Biodiversity and Ecosystem Functioning

Species diversity is a major determinant of ecosystem productivity, stability, invasibility, and nutrient dynamics. Hundreds of studies spanning terrestrial, aquatic, and marine ecosystems show that high-diversity mixtures are approximately twice as productive as monocultures of the same species and that this difference increases through time. These impacts of higher diversity have multiple causes, including interspecific complementarity, greater use of limiting resources, decreased herbivory and disease, and nutrient-cycling feedbacks that increase nutrient stores and supply rates over the long term. These experimentally observed effects of diversity are consistent with predictions based on a variety of theories that share a common feature: All have trade-off-based mechanisms that allow long-term coexistence of many different competing species. Diversity loss has an effect as great as, or greater than, the effects of herbivory, fire, drought, nitrogen addition, elevatedCO2, and other drivers of environmental change. The preservation, conservation, and restoration of biodiversity should be a high global priority.

[1]  E. Cooper Warmer Shorter Winters Disrupt Arctic Terrestrial Ecosystems , 2014 .

[2]  David M. Blei,et al.  Build, Compute, Critique, Repeat: Data Analysis with Latent Variable Models , 2014 .

[3]  Jarrett E. K. Byrnes,et al.  Investigating the relationship between biodiversity and ecosystem multifunctionality: challenges and solutions , 2013, 1305.1985.

[4]  J. Fox,et al.  Species Richness and the Temporal Stability of Biomass Production: A New Analysis of Recent Biodiversity Experiments , 2013, The American Naturalist.

[5]  Yuming Yang,et al.  Effects of anthropogenic disturbance on richness-dependent stability in Napahai plateau wetland , 2013 .

[6]  S. Polasky,et al.  Nutrient enrichment, biodiversity loss, and consequent declines in ecosystem productivity , 2013, Proceedings of the National Academy of Sciences.

[7]  Tor,et al.  Ecosystem function enhanced by combining four functional types of plant species in intensively managed grassland mixtures: a 3‐year continental‐scale field experiment , 2013 .

[8]  D. Tilman,et al.  Root depth distribution and the diversity–productivity relationship in a long‐term grassland experiment , 2013 .

[9]  Henrik Andrén,et al.  Higher levels of multiple ecosystem services are found in forests with more tree species , 2013, Nature Communications.

[10]  Forest Isbell,et al.  Biodiversity impacts ecosystem productivity as much as resources, disturbance, or herbivory , 2012, Proceedings of the National Academy of Sciences.

[11]  G. Daily,et al.  Biodiversity loss and its impact on humanity , 2012, Nature.

[12]  P. Reich,et al.  Impacts of Biodiversity Loss Escalate Through Time as Redundancy Fades , 2012, Science.

[13]  Jarrett E. K. Byrnes,et al.  A global synthesis reveals biodiversity loss as a major driver of ecosystem change , 2012, Nature.

[14]  Björn C. Rall,et al.  Plant diversity improves protection against soil‐borne pathogens by fostering antagonistic bacterial communities , 2012 .

[15]  Xuewen Huang,et al.  Plant Species Richness and Ecosystem Multifunctionality in Global Drylands , 2012, Science.

[16]  Shahid Naeem,et al.  Functional and phylogenetic diversity as predictors of biodiversity--ecosystem-function relationships. , 2011, Ecology.

[17]  Andrew Gonzalez,et al.  The functional role of producer diversity in ecosystems. , 2011, American journal of botany.

[18]  M. Scheffer,et al.  Soil microbes drive the classic plant diversity-productivity pattern. , 2011, Ecology.

[19]  M. Lange,et al.  Bottom-up effects of plant diversity on multitrophic interactions in a biodiversity experiment , 2010, Nature.

[20]  J. Soussana,et al.  Diversity Promotes Temporal Stability across Levels of Ecosystem Organization in Experimental Grasslands , 2010, PloS one.

[21]  Michel Loreau,et al.  From Populations to Ecosystems: Theoretical Foundations for a New Ecological Synthesis , 2010 .

[22]  Lindsay A. Turnbull,et al.  Biology, chance, or history? The predictable reassembly of temperate grassland communities. , 2010, Ecology.

[23]  E. Zavaleta,et al.  Sustaining multiple ecosystem functions in grassland communities requires higher biodiversity , 2010, Proceedings of the National Academy of Sciences.

