John Alroy American Australian paleobiologist
Alroy, John
Alroy, John 1966-
VIAF ID: 186841071 (Personal)
Permalink: http://viaf.org/viaf/186841071
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Alroy, John
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100 1 _ ‡a Alroy, John
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100 1 _ ‡a Alroy, John
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100 1 _ ‡a Alroy, John
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100 1 _ ‡a Alroy, John ‡d (1966- ).
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Alroy, John
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1966-
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Alroy, John
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1966-
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John Alroy
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American Australian paleobiologist
4xx's: Alternate Name Forms (23)
5xx's: Related Names (3)
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Macquarie University
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Macquarie University
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https://d-nb.info/standards/elementset/gnd#affiliation
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Affiliation
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Reed College
Works
| Title | Sources |
|---|---|
| Accurate and precise estimates of origination and extinction rates |
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| The apparent exponential radiation of Phanerozoic land vertebrates is an artefact of spatial sampling biases |
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| Appearance event ordination: a new biochronologic method |
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| Are the most durable shelly taxa also the most common in the marine fossil record? |
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| Cenozoic bolide impacts and biotic change in North American mammals |
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| Changes in shell durability of common marine taxa through the Phanerozoic: evidence for biological rather than taphonomic drivers |
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| Climate change not to blame for late Quaternary megafauna extinctions in Australia |
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| Colloquium paper: dynamics of origination and extinction in the marine fossil record |
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| A comprehensive database of quality-rated fossil ages for Sahul's Quaternary vertebrates |
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| Conjunction among taxonomic distributions and the Miocene mammalian biochronology of the Great Plains |
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| Constant extinction, constrained diversification, and uncoordinated stasis in North American mammals |
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| Continuous Track Analysis: A New Phylogenetic and Biogeographic Method |
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| Cope's rule and the dynamics of body mass evolution in North American fossil mammals. |
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| Criteria for assessing the quality of Middle Pleistocene to Holocene vertebrate fossil ages |
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| Current extinction rates of reptiles and amphibians |
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| Diachrony of mammalian appearance events: Implications for biochronology: Comments and Reply |
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| Discovering biogeographic and ecological clusters with a graph theoretic spin on factor analysis |
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| Diversity dynamics of Phanerozoic terrestrial tetrapods at the local-community scale |
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| Driving both ways: Wilson & Sober's conflicting criteria for the identification of groups as vehicles of selection |
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| Effects of habitat disturbance on tropical forest biodiversity |
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| Effects of sampling standardization on estimates of Phanerozoic marine diversification |
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| Extinction: A synthesis of disciplines for theoretical and practical advances |
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| The Fossil Record of North American Mammals: Evidence for a Paleocene Evolutionary Radiation |
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| Fossilworks Paleobiology Database |
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| Four Permutation Tests for the Presence of Phylogenetic Structure |
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| Geographical, environmental and intrinsic biotic controls on Phanerozoic marine diversification |
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| Global databases will yield reliable measures of global biodiversity |
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| Global distribution of mammal herbivore biomass reveals megafauna extinction patterns |
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| High diversity and rapid spatial turnover of integron gene cassettes in soil |
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| How many named species are valid? |
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| How should we estimate diversity in the fossil record? Testing richness estimators using sampling-standardised discovery curves |
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| Inferring diet from dental morphology in terrestrial mammals |
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| Latitudinal gradients in the ecology of New World bats |
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| The legacy of Eastern Mediterranean mountain uplifts: rapid disparity of phylogenetic niche conservatism and divergence in mountain vipers |
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| Limits to captive breeding of mammals in zoos |
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| Limits to species richness in terrestrial communities |
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| Mammalian dispersal at the Paleocene/Eocene boundary |
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| Marine diversity patterns in Australia are filtered through biogeography |
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| A multispecies overkill simulation of the end pleistocene megafaunal mass extinction |
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| Near-Stasis in the Long-Term Diversification of Mesozoic Tetrapods |
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| A new twist on a very old binary similarity coefficient |
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| On a conservative Bayesian method of inferring extinction |
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| On four measures of taxonomic richness |
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| On the flux ratio method and correcting incorrect forms of correct equations |
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| The Open Traits Network: Using Open Science principles to accelerate trait-based science across the Tree of Life |
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| Pattern, process, inference and prediction in extinction biology |
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| Phylogeny‐based conservation priorities for Australian freshwater fishes |
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| Plant and mammal diversity in the Paleocene to early Eocene of the Bighorn Basin |
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| Quantitative methods in paleobiology |
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| The R package divDyn for quantifying diversity dynamics using fossil sampling data |
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| The relationship between diet and body mass in terrestrial mammals |
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| Reply to Solow: Sense and nonsense in the choice of extinction priors |
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| The shape of terrestrial abundance distributions |
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| The Shifting Balance of Diversity Among Major Marine Animal Groups |
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| Similarity of mammalian body size across the taxonomic hierarchy and across space and time |
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| A simple way to improve multivariate analyses of paleoecological data sets |
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| Small mammals have big tails in the tropics |
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| Statistical independence of escalatory ecological trends in Phanerozoic marine invertebrates |
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| Tree species richness and evenness affect forest biomass differently across biogeographic regions |
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| Understanding the dynamics of trends within evolving lineages |
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| What is extinction research? |
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| أعمال الحفريات |
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| فسیلورکز |
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| பாசில்வொர்க்சு |
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| ഫോസിൽവർക്സ് |
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| 화석연구데이터베이스 |
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| フォッシルワークス |
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