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In Silico Identified Signal Peptides Of Chlamydomonas Reinhardtii
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DOI:
doi:10.5281/zenodo.556792
摘要:
AM, Yang P, Ball S, Bowler C, Dieckmann CL, Gladyshev VN, Green P, Jorgensen R, Mayfield S, Mueller-Roeber B, Rajamani S, Sayre RT, Brokstein P, Dubchak
GBIF Occurrence Download
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GBIF biodiversity species occurrences
DOI:
doi:10.15468/dl.adcx2p
摘要:
.6880527498568, 20.91796875 29.6880527498568, 20.91796875 -0.5273363048115043, -16.875 -0.5273363048115043)) TaxonKey: Cola gigantea A. Chevalier. The dataset
GBIF Occurrence Download
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GBIF biodiversity species occurrences
DOI:
doi:10.15468/dl.epccec
摘要:
& F.K. Timler or Uvaria chamae Schumach. & Thonn. or Lippia chevalieri Moldenke Country: Benin Year: >= 2006. The dataset includes 1226
In Silico Identified Signal Peptides Of Chlamydomonas Reinhardtii
负责人:
关键词:
DOI:
doi:10.5281/zenodo.603927
摘要:
AM, Yang P, Ball S, Bowler C, Dieckmann CL, Gladyshev VN, Green P, Jorgensen R, Mayfield S, Mueller-Roeber B, Rajamani S, Sayre RT, Brokstein P, Dubchak
GBIF Occurrence Download
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GBIF biodiversity species occurrences
DOI:
doi:10.15468/dl.pbnxve
摘要:
sudanica A.Chev. or Scleria iostephana Nelmes or Wolffia arrhiza (L.) Horkel ex Wimm. or Pseudovigna argentea (Willd.) Verdc. or Spirodela polyrhiza
Eurobarometer 24 (Oct 1985);;Eurobarometer 24 (Oct 1985);;Entry of Spain and Portugal;;Entry of Spain and Portugal
负责人:
Inglehart, Ronald;;Rabier, Jacques-René;;Riffault, Hélène;;DIMARSO, Brussels;;EMNID, Bielefeld;;Gallup Markedsanalyse, Hellerup;;Institut De Sondages Lavialle, Issy-Les-Moulineaux;;ICAP Hellas, Athen;;Irish Marketing Surveys, Dublin;;DOXA, Mailand;;ILRES, Luxemburg;;Instituto De Investigacion Gallup, Madrid;;NIPO, Amsterdam;;NORMA, Lissabon;;Social Surveys (Gallup Poll), London
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KAT12 International Institutions, Relations, Conditions
DOI:
doi:10.4232/1.10881
摘要:
Steuerzahlungen; Einstellung zur Vereinigung Westeuropas undeinem Vereinigten Europa; Sch?tzung des Zeitraums, bis eine politischeVereinigung vollzogen sein wird
Eurobarometer 68.2 (2007-2008);;Eurobarometer 68.2 (2007-2008)
负责人:
TNS Dimarso, Brussels, Belgium;;TNS Dimarso, Brussels, Belgium;;TNS BBSS, Sofia, Bulgaria;;TNS BBSS, Sofia, Bulgaria;;TNS Aisa, Prague, Czech Republic;;TNS Aisa, Prague, Czech Republic;;TNS GALLUP DK, Copenhagen, Denmark;;TNS GALLUP DK, Copenhagen, Denmark;;TNS Infratest, Munich, Germany;;TNS Infratest, Munich, Germany;;Emor, Tallinn, Estonia;;Emor, Tallinn, Estonia;;TNS ICAP, Athens, Greece;;TNS ICAP, Athens, Greece;;TNS Demoscopia, Madrid, Spain;;TNS Demoscopia, Madrid, Spain;;TNS Sofres, Montrouge, France;;TNS Sofres, Montrouge, France;;TNS MRBI, Dublin, Ireland;;TNS MRBI, Dublin, Ireland;;TNS Abacus, Milan, Italy;;TNS Abacus, Milan, Italy;;Synovate, Nicosia, Cyprus;;Synovate, Nicosia, Cyprus;;KADEM, Turkish Cypriot Comm.;;KADEM, Turkish Cypriot Comm.;;TNS Latvia, Riga, Latvia;;TNS Latvia, Riga, Latvia;;TNS GALLUP Lithuania, Vilnius, Lithuania;;TNS GALLUP Lithuania, Vilnius, Lithuania;;TNS ILReS, Luxembourg, Luxembourg;;TNS ILReS, Luxembourg, Luxembourg;;TNS Hungary, Budapest, Hungary;;TNS Hungary, Budapest, Hungary;;MISCO, Valletta, Malta;;MISCO, Valletta, Malta;;TNS NIPO, Amsterdam, Netherlands;;TNS NIPO, Amsterdam, Netherlands;;?sterreichisches GALLUP, Vienna, Austria;;?sterreichisches GALLUP, Vienna, Austria;;TNS OBOP, Warsaw, Poland;;TNS OBOP, Warsaw, Poland;;TNS EUROTESTE, Lissabon, Portugal;;TNS EUROTESTE, Lissabon, Portugal;;TNS CSOP, Bucharest, Romania;;TNS CSOP, Bucharest, Romania;;RM PLUS, Maribor, Slovenia;;RM PLUS, Maribor, Slovenia;;TNS AISA SK, Bratislava, Slovakia;;TNS AISA SK, Bratislava, Slovakia;;TNS GALLUP Oy, Espoo, Finland;;TNS GALLUP Oy, Espoo, Finland;;TNS GALLUP, Stockholm, Sweden;;TNS GALLUP, Stockholm, Sweden;;TNS UK, London, United Kingdom;;TNS UK, London, United Kingdom