[24]  B. Wilsey,et al.  Increasing native, but not exotic, biodiversity increases aboveground productivity in ungrazed and intensely grazed grasslands , 2010, Oecologia.

[25]  D. Tilman,et al.  Plant species loss decreases arthropod diversity and shifts trophic structure. , 2009, Ecology letters.

[26]  A. Newton,et al.  Enhancement of Biodiversity and Ecosystem Services by Ecological Restoration: A Meta-Analysis , 2009, Science.

[27]  B. Wilsey,et al.  Biodiversity maintenance mechanisms differ between native and novel exotic-dominated communities. , 2009, Ecology letters.

[28]  W. Verstraete,et al.  Initial community evenness favours functionality under selective stress , 2009, Nature.

[29]  Todd H. Oakley,et al.  Evolutionary history and the effect of biodiversity on plant productivity , 2008, Proceedings of the National Academy of Sciences.

[30]  M. Loreau,et al.  Biodiversity effects and transgressive overyielding , 2008 .

[31]  M. Cadotte,et al.  Consequences of dominance: a review of evenness effects on local and regional ecosystem processes. , 2008, Ecology.

[32]  D. Tilman,et al.  Plant functional composition influences rates of soil carbon and nitrogen accumulation , 2008 .

[33]  J. Bruno,et al.  Understanding the Effects of Marine Biodiversity on Communities and Ecosystems , 2007 .

[34]  Ian T. Carroll,et al.  Impacts of plant diversity on biomass production increase through time because of species complementarity , 2007, Proceedings of the National Academy of Sciences.

[35]  O. Huguenin-Elie,et al.  Evenness drives consistent diversity effects in intensive grassland systems across 28 European sites , 2007 .

[36]  Michel Loreau,et al.  From selection to complementarity: shifts in the causes of biodiversity–productivity relationships in a long-term biodiversity experiment , 2007, Proceedings of the Royal Society B: Biological Sciences.

[37]  D. Tilman,et al.  Carbon-Negative Biofuels from Low-Input High-Diversity Grassland Biomass , 2006, Science.

[38]  E. Barbier,et al.  Impacts of Biodiversity Loss on Ocean Ecosystem Services , 2006, Science.

[39]  Bradley J. Cardinale,et al.  Effects of biodiversity on the functioning of trophic groups and ecosystems , 2006, Nature.

[40]  J. Bruno,et al.  Partitioning the effects of algal species identity and richness on benthic marine primary production , 2006 .

[41]  P. Reich,et al.  Biodiversity and ecosystem stability in a decade-long grassland experiment , 2006, Nature.

[42]  T. Romanuk,et al.  Species richness–variability relationships in multi‐trophic aquatic microcosms , 2006 .

[43]  Christopher F. Steiner,et al.  Temporal stability of aquatic food webs: partitioning the effects of species diversity, species composition and enrichment , 2005 .

[44]  H. Hillebrand,et al.  Species richness changes across two trophic levels simultaneously affect prey and consumer biomass , 2005 .

[45]  Boris Worm,et al.  Ecosystem recovery after climatic extremes enhanced by genotypic diversity. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[46]  F. Chapin,et al.  EFFECTS OF BIODIVERSITY ON ECOSYSTEM FUNCTIONING: A CONSENSUS OF CURRENT KNOWLEDGE , 2005 .

[47]  F. Woodward,et al.  ECOSYSTEM EFFECTS OF BIODIVERSITY MANIPULATIONS IN EUROPEAN GRASSLANDS , 2005 .

[48]  E. Zavaleta,et al.  Realistic Species Losses Disproportionately Reduce Grassland Resistance to Biological Invaders , 2004, Science.

[49]  B. Wilsey,et al.  Realistically Low Species Evenness Does Not Alter Grassland Species-Richness-Productivity Relationships , 2004 .

[50]  A. Knapp,et al.  Dominance not richness determines invasibility of tallgrass prairie. , 2004 .

[51]  David Tilman,et al.  Niche tradeoffs, neutrality, and community structure: a stochastic theory of resource competition, invasion, and community assembly. , 2004, Proceedings of the National Academy of Sciences of the United States of America.

[52]  P. Reich,et al.  Species and functional group diversity independently influence biomass accumulation and its response to CO2 and N. , 2004, Proceedings of the National Academy of Sciences of the United States of America.

