Ecological niche modeling implicates climatic adaptation, competitive exclusion, and niche conservatism among Larrea tridentata cytotypes in North American deserts

Larrea tridentata is a dominant and widespread shrub of North American warm deserts. The species comprises three "chromosomal races," including diploids (Chihuahuan Desert), tetraploids (Sonoran Desert), hexaploids (Mojave and western Sonoran Deserts), as well as the geographically restric...

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Veröffentlicht in:	The journal of the Torrey Botanical Society 2013-09, Vol.140 (3), p.349-363
Hauptverfasser:	Laport, Robert G., Hatem, Layla, Minckley, Robert L., Ramsey, Justin
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Sprache:	eng
Schlagworte:	Adaptation Arenaria Climate Conservation Deserts Diploidy Ecological modeling Ecological niches Ecology Flowers & plants Hexaploidy Larrea tridentata Modeling Plants Polyploidy Soil samples Tetraploidy Tridentata
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description	Larrea tridentata is a dominant and widespread shrub of North American warm deserts. The species comprises three "chromosomal races," including diploids (Chihuahuan Desert), tetraploids (Sonoran Desert), hexaploids (Mojave and western Sonoran Deserts), as well as the geographically restricted tetraploid L. tridentata var. arenaria. Creosote bush is a recent arrival to the North American continent, and it is hypothesized that its geographic dispersion reflects rapid ecological divergence mediated by polyploidization. Here we use species distribution modeling to quantitatively evaluate alternate hypotheses for cytotype distributions, based on comprehensive field sampling of creosote bush populations over four years. Using ecological niche models and analyses of fieldcollected soils, we test whether (1) the climatic niche of the three cytotypes are differentiated; (2) there is evidence for strong climatic gradients at the distributional boundaries of the cytotypes; and (3) cytotype ranges are distinguished by edaphic features. Quantitative tests of niche equivalence indicated that distribution models for all cytotypes were significantly different from one other, suggesting that cytotype races occupy unique and distinctive habitats. However, tests of niche similarity suggest a pattern of niche conservatism, wherein cytotypes tend to occur in climatically similar regions of their respective deserts. Moreover, the modeled diploid distribution was projected to intrude into the geographic range of tetraploids, and the modeled tetraploid distribution was projected to intrude into the range of hexaploids, suggesting that intercytotype competition is a factor influencing cytotype distributions. The range boundary between the dune endemic L. tridentata var. arenaria and hexaploid L. tridentata was noteworthy for exhibiting a strong climatic gradient and striking differences in soil texture (increased sand, decreased gravel). More generally, soil texture differed statistically between sites occupied by diploid, tetraploid, and hexaploid L. tridentata, albeit with considerable overlap across the geographic ranges of the three cytotypes. Taken together, our findings suggest that multiple factors affect the distribution of creosote bush chromosome races, including but not limited to ecological divergence.
doi_str_mv	10.3159/TORREY-D-13-00009.1
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The species comprises three "chromosomal races," including diploids (Chihuahuan Desert), tetraploids (Sonoran Desert), hexaploids (Mojave and western Sonoran Deserts), as well as the geographically restricted tetraploid L. tridentata var. arenaria. Creosote bush is a recent arrival to the North American continent, and it is hypothesized that its geographic dispersion reflects rapid ecological divergence mediated by polyploidization. Here we use species distribution modeling to quantitatively evaluate alternate hypotheses for cytotype distributions, based on comprehensive field sampling of creosote bush populations over four years. Using ecological niche models and analyses of fieldcollected soils, we test whether (1) the climatic niche of the three cytotypes are differentiated; (2) there is evidence for strong climatic gradients at the distributional boundaries of the cytotypes; and (3) cytotype ranges are distinguished by edaphic features. Quantitative tests of niche equivalence indicated that distribution models for all cytotypes were significantly different from one other, suggesting that cytotype races occupy unique and distinctive habitats. However, tests of niche similarity suggest a pattern of niche conservatism, wherein cytotypes tend to occur in climatically similar regions of their