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Data from: Vertical root distribution of individual species in a mountain grassland community: does it respond to neighbours?
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DOI:
doi:10.5061/dryad.0v346
摘要:
h as height or specific leaf area), and whether they respond to the presence of a competitor. This response was assessed by comparison of species-specific
Data from: Selection and genomic differentiation during ecological speciation: isolating the contributions of host association via a compar
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herbivorous insects;current;Population Divergence;reproductive isolation;divergent natural selection;Neochlamisus bebbianae;AFLPs;speciation genetics
DOI:
doi:10.5061/dryad.ng09t
摘要:
classified as "host-independent." Host-specific outliers represented 5% of all loci and were more frequent than host-independent outliers, thus revealing a lar
Data from: Beyond climate: convergence in fast evolving sclerophylls in Cape and Australian Rhamnaceae predates the mediterranean climate
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关键词:
Specific leaf area;Cape flora;Sclerophylly;Plant\u2013climate interactions;diversification rate;Fynbos;Character syndrome;Kwongan;Cenozoic;Rhamnaceae;extinction rate
DOI:
doi:10.5061/dryad.nh8c7
摘要:
MTEs of the world. Here, we challenge this model using the globally distributed Rhamnaceae. We collected functional trait data (specific leaf area
Data from: The arrangement of lateral veins along the midvein of leaves is not related to leaf phyllotaxis
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Temperate Forest;Euonymus alatus;Ulmus davidiana var. japonica;warm-temperate forest;Hydrangea paniculata;Amaranthaceae;Amphicarpaea edgeworthii var. japonica;Vitaceae;Justicia procumbens;Ulmus davidiana;Symphytum officinale;Rubiaceae;Picrasma quassioides;Solanaceae;Betulaceae;Araliaceae;scanned image;vein;Oleaceae;scanned leaf;Polygonaceae;Juglans mandshurica;Betula platyphylla;Scutellaria strigillosa;Boraginaceae;Salicaceae;Paederia foetida;Populus suaveolens;Juglandaceae;Acer ginnala;Plant;auxin flow;Ericaceae;Ulmus japonica;canalization model;Holocene;Fraxinus mandshurica;Cornus controversa;Caprifoliaceae;canalization hypothesis;Ligustrum obtusifolium;Rosaceae;Onagraceae;Lamiaceae;Prunus sargentii;Aucuba japonica;phyllotaxis;Apocynaceae;Cornaceae;Fallopia sachalinensis;Acanthaceae;venation;Hydrangeaceae;Magnoliaceae;Rhododendron brachycarpum;Magnolia kobus;Oenothera biennis;Cerasus sargentii;Solanum;Eleutherococcus senticosus;Quercus crispula;Cayratia japonica;Metaplexis japonica;phyllotaxy;Celastraceae;Cynanchum rostellatum;leaf;Amphicarpaea bracteata;Fagaceae;Fabaceae;Lonicera japonica;Aucubaceae;Chenopodium album;2018;Simaroubaceae;2017;Leguminosae;Labiatae;Sapindaceae;Asteraceae;cool-temperate forest;Bidens;Ulmaceae
DOI:
doi:10.5061/dryad.p6g8048
摘要:
Positions of leaves along a stem usually adhere to a genetically determined, species-specific pattern known as a leaf phyllotaxis. We investigated

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