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Data from: Sexual selection in a hermaphroditic plant through female reproductive success
负责人:
关键词:
Bateman gradient Natural selection path analysis phenotypic selection pollinator-mediated selection structural equation model experimental manipulation
DOI:
doi:10.5061/dryad.s1q0h
摘要:
Sexual selection is well accepted as a mechanism of shaping traits in animals. However, whether and how floral traits are sexually selected
Data from: Repeated Evolution of Dioecy from Monoecy in Siparunaceae (Laurales)
负责人:
关键词:
altitudinal distribution of sexual systems;dioecy;molecular clock;monoecy;sexual system evolution
DOI:
doi:10.5061/dryad.670
摘要:
phylogenetic signal is leaf margin shape (entire or toothed), although this character also correlates with altitude, probably reflecting selection on leaf shapes
Data from: Comparative linkage maps suggest that fission, not polyploidy, underlies near-doubling of chromosome number within monkeyflowers (Mimulus
负责人:
关键词:
Mimulus nasutus;Mimulus guttatus
DOI:
doi:10.5061/dryad.4bh26
摘要:
Changes in chromosome number and structure are important contributors to adaptation, speciation, and macroevolution. In flowering plants, polyploidy
Data from: Adaptive phenotypic divergence in an annual grass differs across biotic contexts
负责人:
关键词:
local adaptation;G matrix;phenotypic divergence;biotic interactions;Climate Adaptation;Zea mays ssp. mexicana;rhizosphere
DOI:
doi:10.5061/dryad.r1r839d
摘要:
Climate is a powerful force shaping adaptation within species, yet adaptation to climate occurs against a biotic background: species inter
Data from: Effect of expanded variation in anther position on pollinator visitation to wild radish, Raphanus raphanistrum
负责人:
关键词:
pollen foraging insects;visitation rate;anther position;pollinator-mediated selection;Brassicaceae;Artificial selection;Raphanus raphanistrum
DOI:
doi:10.5061/dryad.1gc03
摘要:
Background and Aims: Plant-pollinator interactions shape the evolution of flowers. Floral attraction and reward traits have often been sh
Data from: Bees without flowers: before peak bloom, diverse native bees find insect-produced honeydew sugars
负责人:
关键词:
climate change;Ecology: community;Community: dynamics;Foraging: ecology;Foraging: behavior;Bees;Ecology: behavioral;communication
DOI:
doi:10.5061/dryad.00t8g
摘要:
and distinguish floral colors, shapes, volatiles, and ultraviolet signals, and even gauge nectar availability from changes in floral humidity or electric fields ar
Data from: Foraging strategies of generalist and specialist Old World nectar bats in response to temporally variable floral resources
负责人:
关键词:
diet switching;pollination;steady-state resources;Pteropodidae;phenology;big-bang resources;chiropterophily
DOI:
doi:10.5061/dryad.6bg67
摘要:
. Moreover, these findings demonstrate how plant flowering phenology and pollinator diet breadth can shape the frequency and constancy of pollinator
Data from: How are the phenologies of ripening and seed release affected by species' ecology and evolution?
负责人:
关键词:
phylogenetic effect;single flower monitoring;plant dispersal phenology
DOI:
doi:10.5061/dryad.4rv4v
摘要:
and evolutionary constraints that shape the ripening and seed release phenology of plants. We introduce data that can be used to advance existing models of ripening phenology
Data from: The gravity of pollination: integrating at-site features into spatial analysis of contemporary pollen movement.
