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Data from: Experimentally induced repeated anhydrobiosis in the eutardigrade Richtersius coronifer
负责人:
J?nsson, K. Ingemar
关键词:
tardigrades anhydrobiosis desiccation tolerance mitosis
DOI:
doi:10.5061/dryad.78vd3
摘要:
of desiccation, and the potential effect of repeated desiccation on size, shape and number of storage cells. We also analyzed potential change in body
Data from: Defining conservation units with enhanced molecular tools to reveal fine scale structuring among Mediterranean green turtle rookeries
负责人:
关键词:
microsatellites;Genetic structure;mtDNA;relatedness;Chelonia mydas;mtSTR
DOI:
doi:10.5061/dryad.7db01
摘要:
ult contradicts previous regional assessments and supports a growing body of evidence that green turtles exhibit a more precise level of natal site fidelity than ha
Data from: Post-metamorphic carry-over effects of larval digestive plasticity
负责人:
关键词:
compensatory growth complex life cycle diet retention time gut plasticity intake latent effects metamorph Neotropical treefrog
DOI:
doi:10.5061/dryad.650cn
摘要:
ll juveniles with very low lipid reserves that may have stimulated hyperphagia relative to larger juveniles. Longer guts carried over from the larval stage could
Data from: Modelling the functional link between movement, feeding activity and condition in a marine predator
负责人:
Pirotta, Enrico
关键词:
Body condition Feeding ecology Satellite tracking Disturbance Bayesian state-space modelling Elephant seals
DOI:
doi:10.5061/dryad.r1t6fj5
摘要:
at different stages of the trip, and how the predicted accumulation of lipid reserves varies as a consequence. Particularly, disturbing an animal in periods of high
Data from: What does body size mean, from the “plant's eye view”?
负责人:
关键词:
Coronilla varia;Trifolium hybridum;Sedum acre;Centaurea jacea;Oenothera perennis;Potentilla argentea;Achillea millefolium;Erigeron strigosus;Hackelia virginiana;Symphytum spp.;Glechoma hederacea;Veronica arvensis;Oxalis corniculata;height;Verbena simplex;Lysimachia ciliata;Lotus corniculatus;Isanthus brachiatus;Acrtium minus;Matricaria recutita;Chenopodium capitatum;space occupancy body size;lateral extent;Saponaria officinalis;Arabis glabra;Eupatorium maculatum;Euphorbia cyparissias;Prunella vulgaris;Veronica serpyllifolia;Lathyrus latifolius;Erigeron philadelphicus;Holocene;Hydrophyllum virginianum;Desmodium spp.;Sonchus arvensis;Daucus carota;Geum canadense;Aquilegia canadensis;Asclepsias incarnata;Linaria vulgaris;Convolvulus arvensis;Trifolium pratense;Verbena hastata;Melilotus alba;Arassica rapa;Carduus acanthoides;Trifolium dubium;Veronica peregrina;Oenothera biennis;Matricaria matricarioides;Taraxacum officinale;Rumex crispus;Aster umbellata;Ambrosia trifida;Trifolium repens;Polygonum persicaria;Tragopogon pratensis;Plantago major;Allium cernuum;Silene vulgaris;Solidago caesia;Thymus serpyllum;Trillium spp.;Barbarea vulgaris;Rumex acetosella;Sonchus oleraceus;Melilotus officinalis;Silene nivea;Geranium maculatum;Lactuca saligna;Epilobium hirsutum;Smilacina racemosa;Lactuca serriola;Anaphalis margaritacea;Vicia cracca;Podophyllum peltatum;Conzya canadensis;Urtica dioica;Tussilago farfara;Arenaria serpyllifolia;Phlox paniculata;Asclepsias syriaca;Dianthus armeria;Actaea alba;Body Size;Lobelia cardinalis;Solidago canadensis;Medicago lupulina;Cirsium muticum;Solidago juncea;Apocynum androsaemifolium;Cirsium vulgare;Malva neglecta;Aster lanceolatus;Helianthus divaricatus;Campanula rotundifolia;Cerastium arvense;Mirabilis spp.;Cichorium intybus;dry mass;Hieracium piloselloides;Sisyrinchium montanum;Ranunculus acris;Anemone canadensis;Alliara petiolata;Inula helenium;Chrysanthemum leucanthemum;Thlaspi arvense;Echium vulgare;Geum triflorum;Urtica chamaedryoides;Euthamia graminifolia;Hypericum perforatum;Plantago lanceolata;Campanula rapunculoides;Hieracium aurantiacum;fresh mass;Agrimonia gryosepala;Cynoglossum officinale;Phryma leptostachya;Verbascum thapus;Hespersis matronalis;Mentha arvensis;Impatiens capensis;Lythrum salicaria;Antennaria neglecta;Leonurus cardiaca;Fragaria virginiana;Lapsana communis;Ambrosia artemisiifolia;herbaceous species;Vincetoxicum rossicum;Geranium robertanium;Stellaria media;Potentilla recta;Anemone virginiana;Aster novae-angliae;Medicago sativa;Hieracium kalmii;Penstemon hirsutus;Hieracium spp.;Solidago flexicaulis;Epipactis helleborine;Gallium mollugo;Aster cordifolius;Clinopodium vulgaris;Cerastium vulgatum
DOI:
doi:10.5061/dryad.n6c67
摘要:
Alternative metrics exist for representing variation in plant body size, but the vast majority of previous research for herbaceous plants has focuse
Data from: Temperature and sex related effects of serine protease alleles on larval development in the Glanville fritillary butterfly
负责人:
关键词:
Life History Evolution;Ecological Genetics;insects;Melitaea cinxia;Phenotypic Plasticity;Adaptation
DOI:
doi:10.5061/dryad.s57k2
摘要:
The body reserves of adult Lepidoptera are accumulated during larval development. In the Glanville fritillary butterfly, larger body size increases
Data from: Maternal size and body condition predict the amount of post-fertilization maternal provisioning in matrotrophic fish
负责人:
关键词:
matrotrophy;superfetation;Placenta;Poeciliopsis retropinna;live-bearing;placentotrophy;Viviparity;Poeciliidae
DOI:
doi:10.5061/dryad.qt8744c
摘要:
t first in embryo lean mass, then allocate fat reserves to embryos very late in pregnancy. We argue that this delay in fat allocation may be adaptive, bec
Data from: Alternative intrapopulation life history strategies and their trade-offs in an African annual fish
负责人:
关键词:
Life History Evolution;Nothobranchius furzeri;Phenotypic Plasticity;Fish
DOI:
doi:10.5061/dryad.5km28
摘要:
pool strategy). The fast fish were smaller at hatching but had larger yolk sac reserves. Their post-hatching growth was more rapid, and they matured
Data from: Nutritional geometry of paternal effects on embryo mortality
负责人:
关键词:
embryo mortality;ejaculate quality;paternal diet;macronutrients;Drosophia melanogaster
DOI:
doi:10.5061/dryad.f35n7
摘要:
shifts in ejaculate quality and/or epigenetic paternal effects. Body nutrient reserves were strongly and predictably altered by diet, and body
Data from: Ecological constraints on female fitness in a phytophagous insect
负责人:
关键词:
Ecology: evolutionary;parental care;butterflies;Behavior: reproductive;Life history: ecology;Conflict: sexual;Allometry;Life history: trade offs;insect;Ecology: behavioral
DOI:
doi:10.5061/dryad.284gk
摘要:
female reproductive success over the entire lifespan. In the simulations females with more reproductive reserves were more limited by the ecological variables

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