatid mites were mainly structured by filtering processes acting via traits related both to environmental tolerance and to resources. Furthermore, oribatid mite trait diversity, but not phylogenetic diversity, differed significantly between monocultures and mixed forests, demonstrating that multidimensional diversity indices provide additional information on soil biodiversity. Overall, the study provides evidence that traits representing different niche dimensions need to be considered for understanding assembly processes in soil animal communities and thereby soil biodiversity.

Published

2024

9. Conserving species' evolutionary potential and history: Opportunities under the Kunming–Montreal Global Biodiversity Framework

Author

Marine Robuchon, Jessica daSilva, Grégoire Dubois, Rikki Gumbs, Sean Hoban, Linda Laikre, Nisha R. Owen, and Andrea Perino

Subjects

biodiversity policies, genetic diversity, multilateral environmental agreements, phylogenetic diversity, science–policy interface, Ecology, QH540-549.5, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Abstract Genetic diversity (GD) and phylogenetic diversity (PD) respectively represent species' evolutionary potential and history, and support most of the biodiversity benefits to humanity. Yet, these two biodiversity facets have been overlooked in previous biodiversity policies. As the Parties to the Convention on Biological Diversity (CBD) adopted the Kunming–Montreal Global Biodiversity Framework (GBF) in December 2022, we analyze how GD and PD are considered in this new framework and discuss how their incorporation in the GBF could strengthen their conservation. Although the inclusion of certain indicators could be elevated, both GD and PD are an integral part of the recently adopted GBF. This represents a significant improvement compared to the CBD strategic plan 2011–2020 and an unprecedented opportunity to bring species' evolutionary potential and history to the core of public biodiversity policies. We urge the scientific community to leverage this opportunity to actually improve the conservation of species' evolutionary potential and history.

Published

2023

10. Impacts of large dams on Amazonian floodplain bird communities

Author

de Melo Martins, G., Menger, Juliana, de Melo, T.N., Ribas, C.C., de Melo Martins, G., Menger, Juliana, de Melo, T.N., and Ribas, C.C.

Abstract

Amazon river floodplains sustain distinct kinds of seasonally flooded habitats along with their specialized biota. River sediment load and geomorphology determine vegetation physiognomy and the occurrence of specialized taxa. Hydropower dams disrupt the annual flooding cycle, affecting the floodplain habitats and associated avifauna. Our goal was to understand how permanent flooding caused by large dams affects taxonomic, functional, and phylogenetic diversity of bird communities in two Amazonian rivers with distinct characteristics. We sampled 35 sites, including undisturbed sites and sites impacted by the permanent flooding caused by large dams operating on the Madeira and Xingu rivers since 2012 and 2016, respectively. We recorded 202 bird species through passive acoustic monitoring. We did not find differences in mean species richness between rivers or between impacted vs. undisturbed sites. However, we found species turnover between distinct river basins and between sites. Undisturbed sites were characterized by floodplain specialists and were more phylogenetically clustered and functionally more similar than impacted sites, which were occupied by more generalist species from different phylogenetic clades, with distinct functional traits. By assessing multiple dimensions of bird diversity, we show that permanent flooding leads to extensive changes in the floodplain avifauna, favoring generalist over specialist species and thus reducing the uniqueness of the affected communities. We demonstrate that alpha diversity metrics alone are insufficient to characterize the impacts of river damming on Amazonian floodplain avifauna. To properly monitor dams' environmental impacts, additional measures of community change should be standardized, with emphasis on species replacements in seasonally flooded environments.

Published

2024

11. Mass‐ratio and complementarity effects simultaneously drive aboveground biomass in temperate Quercus forests through stand structure

Author

Wen‐Qiang Gao, Xiang‐Dong Lei, Dong‐Li Gao, and Yu‐Tang Li

Subjects

complementarity effect, functional composition, functional diversity, mass‐ratio effect, phylogenetic diversity, species richness, Ecology, QH540-549.5

Abstract

Abstract Forests play a key role in regulating the global carbon cycle, a substantial portion of which is stored in aboveground biomass (AGB). It is well understood that biodiversity can increase the biomass through complementarity and mass‐ratio effects, and the contribution of environmental factors and stand structure attributes to AGB was also observed. However, the relative influence of these factors in determining the AGB of Quercus forests remains poorly understood. Using a large dataset retrieved from 523 permanent forest inventory plots across Northeast China, we examined the effects of integrated multiple tree species diversity components (i.e., species richness, functional, and phylogenetic diversity), functional traits composition, environmental factors (climate and soil), stand age, and structure attributes (stand density, tree size diversity) on AGB based on structural equation models. We found that species richness and phylogenetic diversity both were not correlated with AGB. However, functional diversity positively affected AGB via an indirect effect in line with the complementarity effect. Moreover, the community‐weighted mean of specific leaf area and height increased AGB directly and indirectly, respectively; demonstrating the mass‐ratio effect. Furthermore, stand age, density, and tree size diversity were more important modulators of AGB than biodiversity. Our study highlights that biodiversity–AGB interaction is dependent on the regulation of stand structure that can be even more important for maintaining high biomass than biodiversity in temperate Quercus forests.

Published

2021

12. Pulse grazing by reindeer (Rangifer tarandus) can increase the phylogenetic diversity of vascular plant communities in the Fennoscandian tundra

Author

Kate Gibson, Johan Olofsson, Arne Ø. Mooers, and Melanie J. Monroe

Subjects

biodiversity, community structure, grazing, herbivore, phylogenetic diversity, Ecology, QH540-549.5

Abstract

Abstract Herbivore grazing is an important determinant of plant community assemblages. Thus, it is essential to understand its impact to direct conservation efforts in regions where herbivores are managed. While the impacts of reindeer (Rangifer tarandus) grazing on plant biodiversity and community composition in the Fennoscandian tundra are well studied, the impact of reindeer grazing on phylogenetic community structure is not. We used data from a multiyear quasi‐experimental study in northern Fennoscandia to analyze the effect of reindeer grazing on plant community diversity including its phylogenetic structure. Our study design used a permanent fence constructed in the 1960s and temporary fences constructed along the permanent fence to expose plant communities to three different grazing regimes: light (almost never grazed), pulse (grazed every other year), and press (chronic grazing for over 40 years). Similar to previous studies on low productivity ecosystems in this region, the species richness and evenness of plant communities with pulse and press grazing did not differ from communities with light grazing. Also consistent with previous studies in this region, we observed a transition from shrub‐dominated communities with light grazing to graminoid‐dominated communities with pulse and press grazing. Interestingly, communities with pulse, but not press, grazing were more phylogenetically dispersed than communities with light grazing. If grazing pulses can increase the phylogenetic diversity of plant communities, our result suggests changes in reindeer management allowing for pulses of grazing to increase phylogenetic diversity of plant communities.

Published

2021

13. Phylogenetic diversity and conservation of crop wild relatives in Colombia

Author

Carlos E. González‐Orozco, Chrystian C. Sosa, Andrew H. Thornhill, and Shawn W. Laffan

Subjects

agriculture, crop wild relatives, evolution, neotropics, phylogenetic diversity, species richness, Evolution, QH359-425

Abstract

Abstract Crop wild relatives (CWR) are an important agricultural resource as they contain genetic traits not found in cultivated species due to localized adaptation to unique environmental and climatic conditions. Phylogenetic diversity (PD) measures the evolutionary relationship of species using the tree of life. Our knowledge of CWR PD in neotropical regions is in its infancy. We analysed the distribution of CWR PD across Colombia and assessed its conservation status. The areas with the largest concentration of PD were identified as being in the northern part of the central and western Andean mountain ranges and the Pacific region. These centres of high PD were comprised of predominantly short and closely related branches, mostly of species of wild tomatoes and black peppers. In contrast, the CWR PD in the lowland ecosystems of the Amazon and Orinoquia regions had deeply diverging clades predominantly represented by long and distantly related branches (i.e. tuberous roots, grains and cacao). We categorized 50 (52.6%) of the CWR species as ‘high priority’, 36 as ‘medium priority’ and nine as ‘low priority’ for further ex‐situ and in situ conservation actions. New areas of high PD and richness with large ex‐situ gap collections were identified mainly in the northern part of the Andes of Colombia. We found that 56% of the grid cells with the highest PD values were unprotected. These baseline data could be used to create a comprehensive national strategy of CWR conservation in Colombia.

Published

2021

14. Measuring temporal change in alpha diversity: A framework integrating taxonomic, phylogenetic and functional diversity and the iNEXT.3D standardization

Author

Anne Chao, Peter A. Henderson, Chun‐Huo Chiu, Faye Moyes, Kai‐Hsiang Hu, Maria Dornelas, and Anne E. Magurran

Subjects

functional diversity, Hill numbers, iNEXT standardization, phylogenetic diversity, sample coverage, taxonomic diversity, Ecology, QH540-549.5, Evolution, QH359-425

Abstract

Abstract Biodiversity is a multifaceted concept covering different levels of organization from genes to ecosystems. Biodiversity has at least three dimensions: (a) Taxonomic diversity (TD): a measure that is sensitive to the number and abundances of species. (b) Phylogenetic diversity (PD): a measure that incorporates not only species abundances but also species evolutionary histories. (c) Functional diversity (FD): a measure that considers not only species abundances but also species' traits. We integrate the three dimensions of diversity under a unified framework of Hill numbers and their generalizations. Our TD quantifies the effective number of equally abundant species, PD quantifies the effective total branch length, mean‐PD (PD divided by tree depth) quantifies the effective number of equally divergent lineages, and FD quantifies the effective number of equally distinct virtual functional groups (or functional ‘species’). Thus, TD, mean‐PD and FD are all in the same units of species/lineage equivalents and can be meaningfully compared. Like species richness, empirical TD, PD and FD based on sampling data depend on sampling effort and sample completeness. For TD (Hill numbers), the iNEXT (interpolation and extrapolation) standardization was developed for standardizing sample size or sample completeness (as measured by sample coverage, the fraction of individuals that belong to the observed species) to make objective comparisons across studies. This paper extends the iNEXT method to the iNEXT.3D standardization to encompass all three dimensions of diversity via sample size‐ and sample coverage‐based rarefaction and extrapolation under the unified framework. The asymptotic diversity estimates (i.e. sample size tends to infinity and sample coverage tends to unity) are also derived. In addition to individual‐based abundance data, the proposed iNEXT.3D standardization is adapted to deal with incidence‐based occurrence data. We apply the integrative framework and the proposed iNEXT.3D standardization to measure temporal alpha‐diversity changes for estuarine fish assemblage data spanning four decades. The influence of environmental drivers on diversity change are also assessed. Our analysis informs a mechanistic interpretation of biodiversity change in the three dimensions of diversity. The accompanying freeware, iNEXT.3D, developed during this project, facilitates all computation and graphics.

