国际农业科学数据导航库-农业专业知识服务系统

Data from: Can ancestry and morphology be used as surrogates for species niche relationships?

负责人：

关键词：: Similarity matrix;phylogeny;morphology;diet;isotopic ratios;freshwater fishes;Venezuela;Costa Rica

DOI：: doi:10.5061/dryad.0k6djh9x2

摘要：: tually are conserved within and across diverse communities. Here, we tested the degree to which phylogenetic relatedness and morphological similarity predict

Data from: Evolvability and craniofacial diversification in genus Homo

负责人：

关键词：: Homo erectus;Homo habilis;Homo Sapiens;Homo;Pliocene;Homo heidelbergensis;evolvability;neutral evolution;selection;craniofacial diversification;Homo neanderthalensis;Evolutionary Rate;Pleistocene

DOI：: doi:10.5061/dryad.13gc633

摘要：: of within-population phenotypic variation and covariation (the P matrix) on population divergence in recent humans and species diversification in genus Homo. Similarity

Data from: Effects of Poor Knights Islands Marine Reserve on demersal fish populations

负责人：

关键词：: ecological communities;Nemadactylus macropterus;Gymnothorax prionodon;Coris picta;Notolabrus celidotus;Upeneichthys porosus;multivariate analysis;Spatial distribution;Aplodactylus arctidens;partial protection;Canthigaster callisterna;Aplodactylus etheridgii;Parapercis colias;dissimilarity-based methods;Amphichaetodon howensis;Pagrus auratus;Cenozoic;Seriola lalandi;Odax pullus;Pseudolabrus miles;Kyphosus sydneyanus;Chironemus marmoratus;Dasyatis thetidis;Suezichthys aylingi;Hypoplectrodes sp.;Zeus faber;Chromis hypsilepis;Meghalayan;Parma alboscapularis;Coris sandeyeri;Plagiotremus tapeinosoma;Holocene;Caesioperca lepidoptera;Chirodactylus spectabilis;Girella cyanea;Gymnothorax prasinus;temporal variation;Nemadactylus douglasii;Scorpaena cardinalis;Marine Reserve;Chromis fumea;Myliobatus tenuicaudatus;Pseudolabrus luculentus;count data;Scorpis violacea;Caprodon longimanus;Anthropocene;Notolabrus inscriptus;Centroberyx affinis;Quaternary;copula;Bodianus unimaculatus;Scorpis lineolata;Girella tricuspidata;Labracoglossa nitida;Meuschenia scaber;Atypichthys latus;Dasyatis brevicaudata;Callanthias australis;gaussian copula;Gymnothorax nubilis;Notolabrus fucicola

DOI：: doi:10.5061/dryad.3s6rm0f

摘要：: components: copulas, to provide a flexible joint model of individual species, and dissimilarity-based methods, to integrate information across species

Data from: Habitat patterns in tropical rain forests: a comparison of 105 plots in northwest Borneo

负责人：

关键词：: soil nutrients;diversity;Tropical Rain Forest;Mantel analysis;habitat effects vs. dispersal-driven effects;Ordination;cluster analysis;deterministic vs. stochastic effects;lowland ever-wet rain forest

DOI：: doi:10.5061/dryad.64d74

摘要：: ch plots using the Steinhaus index of floristic dissimilarity, as well as Mantel analyses on matrices of floristic, habitat, and geographic distance. These

Data from: Landscape genetic analyses reveal fine-scale effects of forest fragmentation in an insular tropical bird

负责人：

关键词：: gene flow;Setophaga plumbea;tropical island;Resistance surface;landscape connectivity;optimization

DOI：: doi:10.5061/dryad.v8324

摘要：: with increasing structural similarity with forest habitat: urban areas and meadows had the highest resistance values whereas agricultural areas had intermediate

Data from: Disentangling the processes driving plant assemblages in mountain grasslands across spatial scales and environmental gradients

