Theory of Global Biodiversity (MPB-60)

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A01=Boris Worm
A01=Derek P. Tittensor
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Amphibian
Author_Boris Worm
Author_Derek P. Tittensor
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Biodiversity
Biodiversity gradient
Biodiversity hotspot
Biogeography
Biological interaction
Biomass (ecology)
Bivalvia
Category1=Non-Fiction
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Category=RNCB
Cetacea
Climate change
Coast
Coastal fish
Conservation biology
COP=United States
Coral reef
Dalhousie University
Deep sea
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Ecology
Ecosystem
Ectotherm
Endotherm
Environmental factor
Environmental gradient
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Evolution
Foraminifera
Fungus
Global biodiversity
Global warming
Indo-Pacific
Invertebrate
Language_English
Mammal
Mangrove
Marine biology
Marine mammal
Metabolic theory of ecology
Metabolism
Metacommunity
Microorganism
Mutation rate
Nutrient
Organism
Osteichthyes
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Pelagic zone
Phylogenetic diversity
Phytoplankton
Pinniped
Plankton
Population dynamics
Population size
Predation
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Primary production
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Ransom A. Myers
Rapoport's rule
Scientist
Sea surface temperature
Seagrass
Seasonality
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Speciation
Species complex
Species distribution
Species richness
Taxon
Taxonomy (biology)
Temperature gradient
Terrestrial animal
Thermal energy
Trophic level
Vascular plant
Vertebrate
Year
Zooplankton

Product details

  • ISBN 9780691154831
  • Dimensions: 155 x 235mm
  • Publication Date: 12 Jun 2018
  • Publisher: Princeton University Press
  • Publication City/Country: US
  • Product Form: Hardback
  • Language: English
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The number of species found at a given point on the planet varies by orders of magnitude, yet large-scale gradients in biodiversity appear to follow some very general patterns. Little mechanistic theory has been formulated to explain the emergence of observed gradients of biodiversity both on land and in the oceans. Based on a comprehensive empirical synthesis of global patterns of species diversity and their drivers, A Theory of Global Biodiversity develops and applies a new theory that can predict such patterns from few underlying processes.

The authors show that global patterns of biodiversity fall into four consistent categories, according to where species live: on land or in coastal, pelagic, and deep ocean habitats. The fact that most species groups, from bacteria to whales, appear to follow similar biogeographic patterns of richness within these habitats points toward some underlying structuring principles. Based on empirical analyses of environmental correlates across these habitats, the authors combine aspects of neutral, metabolic, and niche theory into one unifying framework. Applying it to model terrestrial and marine realms, the authors demonstrate that a relatively simple theory that incorporates temperature and community size as driving variables is able to explain divergent patterns of species richness at a global scale.

Integrating ecological and evolutionary perspectives, A Theory of Global Biodiversity yields surprising insights into the fundamental mechanisms that shape the distribution of life on our planet.

Boris Worm is Killam Professor of Biology at Dalhousie University. Derek P. Tittensor is adjunct professor of biology at Dalhousie University and senior marine biodiversity scientist at the United Nations Environment Programme World Conservation Monitoring Centre.

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