Fire and Plant Diversification in Mediterranean-Climate Regions

Fire and Plant Diversification in Mediterranean-Climate Regions

Despite decades of broad interest in global patterns of biodiversity, little attention has been given to understanding the remarkable levels of plant diversity present in the world’s five Mediterranean-type climate (MTC) regions, all of which are considered to be biodiversity hotspots. Comprising the Mediterranean Basin, California, central Chile, the Cape Region of South Africa, and southwestern Australia, these regions share the unusual climatic regime of mild wet winters and warm dry summers. Despite their small extent, covering only about 2.2% of world land area, these regions are home to approximately one-sixth of the world vascular plant flora. The onset of MTCs in the middle Miocene brought summer drought, a novel climatic condition, but also a regime of recurrent fire. Fire has been a significant agent of selection in assembling the modern floras of four of the five MTC regions, with central Chile an exception following the uplift of the Andes in the middle Miocene. Selection for persistence in a fire-prone environment as a key causal factor for species diversification in MTC regions has been under-appreciated or ignored. Mechanisms for fire-driven speciation are diverse and may include both directional (novel traits) and stabilizing selection (retained traits) for appropriate morphological and life-history traits. Both museum and nursery hypotheses have important relevance in explaining the extant species richness of the MTC floras, with fire as a strong stimulant for diversification in a manner distinct from other temperate floras. Spatial and temporal niche separation across topographic, climatic and edaphic gradients has occurred in all five regions. The Mediterranean Basin, California, and central Chile are seen as nurseries for strong but not spectacular rates of Neogene diversification, while the older landscapes of southwestern Australia and the Cape Region show significant components of both Paleogene and younger Neogene speciation in their diversity. Low rates of extinction suggesting a long association with fire more than high rates of speciation have been key to the extant levels of species richness.

