Michael D. Weiser
educated at: University of Arizona, University of Oklahoma
occupation: researcher
official website: weiser.ou.edu
Articles 46
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The global distribution of known and undiscovered ant biodiversity
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Temperature–habitat interactions constrain seasonal activity in a continental array of pitfall traps
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Activity density at a continental scale: What drives invertebrate biomass moving across the soil surface?
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Thermal traits predict the winners and losers under climate change: an example from North American ant communities
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Testing the role of body size and litter depth on invertebrate diversity across six forests in North America
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Robust and simplified machine learning identification of pitfall trap-collected ground beetles at the continental scale
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Species Energy and Thermal Performance Theory Predict 20‐Year Changes in Ant Community Abundance and Richness
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Thermal diversity of North American ant communities: Cold tolerance but not heat tolerance tracks ecosystem temperature
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Thermal disruption of soil bacterial assemblages decreases diversity and assemblage similarity
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Author Correction: Continental scale structuring of forest and soil diversity via functional traits
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Continental scale structuring of forest and soil diversity via functional traits
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Macroecology and macroevolution of the latitudinal diversity gradient in ants.
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Correspondence: Reply to 'Analytical flaws in a continental-scale forest soil microbial diversity study'
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Biogeochemistry drives diversity in the prokaryotes, fungi, and invertebrates of a Panama forest.
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Taxonomic decomposition of the latitudinal gradient in species diversity of North American floras
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Phylogeny and the prediction of tree functional diversity across novel continental settings
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Strong biotic influences on regional patterns of climate regulation services
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A global database of ant species abundances
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Temperature mediates continental-scale diversity of microbes in forest soils.
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Constancy in Functional Space across a Species Richness Anomaly.
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Biogeographic patterns of soil diazotrophic communities across six forests in the North America.
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Sodium co-limits and catalyzes macronutrients in a prairie food web.
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The energetic and carbon economic origins of leaf thermoregulation
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GlobalAnts: a new database on the geography of ant traits (Hymenoptera: Formicidae)
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Corrigendum: The energetic and carbon economic origins of leaf thermoregulation
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Global phylogenetic structure of the hyperdiverse ant genus Pheidole reveals the repeated evolution of macroecological patterns
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Tree height-diameter allometry across the United States
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Plant Thermoregulation: Energetics, Trait-Environment Interactions, and Carbon Economics
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The latitudinal species richness gradient in New World woody angiosperms is consistent with the tropical conservatism hypothesis
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Ecology. Meet the new boss, same as the old boss
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Tracing the rise of ants - out of the ground
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Conservation implications of divergent global patterns of ant and vertebrate diversity
Human - wd:Q33674789