Published

2021

15. Woody plant phylogenetic diversity supports nature's contributions to people but is at risk from human population growth

Author

T. Jonathan Davies, Olivier Maurin, Kowiyou Yessoufou, Barnabas H. Daru, Bezeng S. Bezeng, Ledile T. Mankga, Hanno Schaefer, Wilfried Thuiller, and Michelle van der Bank

Subjects

ecosystem services, human population density, IUCN Red List, nature's contributions to people, phylogenetic diversity, species richness, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Abstract The Tree of Life—phylogeny—provides a powerful tool for understanding the processes regulating life's diversity. Conserving the branches on the Tree of Life might also have practical benefits. Using a comprehensive phylogeny of southern African woody trees and shrubs, and structural equation modeling, we show that human population density correlates closely with not only the richness of woody plants in a region but also their evolutionary relatedness. Further, we demonstrate that more phylogenetically diverse species assemblages support a greater diversity of ecosystem goods and services. Our results suggest that people in Africa may gain material benefits from inhabiting regions that support high phylogenetic diversity of woody plants. However, the correlation between human population and woody plant diversity creates a tension between people and biodiversity, which could threaten the contributions to people provided by intact and phylogenetically diverse ecosystems.

Published

2022

16. Community‐level phylogenetic diversity does not differ between rare and common lineages across tallgrass prairies in the northern Great Plains

Author

Sarah A. Herzog and Maribeth Latvis

Subjects

community assembly, conservation, grassland, niche differentiation, phylogenetic diversity, rare species, Ecology, QH540-549.5

Abstract

Abstract Niche differentiation has served as one explanation for species coexistence, and phylogenetic relatedness provides a means to approximate how ecologically similar species are to each other. To explore the contribution of rare species to community phylogenetic diversity, we sampled 21 plant communities across the Prairie Coteau ecoregion, an area of high conservation concern. We used breakpoint analysis through the iterative addition of less abundant species to the phylogenetic tree for each community to assess the contribution of rare species to community phylogenetic diversity. We also quantify the phylogenetic signal of abundance using Blomberg's K statistic and calculated the phylogenetic similarity between rare and common species using a phylogenetic beta‐diversity metric (Dnn). To estimate the phylogenetic structuring of these prairie communities, we calculated two common metrics that capture evolutionary relatedness at different scales (MPD and MNTD). Additionally, we examine the correlation between Faith's PD, MPD, and MNTD and species richness. We found rare species do not generally contribute higher levels of phylogenetic diversity than common species. Eight communities had significant breakpoints, with only four communities having an increasing trend for the rarest species. The phylogenetic signal for abundance was low but significant in only four communities, and communities had lower phylogenetic diversity than expected from the regional species pool. Finally, the strength of the correlation between species richness and phylogenetic diversity was mixed. Our results indicate niche differentiation does not explain the persistence of rare species in tallgrass prairies, as they were more closely related than expected from random, suggesting high functional redundancy between rare and common species. This is promising for the long‐term resilience of this ecosystem, but only insofar as enough species remain in the system. With ongoing biodiversity loss, it is essential that we understand the role rare species play in their communities.

Published

2022

17. The impact of climate change on western Plethodon salamanders’ distribution

Author

Sir Nottingham and Tara A. Pelletier

Subjects

climate change, conservation, Pacific Northwest, phylogenetic diversity, Plethodon, species distribution model, Ecology, QH540-549.5

Abstract

Abstract Aim Given that salamanders have experienced large shifts in their distributions over time, we determined how each species of Plethodon in the Pacific Northwest would respond to climate change. We incorporated several greenhouse scenarios both on a species‐by‐species basis, and also using phylogenetic groups, with the aim to determine the best course of action in managing land area to conserve diversity in this group. Location Pacific Northwest of the United States (northern CA, OR, WA, ID, and MT). Major taxa studied Western Plethodon salamanders. Methods Species distribution models were estimated using MaxEnt for the current time period and for several future climate scenarios using bioclimatic data layers. We used several methods to quantify the change in habitat suitability over time from the models. We explored aspects of the climate layers to determine whether we can expect a concerted response to climate change due to similarity in ecological niche or independent responses that could be harder to manage. Results The distribution of western Plethodon salamander species is strongly influenced by precipitation and less so by temperature. Species responses to climate change resulted in both increases and decreases in predicted suitable habitat, though most species ranges do not contract, especially when taken as a phylogenetic group. Main conclusions While some established habitats may become more or less climatically suitable, the overall distribution of species in this group is unlikely to be significantly affected. Clades of Plethodon species are unlikely to be in danger of extirpation despite the possibility that individual species may be threatened as a result of limited distributions. Grouping species into lineages with similar geographic ranges can be a viable method of determining conservation needs. More biotic and dispersal information is needed to determine the true impact that changes in climate will have on the distribution of Plethodon species.

Published

2021

18. Ecological drivers of avian diversity in a subtropical landscape: Effects of habitat diversity, primary productivity and anthropogenic disturbance

Author

Ling‐Ying Shuai, Shu‐Ping Xiao, Yan‐Ping Xie, Xing‐Min Chen, Xiang‐Rong Song, Tian‐Qiao Fan, Yun‐Hua Xie, and Wei Liu

Subjects

anthropogenic disturbance, birdwatching, functional diversity, habitat diversity, phylogenetic diversity, species richness, Ecology, QH540-549.5

Abstract

Abstract Understanding the roles of ecological drivers in shaping biodiversity is fundamental for conservation practice. In this study, we explored the effects of elevation, conservation status, primary productivity, habitat diversity and anthropogenic disturbance (represented by human population density and birding history) on taxonomic, phylogenetic and functional avian diversity in a subtropical landscape in southeastern China. We conducted bird surveys using 1‐km transects across a total of 30 sites, of which 10 sites were located within a natural reserve. Metrics of functional diversity were calculated based on six functional traits (body mass, clutch size, dispersal ratio, sociality, diet and foraging stratum). We built simultaneous autoregression models to assess the association between the ecological factors and diversity of the local avian communities. Local avian diversity generally increased with increasing habitat diversity, human population density and primary productivity. We also detected phylogenetic and functional clustering in these communities, suggesting that the avian assemblages were structured mainly by environmental filtering, rather than interspecific competition. Compared with sites outside the natural reserve, sites within the natural reserve had relatively lower avian diversity but a higher level of phylogenetic heterogeneity.

Published

2022

19. Functional and phylogenetic diversity of an agricultural matrix avifauna: The role of habitat heterogeneity in Afrotropical farmland

Author

Marie Laure Rurangwa, Protais Niyigaba, Joseph A. Tobias, and Robert J. Whittaker

Subjects

agrobiodiversity, agroforestry, birds, farmland heterogeneity, functional diversity, phylogenetic diversity, Ecology, QH540-549.5

Abstract

Abstract Varied strategies to alleviate the loss of farmland biodiversity have been tested, yet there is still insufficient evidence supporting their effectiveness, especially when considering phylogenetic and functional diversity alongside traditional taxonomic diversity metrics. This conservation challenge is accentuated in the Afrotropics by the rapid agricultural expansion and intensification for the production of cash crops and by a comparative lack of research. In this study, we assessed how farming practices influence avian phylogenetic and functional diversity. We conducted point‐count surveys to assess avian diversity in monocultures of tea and mixed crop farming systems surrounding the Nyungwe rainforest in south‐west Rwanda, allowing us to investigate the drivers of avian diversity at farm level. Species composition was found to be moderately different between farm types, with mixed crop farms supporting higher phylogenetic diversity than tea plantations. There were no significant seasonal differences in species composition, functional or phylogenetic diversity. Overall, functional diversity did not differ between farm types, but the dispersion of trophic‐related traits was significantly higher in mixed crop farms. Both functional and phylogenetic diversity were influenced by floristic diversity, vegetation height, tree number, and elevation to varying degrees. Our results also (i) highlight the role of farmland heterogeneity (e.g., crop species composition, height, and tree cover extent) in encouraging avian functional and phylogenetic diversity in the Afrotropics and (ii) indicate that the generally negative biodiversity impacts of monoculture agriculture can be partially alleviated by extensive agroforestry with an emphasis on indigenous tree species.

Published

2022

20. Niche theory‐based modeling of assembly processes of viral communities in bats

Author

Fabiola Nieto‐Rabiela, Oscar Rico‐Chávez, Gerardo Suzán, and Christopher R. Stephens

Subjects

co‐occurrence, disease ecology, functional diversity, Jaccard similarity, Niche Theory, phylogenetic diversity, Ecology, QH540-549.5

Abstract

Abstract Understanding the assembly processes of symbiont communities, including viromes and microbiomes, is important for improving predictions on symbionts’ biogeography and disease ecology. Here, we use phylogenetic, functional, and geographic filters to predict the similarity between symbiont communities, using as a test case the assembly process in viral communities of Mexican bats. We construct generalized linear models to predict viral community similarity, as measured by the Jaccard index, as a function of differences in host phylogeny, host functionality, and spatial co‐occurrence, evaluating the models using the Akaike information criterion. Two model classes are constructed: a “known” model, where virus–host relationships are based only on data reported in Mexico, and a “potential” model, where viral reports of all the Americas are used, but then applied only to bat species that are distributed in Mexico. Although the “known” model shows only weak dependence on any of the filters, the “potential” model highlights the importance of all three filter types—phylogeny, functional traits, and co‐occurrence—in the assemblage of viral communities. The differences between the “known” and “potential” models highlight the utility of modeling at different “scales” so as to compare and contrast known information at one scale to another one, where, for example, virus information associated with bats is much scarcer.

