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Data from: Migration tendency delays distributional response to differential survival prospects along a flyway
负责人:
Lok, Tamar
关键词:
Climate change Demography Density dependence Ecology: behavioral Ecology: evolutionary Ecology: population Fitness Migration optimality theory Bird
DOI:
doi:10.5061/dryad.56mv5
摘要:
When populations grow or decline, habitat selection may change due to local density-dependent processes, such as site dependence and interference
Data from: Fadraciclib (CYC065), a novel CDK inhibitor, targets key pro-survival and oncogenic pathways in cancer
负责人:
关键词:
DOI:
doi:10.5061/dryad.44j0zpc9v
摘要:
structure of fadraciclib (CYC065), a CDK inhibitor and clinical candidate designed by further optimization from the aminopurine scaffold of seliciclib. We describe
Data from: How many cubs can a mum nurse? Maternal age and size influence litter size in polar bears
负责人:
关键词:
individual heterogeneity;maternal traits;polar bear;reproductive success;Reproductive Senescence
DOI:
doi:10.5061/dryad.mb2d353
摘要:
with maternal size, indicating that size may reflect individual quality. We also found an optimum in the probability of having twins, suggesting stabilizing selecti
Data from: Morphological and moisture availability controls of the leaf area-to-sapwood area ratio: analysis of measurements on Australian trees
负责人:
关键词:
Eucalyptus regnans;Pultenea flexilis;Hakea teretifolia;Eremophila longifolia;Calamus australis;Lomatia silaifolia;Boronia pinnata;Eucalyptus sclerophylla;Alstonia muelleriana;Eucalyptus socialis;Pimelea microcephala;sapwood area;Leptospermum rupestre;Aegiceras corniculatum;tree morphology;Acacia colletioides;Cryptocarya mackinnoniana;Eucalyptus crebra;Calamus caryotoides;Banksia littoralis;Eremophila glabra;Eucalyptus intertexta;Persoonia linearis;Ceratopelatum sucirubrum;Richea scoparium;Eucalyptus haemostoma;Olearia pimelioides;Acacia mearnsii;Bertya cunninghamii;Acacia myrtifolia;Eucalyptus polybractea;Eucalyptus delegatensis;Geijera parviflora;Philotheca difformis;Leucopogon esquamatus;Angophora costata;Holocene;climatic moisture;Avicennia marina;Isopogon anemonifolius;Persoonia levis;Eucalyptus occidentalis;Leucopogon microphyllus;Argyrodendron trifoliolatum;Eucalyptus miniata and Eucalyptus tetrodonta;Castanospora alphandii;Doryphora aromatica;Dillwynia retorta;Corymbia gummifera;Eucalyptus miniata;Acacia floribunda;Nothofagus cunninghamii;Pultenaea stipularis;Acacia suaveolens;Angophora hispida;Syncarpia glomulifera;Callitris glaucophylla;Eucalyptus tetrodonta;Diselma archeri;Alphitonia whitei;Eucalyptus sieberi;Brachychiton australis;Hakea tephrosperma;Melaleuca uncinata;Astrotricha floccosa;pipe model;Phyllanthus hirtellus;Doryphora sassafras;Leptospermum trinervium;plant hydraulics;Beyeria opaca;Glochidion ferdinandi;Acacia wilhelmiana;Tasmannia lanceolata;Santalum acuminatum;Brachychiton populneus;Epacris pulchella;Eucalyptus loxophleba;Acacia doratoxylon;Argyrodedron trifoliolatum;Eucalyptus nitens;Banksia integrifolia;Eriostemon australasius;Pinus radiata;Cassinia laevis;Eucalyptus maculata;Flindersia brayleyana;Micrantheum ericoides;Acacia dealbata;Dodonaea viscosa;Angophora bakeri;Banksia attenuata;Grevillea speciosa;Corymbia opaca;Gompholobium glabratum;Syzygium johnsonii;Eremophila deserti;Eucalyptus marginata;Angophora hispida; Banksia oblongifolia;Podocarpus lawrencei;Dodonaea viscosa spathulata;Senna artemisioides;Lasiopetalum ferrugineum;Persoonia pinifolia;Eucalyptus camaldulensis;Pultenaea elliptica;Banksia spinulosa;Acacia havilandii;Eutaxia microphylla;Austromyrtus bidwillii;Eucalyptus populnea;Gillbeea adenopetala;Eucalyptus victrix;Persoonia lanceolata;Eucalyptus capitellata;Phyllota phylicoides;Baeckea brevifolia;Eucalyptus gomphocelia;Leptospermum squarrosum;Eucalyptus dumosa;Acacia aneura;Banksia menziesii;Eucalyptus globulus;Eucalyptus coccifera;Ceratopetalum apetalum;Synoum glandulosum;Cissus hypoglauca;Eucalyptus kochii;Epacris microphylla;Olearia decurrens;Boronia ledifolia;Hibbertia bracteata;Phyllocladus aspleniifolius;Petrophile pulchella;Olearia oswaldii;Banksia ilicifolia;Cardwellia sublimis;Lambertia formosa;Hakea dactyloides;Cochlospermum gillivraei;Eucalyptus largiflorens;Alphitonia excelsa;Banksia oblongifolia;Eucalyptus grandis;Pomaderris aspera;Bossiaea obcordata;Atherosperma moschatum;leaf area;Acacia havilandiorum
DOI:
doi:10.5061/dryad.m7m4r
摘要:
t the sapwood cross-sectional area of a stem or branch at any point should scale isometrically with the area of leaves distal to that point. Optimization theory
Data from: Multi-DICE: R package for comparative population genomic inference under hierarchical co-demographic models of independent single
负责人:
关键词:
phylogeography;Population Genetics - Theoretical;Comparative Biology;Population Genetics - Empirical
DOI:
doi:10.5061/dryad.77p06
摘要:
, and composite likelihood optimization. Here, we introduce the R package Multi-DICE, a wrapper program that exploits existing simulation software for straight-forward
Data from: Variable mesophyll conductance among soybean cultivars sets a tradeoff between photosynthesis and water-use-efficiency
负责人:
Tomeo, Nicholas
关键词:
photosynthesis gas exchange diffusional limitations mesophyll conductance photosynthetic co2 compensation point soybean
DOI:
doi:10.5061/dryad.2gd3b
摘要:
Photosynthetic efficiency is a critical determinant of crop yield potential, though it remains below the theoretical optimum in modern crop varieti
Data from: Ecosystem function in predator-prey food webs - confronting dynamic models with empirical data
负责人:
Curtsdotter, Alva
关键词:
multi-trophic functioning predator-prey interactions species traits allometry body mass conservation biological control herbivore suppression agricultural pests
DOI:
doi:10.5061/dryad.41b5b06
摘要:
methods were used for simultaneous model fit optimization and model parameterization. 4. The model captured >70% of the variation in aphid abundance in five
Data from: Extended phenotypes and foraging restrictions: ant nest entrances and resource ingress in leaf-cutting ants
负责人:
关键词:
Atta cephalotes;leaf-cutting ants;foraging;tropical rain forest.
DOI:
doi:10.5061/dryad.57vg809
摘要:
Several factors may restrict the acquisition of food to below the levels predicted by the optimization theory. However, how the design of structures

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