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Bibliographic Details
Main Authors: Rundell, Philip W., Arroyo, Mary T. K., Cowling, Richard M., Keeley, J. E., Lamont, Byron B., Pausas, J. G., Vargas, Pablo
Other Authors: National Science Foundation (US)
Format: artículo biblioteca
Language:English
Published: Frontiers Media 2018-07-03
Subjects:Mediterranean-type climate, Speciation, Species diversity, Cape Region, Southwestern Australia, California, Mediterranean Basin, Central Chile,
Online Access:http://hdl.handle.net/10261/182874
http://dx.doi.org/10.13039/501100003141
http://dx.doi.org/10.13039/501100000923
http://dx.doi.org/10.13039/100000001
http://dx.doi.org/10.13039/501100001321
http://dx.doi.org/10.13039/100000203
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spelling dig-cide-es-10261-1828742021-12-27T16:40:37Z Fire and Plant Diversification in Mediterranean-Climate Regions Rundell, Philip W. Arroyo, Mary T. K. Cowling, Richard M. Keeley, J. E. Lamont, Byron B. Pausas, J. G. Vargas, Pablo National Science Foundation (US) National Research Foundation (South Africa) U.S. Geological Survey Australian Research Council Ministerio de Industria y Competitividad (España) Consejo Nacional de Ciencia y Tecnología (México) Pausas, J. G. [0000-0003-3533-5786] Mediterranean-type climate Speciation Species diversity Cape Region Southwestern Australia California Mediterranean Basin Central Chile Despite decades of broad interest in global patterns of biodiversity, little attention has been given to understanding the remarkable levels of plant diversity present in the world’s five Mediterranean-type climate (MTC) regions, all of which are considered to be biodiversity hotspots. Comprising the Mediterranean Basin, California, central Chile, the Cape Region of South Africa, and southwestern Australia, these regions share the unusual climatic regime of mild wet winters and warm dry summers. Despite their small extent, covering only about 2.2% of world land area, these regions are home to approximately one-sixth of the world vascular plant flora. The onset of MTCs in the middle Miocene brought summer drought, a novel climatic condition, but also a regime of recurrent fire. Fire has been a significant agent of selection in assembling the modern floras of four of the five MTC regions, with central Chile an exception following the uplift of the Andes in the middle Miocene. Selection for persistence in a fire-prone environment as a key causal factor for species diversification in MTC regions has been under-appreciated or ignored. Mechanisms for fire-driven speciation are diverse and may include both directional (novel traits) and stabilizing selection (retained traits) for appropriate morphological and life-history traits. Both museum and nursery hypotheses have important relevance in explaining the extant species richness of the MTC floras, with fire as a strong stimulant for diversification in a manner distinct from other temperate floras. Spatial and temporal niche separation across topographic, climatic and edaphic gradients has occurred in all five regions. The Mediterranean Basin, California, and central Chile are seen as nurseries for strong but not spectacular rates of Neogene diversification, while the older landscapes of southwestern Australia and the Cape Region show significant components of both Paleogene and younger Neogene speciation in their diversity. Low rates of extinction suggesting a long association with fire more than high rates of speciation have been key to the extant levels of species richness. We acknowledge the following funding support: United States National Science Foundation (PR); CONICYT PFB-23 (MA); the National Research Foundation, South Africa (RC); the United States Geological Survey (JK); long-term support from the Australian Research Council (BL); and the Spanish Ministry of Economy (PV and JP). Peer reviewed 2019-05-30T10:35:55Z 2019-05-30T10:35:55Z 2018-07-03 artículo http://purl.org/coar/resource_type/c_6501 Frontiers in Plant Science 9: 851 (2018) 1664-462X http://hdl.handle.net/10261/182874 10.3389/fpls.2018.00851 http://dx.doi.org/10.13039/501100003141 http://dx.doi.org/10.13039/501100000923 http://dx.doi.org/10.13039/100000001 http://dx.doi.org/10.13039/501100001321 http://dx.doi.org/10.13039/100000203 30018621 en Publisher's version Sí open Frontiers Media
institution CIDE ES
collection DSpace
country España
countrycode ES
component Bibliográfico
access En linea
databasecode dig-cide-es
tag biblioteca
region Europa del Sur
libraryname Biblioteca del CIDE España
language English
topic Mediterranean-type climate
Speciation
Species diversity
Cape Region
Southwestern Australia
California
Mediterranean Basin
Central Chile
Mediterranean-type climate
Speciation
Species diversity
Cape Region
Southwestern Australia
California
Mediterranean Basin
Central Chile
spellingShingle Mediterranean-type climate
Speciation
Species diversity
Cape Region
Southwestern Australia
California
Mediterranean Basin
Central Chile
Mediterranean-type climate
Speciation
Species diversity
Cape Region
Southwestern Australia
California
Mediterranean Basin
Central Chile
Rundell, Philip W.
Arroyo, Mary T. K.
Cowling, Richard M.
Keeley, J. E.
Lamont, Byron B.
Pausas, J. G.
Vargas, Pablo
Fire and Plant Diversification in Mediterranean-Climate Regions
description Despite decades of broad interest in global patterns of biodiversity, little attention has been given to understanding the remarkable levels of plant diversity present in the world’s five Mediterranean-type climate (MTC) regions, all of which are considered to be biodiversity hotspots. Comprising the Mediterranean Basin, California, central Chile, the Cape Region of South Africa, and southwestern Australia, these regions share the unusual climatic regime of mild wet winters and warm dry summers. Despite their small extent, covering only about 2.2% of world land area, these regions are home to approximately one-sixth of the world vascular plant flora. The onset of MTCs in the middle Miocene brought summer drought, a novel climatic condition, but also a regime of recurrent fire. Fire has been a significant agent of selection in assembling the modern floras of four of the five MTC regions, with central Chile an exception following the uplift of the Andes in the middle Miocene. Selection for persistence in a fire-prone environment as a key causal factor for species diversification in MTC regions has been under-appreciated or ignored. Mechanisms for fire-driven speciation are diverse and may include both directional (novel traits) and stabilizing selection (retained traits) for appropriate morphological and life-history traits. Both museum and nursery hypotheses have important relevance in explaining the extant species richness of the MTC floras, with fire as a strong stimulant for diversification in a manner distinct from other temperate floras. Spatial and temporal niche separation across topographic, climatic and edaphic gradients has occurred in all five regions. The Mediterranean Basin, California, and central Chile are seen as nurseries for strong but not spectacular rates of Neogene diversification, while the older landscapes of southwestern Australia and the Cape Region show significant components of both Paleogene and younger Neogene speciation in their diversity. Low rates of extinction suggesting a long association with fire more than high rates of speciation have been key to the extant levels of species richness.
author2 National Science Foundation (US)
author_facet National Science Foundation (US)
Rundell, Philip W.
Arroyo, Mary T. K.
Cowling, Richard M.
Keeley, J. E.
Lamont, Byron B.
Pausas, J. G.
Vargas, Pablo
format artículo
topic_facet Mediterranean-type climate
Speciation
Species diversity
Cape Region
Southwestern Australia
California
Mediterranean Basin
Central Chile
author Rundell, Philip W.
Arroyo, Mary T. K.
Cowling, Richard M.
Keeley, J. E.
Lamont, Byron B.
Pausas, J. G.
Vargas, Pablo
author_sort Rundell, Philip W.
title Fire and Plant Diversification in Mediterranean-Climate Regions
title_short Fire and Plant Diversification in Mediterranean-Climate Regions
title_full Fire and Plant Diversification in Mediterranean-Climate Regions
title_fullStr Fire and Plant Diversification in Mediterranean-Climate Regions
title_full_unstemmed Fire and Plant Diversification in Mediterranean-Climate Regions
title_sort fire and plant diversification in mediterranean-climate regions
publisher Frontiers Media
publishDate 2018-07-03
url http://hdl.handle.net/10261/182874
http://dx.doi.org/10.13039/501100003141
http://dx.doi.org/10.13039/501100000923
http://dx.doi.org/10.13039/100000001
http://dx.doi.org/10.13039/501100001321
http://dx.doi.org/10.13039/100000203
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AT pausasjg fireandplantdiversificationinmediterraneanclimateregions
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