Published

2021

21. Identifying the patterns of changes in α‐ and β‐diversity across Dacrydium pectinatum communities in Hainan Island, China

Author

Haodong Liu, Hua Liu, Yongfu Chen, Zhiyang Xu, Yunchuan Dai, Qiao Chen, and Yongkang Ma

Subjects

biodiversity hotspots, coexistence, community assembly, habitat filtering, phylogenetic diversity, Ecology, QH540-549.5

Abstract

Abstract Exploring vegetation distribution spatial patterns facilitates understanding how biodiversity addresses the potential threat of future climate variability, especially for highly diverse and threatened tropical plant communities, but few empirical studies have been performed. Dacrydium pectinatum is a constructive and endangered species in the tropical mountain forests of Hainan Island, China. In this study, sixty‐eight 30 m × 30 m permanent plots of D. pectinatum were investigated, and species‐based and phylogenetic‐based methods were used to analyze the α‐ and β‐diversity pattern variation and its key drivers. Our study showed that species and phylogenetic α‐diversity patterns are different on a local scale. However, on a regional scale, the variations in the two α‐diversity patterns tend to converge, and they decrease with increasing elevation. The phylogenetic structure changes from overdispersion to convergence with increasing elevation. Soil (SOM, TP, AP), topography (EL, SL), and stand (CD) factors and α‐diversity showed close correlations. Species and phylogenetic β‐diversity have significant positive correlations with changing environmental distance and geographical distance; however, as a representative form of habitat heterogeneity, elevation distance has a greater impact on β‐diversity changes than geographical distance. In conclusion, the α‐ and β‐diversity patterns of the D. pectinatum community are mainly related to habitat filtering, especially in high‐elevation areas, and the colonization history of various regions also affects the formation of diversity patterns. Species‐based and phylogenetic‐based methods robustly demonstrated the key role of the habitat filtering hypothesis in community assembly. We believe that more plant diversity patterns need to be explored to understand the biodiversity formation mechanisms in tropical forests. We also recommend strengthening the construction and management of nature reserves to help address the biodiversity loss crisis in endangered tropical plant communities.

Published

2021

22. Spatial phylogenetics of the native woody plant species in Hainan, China

Author

Zhi‐Xin Zhu, AJ Harris, Mir Muhammad Nizamani, Andrew H. Thornhill, Rosa A. Scherson, and Hua‐Feng Wang

Subjects

community assembly, hotspots, Island, phylogenetic diversity, Ecology, QH540-549.5

Abstract

Abstract To better identify biodiversity hotspots for conservation on Hainan Island, a tropical island in southern China, we assessed spatial variation in phylogenetic diversity and species richness using 18,976 georeferenced specimen records and a newly reconstructed molecular phylogeny of 957 native woody plants. Within this framework, we delineated bioregions based on vegetation composition and mapped areas of neoendemism and paleoendemism to identify areas of priority for conservation. Our results reveal that the southwest of Hainan is the most important hot spot for endemism and plant diversity followed by the southeast area. The distribution of endemic species showed a scattered, rather than clustered, pattern on the island. Based on phylogenetic range‐weighted turnover metrics, we delineated three major vegetational zones in Hainan. These largely correspond to natural secondary growth and managed forests (e.g., rubber and timber forests) in central Hainan, old‐growth forests and natural secondary growth forest at the margins of Hainan, and nature reserves on the island (e.g., Jianfeng and Diaoluo National Nature Reserves). Our study helps to elucidate potential botanical conservation priorities for Hainan within an evolutionary, phylogenetic framework.

Published

2021

23. Limited decadal growth of mountain birch saplings has minor impact on surrounding tundra vegetation

Author

Ruud Scharn, Isabel S. Negri, Maja K. Sundqvist, Jørn O. Løkken, Christine D. Bacon, Alexandre Antonelli, Annika Hofgaard, R. Henrik Nilsson, and Robert G. Björk

Subjects

Betula pubescens, climate change, Oroarctic, phylogenetic diversity, plant community structure, treeline advance, Ecology, QH540-549.5

Abstract

Abstract Temperatures over the Arctic region are increasing at three times the rate of the global average. Consequently, Arctic vegetation is changing and trees are encroaching into the tundra. In this study, we examine the establishment and growth of mountain birch (Betula pubescens ssp. tortuosa), which forms the treeline in subarctic Europe, and its impact on community composition across the treeline ecotone nearby Abisko, Sweden. Birch advancement along elevational gradients was studied by comparing data collected in 2016 with data collected 10 and 15 years previously. Species identity, cover, and phylogenetic relatedness were used to assess the impact of birch encroachment on community composition. Our results show that birch occurrence above the treeline did not affect plant community composition, probably owing to the observed lack of significant growth due to herbivore browsing, nitrogen limitation, or a reduction in snow cover. Independent of birch performance, the tundra community structure shifted toward a novel community dissimilar from the forest plant community found below the treeline. Taken together, our findings are explained by species‐specific responses to climate change, rather than by a linear forest advance. Future treeline advancements are likely more restricted than previously expected.

Published

2022

24. Plant–plant interactions determine natural restoration of plant biodiversity over time, in a degraded mined land

Author

Maral Bashirzadeh, Richard P. Shefferson, and Mohammad Farzam

Subjects

functional diversity, life form, mining limestone, nurse plant, phylogenetic diversity, plant biodiversity, Ecology, QH540-549.5

Abstract

Abstract Restoration of degraded environments is essential to mitigate adverse impacts of human activities on ecosystems. Plant–plant interactions may provide effective means for restoring degraded arid lands, but little is understood about these impacts. In this regard, we analyzed the effects of two dominant nurse plants (i.e., Artemisia sieberi and Stipa arabica) on taxonomic, functional, and phylogenetic diversity across different ages of land abandonment (i.e., control, recent, and old ages) in a limestone mine site in Iran. In addition, we considered two spatial scales: i) the plot scale (i.e., under 1m2 plots) and ii) the vegetation‐patch scale (i.e., under the canopies of nurse plants), to assess nurse plant effects, land abandonment ages, and their relative importance on biodiversity facets by performing Kruskal–Wallis H test and variation partitioning analysis. Our results indicated an increase in taxonomic, functional, and phylogenetic diversity at the plot scale, when considering the presence of nurse plants under old ages of land abandonment. Such significant differences were consistent with the positive effects of Artemisia patches on taxonomic diversity and Stipa patches on functional and phylogenetic diversity. In addition, we found a larger contribution from nurse plants than land abandonment age on biodiversity variation at both spatial scales studied. Therefore, these results indicate the importance of plant–plant interactions in restoring vegetation, with their effects on the presence of beneficiary species and their functional and phylogenetic relatedness depending on the nurse life forms under the stress‐gradient hypothesis.

Published

2022

25. Assessing the vulnerability of habitats through plant rarity patterns in the Pyrenean range

Author

Héctor Miranda Cebrián, Xavier Font, Cristina Roquet, Manuel Pizarro Gavilán, and María Begoña García

Subjects

abundance, endemism, global change, phylogenetic diversity, plant inventories, rare species, Ecology, QH540-549.5, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Abstract Biodiversity is being severely affected by global change worldwide, but consequences differ across individual species and environments. Since rarity is a condition associated with vulnerability and extinction risk, it is a concerning factor itself that can also amplify the detrimental impact of global change drivers. Here, we assess differences in vulnerability derived from species rarity across environments in a South European mountain range, the Pyrenees, a complex landscape sheltering more than 3400 vascular plants. We first analyzed patterns of alpha taxonomic (richness) and phylogenetic diversity (standardized phylogenetic diversity, sesPD) from more than 18,000 plant surveys across 14 different habitats to find out which ones shelter the highest diversity. Then, we classified plant species according to four criteria of rarity (Pyrenean endemic, regional geographic range, ecological specialization and local abundance) and estimated their frequency among habitats and their contribution to PD. Generalized linear models were used to compare richness and sesPD among habitats, and the relationship between each diversity metric and rare species proportion was assessed. Grasslands harbor the greatest number of species but are poor in sesPD, while inland surface waters contain fewer species but are the most phylogenetically diverse. Deciduous, evergreen and Mediterranean forests show both high species richness and sesPD. Rare species account for half of the regional species pool, and are more abundant in habitats with fewer species and higher sesPD. Diversity metrics showed opposite tendencies between them and with rare species proportion, emphasizing that they are not interchangeable. Our results highlight the vulnerability of rocky and water‐related habitats due to the rarity of the species they shelter, but only the latter match other assessments of habitat vulnerability to global change drivers. The analysis of rarity patterns can guide conservation efforts by identifying priority targets when information about direct threats to habitats is scarce or incomplete.

Published

2022

26. Plastome phylogenomics and phylogenetic diversity of endangered and threatened grassland species (Poaceae) in a North American tallgrass prairie

Author

Phyllis H. Pischl, Sean V. Burke, Elizabeth M. Bach, and Melvin R. Duvall

Subjects

chloroplast, endangered species, phylogenetic diversity, phylogenomics, plastid, plastomes, Ecology, QH540-549.5

Abstract

Abstract Native grasslands are one of the most endangered ecosystems in North America. In this study, we examined the ecological and evolutionary roles of endangered and threatened (e/t) grasses by establishing robust evolutionary relationships with other nonthreatened native and introduced grass species of the community. We hypothesized that the phylogenomic distribution of e/t species of grasses in Illinois would be phylogenetically clustered because closely related species would be vulnerable to the same threats and have similar requirements for survival. This study presents the first time a phylogeny based on complete plastome DNA of Poaceae was analyzed by phylogenetic diversity analysis. To avoid the disturbance of e/t populations, DNA was extracted from herbarium specimens. Next‐generation sequencing (NGS) techniques were used to sequence DNA of plastid genomes (plastomes). The resulting phylogenomic tree was analyzed by phylogenetic diversity metrics. The extracted DNA successfully produced complete plastomes demonstrating that herbarium material is a practical source of DNA for genomic studies. The phylogenomic tree was strongly supported and defined Dichanthelium as a separate clade from Panicum. The phylogenetic metrics revealed phylogenetic clustering of e/t species, confirming our hypothesis.