[53]  Michel Loreau,et al.  Food-web constraints on biodiversity–ecosystem functioning relationships , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[54]  M. Loreau,et al.  Biodiversity as spatial insurance in heterogeneous landscapes , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[55]  Cynthia S. Brown,et al.  Community assembly and invasion: An experimental test of neutral versus niche processes , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[56]  A. Knapp,et al.  Dominant species maintain ecosystem function with non‐random species loss , 2003 .

[57]  F. Berendse,et al.  Positive effects of plant species diversity on productivity in the absence of legumes , 2003 .

[58]  Thomas J. Stohlgren,et al.  The rich get richer: patterns of plant invasions in the United States , 2003 .

[59]  M. Groom,et al.  Threats to Biodiversity , 2003 .

[60]  J. Duffy,et al.  Biodiversity and ecosystem function: the consumer connection , 2002 .

[61]  Andrew Gonzalez,et al.  Heterotroph species extinction, abundance and biomass dynamics in an experimentally fragmented microecosystem , 2002 .

[62]  D. Tilman,et al.  Effects of grassland plant species diversity, abundance, and composition on foliar fungal disease , 2002 .

[63]  P. Reich,et al.  Diversity and Productivity in a Long-Term Grassland Experiment , 2001, Science.

[64]  Simon A. Levin,et al.  Effects of diversity and composition on grassland stability and productivity. , 2001 .

[65]  David Tilman,et al.  Biodiversity, Stability, and Productivity in Competitive Communities , 2000, The American Naturalist.

[66]  David Tilman,et al.  Plant diversity increases resistance to invasion in the absence of covarying extrinsic factors , 2000 .

[67]  J. P. Grime,et al.  No consistent effect of plant diversity on productivity. , 2000, Science.

[68]  J. Levine Species diversity and biological invasions: relating local process to community pattern. , 2000, Science.

[69]  Catherine Potvin,et al.  BIODIVERSITY AND ECOSYSTEM FUNCTIONING: IMPORTANCE OF SPECIES EVENNESS IN AN OLD FIELD , 2000 .

[70]  Osman,et al.  Species Diversity and Invasion Resistance in a Marine Ecosystem. , 1999, Science.

[71]  Pereira,et al.  Plant diversity and productivity experiments in european grasslands , 1999, Science.

[72]  A. Ives,et al.  Stability and variability in competitive communities. , 1999, Science.

[73]  P. Reich,et al.  Effects of plant species richness on invasion dynamics, disease outbreaks, insect abundances and diversity. , 1999, Ecology letters.

[74]  D. Tilman THE ECOLOGICAL CONSEQUENCES OF CHANGES IN BIODIVERSITY: A SEARCH FOR GENERAL PRINCIPLES101 , 1999 .

[75]  M. Loreau,et al.  Biodiversity and ecosystem productivity in a fluctuating environment: the insurance hypothesis. , 1999, Proceedings of the National Academy of Sciences of the United States of America.

[76]  Diana H. Wall,et al.  Interactions Underground: Soil biodiversity, mutualism, and ecosystem processes , 1999 .

[77]  V. Behan-Pelletier,et al.  Computers in Biology: Linking soil biodiversity and ecosystem function—The taxonomic dilemma , 1999 .

[78]  Peter M. Groffman,et al.  Soil and Sediment Biodiversity: Cross-system comparisons and large-scale effects , 1999 .

[79]  P. Snelgrove Getting to the Bottom of Marine Biodiversity: Sedimentary Habitats: Ocean bottoms are the most widespread habitat on Earth and support high biodiversity and key ecosystem services , 1999 .

[80]  Thomas J. Stohlgren,et al.  EXOTIC PLANT SPECIES INVADE HOT SPOTS OF NATIVE PLANT DIVERSITY , 1999 .

[81]  Margaret A. Palmer,et al.  The Role of Benthic Invertebrate Species in Freshwater Ecosystems: Zoobenthic species influence energy flows and nutrient cycling , 1999 .

[82]  Ian R. Sanders,et al.  Mycorrhizal fungal diversity determines plant biodiversity, ecosystem variability and productivity , 1998, Nature.

[83]  D. Tilman,et al.  Experimental Tests of the Dependence of Arthropod Diversity on Plant Diversity , 1998, The American Naturalist.

