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Data from: The interaction of phylogeny and community structure: linking the community composition and trait evolution of clades
负责人:
关键词:
Mammalia;Mammals;Gliridae;beta-diversity;trait evolution;Environmental filtering;competition;phylogenetic scale;Caviomorpha;Echimyidae;Sciurdae
DOI:
doi:10.5061/dryad.v26qd05
摘要:
Aim. Community phylogenetic studies use information about species’ evolutionary relationships to understand the ecologic
Data from: Testing the species–genetic diversity correlation in the Aegean archipelago: towards a haplotype-based macroecology?
负责人:
关键词:
Dispersal;Macroecology;beetles;Phylogenetics: molecular;biodiversity;Coleoptera: Tenebrionidae;Island;Genetics: evolutionary;species richness
DOI:
doi:10.5061/dryad.8882
摘要:
A positive correlation between species and genetic diversity (SGDC) has been proposed, consistent with neutral predictions in macroecolog
Data from: Comparing two classes of alpha diversities and their corresponding beta and (dis)similarity measures, with an application to the Formosan
负责人:
关键词:
DOI:
doi:10.5061/dryad.vn85pg1
摘要:
transformations of Routledge’s beta to fill this gap. 4. The extension of our analysis to phylogenetic diversity partitioning is generally parallel. We apply var
Data from: Particle-association lifestyle is a phylogenetically conserved trait in bathypelagic prokaryotes
负责人:
关键词:
Environmental DNA;Macroevolution;bacteria;Community Ecology
DOI:
doi:10.5061/dryad.t6hh8
摘要:
. As a consequence, PA and FL communities had clear alpha- and beta-diversity differences that exceeded the global-scale geographical variation. Our study organizes
Data from: Arthropod distribution in a tropical rainforest: tackling a four dimensional puzzle
负责人:
关键词:
beta diversity;biodiversity;species turnover;Stratification;Quaternary;Arthropoda;diversity partitioning;seasonality
DOI:
doi:10.5061/dryad.5hn8n
摘要:
, where the phylogenetic breadth of arthropod taxa was surveyed using 14 protocols targeting the soil, litter, understory, lower and upper canopy habita
Data from: Validating the power of mitochondrial metagenomics for community ecology and phylogenetics of complex assemblages
负责人:
关键词:
Diversity assessment;beta diversity;leaf beetle;Chrysomelidae;Mitometagenomics;biodiversity monitoring;Coleoptera;phylobeta;2010;species inventory;genome skimming
DOI:
doi:10.5061/dryad.3rh21
摘要:
and phylogenetic dissimilarity between sites were highly consistent with data from morphological identifications. 5. The power of mitochondrial metagenomics result
Data from: Convergence of gut microbiomes in myrmecophagous mammals
负责人:
关键词:
Environmental DNA;bacteria;Bioinfomatics\/Phyloinfomatics;Community Ecology;Mammals
DOI:
doi:10.5061/dryad.390ng
摘要:
ow significant clustering of myrmecophagous species (anteaters, aardvarks and aardwolves), even though they belong to phylogenetically distant lineage
Data from: Environmental constraints on the compositional and phylogenetic beta-diversity of tropical forest snake assemblages
负责人:
Moura, Mario
关键词:
β-diversity climatological regime ectotherm environmental filtering multiscale processes phylogenetic structure reptile species composition turnover
DOI:
doi:10.5061/dryad.fd0gb
摘要:
onal (CBD) and phylogenetic (PBD) beta-diversity of snakes in the Atlantic Forest (AF) hotspot. We identify two AF regions with distinct climatologic
Data from: Phylogenetic diversity patterns in Himalayan forests reveal evidence for environmental filtering of distinct lineages
负责人:
关键词:
