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Data from: Reduced drought tolerance during domestication and the evolution of weediness results from tolerance-growth trade-offs
负责人:
关键词:
Root Architecture;Helianthus annuus;Arbuscular mycorrhizal fungi;agricultural weeds;stress tolerance;Sunflower
DOI:
doi:10.5061/dryad.sb432
摘要:
n weedy), and fourteen domesticated populations (eight ancient landraces and six improved cultivars) of the common sunflower (Helianthus
Data from: Multiple reproductive barriers separate recently diverged sunflower ecotypes
负责人:
关键词:
sand dune adaptation;ecological divergence;Helianthus petiolaris;incipient speciation;pollen competition;reciprocal transplant
DOI:
doi:10.5061/dryad.223p4
摘要:
ly diverged (< 10,000 years bp) dune and non-dune ecotypes of the prairie sunflower, Helianthus petiolaris. We find reproductive barriers acting at multiple
Data from: Importance of whole-plant biomass allocation and reproductive timing to habitat differentiation across the North American sunflowers
负责人:
关键词:
biomass;Helianthus;climate;soil fertility;leaf;Phoebanthus;daylength;flower;bud;Life history;root;growing season;stem
DOI:
doi:10.5061/dryad.v3824
摘要:
phenotyping to assess the evolution of biomass allocation and reproductive timing across 83 populations of 27 species of the diverse genus Helianthus (the sun
Data from: Genome skimming reveals the origin of the Jerusalem Artichoke tuber crop species: neither from Jerusalem nor an Artichoke
负责人:
关键词:
allopolyploid speciation phylogenomics polyploid parentage polyploidy ultra-barcoding
DOI:
doi:10.5061/dryad.138vs
摘要:
The perennial sunflower Helianthus tuberosus, known as Jerusalem Artichoke or Sunchoke, was cultivated in eastern North America before European
Data from: Genotype-aggregated planting improves yield in Jerusalem artichoke (Helianthus tuberosus) due to self/non-self discrimination
负责人:
Fukano, Yuya
关键词:
kin recognition tuber plant communication Agriculture
DOI:
doi:10.5061/dryad.r2t034g
摘要:
Helianthus tuberosus (Jerusalem artichoke) in pot and field conditions and examined self/non-self discrimination and the effectiveness of genotype-aggregated plant
Data from: The effects of climate warming and disturbance on the colonization potential of ornamental alien plant species
负责人:
关键词:
Monarda fistulosa;Cerastium tomentosum;Viola odorata;Centaurea macrocephala;Salpiglossis sinuata;Mentha spicata;Solidago canadensis;Verbena rigida;Centaurea americana;Lilium formosanum;Achillea millefolium;Solidago ptarmicoides;Amaranthus tricolor;Iris sibirica;Nicotiana sylvestris;Lysimachia punctata;Helianthus debilis;Hordeum jubatum;Petunia integrifolia;Antirrhinum majus;Potentilla atrosanguinea;Zinnia peruviana;biological invasions;Nicotiana mutabilis;Lysimachia?vulgaris;Lobelia inflata;Eranthis hyemalis;Persicaria virginiana;Plantago media;Pseudofumaria lutea;Lysimachia clethroides;Vicia sepium;Vegetation disturbance;Nemophila maculata;Silene latifolia;Holocene;Atropa belladonna;Eragrostis trichodes;Hesperis matronalis;Aconitum carmichaelii;Eritrichium canum;Rudbeckia fulgida;Phleum pratense;Rudbeckia triloba;plant colonization;Allium schoenoprasum;Heliotropium arborescens;Digitalis trojana;Rumex crispus;climate warming;Achillea filipendulina;Origanum vulgare;Invasion ecology;Ajuga reptans Alba;Viola tricolor;Persicaria capitata;Consolida ajacis;Garden plants;Lilium regale;Helenium bigelovii;Platycodon grandiflorus;Invasion debt;Cuminum cyminum;climate change;exotic species;Aquilegia vulgaris;Gilia tricolor;Nepeta racemosa;Pennisetum macrourum;Isotoma axillaris;Monarda punctata;Functional traits;Salvia verticillata;Iris domestica