负责人：

关键词：: Trifolium medium;habitat filtering;Anthriscus sylvestris;Ranunculus acris s.l.;trait convergence;Luzula alpinopilosa;Vaccinium gaultherioides;Scabiosa lucida;Saxifraga paniculata;Ligusticum mutellina;Phyteuma spicatum;Achillea millefolium;Ranunculus aconitifolius;Galium megalospermum;Geranium sylvaticum;Poa supina;Crepis vesicaria s.str.;Vaccinium vitis-idaea;Pritzelago alpina s.str.;Erigeron uniflorus;Leontodon helveticus;Bromus hordeaceus;Rumex acetosa;Stachys officinalis s.l.;Helictotrichon versicolor;Polygala chamaebuxus;Calamagrostis varia;Luzula multiflora;Ajuga reptans;Trisetum flavescens;Leontodon montanus;Heracleum sphondylium s.l.;Rhinanthus alectorolophus;Arrhenatherum elatius;Poa minor;Prunella vulgaris;Gentiana verna;Trifolium badium;Holocene;Pedicularis foliosa;Filipendula ulmaria;Valeriana tripteris;Cirsium acaule;Daucus carota;Thlaspi rotundifolium aggr.;Thymus praecox subsp. polytrichus;Salix herbacea;Ononis repens;Knautia arvensis;Athamanta cretensis;Campanula cochleariifolia;Carduus defloratus s.l.;Homogyne alpina;Lolium perenne;Carex ferruginea;niche differentiation;Plantago atrata s.str.;Rhinanthus minor;Carex atrata aggr.;Saxifraga aizoides;Molinia caerulea;Galeopsis tetrahit;Chaerophyllum hirsutum aggr.;Rhododendron ferrugineum;Gentiana lutea;Ranunculus bulbosus;Cerastium latifolium;Crepis biennis;Androsace chamaejasme;Tragopogon pratensis s.l.;Aster bellidiastrum;Cerastium arvense sl;Leucanthemum vulgare aggr.;Gentiana acaulis;Saxifraga androsacea;Lolium multiflorum;Polygonum viviparum;Trisetum distichophyllum;Crepis pyrenaica;Gentiana bavarica;Medicago lupulina;Tofieldia calyculata;Epilobium anagallidifolium;Festuca quadriflora;Ranunculus alpestris;Taraxacum alpinum aggr.;Arabis alpina s.l.;Euphrasia minima;Festuca pratensis s.l.;Caltha palustris;Valeriana montana;Hippocrepis comosa;Helictotrichon pubescens;Leontodon autumnalis;Poa alpina;Carex pallescens;Hedysarum hedysaroides;Plantago media;Taraxacum officinale aggr.;Veronica officinalis;Vicia sepium;Anemone narcissiflora;Geum rivale;Hypericum maculatum s.l.;Campanula glomerata s.l.;Carex sempervirens;Valeriana dioica;Soldanella alpina;Carex flacca;Phleum pratense;Lathyrus pratensis;Allium schoenoprasum;Campanula scheuchzeri;Centaurea jacea s.str.;Gypsophila repens;Thesium alpinum;Pimpinella saxifraga;Centaurea montana;Bromus erectus s.str.;Helianthemum nummularium s.l.;Prunella grandiflora;Holcus lanatus;Onobrychis viciifolia;Primula farinosa;Trollius europaeus;Carex sylvatica;Viola biflora;spatial partitioning;Hieracium bifidum aggr.;Deschampsia cespitosa;Vaccinium myrtillus;Pimpinella major;Silene acaulis;Polygonum bistorta;Primula elatior s.str.;Alchemilla glabra aggr.;Arnica montana;Poa cenisia;environmental gradient;Brachypodium pinnatum;Euphrasia salisburgensis;Astrantia major;Hypochaeris radicata;Vicia cracca s.str.;Thymus pulegioides s.str.;Lotus corniculatus;Trifolium montanum;Lysimachia nummularia;Knautia dipsacifolia s.str.;Vicia sativa s.l.;Senecio doronicum;Acinos alpinus;Trifolium repens s.str.;Achillea atrata;Onobrychis montana;Aposeris foetida;Cruciata laevipes;Adenostyles glabra;Alchemilla conjuncta aggr.;Potentilla erecta;Euphorbia cyparissias;Fragaria vesca;Minuartia verna;Bellis perennis;Festuca violacea;Phleum rhaeticum;Plantago major s.l.;Leontodon hispidus s.l.;Rumex obtusifolius;Dryas octopetala;Luzula sieberi;Cerastium fontanum s.l.;Festuca ovina aggr.;Saxifraga moschata s.l.;Salvia pratensis;Saxifraga oppositifolia;Linum catharticum;Silene vulgaris s.l.;Agrostis schraderiana;Carlina acaulis subsp. caulescens;Origanum vulgare;Campanula barbata;Cirsium oleraceum;Centaurea scabiosa s.l.;Glechoma hederacea s.l.;Veronica chamaedrys;Veratrum album s.l.;Anthyllis vulneraria s.l.;Poa pratensis;Agrostis capillaris;Dactylis glomerata;Ranunculus montanus;Tussilago farfara;Phyteuma orbiculare;Carex nigra;limiting similarity;Geum montanum;Rumex alpestris;Globularia nudicaulis;Doronicum grandiflorum;Myosotis alpestris;Phleum hirsutum;Determinants of plant community diversity and structure;Agrostis rupestris;Gnaphalium supinum;Solidago virgaurea s.l.;Hieracium villosum;Poa trivialis s.l.;Ranunculus repens;Hieracium lactucella;Trifolium pratense s.l.;Cirsium spinosissimum;Salix retusa;Gentiana purpurea;trait divergence;Plantago alpina;Sesleria caerulea;Parnassia palustris;Globularia cordifolia;Pulsatilla alpina s.l.;Trifolium thalii;Briza media;Rumex alpinus;Clinopodium vulgare;Carex leporina;Carex panicea;Hieracium pilosella;Saxifraga biflora s.l.;Cynosurus cristatus;Plantago lanceolata;Petasites paradoxus;Veronica alpina;Bartsia alpina;Potentilla crantzii;Festuca rubra aggr.;Chaerophyllum aureum;Nardus stricta;Galium album;Anthoxanthum odoratum aggr.;Oxytropis jacquinii;Laserpitium siler;Salix reticulata;Alchemilla vulgaris aggr.;Anthropocene;Agrostis stolonifera;Linaria alpina s.str.;Sanguisorba minor s.l.;Carum carvi;Galium anisophyllon;Potentilla aurea;Veronica aphylla;Adenostyles alliariae;Primula auricula;Crepis aurea;Trifolium campestre;Euphrasia rostkoviana s.str.;Gentiana campestris s.l.;Laserpitium latifolium;Alchemilla xanthochlora aggr.