负责人:
关键词:
Population Graphs;Gravity Models;gene flow;Landscape Genetics;Cornus florida
DOI:
doi:10.5061/dryad.774s8
摘要:
-specific features of the landscape can modify the perceived attractiveness of plants to their pollinators and thus play an important role in shaping spatial
Data from: The diversity of floral temperature patterns, and their use by pollinators
负责人:
关键词:
Pelargonium cucullatum;Helleborus orientalis;Helianthemum nummularium;Helleborus x \u2018Snow White\u2019;Floral Signalling;Arabis alpina;Begonia coccinea;Chamerion angustifolium 'Albino';Bergenia cordifolia;Chaenomeles speciosa;Vinca minor;Geranium sylvaticum;Tulipa tarda;Conditioning;Jasminum officinale;Crinum x powellii;Brachyscome iberidifolia;Trautvetteria caroliniensis;Osteospermum jucundum;Hyacinthoides non-scripta;Iris sibirica;Cistus x purpureus;Astrantia major;Gazania rigens;Geranium psilostemon;Geranium pyrenaicum;Lotus corniculatus;Paradisea lusitanica;Dietes bicolor;Potentilla fruticosa 'Gibson's Scarlet';Campanula poscharskyana;bumblebees;Kerria japonica 'Flore Pleno';Camellia fraterna;Papaver cambricum;Matricaria chamomilla;Iris unguicularis;Crocus x stellaris;Helichrysum sp.;Fragaria vesca;Fuchsia magellanica;Geranium californicum;Campanula persicifolia;Bellis perennis;Anemone nemorosa;Azalea sp.;Hemerocallis sp.;Hydrangea macrophylla;Bees;Cypella herbertii;Primula vulgaris;Tulipa 'Golden Appledoorn';Anthurium scherzerianum;Impatiens tinctoria;Tulipa 'Honky Tonk';Magnolia kobus;Taraxacum officinale;Geranium pratense;Bombus terrestris;Xerochrysum bracteatum 'Florabella Pink';Hemerocallis 'Autumn Red';Spiraea prunifolia;Narcissus pseudonarcissus;Dimorphotheca pluvialis;Anemone blanda;Paeonia peregrina;Coreopsis verticillata;Eschscholzia californica;Hypericum calycinum;Xerochrysum bracteatum;Brunnera macrophylla;Ranunculus bulbosus;Roscoea sp.;Aquilegia vulgaris;Arctotis acaulis;Ranunculus sp.;Cistus 'Snow Fire';Borago officinalis;Dahlia coccinea;Vinca herbacea;Chamelaucium uncinatum;Rhododendron carolinianum 'P.J. Mezitt';Ranunculus aquatilis;Cistus x pulverulentus;Pelargonium quercifolium;Nymphaea odorata;Helianthemum apenninum;Mimulus aurantiacus;Tulbaghia violacea;Mimosa pudica;learning;Dimorphotheca sp.;Allium cristophii;Geum 'Kariskaer';Gazania rigens 'Cookie';Malva sylvestris;Phlomis fruticosa;Ranunculus auricomus;Nepeta 'Six Hills Giant';Scutellaria galericulata;Zantedeschia aethiopica;Infrared thermography;Felicia amelloides;Leucanthemum vulgare;Aubrieta deltoidea;Piptanthus napalensis;Prunus sp.;Pelargonium echinatum;Zinnia peruviana 'Red Spider';Cistus 'Snow White';Papaver rhoeas;Crocosmia 'Lucifer';Geum chiloense 'Lady Straheden';Cistus x verguinii;Geranium albanum;Silene coronaria;Angiosperms;temperature;Crocus vernus;Ficaria verna;Rhododendron sp.;Daphne odora;Polemonium foliosissimum;Cistus x argenteus;Dimorphotheca sinuata;Euphorbia characias;Campanula portenschlagiana;Knautia macedonica;Alyogyne huegelii;Salvia forsskaolii;Gazania 'Daybreak Bright Orange';Galanthus nivalis;Acanthus hungaricus;Tulipa 'Daydream';pollination;Geu chiloense 'Mrs Bradshaw';Tulipa hageri 'Red Cup';Knautia macedonica 'Red Knight';Nigella damascena;Geranium procurrens;Pasithea caerulea;Rhodanthe chlorocephala;Exochorda x macrantha;Narcissus hispanicus;Tulipa kaufmanniana
DOI:
doi:10.5061/dryad.qp244
摘要:
to those seen in real flowers. Thus, bumblebees are able to perceive the shape of these within-flower temperature patterns. Floral temperature patterns ma

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