Published

2020

27. Stochasticity overrides deterministic processes in structuring macroinvertebrate communities in a plateau aquatic system

Author

Yihao Ge, Xingliang Meng, Jani Heino, Jorge García‐Girón, Yang Liu, Zhengfei Li, and Zhicai Xie

Subjects

beta diversity, community assembly, macroinvertebrates, phylogenetic diversity, plateau lake, Ecology, QH540-549.5

Abstract

Abstract Deterministic and stochastic processes are two major factors shaping community dynamics, but their relative importance remains unknown for many aquatic systems, including those in the high‐elevation Qinghai–Tibet Plateau. Here, we explored the causes of multidimensional beta diversity patterns (i.e., taxonomic, functional, and phylogenetic) of a macroinvertebrate metacommunity in this large aquatic system by using multiple approaches (i.e., null models, phylogenetic signal testing, and ordination‐based approaches). To obtain insights into community assembly mechanisms, we also analyzed beta diversity in two deconstructed sub‐metacommunities (e.g., different tributaries and the main lake body). We found that most functional traits showed significant phylogenetic signals, indicating that the functional traits were profoundly influenced by evolutionary history. The null models showed randomness of functional and phylogenetic beta diversities for the whole basin and its tributaries, confirming the importance of stochasticity over deterministic processes in controlling community structure. However, both phylogenetic and functional community structures were clustered in the Qinghai Lake, probably reflecting the importance of environmental filtering. Ordination‐based approaches also revealed that both environmental factors and spatial processes accounted for variation in taxonomic, functional, and phylogenetic beta diversity. More specifically, environmental filtering was more important than spatial processes for the functional dimension, but the opposite was true for the taxonomic and phylogenetic dimensions. The paleogeographic history of the Qinghai Lake basin may have contributed substantially to the prevalence of stochastic processes. Overall, this study provides a better understanding of ecological patterns and assembly mechanisms of macroinvertebrate communities across this poorly known high‐elevation aquatic system that is highly sensitive to climate warming.

Published

2021

28. Intercontinental trends in functional and phylogenetic structure of stream fish assemblages

Author

Luke M. Bower and Kirk O. Winemiller

Subjects

community assembly, environmental filtering, fish, functional diversity, phylogenetic diversity, Ecology, QH540-549.5

Abstract

Abstract Understanding of community assembly has been improved by phylogenetic and trait‐based approaches, yet there is little consensus regarding the relative importance of alternative mechanisms and few studies have been done at large geographic and phylogenetic scales. Here, we use phylogenetic and trait dispersion approaches to determine the relative contribution of limiting similarity and environmental filtering to community assembly of stream fishes at an intercontinental scale. We sampled stream fishes from five zoogeographic regions. Analysis of traits associated with habitat use, feeding, or both resulted in more occurrences of trait underdispersion than overdispersion regardless of spatial scale or species pool. Our results suggest that environmental filtering and, to a lesser extent, species interactions were important mechanisms of community assembly for fishes inhabiting small, low‐gradient streams in all five regions. However, a large proportion of the trait dispersion values were no different from random. This suggests that stochastic factors or opposing assembly mechanisms also influenced stream fish assemblages and their trait dispersion patterns. Local assemblages tended to have lower functional diversity in microhabitats with high water velocity, shallow water depth, and homogeneous substrates lacking structural complexity, lending support for the stress‐dominance hypothesis. A high prevalence of functional underdispersion coupled with phylogenetic underdispersion could reflect phylogenetic niche conservatism and/or stabilizing selection. These findings imply that environmental filtering of stream fish assemblages is not only deterministic, but also influences assemblage structure in a fairly consistent manner worldwide.

Published

2019

29. Site‐specific responses of foliar fungal microbiomes to nutrient addition and herbivory at different spatial scales

Author

Candice Y. Lumibao, Elizabeth T. Borer, Bradford Condon, Linda Kinkel, Georgiana May, and Eric W. Seabloom

Subjects

Andropogon gerardii, nitrogen, phosphorus, potassium, Nutrient Network, phylogenetic diversity, plant fungal endophytes, spatial variation, Ecology, QH540-549.5

Abstract

Abstract The plant microbiome can affect host function in many ways and characterizing the ecological factors that shape endophytic (microbes living inside host plant tissues) community diversity is a key step in understanding the impacts of environmental change on these communities. Phylogenetic relatedness among members of a community offers a way of quantifying phylogenetic diversity of a community and can provide insight into the ecological factors that shape endophyte microbiomes. We examined the effects of experimental nutrient addition and herbivory exclusion on the phylogenetic diversity of foliar fungal endophyte communities of the grass species Andropogon gerardii at four sites in the Great Plains of the central USA. Using amplicon sequencing, we characterized the effects of fertilization and herbivory on fungal community phylogenetic diversity at spatial scales that spanned within‐host to between sites across the Great Plains. Despite increasing fungal diversity and richness, at larger spatial scales, fungal microbiomes were composed of taxa showing random phylogenetic associations. Phylogenetic diversity did not differ systematically when summed across increasing spatial scales from a few meters within plots to hundreds of kilometers among sites. We observed substantial shifts in composition across sites, demonstrating distinct but similarly diverse fungal communities were maintained within sites across the region. In contrast, at the scale of within leaves, fungal communities tended to be comprised of closely related taxa regardless of the environment, but there were no shifts in phylogenetic composition among communities. We also found that nutrient addition (fertilization) and herbivory have varying effects at different sites. These results suggest that the direction and magnitude of the outcomes of environmental modifications likely depend on the spatial scale considered, and can also be constrained by regional site differences in microbial diversity and composition.

Published

2019

30. Altitudinal biodiversity patterns of seed plants along Gongga Mountain in the southeastern Qinghai–Tibetan Plateau

Author

Kuiling Zu, Ao Luo, Nawal Shrestha, Bo Liu, Zhiheng Wang, and Xiangyun Zhu

Subjects

elevational gradients, phylogenetic diversity, phylogenetic structure, species diversity, Ecology, QH540-549.5

Abstract

Abstract The mechanisms underlying elevation patterns in species and phylogenetic diversity remain a central issue in ecology and are vital for effective biodiversity conservation in the mountains. Gongga Mountain, located in the southeastern Qinghai–Tibetan Plateau, represents one of the longest elevational gradients (ca. 6,500 m, from ca. 1,000 to 7,556 m) in the world for studying species diversity patterns. However, the elevational gradient and conservation of plant species diversity and phylogenetic diversity in this mountain remain poorly studied. Here, we compiled the elevational distributions of 2,667 native seed plant species occurring in Gongga Mountain, and estimated the species diversity, phylogenetic diversity, species density, and phylogenetic relatedness across ten elevation belts and five vegetation zones. The results indicated that species diversity and phylogenetic diversity of all seed plants showed a hump‐shaped pattern, peaking at 1,800–2,200 m. Species diversity was significantly correlated with phylogenetic diversity and species density. The floras in temperate coniferous broad‐leaved mixed forests, subalpine coniferous forests, and alpine shrublands and meadows were significantly phylogenetically clustered, whereas the floras in evergreen broad‐leaved forests had phylogenetically random structure. Both climate and human pressure had strong correlation with species diversity, phylogenetic diversity, and phylogenetic structure of seed plants. Our results suggest that the evergreen broad‐leaved forests and coniferous broad‐leaved mixed forests at low to mid elevations deserve more conservation efforts. This study improves our understanding on the elevational gradients of species and phylogenetic diversity and their determinants and provides support for improvement of seed plant conservation in Gongga Mountain.

Published

2019

31. Effects of taxon sampling and tree reconstruction methods on phylodiversity metrics

Author

Johanna R. Jantzen, William M. Whitten, Kurt M. Neubig, Lucas C. Majure, Douglas E. Soltis, and Pamela S. Soltis

Subjects

community phylogenetics, phylodiversity, phylogenetic diversity, phylogeny reconstruction methods, taxon sampling, Ecology, QH540-549.5

Abstract

Abstract The amount and patterns of phylodiversity in a community are often used to draw inferences about the local and historical factors affecting community assembly and can be used to prioritize communities and locations for conservation. Because measures of phylodiversity are based on the topology and branch lengths of phylogenetic trees, which are affected by the number and diversity of taxa in the tree, these analyses may be sensitive to changes in taxon sampling and tree reconstruction methods. To investigate the effects of taxon sampling and tree reconstruction methods on measures of phylodiversity, we investigated the community phylogenetics of the Ordway‐Swisher Biological Station (Florida), which is home to over 600 species of vascular plants. We studied the effects of (a) the number of taxa included in the regional phylogeny; (b) random versus targeted sampling of species to assemble the regional species pool; (c) including only species from specific clades rather than broad sampling; (d) using trees reconstructed directly for the taxa under study compared to trees pruned from a larger reconstructed tree; and (e) using phylograms compared to chronograms. We found that including more taxa in a study increases the likelihood of observing significantly nonrandom phylogenetic patterns. However, there were no consistent trends in the phylodiversity patterns based on random taxon sampling compared to targeted sampling, or within individual clades compared to the complete dataset. Using pruned and reconstructed phylogenies resulted in similar patterns of phylodiversity, while chronograms in some cases led to significantly different results from phylograms. The methods commonly used in community phylogenetic studies can significantly impact the results, potentially influencing both inferences of community assembly and conservation decisions. We highlight the need for both careful selection of methods in community phylogenetic studies and appropriate interpretation of results, depending on the specific questions to be addressed.