关键词:
DOI:
doi:10.4232/1.10006
摘要:
für umweltfreundlicheProdukte trotz h?herer Preise; Verhaltens?nderungen des Befragten ausUmweltschutzgründen in der Vergangenheit; wichtigste t?glicheVerhaltensma?nahmen eines
Animaux
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关键词:
Anthropocentrisme Droit Nature Règne animal
DOI:
doi:10.17184/eac.anthropen.054
摘要:
réification et l\u2019ethnocentrisme font place à l\u2019examen des modalités fluctuantes de leurs enchevêtrements et se voient, souvent, substituer
GBIF Occurrence Download
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关键词:
GBIF biodiversity species occurrences
DOI:
doi:10.15468/dl.kkle4s
摘要:
(Jacq.) DC. or Rhynchosia minima (L.) DC. or Raphia sudanica A.Chev. or Schoenoplectus junceus (Willd.) J.Raynal or Scleria mikawana Makino or Scleria
Data from: Phylogenetic diversity patterns in Himalayan forests reveal evidence for environmental filtering of distinct lineages
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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:
Large?scale environmental gradients have been invaluable for unraveling the processes shaping the evolution and maintenance of biodiversity. Environmental gradients provide a natural setting to test theories about species diversity and distributions within a landscape with changing biotic and abiotic interactions. Elevational gradients are particularly useful because they often encompass a large climatic range within a small geographical extent. Here, we analyzed tree communities in plots located throughout Arunachal Pradesh, a province in northeast India located on the southern face of the Eastern Himalayas, representing one of the largest elevational gradients in the world. Using indices of species and phylogenetic diversity, we described shifts in community structure across the landscape and explored the putative biotic and abiotic forces influencing species assembly. As expected, species richness and phylogenetic diversity decreased with increasing elevation; however, contrary to predictions of environmental filtering, species relatedness did not show any clear trend. Nonetheless, patterns of beta diversity (both taxonomic and phylogenetic) strongly suggest lineage filtering along the elevational gradient. Our results may be explained if filtering is driving the assembly of species from distinct evolutionary lineages. New metrics exploring community contributions to regional taxonomic and phylogenetic beta diversity provided additional evidence for the persistence of unique communities at high elevations. We suggest that these patterns may be consistent with filtering on glacial relicts, part of once more diverse clades with convergent traits suited to climates at the last glacial maximum, resulting in random or over?dispersed community assemblages at high elevations. We propose that these high?elevation sites with evolutionarily distinct species represent possible regions for conservation priority that may provide refugia for species threatened by current warming trends.

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