about
Trait-based approaches to conservation physiology: forecasting environmental change risks from the bottom upLong-term, high frequency in situ measurements of intertidal mussel bed temperatures using biomimetic sensorsFunctional traits, convergent evolution, and periodic tables of nichesThermal tolerance and climate warming sensitivity in tropical snailsMultidimensional metrics of niche space for use with diverse analytical techniquesPlant Distribution Data Show Broader Climatic Limits than Expert-Based Climatic Tolerance EstimatesPathways to zoonotic spillover.Effects of temperature change on mussel, Mytilus.Metabolic approaches to understanding climate change impacts on seasonal host-macroparasite dynamics.Phenotypic clines, energy balances and ecological responses to climate change.Combining physiological threshold knowledge to species distribution models is key to improving forecasts of the future niche for macroalgae.What do metabolic rates tell us about thermal niches? Mechanisms driving crayfish distributions along an altitudinal gradient.Physiologically grounded metrics of model skill: a case study estimating heat stress in intertidal populationsMacronutrient optimization and seasonal diet mixing in a large omnivore, the grizzly bear: a geometric analysis.Climate-induced reaction norms for life-history traits in pythons.Functional traits determine trade-offs and niches in a tropical forest communityA Dynamic Energy Budget (DEB) model for the keystone predator Pisaster ochraceusDynamic energy budget theory restores coherence in biology.Mixed-effects modelling of scale growth profiles predicts the occurrence of early and late fish migrants.Variation in thermal performance of a widespread pathogen, the amphibian chytrid fungus Batrachochytrium dendrobatidis.Double trouble at high density: cross-level test of resource-related adaptive plasticity and crowding-related fitnessMacronutrient balance, reproductive function, and lifespan in aging mice.Physiological Trade-Offs Along a Fast-Slow Lifestyle Continuum in Fishes: What Do They Tell Us about Resistance and Resilience to Hypoxia?Metal-mediated climate susceptibility in a warming world: Larval and latent effects on a model amphibian.Foods, macronutrients and fibre in the diet of blue sheep (Psuedois nayaur) in the Annapurna Conservation Area of NepalBehavioral Microbiomics: A Multi-Dimensional Approach to Microbial Influence on Behavior.Life history trade-off moderates model predictions of diversity loss from climate change.A Dynamic Energy Budget (DEB) model to describe Laternula elliptica (King, 1832) seasonal feeding and metabolism.Bridging factorial and gradient concepts of resource co-limitation: towards a general framework applied to consumers.Silver Nanoparticles Affect Functional Bioenergetic Traits in the Invasive Red Sea Mussel Brachidontes pharaonis.Toward refined environmental scenarios for ecological risk assessment of down-the-drain chemicals in freshwater environments.Temperature dependence of predation stress and the nutritional ecology of a generalist herbivore.Microclim: Global estimates of hourly microclimate based on long-term monthly climate averages.Effects of extreme drought on specific leaf area of grassland species: A meta-analysis of experimental studies in temperate and sub-Mediterranean systems.Warming tolerance across insect ontogeny: influence of joint shifts in microclimates and thermal limits.Geometry of nutrition in field studies: an illustration using wild primates.Interacting environmental mosaics drive geographic variation in mussel performance and predation vulnerability.Fine-Scale Microclimatic Variation Can Shape the Responses of Organisms to Global Change in Both Natural and Urban Environments.Life history traits to predict biogeographic species distributions in bivalves.From Concept to Commerce: Developing a Successful Fungal Endophyte Inoculant for Agricultural Crops.
P2860
Q26863663-BE5F3A11-0A35-4BF0-80D4-10769A50DD9AQ27441104-8C70459F-C1CF-44E1-A1B8-4846AAFFFDF0Q28601193-497979BF-5C16-446D-A6A2-9E6DA1A63CC6Q28602414-B0724FCF-97EE-445A-8797-520AC5E5A83BQ28817759-D0E15976-20A6-4488-8D28-A71BD66DEF9DQ30000297-60491BE1-2207-4DB3-82FC-DB57007A1C89Q30234329-A112AA1C-465D-4680-8923-FE5824EF64FFQ30560423-0A52242D-6214-4FA4-BC4C-2B97D87CD140Q30577665-3265AAC4-7A23-49EA-8609-496C20A4B2DDQ30624080-864B0B31-E69A-4819-9C8D-F050598606E4Q30830342-3CD7163A-1906-4D0A-AF19-9E6636CE37E7Q31002016-12C0837B-E4C4-4D0A-89B4-CAD1EDA319D4Q31136161-C6F9B461-1078-4C07-8061-C9249CD368F1Q33633248-1F9E4D8F-6911-42D7-AEF0-54E5DB2CA4C0Q34027706-82202F7F-5ACD-4F35-B5E7-2910F3913EBAQ34079985-E30E7667-4592-4CEC-B52F-E997BCDB5C7FQ34104654-6DB99E73-FA24-4DFC-93D0-738045375414Q34312920-3F3B6AA6-AA4E-4DA5-8BB8-10F776E76500Q34685040-4995B129-B335-4C45-8B5D-0D9C5E3E19E3Q34984562-B9E08E68-F6B6-4F82-9469-880B74F23072Q35120177-A4BB47CB-6796-4652-9B3A-3D5C961894CBQ35212651-20CD5C5D-180C-45C4-B776-F326BC786915Q35662300-514432D0-8988-48B0-BE13-52838DF92062Q35871303-15A86D38-D8E2-4525-9C4E-F618F7FFE69CQ36106908-5BDA2637-1047-46B6-8415-A209FB5F507DQ36322977-649EC89F-6E69-4744-9082-FA6DB5B71992Q36375569-A0956E86-FFAF-45CA-B84E-9BC8B065D188Q38603779-7BF6A49D-E231-49BD-A32E-84C01CAFB72DQ38674629-2C628D78-8943-44DE-954C-DAC7B6743819Q38801425-F1E960C5-301B-45C5-B780-350C05AF75BFQ38853447-DA0F5A36-B8C7-48CD-A0EE-28405D93DB90Q39168619-1890B97D-C19B-40A9-A67D-4E0F9A3798A6Q39320226-4D0E38B4-EDC0-4C9A-A4EC-4100B74C174DQ39586496-B4F69FC3-C5A7-4842-A117-2CB30BBCBEEEQ41997028-15CF1EFE-9013-4397-B673-C288328FF6EFQ45307820-C97BE94F-B1FF-4559-BD57-0FF5FA6570C6Q46552643-5D3624A0-A2F4-455A-A12E-F42FCC7BC28FQ46559370-566CE3AD-41CE-4F2B-86B5-810A19D53A87Q48384996-2C2F1887-63A7-4774-A455-4615E6B1910AQ50034045-6A40E26A-A377-41F9-BC37-1900AE640137
P2860
description
2010 nî lūn-bûn
@nan
2010 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Modelling the ecological niche from functional traits.
@ast
Modelling the ecological niche from functional traits.
@en
Modelling the ecological niche from functional traits.
@nl
type
label
Modelling the ecological niche from functional traits.
@ast
Modelling the ecological niche from functional traits.
@en
Modelling the ecological niche from functional traits.
@nl
prefLabel
Modelling the ecological niche from functional traits.
@ast
Modelling the ecological niche from functional traits.
@en
Modelling the ecological niche from functional traits.
@nl
P2860
P50
P356
P1476
Modelling the ecological niche from functional traits.
@en
P2860
P304
P356
10.1098/RSTB.2010.0034
P407
P577
2010-11-01T00:00:00Z