Published

2019

32. Multiple facets of stream macroinvertebrate alpha diversity are driven by different ecological factors across an extensive altitudinal gradient

Author

Zhengfei Li, Xiaoming Jiang, Jun Wang, Xingliang Meng, Jani Heino, and Zhicai Xie

Subjects

ecological drivers, functional diversity, highland streams, macroinvertebrates, phylogenetic diversity, taxonomic diversity, Ecology, QH540-549.5

Abstract

Abstract Environmental filtering and spatial structuring are important ecological processes for the generation and maintenance of biodiversity. However, the relative importance of these ecological drivers for multiple facets of diversity is still poorly understood in highland streams. Here, we examined the responses of three facets of stream macroinvertebrate alpha diversity to local environmental, landscape‐climate and spatial factors in a near‐pristine highland riverine ecosystem. Taxonomic (species richness, Shannon diversity, and evenness), functional (functional richness, evenness, divergence, and Rao's Quadratic entropy), and a proxy of phylogenetic alpha diversity (taxonomic distinctness and variation in taxonomic distinctness) were calculated for macroinvertebrate assemblages in 55 stream sites. Then Pearson correlation coefficient was used to explore congruence of indices within and across the three diversity facets. Finally, multiple linear regression models and variation partitioning were employed to identify the relative importance of different ecological drivers of biodiversity. We found most correlations between the diversity indices within the same facet, and between functional richness and species richness were relatively strong. The two phylogenetic diversity indices were quite independent from taxonomic diversity but correlated with functional diversity indices to some extent. Taxonomic and functional diversity were more strongly determined by environmental variables, while phylogenetic diversity was better explained by spatial factors. In terms of environmental variables, habitat‐scale variables describing habitat complexity and water physical features played the primary role in determining the diversity patterns of all three facets, whereas landscape factors appeared less influential. Our findings indicated that both environmental and spatial factors are important ecological drivers for biodiversity patterns of macroinvertebrates in Tibetan streams, although their relative importance was contingent on different facets of diversity. Such findings verified the complementary roles of taxonomic, functional and phylogenetic diversity, and highlighted the importance of comprehensively considering multiple ecological drivers for different facets of diversity in biodiversity assessment.

Published

2019

33. Phylogenetic diversity efficiently and accurately prioritizes conservation of aquatic macroinvertebrate communities

Author

Kathryn M. Weglarz, W. Carl Saunders, Andrew Van Wagenen, and William D. Pearse

Subjects

aquatic, biological assessment, macroinvertebrates, metric, monitoring, phylogenetic diversity, Ecology, QH540-549.5

Abstract

Abstract Land degradation is a leading cause of biodiversity loss, and understanding its consequences on freshwater ecosystems remains a priority for improving the effectiveness of restoration practices and ecosystem assessments. Freshwater monitoring programs use macroinvertebrates to assess the biotic effects of degradation and management actions, often using the ratio of observed to expected taxa at a site—O/E—for this purpose. Despite the power of the O/E approach, large amounts of data are required to generate an expectation and it can be difficult to define a threshold value for degraded sites. An alternative assessment tool is phylogenetic diversity, which is widely used in academic biology but rarely applied in management despite empirical correlations between phylogenetic diversity and management targets such as ecosystem structure and function. Here, we use macroinvertebrate data from 1400 watersheds, collected since 1998, to evaluate the potential for phylogenetic metrics to inform evaluations of management practices. These watersheds were chosen because their low disturbance levels and high habitat heterogeneity have made them problematic to assess with O/E. Phylogenetic diversity detected degradation of assemblages and was sensitive enough to parse impacts to inform management actions. This is particularly notable given the phylogenetic metrics, unlike O/E, did not require additional “baseline” data. Site disturbance and broader environmental drivers strongly predicted site phylogenetic structure, providing management objectives to increase site quality. We call on others to consider using phylogenetic diversity to complement existing O/E schemes, particularly in systems where O/E is insufficient to prioritize management objectives.

Published

2021

34. A global analysis of avian island diversity–area relationships in the Anthropocene

Author

Matthews, Thomas J., Wayman, Joseph P., Whittaker, Robert J., Cardoso, Pedro, Hume, Julian P., Sayol, Ferran, Proios, Konstantinos, Martin, Thomas E., Baiser, Benjamin, Borges, Paulo A. V., Kubota, Yasuhiro, Dos Anjos, Luiz, Tobias, Joseph A., Soares, Filipa C., Si, Xingfeng, Ding, Ping, Mendenhall, Chase D., Sin, Yong Chee Keita, Rheindt, Frank E., Triantis, Kostas A., Guilhaumon, François, Watson, David m., Brotons, Lluís, Battisti, Corrado, Chu, Osanna, Rigal, François, Matthews, Thomas J., Wayman, Joseph P., Whittaker, Robert J., Cardoso, Pedro, Hume, Julian P., Sayol, Ferran, Proios, Konstantinos, Martin, Thomas E., Baiser, Benjamin, Borges, Paulo A. V., Kubota, Yasuhiro, Dos Anjos, Luiz, Tobias, Joseph A., Soares, Filipa C., Si, Xingfeng, Ding, Ping, Mendenhall, Chase D., Sin, Yong Chee Keita, Rheindt, Frank E., Triantis, Kostas A., Guilhaumon, François, Watson, David m., Brotons, Lluís, Battisti, Corrado, Chu, Osanna, and Rigal, François

Abstract

Research on island species–area relationships (ISAR) has expanded to incorporate functional (IFDAR) and phylogenetic (IPDAR) diversity. However, relative to the ISAR, we know little about IFDARs and IPDARs, and lack synthetic global analyses of variation in form of these three categories of island diversity–area relationship (IDAR). Here, we undertake the first comparative evaluation of IDARs at the global scale using 51 avian archipelagic data sets representing true and habitat islands. Using null models, we explore how richness-corrected functional and phylogenetic diversity scale with island area. We also provide the largest global assessment of the impacts of species introductions and extinctions on the IDAR. Results show that increasing richness with area is the primary driver of the (non-richness corrected) IPDAR and IFDAR for many data sets. However, for several archipelagos, richness-corrected functional and phylogenetic diversity changes linearly with island area, suggesting that the dominant community assembly processes shift along the island area gradient. We also find that archipelagos with the steepest ISARs exhibit the biggest differences in slope between IDARs, indicating increased functional and phylogenetic redundancy on larger islands in these archipelagos. In several cases introduced species seem to have ‘re-calibrated’ the IDARs such that they resemble the historic period prior to recent extinctions.

Published

2023

35. Recent and local diversification of Central American understorey palms

Author

Ángela Cano, Fred W. Stauffer, Tobias Andermann, Isabel M. Liberal, Alexander Zizka, Christine D. Bacon, Harri Lorenzi, Camille Christe, Mats Töpel, Mathieu Perret, Alexandre Antonelli, Cano, Ángela [0000-0002-5090-7730], Andermann, Tobias [0000-0002-0932-1623], Zizka, Alexander [0000-0002-1680-9192], Bacon, Christine D [0000-0003-2341-2705], Christe, Camille [0000-0003-0517-4731], Perret, Mathieu [0000-0003-2021-114X], Antonelli, Alexandre [0000-0003-1842-9297], and Apollo - University of Cambridge Repository

Subjects

Global and Planetary Change, diversification, Ecology, 3104 Evolutionary Biology, Central America, phylogenomics, Arecaceae, tropical rain forest, 3105 Genetics, target sequence‐capture, RESEARCH ARTICLES, RESEARCH ARTICLE, phylogenetic diversity, biogeography, palms, Ecology, Evolution, Behavior and Systematics, 31 Biological Sciences

Abstract

Funder: Fondation Ernst et Lucie Schmidheiny; Id: http://dx.doi.org/10.13039/501100007636, Funder: International Association for Plant Taxonomy; Id: http://dx.doi.org/10.13039/501100020652, Funder: International Palm Society, Funder: Swiss Systematics Society, Aim: Central America is largely covered by hyperdiverse, yet poorly understood, rain forests. Understorey palms are diverse components of these forests, but little is known about their historical assembly. It is not clear when palms in Central America reached present diversity levels and whether most species arrived from neighbouring regions or evolved locally. We addressed these questions using the most species‐rich American palm clades indicative of rain forests. We reconstructed and compared their phylogenomic and biogeographical history with the diversification of 54 other plant lineages, to gain a better understanding of the processes that shaped the assembly of Central American rain forests. Location: Central America. Time period: Cretaceous to present. Major taxa studied: Arecaceae: Arecoideae: Bactridinae, Chamaedoreeae, Geonomateae. Methods: We sampled 218 species through fieldwork and living collections. We sequenced their genomic DNA using target sequence‐capture procedures. Using 12 calibration points, we reconstructed dated phylogenies under three approaches (multispecies coalescent, maximum likelihood and Bayesian inference), conducted biogeographical analyses (dispersal–extinction–cladogenesis) and estimated phylogenetic diversity metrics. Results: Dated phylogenies revealed intense diversification in Central America from 12 Ma. Local diversification events were four times more frequent than dispersal events, and we found strong phylogenetic clustering in relationship to Central America. Main conclusions: Our results suggest that most understorey palm species that characterize the Central American rain forests today evolved locally after repeated dispersal events, mostly from South America. Understorey palms in Central American rain forests diversified primarily after closure of the Central American Seaway at c. 13 Ma, suggesting that the Great American Biotic Interchange was a major trigger for plant diversification in Central American rain forests. This recent diversification contrasts with the much earlier existence of rain forest palms in neighbouring South America since c. 58 Ma. We found similar timings of diversification in 54 other seed plant lineages, suggesting an unexpectedly recent assembly of the hyperdiverse Central American flora.