DOI：: doi:10.5061/dryad.2dq836f

摘要：: Habitat filtering and limiting similarity are well?documented ecological assembly processes that hierarchically filter species across spatial scales

Data from: Do cladistic and morphometric data capture common patterns of morphological disparity?

负责人：

关键词：: disparity;constraint;Evolution;Caecilia;morphospace

DOI：: doi:10.5061/dryad.mm5m1

摘要：: capture similar patterns of morphological variation remains a moot point. To address this issue, we employ both cladistic and geometric morphometric data

Data from: Toward synthesizing our knowledge of morphology: using ontologies and machine reasoning to extract presence/absence evolutionar

负责人：

关键词：: Paleozoic;missing data;Mesozoic;Phenotype;ontology;Inference;Morphological Characters;Character Conflict;Sarcopterygii;Cenozoic;Supermatrix;Evolutionary Mapping

DOI：: doi:10.5061/dryad.rm907

摘要：: h computational scoring of phenotypic similarity, they open a rich set of future research questions into phenotype-to-genome relationships.

Data from: Accounting for female space sharing in St. Kilda Soay sheep (Ovis aries) results in little change in heritability estimates

负责人：: Regan, Charlotte E.

关键词：: Philopatry Additive genetic variance 'animal model' Home range Common environment

DOI：: doi:10.5061/dryad.qv145

摘要：: ). We accounted for space sharing by related females by separately incorporating spatial autocorrelation, and a home range similarity matrix. Although these terms

Data from: Conodont size, trophic level and the evolution of platform elements.

负责人：

关键词：: P1;Size;trophic level;platform morphology;convergence;Conodonta;Ordovician - Triassic

DOI：: doi:10.5061/dryad.26036h6

摘要：: e been suggested to correspond to similar functional constraints linked to diet. To test this hypothesis of convergence, we measured size (as element length) for var

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Data from: Can ancestry and morphology be used as surrogates for species niche relationships?

Data from: Evolvability and craniofacial diversification in genus Homo

Data from: Effects of Poor Knights Islands Marine Reserve on demersal fish populations

Data from: Habitat patterns in tropical rain forests: a comparison of 105 plots in northwest Borneo

Data from: Landscape genetic analyses reveal fine-scale effects of forest fragmentation in an insular tropical bird

Data from: Disentangling the processes driving plant assemblages in mountain grasslands across spatial scales and environmental gradients

Data from: Do cladistic and morphometric data capture common patterns of morphological disparity?

Data from: Toward synthesizing our knowledge of morphology: using ontologies and machine reasoning to extract presence/absence evolutionar

Data from: Accounting for female space sharing in St. Kilda Soay sheep (Ovis aries) results in little change in heritability estimates

Data from: Conodont size, trophic level and the evolution of platform elements.

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