The commonness of rarity: Global and future distribution of rarity across land plants | Zendy

Brian J. Enquist | Zendy; Xiao Feng | Zendy; Brad Boyle | Zendy; Brian Maitner | Zendy; Erica A. Newman | Zendy; Peter M. Jørgensen | Zendy; Patrick R. Roehrdanz | Zendy; Barbara M. Thiers | Zendy; Joseph R. Burger | Zendy; Richard T. Corlett | Zendy; Thomas L. P. Couvreur | Zendy; Gilles Dauby | Zendy; John C. Donoghue | Zendy; Wendy Foden | Zendy; Jon C. Lovett | Zendy; Pablo A. Marquet | Zendy; Cory Merow | Zendy; Guy F. Midgley | Zendy; Naia MoruetaHolme | Zendy; Danilo M. Neves | Zendy; Ary Teixeira de OliveiraFilho | Zendy; Nathan J. B. Kraft | Zendy; Daniel Park | Zendy; Robert K. Peet | Zendy; Michiel Pillet | Zendy; Josep M. SerraDiaz | Zendy; Brody Sandel | Zendy; Mark Schildhauer | Zendy; Irena Šímová | Zendy; Cyrille Violle | Zendy; Jan J. Wieringa | Zendy; Susan K. Wiser | Zendy; Lee Hannah | Zendy; JensChristian Svenning | Zendy; Brian J. McGill | Zendy

AI Assistant Blog Pricing

Home ZAIA Blog

Open Access

The commonness of rarity: Global and future distribution of rarity across land plants

Author(s) -

Brian J. Enquist,

Xiao Feng,

Brad Boyle,

Brian Maitner,

Erica A. Newman,

Peter M. Jørgensen,

Patrick R. Roehrdanz,

Barbara M. Thiers,

Joseph R. Burger,

Richard T. Corlett,

Thomas L. P. Couvreur,

Gilles Dauby,

John C. Donoghue,

Wendy Foden,

Jon C. Lovett,

Pablo A. Marquet,

Cory Merow,

Guy F. Midgley,

Naia MoruetaHolme,

Danilo M. Neves,

Ary Teixeira de OliveiraFilho,

Nathan J. B. Kraft,

Daniel Park,

Robert K. Peet,

Michiel Pillet,

Josep M. SerraDiaz,

Brody Sandel,

Mark Schildhauer,

Irena Šímová,

Cyrille Violle,

Jan J. Wieringa,

Susan K. Wiser,

Lee Hannah,

JensChristian Svenning,

Brian J. McGill

Publication year - 2019

Publication title -

science advances

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 5.928

H-Index - 146

ISSN - 2375-2548

DOI - 10.1126/sciadv.aaz0414

Subject(s) - biodiversity , rare species , extinction (optical mineralogy) , abundance (ecology) , ecology , global change , geography , climate change , rare events , niche , global biodiversity , distribution (mathematics) , plant diversity , biology , habitat , paleontology , mathematical analysis , statistics , mathematics

A key feature of life's diversity is that some species are common but many more are rare. Nonetheless, at global scales, we do not know what fraction of biodiversity consists of rare species. Here, we present the largest compilation of global plant diversity to quantify the fraction of Earth's plant biodiversity that are rare. A large fraction, ~36.5% of Earth's ~435,000 plant species, are exceedingly rare. Sampling biases and prominent models, such as neutral theory and the k-niche model, cannot account for the observed prevalence of rarity. Our results indicate that (i) climatically more stable regions have harbored rare species and hence a large fraction of Earth's plant species via reduced extinction risk but that (ii) climate change and human land use are now disproportionately impacting rare species. Estimates of global species abundance distributions have important implications for risk assessments and conservation planning in this era of rapid global change.

The content you want is available to Zendy users.

Already have an account? Click here to sign in.

Having issues? You can contact us here

Accelerating Research