[84]  M. Loreau,et al.  Biodiversity and ecosystem functioning: a mechanistic model. , 1998, Proceedings of the National Academy of Sciences of the United States of America.

[85]  D. Doak,et al.  The Statistical Inevitability of Stability‐Diversity Relationships in Community Ecology , 1998, The American Naturalist.

[86]  D. Tilman,et al.  Diversity‐Stability Relationships: Statistical Inevitability or Ecological Consequence? , 1998, The American Naturalist.

[87]  V. Brown,et al.  Biodiversity and ecosystem functioning in soil , 1997 .

[88]  P. Vitousek,et al.  The Effects of Plant Composition and Diversity on Ecosystem Processes , 1997 .

[89]  D. Wardle,et al.  The Influence of Island Area on Ecosystem Properties , 1997 .

[90]  P. Reich,et al.  The Influence of Functional Diversity and Composition on Ecosystem Processes , 1997 .

[91]  M. Palmer,et al.  Linking biodiversity and ecosystem functioning of soils and sediments , 1997 .

[92]  Michael A. Huston,et al.  Hidden treatments in ecological experiments: re-evaluating the ecosystem function of biodiversity , 1997, Oecologia.

[93]  M. Palmer Biodiversity and Ecosystem Processes in Freshwater Sediments , 1997 .

[94]  D. Tilman,et al.  Plant diversity and ecosystem productivity: theoretical considerations. , 1997, Proceedings of the National Academy of Sciences of the United States of America.

[95]  D. Tilman,et al.  Productivity and sustainability influenced by biodiversity in grassland ecosystems , 1996, Nature.

[96]  D. Tilman Biodiversity: Population Versus Ecosystem Stability , 1995 .

[97]  J. Lawton,et al.  Empirical Evidence that Declining Species Diversity May Alter the Performance of Terrestrial Ecosystems , 1995 .

[98]  D. Schimel,et al.  Terrestrial ecosystems and the carbon cycle , 1995 .

[99]  J. Downing,et al.  Biodiversity and stability in grasslands , 1996, Nature.

[100]  J. Lawton,et al.  Declining biodiversity can alter the performance of ecosystems , 1994, Nature.

[101]  P. Vitousek,et al.  Biological Diversity and Terrestrial Ecosystem Biogeochemistry , 1994 .

[102]  S. McNaughton,et al.  Biodiversity and Function of Grazing Ecosystems , 1994 .

[103]  J. M. Anderson,et al.  Biodiversity and Ecosystem Function in Agricultural Systems , 1994 .

[104]  M. Meybeck Riverine transport of atmospheric carbon: Sources, global typology and budget , 1993 .

[105]  Douglas A. Frank,et al.  Stability increases with diversity in plant communities: empirical evidence from the 1988 Yellowstone drought , 1991 .

[106]  N. Myers,et al.  The biodiversity challenge: Expanded hot-spots analysis , 1990, The Environmentalist.

[107]  Edward O. Wilson,et al.  The Current State of Biological Diversity , 1988 .

[108]  S. McNaughton,et al.  Ecology of a Grazing Ecosystem: The Serengeti , 1985 .

[109]  S. Pimm The complexity and stability of ecosystems , 1984, Nature.

[110]  John Vandermeer,et al.  The Interference Production Principle: An Ecological Theory for Agriculture , 1981 .

[111]  Stuart L. Pimm,et al.  Complexity and stability: another look at MacArthur's original hypothesis , 1979 .

[112]  R. May,et al.  Stability and Complexity in Model Ecosystems , 1976, IEEE Transactions on Systems, Man, and Cybernetics.

[113]  S. McNaughton Diversity and Stability of Ecological Communities: A Comment on the Role of Empiricism in Ecology , 1977, The American Naturalist.

[114]  Daniel Goodman,et al.  The Theory of Diversity-Stability Relationships in Ecology , 1975, The Quarterly Review of Biology.

[115]  MARK R. GARDNER,et al.  Connectance of Large Dynamic (Cybernetic) Systems: Critical Values for Stability , 1970, Nature.

[116]  L. Slobodkin,et al.  Community Structure, Population Control, and Competition , 1960, The American Naturalist.

[117]  G. E. Hutchinson,et al.  Homage to Santa Rosalia or Why Are There So Many Kinds of Animals? , 1959, The American Naturalist.