Published

2022

36. A hotspot of groundwater amphipod diversity on a crossroad of evolutionary radiations

Author

Borko, Špela, Altermatt, Florian, Zagmajster, Maja, Fišer, Cene, University of Zurich, Hou, Zhonge, and Borko, Špela

Subjects

filogenetska pestrost, zahodni Balkan, postranice, UFSP13-8 Global Change and Biodiversity, amphipods, podzemna voda, udc:574.1, evolucijska radiacija, Western Balkans, 1105 Ecology, Evolution, Behavior and Systematics, evolutionary radiations, groundwater, 570 Life sciences, biology, phylogenetic diversity, species richness, vrstna pestrost, Niphargus, Ecology, Evolution, Behavior and Systematics

Abstract

Aim: Groundwater harbours an exceptional fauna and provides invaluable ecosystem services, yet is among the least explored and consequently least protected ecosystems. Successful protection of its biodiversity depends on complete species inventories, knowledge of species spatial distribution, and quantification of biodiversity patterns, as well as disentanglement of the processes that shaped biodiversity patterns. We studied the hyper-speciose amphipod genus Niphargus as a model system within a global subterranean biodiversity hotspot. We linked the biodiversity patterns with possible underlying processes and discuss the needs to include information on different origins of biodiversity into conservation approaches. Location: Europe, Western Balkans. Methods: We analysed biodiversity patterns of Niphargus using two biodiversity metrics, species richness and phylogenetic diversity, on a grid-based approach. To account for high cryptic diversity, we replaced nominal species with taxonomic units identified in unilocus delimitations (MOTUs). We built a time-calibrated multilocus phylogeny of 512 Niphargus MOTUs from within and outside the study area, and calculated Faith's phylogenetic diversity, standardized effect sizes of phylogenetic diversity, and residual of phylogenetic diversity regressed onto species richness. Results: Within the study area, we recognized 245 MOTUs, belonging to different Niphargus clades. Species richness is highest in a north-western hotspot, although some species-rich cells were detected also in the south-east. High phylogenetic diversity coincides with high species richness in the north-west, while in the south-east it is lower than expected. Main conclusions: We have shown that species richness does not predictably correlate with phylogenetic diversity. This difference suggests that different processes have led to the formation of species-rich areas in the Western Balkans: through a combination of dispersal and speciation in the north-west, and local radiation in the south-east, respectively. This calls for caution in conservation strategies relying solely on number of species and may change the view on conservation priorities within this region.

Published

2022

37. Host filtering, not competitive exclusion, may be the main driver of arbuscular mycorrhizal fungal community assembly under high phosphorus

Author

Adam Frew, Meike Katharina Heuck, and Carlos A. Aguilar‐Trigueros

Subjects

maaperä, plant defence, fylogenetiikka, mykorritsasienet, community assembly, phylogenetic diversity, arbuscular mycorrhizal fungi, eliöyhteisöt, sienet, fosfori, Ecology, Evolution, Behavior and Systematics, plant phosphorus

Abstract

A major goal in ecology is understanding the factors which determine the diversity and distribution of organisms. The outcome of the symbiotic relationship between plants and arbuscular mycorrhizal (AM) fungi is strongly influenced by soil phosphorus (P) availability. Despite this knowledge, there is still much to uncover about how soil P status can shape the taxonomic and phylogenetic assembly of root-colonising AM fungi. Additionally, there is a paucity of understanding about the implications of these changes for the outcome of the AM symbiosis in terms of plant growth, nutrient status and defence traits. We conducted a factorial pot experiment where sorghum (Sorghum bicolor) was grown under three different P treatments (low, medium and high), in the presence or absence of a natural AM fungal community. By analysing the diversity and community structure of the fungal community colonising roots, we aimed to determine if and how soil P influences the relatedness of these communities and whether competitive exclusion or environmental filtering play a more significant role in their assembly. Additionally, we evaluated the concomitant outcomes for plant growth, nutrient acquisition and defensive chemistry (phenolics). Increasing P availability reduced AM fungal richness and increased community evenness. Root-colonising AM fungal communities under the high P treatment had significantly reduced phylogenetic diversity and comparatively lower mean pairwise distances among all treatments. This indicated that AM fungal communities became more closely related (phylogenetically clustered) with increasing soil P. The mycorrhizal growth and mycorrhizal P responses of plants were positive under low and medium P, but this was lost under high P, however, plant phenolics were increased. Our results suggest that under high P conditions, environmental filtering plays an important role in AM fungal community assembly as host plants alter their selectivity of fungal functional groups prioritising those associated with enhancing plant stress resistance and defences, rather than nutrient acquisition. Here we demonstrated how soil P status can shape taxonomic and phylogenetic assembly of AM fungi and the associated functional outcomes for the host. peerReviewed

Published

2023

38. Anthropogenic pressures coincide with Neotropical biodiversity hotspots in a flagship butterfly group

Author

Maël Doré, Keith Willmott, Boris Leroy, Nicolas Chazot, James Mallet, André V. L. Freitas, Jason P. W. Hall, Gerardo Lamas, Kanchon K. Dasmahapatra, Colin Fontaine, Marianne Elias, Institut de Systématique, Evolution, Biodiversité (ISYEB ), Muséum national d'Histoire naturelle (MNHN)-École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Université des Antilles (UA), Centre d'Ecologie et des Sciences de la COnservation (CESCO), Muséum national d'Histoire naturelle (MNHN)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), University of Florida [Gainesville] (UF), Biologie des Organismes et Ecosystèmes Aquatiques (BOREA), Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU)-Muséum national d'Histoire naturelle (MNHN)-Institut de Recherche pour le Développement (IRD)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Université des Antilles (UA), Swedish University of Agricultural Sciences (SLU), Harvard University, Universidade Estadual de Campinas = University of Campinas (UNICAMP), Smithsonian Institution, Universidad Nacional Mayor de San Marcos (UNMSM), University of York [York, UK], Centre d’Ecologie Fonctionnelle et Evolutive (CEFE), Université Paul-Valéry - Montpellier 3 (UPVM)-École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut Agro Montpellier, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Université de Montpellier (UM), FLMNH Museum Associates, Brazilian CNPq. Grant Numbers: 563332/2010-7, 303834/2015-3, French Ministry of Research (MENSR), Leverhulme Trust, Darwin Initiative, National Geographic Society. Grant Number: 5751-96, National Science Foundation. Grant Numbers: 0103746, 0639977, 0639861, 0847582, U.S. National Academy of Sciences, United States Agency for International Development, Human Frontier Science Program. Grant Number: RGP0014/2016, Fundação Amazônia Paraense de Amparo à Pesquisa. Grant Numbers: 2011/50225-3, 2012/50260-6, ANR-16-CE02-0012,CLEARWING,La transparence : origine physique, fonctions adaptatives et évolution chez les papillons transparents(2016), Muséum national d'Histoire naturelle (MNHN)-École pratique des hautes études (EPHE), Centre National de la Recherche Scientifique (CNRS)-Université des Antilles (UA)-Muséum national d'Histoire naturelle (MNHN)-Institut de Recherche pour le Développement (IRD)-Sorbonne Université (SU)-Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU), Harvard University [Cambridge], Universidade Estadual de Campinas (UNICAMP), Université Paul-Valéry - Montpellier 3 (UPVM)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), and Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)

Subjects

human impacts, 0106 biological sciences, 0303 health sciences, Ecology, Müllerian mimicry, geographic rarity, 15. Life on land, 010603 evolutionary biology, 01 natural sciences, Human Footprint, [SDV.BA.ZI]Life Sciences [q-bio]/Animal biology/Invertebrate Zoology, 03 medical and health sciences, Ithomiini butterflies, 13. Climate action, phylogenetic diversity, anthropogenic pressures, species richness, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Ecology, Evolution, Behavior and Systematics, biodiversity hotspots, 030304 developmental biology

Abstract

International audience; The biodiversity crisis has highlighted the need to assess and map biodiversity in order to prioritize conservation efforts. Clearwing butterflies (tribe Ithomiini) have been proposed as biological indicators for habitat quality in Neotropical forests, which contain the world's richest biological communities. Here, we provide maps of different facets of Ithomiini diversity across the Neotropics to identify areas of evolutionary and ecological importance for conservation and evaluate their overlap with current anthropogenic threats.Location: Neotropics.Methods: We ran species distribution models on a data set based on 28,986 georeferenced occurrences representing 388 ithomiine species to generate maps of geographic rarity, taxonomic, phylogenetic and Müllerian mimetic wing pattern diversity. We quantified and mapped the overlap of diversity hotspots with areas threatened by or providing refuge from current anthropogenic pressures.Results: The eastern slopes of the Andes formed the primary hotspot of taxonomic, phylogenetic and mimetic diversity, with secondary hotspots in Central America and the Atlantic Forest. Most diversity indices were strongly spatially correlated. Nevertheless, species-poor communities on the Pacific slopes of the Andes also sheltered some of the geographically rarest species. Overall, tropical montane forests that host high species and mimetic diversity as well as rare species and mimicry rings appeared particularly under threat.Main conclusions: Remote parts of the Upper Amazon may act as refuges against current anthropogenic pressures for a limited portion of Ithomiini diversity. Furthermore, it is likely that the current threat status may worsen with ongoing climate change and deforestation. In this context, the tropical Andes occupy a crucial position as the primary hotspot for multiple facets of biodiversity for ithomiine butterflies, as they do for angiosperms, tetrapods and other insect taxa. Our results support the role of ithomiine butterflies as a suitable flagship indicator group for Neotropical butterfly diversity and reinforce the position of the tropical Andes as a flagship region for biodiversity conservation in general, and insect and butterfly conservation in particular.

