More than the sum of the parts: forest climate response from joint species distribution models. - Test2 - elhamkhani - TriplyDB

More than the sum of the parts: forest climate response from joint species distribution models.

More than the sum of the parts: forest climate response from joint species distribution models.

http://www.wikidata.org/entity/Q30844678

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Intraspecific trait variation across scales: implications for understanding global change responses.Forest tree growth response to hydroclimate variability in the southern Appalachians.Predicting tree biomass growth in the temperate-boreal ecotone: Is tree size, age, competition, or climate response most important?Estimating the Effects of Habitat and Biological Interactions in an Avian Community.From species distributions to meta-communities.Multilevel Models for the Distribution of Hosts and Symbionts Elephants in the understory: opposing direct and indirect effects of consumption and ecosystem engineering by megaherbivores.Identifying multispecies synchrony in response to environmental covariates Effects of biotic interactions on modeled species' distribution can be masked by environmental gradients Why species tell more about traits than traits about species: predictive analysis.An empirical, hierarchical typology of tree species assemblages for assessing forest dynamics under global change scenarios.Taxonomic and functional turnover are decoupled in European peat bogs.Empirically-based modeling and mapping to consider the co-occurrence of ecological receptors and stressors.Incorporating Context Dependency of Species Interactions in Species Distribution Models.Climate remains an important driver of post-European vegetation change in the eastern United States.Ecological interactions and the fitness effect of water-use efficiency: Competition and drought alter the impact of natural MPK12 alleles in Arabidopsis.Forecasting climate change impacts on plant populations over large spatial extents A theory for species co-occurrence in interaction networks Uncovering hidden spatial structure in species communities with spatially explicit joint species distribution models Joint species distribution modelling for spatio-temporal occurrence and ordinal abundance data Technical advances at the interface between ecology and statistics: improving the biodiversity knowledge generation workflow Fine-scale hydrological niche differentiation through the lens of multi-species co-occurrence models Using latent variable models to identify large networks of species-to-species associations at different spatial scales Joint dynamic species distribution models: a tool for community ordination and spatio-temporal monitoring Spatial factor analysis: a new tool for estimating joint species distributions and correlations in species range An Event History Analysis of Parcel Extensification and Household Abandonment in Pays Basque, French Pyrenees, 1830–1958 AD Using spatio-temporal models of population growth and movement to monitor overlap between human impacts and fish populations

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More than the sum of the parts: forest climate response from joint species distribution models.

http://www.wikidata.org/entity/Q30844678

description

2014 nî lūn-bûn

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2014 թուականի Յուլիսին հրատարակուած գիտական յօդուած

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2014 թվականի հուլիսին հրատարակված գիտական հոդված

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2014年の論文

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2014年論文

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2014年論文

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2014年論文

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2014年論文

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2014年論文

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2014年论文

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More than the sum of the parts ...... t species distribution models.

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More than the sum of the parts ...... t species distribution models.

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Ecological Applications

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More than the sum of the parts ...... t species distribution models.

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Alan E Gelfand

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Christopher W Woodall

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James S Clark

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Kai Zhu

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P2860

Back from a predicted climatic extinction of an island endemic: a future for the Corsican Nuthatch

Potential impacts of climatic change on European breeding birds

An Ordination of the Upland Forest Communities of Southern Wisconsin

Predicting the fate of biodiversity using species' distribution models: enhancing model comparability and repeatability.

Dual impacts of climate change: forest migration and turnover through life history.

Predicting biodiversity change: outside the climate envelope, beyond the species-area curve.

Hierarchical models facilitate spatial analysis of large data sets: a case study on invasive plant species in the northeastern United States.

Frequency, not relative abundance, of temperate tree species varies along climate gradients in eastern North America.

Consequences of climate change on the tree of life in Europe.

Improving assessment and modelling of climate change impacts on global terrestrial biodiversity.

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990-999

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10.1890/13-1015.1

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