DOI:
doi:10.5061/dryad.c4t44
摘要:
1. A large number of alien plant species have been introduced as ornamental garden plants to Europe, but relatively few have become invasive. Low
Data from: Strong patterns of intraspecific variation and local adaptation in Great Basin plants revealed through a review of 75 years of experiments
负责人:
关键词:
Sporobolus airoides;Deschampsia cespitosa;Penstemon rydbergii;Eriogonum ovalifolium;Chrysothamnus viscidiflorus;Penstemon acuminatus;Populus angustifolia;Allium acuminatum;Penstemon confusus;restoration;Polemonium viscosum;Festuca idahoensis;Andropogon scoparius;Helianthus anomalus;Saxifraga oregana;Potentilla pulcherrima;Elymus multisetus;Sporobolus cryptandrus;Penstemon cyanocaulis;Penstemon humilis;Leptosiphon nuttallii;Epilobium densiflorum;Ranunculus flammula;Achnatherum thurberianum;Cistanthe umbellata;reciprocal transplant;Encelia farinosa;Nicotiana attenuata;Penstemon newberryi;Erysimum capitatum;Sphaeralcea parvifolia;Holocene;Mimulus cardinalis;Ericameria nauseosa;Plantago ovata;Pseudoroegneria spicata;Penstemon palmeri;Krascheninnikovia lanata;natural selection;Machaeranthera canescens;intraspecific variation;Purshia tridentata;Penstemon petiolatus;Chaenactis douglasii;Coleogyne ramosissima;Holodiscus discolor;Lupinus latifolius;Penstemon subglaber;Cleome lutea lutea;Lomatium dissectum;Penstemon linarioides;Atriplex canescens;Penstemon watsonii;Lotus utahensis;Gutierrezia sarothrae;local adaptation;Solidago gigantea;Poa secunda;Elymus canadensis;Cercocarpus montanus;Stephanomeria minor;Polygonum viviparum;Linum lewisii;Penstemon comarrhenus;Claytonia perfoliata;Penstemon rostriflorus;Stellaria longipes;Eriogonum microthecum;Xanthium strumarium;Koeleria macrantha;Pascopyrum smithii;Delphinium nelsonii;Penstemon leonardii;Elymus trachycaulus;Typha latifolia;Leymus cinereus;Penstemon eatonii;Carex aquatilis;Hesperostipa comata;Symphoricarpos oreophilus;Dalea searlsiae;Artemisia tridentata;Stipa hymenoides;Bromus carinatus;Eriogonum umbellatum;Penstemon utahensis;Allium brandegeei;Atriplex confertifolia;Bouteloua gracilis;Grayia spinosa;Astragalus filipes;Sphaeralcea munroana;Elymus elymoides;Penstemon fruticosus;common garden;Ephedra nevadensis;Sphaeralcea grossulariifolia;Oxyria digyna;Penstemon leiophyllus;Sphaeralcea coccinea;Penstemon deustus;phenotypic traits;Penstemon cyananthus;meta-analysis;Dalea ornata;Penstemon pachyphyllus;Elymus glaucus;Mimulus lewisii;Solidago velutina;Cryptantha circumscissa;Allium passeyi;Amelanchier utahensis
DOI:
doi:10.5061/dryad.3pf2cb4
摘要:
of homogeneous ecosystems, our results demonstrate widespread habitat-related population differentiation and local adaptation. Locally-sourced plants likely harbor
Data from: Adaptation with gene flow across the landscape in a dune sunflower
负责人:
关键词:
Helianthus petiolaris;Landscape Genetics;Ecological Genetics;speciation;Adaptation;Population Genetics - Empirical
DOI:
doi:10.5061/dryad.158pb518
摘要:
to control for these other forces. We have studied the divergence of Helianthus petiolaris ecotypes living in active sand dunes and adjacent non-dune habitat

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