Terminalia bellirica;Machilus kurzii;Sarcochlamys pulcherrima;Eurya acuminata;Cyathea spinulosa;Melastoma malabathricum;Castanopsis indica;Walsura robusta;Erythrina stricta;trees;Tsuga dumosa;Elatostema platyphyllum;Toona sureni var. sureni;Altingia excelsa;Macaranga denticulata;filtering;Azadirachta indica;Community Ecology;Lyonia ovalifolia;Angiopteris evecta;Exbucklandia populnea;Grewia optiva;Zanthoxylum armatum;Daphne papyracea;Elaeagnus parvifolia;Bhesa robusta;Aglaia spectabilis;Dendrocalamus hamiltonii;Spondias pinnata;Dysoxylum binectariferum;Quercus leucotrichophora;Toona ciliata;Garuga pinnata;Pyrus communis;Albizia lucidior;Bambusa tulda;Breonia chinensis;Phoebe cooperiana;Gmelina arborea;Acacia sp.;Prunus cerasoides;Syzygium cumini;Terminalia myriocarpa;Dipterocarpus retusus;Gymnocladus assamicus;Tectona grandis;Juglans regia;Alstonia scholaris;Juniperus sp.;Callicarpa arborea;Michelia champaca;Baccaurea ramiflora;Ficus auriculata;Rhododendron barbatum;Casearia vareca;Duabanga grandiflora;Senna siamea;Hovenia dulcis var. dulcis;Gleditsia assamica;Aralia sp;Morus laevigata;Ostodes paniculata;Ricinus communis;Artocarpus heterophyllus;Pinus roxburghii;Berberis leschenaultii;Syzygium jambos;Lagerstroemia speciosa;Phlogacanthus thyrsiflorus;Garcinia cowa;Illicium griffithii;Meyna laxiflora;Tetrameles nudiflora;Bombax ceiba;Rhododendron maddenii;Bambusa balcooa;Acer campbellii;Ficus glaberrima;Smilax sp.;Rhododendron wallichii;Bauhinia ungulata;beta diversity;Litsea cubeba;Citrus maxima;phylogenetics;Kydia calycina;Coriaria nepalensis;Caryota urens;Schima khasiana;Chukrasia tabularis;Cyathea sp;Leea macrophylla;Schima wallichii;Ficus hispida;Psidium guajava;Oroxylum indicum;Ficus benjamina var. nuda;Wendlandia glabrata;Brassaiopsis mitis;Shorea robusta;Trewia nudiflora;Micromelum integerrimum;Hevea brasiliensis;Calamus sp;Ficus cyrtophylla;Pterospermum acerifolium;Stereospermum chelonoides;Vernonia arborea;Mesua ferrea;Moringa oleifera;Dillenia indica;Eucalyptus sp.;Glochidion heymeanum;Lindera sp.;Styrax sp.;Albizia procera;Maesa indica;Quercus glauca;Carallia brachiata;Magnolia pealiana;Schefflera venulosa;Acer cappadocicum;Eurya japonica;Brucea javanica;Rhododendron thomsonii;Alnus nepalensis;Boehmeria nivea;Rhododendron lanatum;Abroma augusta;Ailanthus integrifolia;Callicarpa macrophylla;Litsea monopetala;Garcinia pedunculata;Bridelia retusa;Zizyphus mauritiana;Gaultheria sp.;Rhododendron fulgens;Hydrangea sp.;Debregeasia saeneb;Viburnum cylindricum;Mallotus philippensis;Toxicodendron griffithii;Phyllanthus emblica;Saurauia nepaulensis;Boehmeria glomerulifera;Pieris formosa;Pinus kesiya;Sterculia villosa;Casuarina sp;Cordia grandis;Boehmeria macrophylla;Cupressus torulosa;Magnolia hodgsonii;Rhododendron arboreum;Ficus hirta;Merrilliopanax alpinus;Pinus wallichiana;Docynia indica;Rhododendron cinnabarinum;species richness;Bischofia javanica;Camellia sinensis;Trevesia palmata;Artocarpus chama;Myrica esculenta;Pandanus furcatus;Melia azedarach;Ficus racemosa;Acer caesium;Cassia fistula;Livistona jenkinsiana;Boehmeria rugulosa;Actinodaphne obovata;Quercus baloot;Pterospermum lanceifolium;Boehmeria platyphylla;Canarium strictum;Beilschmiedia fagifolia;Abies alba;Mangifera indica;Cornus capitata;Dalbergia sissoo;Shorea assamica;Rhododendron falconeri;Loranthus sp;Trema orientalis;Viburnum colebrookeanum;Alangium chinense;Elaeocarpus floribundus;Sambucus adnata;Ardisia macrocarpa;Heteropanax fragrans;Citrus reticulata;Engelhardia spicata;Clerodendrum infortunatum;Ficus semicordata;Persea odoratissima;Rhododendron grande;Albizia lebbeck;Podocarpus neriifolius;elevational gradient;Cinnamomum bejolghota;Rhus chinensis;Aquilaria malaccensis;Litsea salicifolia;Pinus merkusii;Terminalia chebula;Musa sp.
DOI:
doi:10.5061/dryad.1tr7p0k
摘要:
ns of beta diversity (both taxonomic and phylogenetic) strongly suggest lineage filtering along the elevational gradient. Our results may be explained if filter
Data from: Gut microbiota dynamics during dietary shift in Eastern African cichlid fishes
负责人:
关键词:
Gut microbiome
DOI:
doi:10.5061/dryad.2rq05
摘要:
of the Perissodini tribe showed a homogenous pattern of microbial alpha and beta diversities, with no significant qualitative differences, despite changes in di

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