Published

2021

39. Selection on convergent functional traits drives compositional divergence in early succession of a tallgrass prairie restoration experiment

Author

Nisa Karimi, Evelyn W. Williams, Andrew L. Hipp, Mary-Claire Glasenhardt, Adrienne R. Ernst, Daniel J. Larkin, and Rebecca S. Barak

Subjects

Phylogenetic diversity, Functional diversity, Ecology, Prairie restoration, Evolutionary biology, Plant Science, Ecological succession, Biology, Divergence (statistics), Restoration ecology, Ecology, Evolution, Behavior and Systematics, Selection (genetic algorithm)

Published

2021

40. Conservation hotspots of insular endemic mammalian diversity at risk of extinction across a multidimensional approach

Author

Camille Leclerc, Céline Bellard, Camille Magneville, Ecologie Systématique et Evolution (ESE), and AgroParisTech-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)

Subjects

0106 biological sciences, media_common.quotation_subject, islands, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Functional diversity, 14. Life underwater, Endemism, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, media_common, 0303 health sciences, threats, Extinction, Ecology, endemic species, 15. Life on land, functional diversity, taxonomic diversity, Phylogenetic diversity, Geography, 13. Climate action, hotspots, phylogenetic diversity, protected areas, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Diversity (politics)

Abstract

International audience; Aim: Islands are one of the most threatened worldwide biotas. Based on their taxonomic diversity, some insular regions have been identified as key areas of conservation. Recently, systematic conservation planning has advocated for the use of multiple biodiversity facets to protect unique evolutionary and functional processes. Here, we identified priority areas for threatened insular endemic mammals across three key dimensions of biodiversity (taxonomic, phylogenetic, and functional), as well as their protection level and threats affecting them.Location: Worldwide.Methods: We applied diversity–area relationships to identify insular regions that harbored a disproportionately high rate of threatened endemic mammal diversity (whether taxonomic, phylogenetic, or functional) given their area for 1,799 islands across 19 insular regions. We also assessed the level of protection and the threats affecting biodiversity within each insular region.Results: We showed a fairly good congruence between top-ranked insular regions based on taxonomic, phylogenetic, and functional diversity. Specifically, we identified four hotspots for endemic mammalian conservation through the three diversity facets: Indo-Burma, Madagascar and the Indian Ocean Islands, Mesoamerica and Galápagos Islands, and Wallacea. Except for Mesoamerica and Galápagos Islands, the protected areas coverage is low (

Published

2021

41. Mass‐ratio and complementarity effects simultaneously drive aboveground biomass in temperate Quercus forests through stand structure

Author

Dong-Li Gao, Wen-Qiang Gao, Xiang-Dong Lei, and Yu-Tang Li

Subjects

Ecology, Mass ratio, functional diversity, Geography, functional composition, Agronomy, Complementarity (molecular biology), Temperate climate, phylogenetic diversity, species richness, complementarity effect, Aboveground biomass, mass‐ratio effect, QH540-549.5, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

Forests play a key role in regulating the global carbon cycle, a substantial portion of which is stored in aboveground biomass (AGB). It is well understood that biodiversity can increase the biomass through complementarity and mass‐ratio effects, and the contribution of environmental factors and stand structure attributes to AGB was also observed. However, the relative influence of these factors in determining the AGB of Quercus forests remains poorly understood. Using a large dataset retrieved from 523 permanent forest inventory plots across Northeast China, we examined the effects of integrated multiple tree species diversity components (i.e., species richness, functional, and phylogenetic diversity), functional traits composition, environmental factors (climate and soil), stand age, and structure attributes (stand density, tree size diversity) on AGB based on structural equation models. We found that species richness and phylogenetic diversity both were not correlated with AGB. However, functional diversity positively affected AGB via an indirect effect in line with the complementarity effect. Moreover, the community‐weighted mean of specific leaf area and height increased AGB directly and indirectly, respectively; demonstrating the mass‐ratio effect. Furthermore, stand age, density, and tree size diversity were more important modulators of AGB than biodiversity. Our study highlights that biodiversity–AGB interaction is dependent on the regulation of stand structure that can be even more important for maintaining high biomass than biodiversity in temperate Quercus forests.

Published

2021

42. Central and Northern European caterpillar assemblages show strong phylogenetic structure

Author

Strutzenberger, Patrick and Fiedler, Konrad

Subjects

Herbivore, biology, Phylogenetic tree, herbivory, biology.organism_classification, Lepidoptera, Lepidoptera genitalia, Phylogenetic diversity, Evolutionary biology, macroecology, phylogenetic diversity, Caterpillar, Ecology, Evolution, Behavior and Systematics, Macroecology

Abstract

The abstract is available here: https://uscholar.univie.ac.at/o:1588368

Published

2021

43. Phylogenetic diversity and conservation of crop wild relatives in Colombia

Author

Andrew H. Thornhill, Shawn W. Laffan, Chrystian C. Sosa, and Carlos E. González-Orozco

Subjects

In situ conservation, Ecology, Amazon rainforest, Evolution, Original Articles, Biology, crop wild relatives, Crop, Phylogenetic diversity, neotropics, Genetics, QH359-425, Conservation status, phylogenetic diversity, Original Article, Ecosystem, Species richness, species richness, General Agricultural and Biological Sciences, Clade, Ecology, Evolution, Behavior and Systematics, agriculture

Abstract

Crop wild relatives (CWR) are an important agricultural resource as they contain genetic traits not found in cultivated species due to localized adaptation to unique environmental and climatic conditions. Phylogenetic diversity (PD) measures the evolutionary relationship of species using the tree of life. Our knowledge of CWR PD in neotropical regions is in its infancy. We analysed the distribution of CWR PD across Colombia and assessed its conservation status. The areas with the largest concentration of PD were identified as being in the northern part of the central and western Andean mountain ranges and the Pacific region. These centres of high PD were comprised of predominantly short and closely related branches, mostly of species of wild tomatoes and black peppers. In contrast, the CWR PD in the lowland ecosystems of the Amazon and Orinoquia regions had deeply diverging clades predominantly represented by long and distantly related branches (i.e. tuberous roots, grains and cacao). We categorized 50 (52.6%) of the CWR species as ‘high priority’, 36 as ‘medium priority’ and nine as ‘low priority’ for further ex‐situ and in situ conservation actions. New areas of high PD and richness with large ex‐situ gap collections were identified mainly in the northern part of the Andes of Colombia. We found that 56% of the grid cells with the highest PD values were unprotected. These baseline data could be used to create a comprehensive national strategy of CWR conservation in Colombia.

Published

2021

44. Centenary shipwrecks reveal the limits of artificial habitats in protecting regional reef fish diversity

Author

Beatrice Padovani Ferreira, Aiara P. L. R. Cardoso, Aline P. M. Medeiros, Bráulio A. Santos, Marcello R. S. B. C. Matos, and Ricardo Betancur-R.

Subjects

Functional diversity, Phylogenetic diversity, Geography, Ecology, Habitat, Coral reef fish, media_common.quotation_subject, Beta diversity, Species diversity, Diversity (politics), media_common

Published

2021

45. Conservation of woody species in China under future climate and land‐cover changes

Author

Shijia Peng, Yaoqi Li, Xiaoling Zhang, Zhiheng Wang, Yunpeng Liu, and Jian Zhang

Subjects

Phylogenetic diversity, Geography, Ecology, Agroforestry, Land cover, Future climate, China, Protected area

Published

2021

46. Fractal triads efficiently sample ecological diversity and processes across spatial scales

Author

William D. Pearse and Elizabeth G. Simpson

Subjects

Phylogenetic diversity, Geography, Community, Sampling design, Spatial ecology, Sampling (statistics), Biological dispersal, Ecosystem diversity, Physical geography, Ecology, Evolution, Behavior and Systematics, Nested sampling algorithm

Abstract

The relative influence of ecological assembly processes, such as environmental filtering, competition, and dispersal, vary across spatial scales. Changes in phylogenetic and taxonomic diversity across environments provide insight into these processes, however, it is challenging to assess the effect of spatial scale on these metrics. Here, we outline a nested sampling design that fractally spaces sampling locations to concentrate statistical power across spatial scales in a study area. We test this design in northeast Utah, at a study site with distinct vegetation types (including sagebrush steppe and mixed conifer forest), that vary across environmental gradients. We demonstrate the power of this design to detect changes in community phylogenetic diversity across environmental gradients and assess the spatial scale at which the sampling design captures the most variation in empirical data. We find clear evidence of broad-scale changes in multiple features of phylogenetic and taxonomic diversity across aspect. At finer scales, we find additional variation in phylo-diversity, highlighting the power of our fractal sampling design to efficiently detect patterns across multiple spatial scales. Thus, our fractal sampling design and analysis effectively identify important environmental gradients and spatial scales that drive community phylogenetic structure. We discuss the insights this gives us into the ecological assembly processes that differentiate plant communities found in northeast Utah.

Published

2021

47. Diversity begets diversity: Low resource heterogeneity reduces the diversity of nut‐nesting ants in rubber plantations

Author

Yan-Qiong Peng, Benoit Guénard, Da-Rong Yang, Cong Liu, and Bai-Ge Miao

Subjects

Phylogenetic tree, Ants, Ecology, fungi, Biodiversity, food and beverages, Species diversity, Rainforest, respiratory system, Biology, General Biochemistry, Genetics and Molecular Biology, Phylogenetic diversity, Insect Science, Animals, Nuts, Ecosystem, Rubber, Species richness, human activities, Agronomy and Crop Science, Phylogeny, Ecology, Evolution, Behavior and Systematics, Diversity (business)

Abstract

One of the most general patterns in ecology is the positive relationship between environmental heterogeneity and local diversity. On the one hand, increased resource heterogeneity provides more resources for diverse consumers in the community. On the other hand, increased structural heterogeneity creates variation in the environment's physical structure, thus allowing the coexistence of diverse species with different environmental requirements. Here, we examined the relative importance of resource and structural heterogeneity in determining the taxonomic, functional, and phylogenetic diversity of nut-nesting ants in natural rainforest and rubber plantation. The species richness of nut-nesting ants was 70% higher in rainforest than in rubber plantation. The clustered functional and phylogenetic structure in rubber plantation suggested a strong effect of environmental filtering in shaping ant functional and phylogenetic structure. Nesting heterogeneity (nut diversity) was the major factor explaining variation in taxonomic, functional, and phylogenetic diversity, suggesting that resource heterogeneity plays a major role in shaping the biodiversity patterns of nut-nesting ants. Overall, these results indicate that decreased resource diversity following the conversion of rainforest to rubber plantation can drive biodiversity loss in nut-nesting ants, through its effect on reducing both ant species, functional, and phylogenetic diversity. The decline in species richness and functional and phylogenetic diversity in the local ant community might have major effects on ecosystem functioning.

Published

2021

48. Unravelling biodiversity–productivity relationships across a large temperate forest region

Author

Naili Zhang, Xuetao Qiao, Chunyu Zhang, Klaus von Gadow, Zhonghui Zhang, and Xiuhai Zhao

Subjects

0106 biological sciences, Functional diversity, Phylogenetic diversity, Ecology, 010604 marine biology & hydrobiology, Biodiversity, Temperate forest, Biology, Spatial extent, 010603 evolutionary biology, 01 natural sciences, Productivity, Ecology, Evolution, Behavior and Systematics

Published

2021

49. pgHMA: Application of the heteroduplex mobility assay analysis in phylogenetics and population genetics

Author

Allen G. Rodrigo, Louis Ranjard, Teng Li, and Thomas K. F. Wong

Subjects

0106 biological sciences, Population, Population genetics, Heteroduplex Analysis, Computational biology, Biology, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Effective population size, Phylogenetics, Genetics, education, Phylogeny, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, 0303 health sciences, education.field_of_study, Base Sequence, Phylogenetic tree, Bayes Theorem, Phylogenetic diversity, Genetics, Population, Bootstrapping (electronics), Biotechnology, Heteroduplex

Abstract

The Heteroduplex mobility assay (HMA) has proven to be a robust tool for the detection of genetic variation. Here, we describe a simple and rapid application of the HMA by microfluidic capillary electrophoresis, for phylogenetics and population genetic analyses (pgHMA). We show how commonly applied techniques in phylogenetics and population genetics have equivalents with pgHMA: phylogenetic reconstruction with bootstrapping, skyline plots, and mismatch distribution analysis. We assess the performance and accuracy of pgHMA by comparing the results obtained against those obtained using standard methods of analyses applied to sequencing data. The resulting comparisons demonstrate that: (1) there is a significant linear relationship (R = 0.992) between heteroduplex mobility and genetic distance; (2) phylogenetic trees obtained by HMA and nucleotide sequences present nearly identical topologies; (3) clades with high pgHMA parametric bootstrap support also have high bootstrap support on nucleotide phylogenies; (4) skyline plots estimated from the UPGMA trees of HMA and Bayesian trees of nucleotide data reveal similar trends, especially for the median trend estimate of effective population size; and (5) optimized mismatch distributions of HMA are closely fitted to the mismatch distributions of nucleotide sequences. In summary, pgHMA is an easily-applied method for approximating phylogenetic diversity and population trends. KEYWORDS: bootstrap, heteroduplex mobility assay, mismatch distribution, phylogenetics, skyline plot

Published

2021

50. Use of environmental DNA in assessment of fish functional and phylogenetic diversity

Author

Régis Hocdé, Sébastien Villéger, Pierre-Edouard Guerin, Sandra Bessudo, Tony Dejean, Jean-Baptiste Juhel, Loïc Pellissier, Nicolas Loiseau, Alice Valentini, David Mouillot, Giomar Helena Borrero-Pérez, Laure Velez, Virginie Marques, Paul Castagné, Tom B. Letessier, Andrea Polanco, MARine Biodiversity Exploitation and Conservation (UMR MARBEC), Institut de Recherche pour le Développement (IRD)-Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), Centre d’Ecologie Fonctionnelle et Evolutive (CEFE), Université Paul-Valéry - Montpellier 3 (UPVM)-École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut Agro - Montpellier SupAgro, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), Toxicologie Intégrative & Métabolisme (ToxAlim-TIM), ToxAlim (ToxAlim), Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Université de Toulouse (UT)-Ecole Nationale Vétérinaire de Toulouse (ENVT), Institut National Polytechnique (Toulouse) (Toulouse INP), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut National Polytechnique (Toulouse) (Toulouse INP), Université de Toulouse (UT)-Ecole d'Ingénieurs de Purpan (INPT - EI Purpan), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Université Toulouse III - Paul Sabatier (UT3), Université de Toulouse (UT)-Université de Toulouse (UT)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), SPYGEN [Le Bourget-du-Lac], Eidgenössische Technische Hochschule - Swiss Federal Institute of Technology [Zürich] (ETH Zürich), Institut Fédéral de Recherches sur la Forêt, la Neige et le Paysage (WSL), Institut Fédéral de Recherches [Suisse], Centre National de la Recherche Scientifique (CNRS), Centre National de la Recherche Scientifique (CNRS)-Université de Montpellier (UM)-Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER)-Institut de Recherche pour le Développement (IRD), Université Paul-Valéry - Montpellier 3 (UPVM)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Ecole Nationale Vétérinaire de Toulouse (ENVT), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Ecole d'Ingénieurs de Purpan (INPT - EI Purpan), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Université Toulouse III - Paul Sabatier (UT3), and Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)

Subjects

0106 biological sciences, Conservation of Natural Resources, marine protected area, [SDE.MCG]Environmental Sciences/Global Changes, Fishing, Biodiversity, Biology, video, 010603 evolutionary biology, 01 natural sciences, eDNA metabarcoding, 03 medical and health sciences, evolutionary, island, Animals, DNA Barcoding, Taxonomic, Hunting, Environmental DNA, functional traits, 14. Life underwater, Phylogeny, Ecology, Evolution, Behavior and Systematics, biodiversity, 030304 developmental biology, Nature and Landscape Conservation, 0303 health sciences, Ecology, Phylogenetic tree, Fishes, accumulation curves, DNA, Environmental, Phylogenetic diversity, tropical reefs, responses, %22">Fish , Malpelo, Marine protected area, Species richness, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, reveals, Environmental Monitoring

Abstract

Assessing the impact of global changes and protection effectiveness is a key step in monitoring marine fishes. Most traditional census methods are demanding or destructive. Nondisturbing and nonlethal approaches based on video and environmental DNA are alternatives to underwater visual census or fishing. However, their ability to detect multiple biodiversity factors beyond traditional taxonomic diversity is still unknown. For bony fishes and elasmobranchs, we compared the performance of eDNA metabarcoding and long-term remote video to assess species' phylogenetic and functional diversity. We used 10 eDNA samples from 30 L of water each and 25 hr of underwater videos over 4 days on Malpelo Island (pacific coast of Colombia), a remote marine protected area. Metabarcoding of eDNA detected 66% more molecular operational taxonomic units (MOTUs) than species on video. We found 66 and 43 functional entities with a single eDNA marker and videos, respectively, and higher functional richness for eDNA than videos. Despite gaps in genetic reference databases, eDNA also detected a higher fish phylogenetic diversity than videos; accumulation curves showed how 1 eDNA transect detected as much phylogenetic diversity as 25 hr of video. Environmental DNA metabarcoding can be used to affordably, efficiently, and accurately census biodiversity factors in marine systems. Although taxonomic assignments are still limited by species coverage in genetic reference databases, use of MOTUs highlights the potential of eDNA metabarcoding once reference databases have expanded.Uso de ADN Ambiental en la Evaluación de la Diversidad Funcional y Filogenética de los Peces Resumen La evaluación del impacto de los cambios globales y la efectividad de la protección es un paso fundamental para el monitoreo de peces marinos. La mayoría de los métodos tradicionales de censos son demandantes o destructivos, por lo que las estrategias no letales y no intrusivas basadas en videograbaciones y en el ADN ambiental (ADNa) son alternativas a los censos visuales submarinos y a la pesca. Sin embargo, todavía no se conoce la habilidad que tienen estos métodos para detectar diferentes factores de la biodiversidad más allá de la diversidad taxonómica. Para los peces óseos y los elasmobranquios, comparamos el desempeño de la caracterización genética con ADNa y del video remoto de larga duración para evaluar la diversidad funcional y filogenética de las especies. Usamos diez muestras de ADNa tomadas de 30 litros de agua cada una y 25 horas de vídeos submarinos grabados durante cuatro días en la Isla Malpelo (costa del Pacífico de Colombia), un área marina protegida remota. La caracterización genética con el ADNa detectó 66% más unidades taxonómicas moleculares operacionales (UTMOs) que el video. Encontramos 66 y 43 entidades funcionales con un solo marcador de ADNa y con el video, respectivamente, y una riqueza funcional más alta para el ADNa que el video. A pesar de los vacíos en las bases de datos genéticos usadas como referencia, el ADNa también detectó una diversidad filogenética más alta que aquella en los videos; las curvas de acumulación mostraron cómo un solo transecto de ADNa detectó tanta diversidad filogenética como 25 horas de video. La caracterización genética con ADN ambiental puede usarse para censar los factores de biodiversidad de manera asequible, eficiente y certera en los sistemas marinos. Aunque las atribuciones taxonómicas todavía están limitadas por la cobertura de especies en las bases de datos genéticos de referencia, el uso de los UTMOs resalta el potencial que tiene la caracterización genética con ADNa una vez que las bases de datos de referencia sean expandidas.评估全球变化影响及保护有效性是海洋鱼类监测的关键步骤。然而, 大多数传统种群调查方法都有较高的要求或具有破坏性。基于视频和环境 DNA 的非干扰性、非致死性方法则是水下视觉调查或鱼类捕捞的替代方法。然而, 这些方法检测传统分类学多样性之外其它生物多样性因子的能力尚不清楚。本研究关注硬骨鱼类和软骨鱼类, 比较了环境 DNA宏条形码和长期远程视频监测在评估物种的系统发育多样性和功能多样性中的表现情况。我们在一个偏远的海洋保护区--马尔佩洛岛 (哥伦比亚太平洋海岸) , 收集了10个分别取自 30 升水体的环境 DNA 样品, 以及4天共25小时的水下视频。结果发现, 环境 DNA 宏条形码比水下视频多检测出66%的分子操作分类单元 (MOTUs) 。我们利用单一环境DNA标记或视频分别发现了66个和 43 个功能实体, 利用环境 DNA 检测出的功能丰富度高于水下视频。尽管遗传参考数据库仍存在一些空缺, 但环境DNA 还是比视频检测出更高的鱼类系统发育多样性;累积曲线展示了1个环境 DNA 样带检测到的系统发育多样性相当于25小时的水下视频。环境 DNA 宏条形码可以经济、有效且准确地用于调查海洋系统中的生物多样性因子。尽管分类学鉴定仍受到遗传参考数据库中物种覆盖范围的限制, 但 MOTUs 的使用显现了在参考数据库得到扩充后环境 DNA 宏条形码所具备的潜力。【翻译:胡怡思;审校:聂永刚】.

Published

2021