respective deserts. Moreover, the modeled diploid distribution was projected to intrude into the geographic range of tetraploids, and the modeled tetraploid distribution was projected to intrude into the range of hexaploids, suggesting that intercytotype competition is a factor influencing cytotype distributions. The range boundary between the dune endemic L. tridentata var. arenaria and hexaploid L. tridentata was noteworthy for exhibiting a strong climatic gradient and striking differences in soil texture (increased sand, decreased gravel). More generally, soil texture differed statistically between sites occupied by diploid, tetraploid, and hexaploid L. tridentata, albeit with considerable overlap across the geographic ranges of the three cytotypes. 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The species comprises three "chromosomal races," including diploids (Chihuahuan Desert), tetraploids (Sonoran Desert), hexaploids (Mojave and western Sonoran Deserts), as well as the geographically restricted tetraploid L. tridentata var. arenaria. Creosote bush is a recent arrival to the North American continent, and it is hypothesized that its geographic dispersion reflects rapid ecological divergence mediated by polyploidization. Here we use species distribution modeling to quantitatively evaluate alternate hypotheses for cytotype distributions, based on comprehensive field sampling of creosote bush populations over four years. Using ecological niche models and analyses of fieldcollected soils, we test whether (1) the climatic niche of the three cytotypes are differentiated; (2) there is evidence for strong climatic gradients at the distributional boundaries of the cytotypes; and (3) cytotype ranges are distinguished by edaphic features. Quantitative tests of niche equivalence indicated that distribution models for all cytotypes were significantly different from one other, suggesting that cytotype races occupy unique and distinctive habitats. However, tests of niche similarity suggest a pattern of niche conservatism, wherein cytotypes tend to occur in climatically similar regions of their respective deserts. Moreover, the modeled diploid distribution was projected to intrude into the geographic range of tetraploids, and the modeled tetraploid distribution was projected to intrude into the range of hexaploids, suggesting that intercytotype competition is a factor influencing cytotype distributions. The range boundary between the dune endemic L. tridentata var. arenaria and hexaploid L. tridentata was noteworthy for exhibiting a strong climatic gradient and striking differences in soil texture (increased sand, decreased gravel). More generally, soil texture differed statistically between sites occupied by diploid, tetraploid, and hexaploid L. tridentata, albeit with considerable overlap across the geographic ranges of the three cytotypes. Taken together, our findings suggest that multiple factors affect the distribution of creosote bush chromosome races, including but not limited to ecological divergence.</description><subject>Adaptation</subject><subject>Arenaria</subject><subject>Climate</subject><subject>Conservation</subject><subject>Deserts</subject><subject>Diploidy</subject><subject>Ecological modeling</subject><subject>Ecological niches</subject><subject>Ecology</subject><subject>Flowers & plants</subject><subject>Hexaploidy</subject><subject>Larrea tridentata</subject><subject>Modeling</subject><subject>Plants</subject><subject>Polyploidy</subject><subject>Soil samples</subject><subject>Tetraploidy</subject><subject>Tridentata</subject><issn>1095-5674</issn><issn>1940-0616</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2013</creationdate><recordtype>article</recordtype><recordid>eNpdkM1OHDEMgEdVK5XSPgGqFKkXDh2an0kmOSK6BaRVkRA9cFqFxANZZZIhyaLu8_RFcQun-mLL-vzZctcdMXoimDTfbq6ur1e3_feeiZ5imBP2pjtgZqA9VUy9xZoa2Us1Du-7D7Vu_zJS8oPuz8rlmO-Ds5Gk4B6AzNlDDOmehHmJ2G9QiYthti04Yr1dGlY5fSUuzwu00MITEPjt4q7-a9vkX00upwrlCfE6EztndK5tKWBJK8FDQpElbt9y2y-4JCTyM5f2QE5nKLg4EQ843-rH7t1kY4VPr_mw-_VjdXN20a-vzi_PTte941q33nltJR_uJj5qzkZpQPlRae-lUJ4LbSfNjB4nM3kDUnp_xwcY1Ci051JSLg674xfvUvLjDmrbzKE6iNEmyLu6YZJToTjXI6Jf_kO3eVcSXocUNZoPyCH1-YXa1pbLZin4xbLfDAIVlCnxDD5HiVQ</recordid><startdate>20130901</startdate><enddate>20130901</enddate><creator>Laport, Robert G.</creator><creator>Hatem, Layla</creator><creator>Minckley, Robert L.</creator><creator>Ramsey, Justin</creator><general>Torrey Botanical Society, Allen Press, Inc</general><general>Torrey Botanical Society</general><scope>4T-</scope><scope>7SN</scope><scope>C1K</scope></search><sort><creationdate>20130901</creationdate><title>Ecological niche modeling implicates climatic adaptation, competitive exclusion, and niche conservatism among Larrea tridentata cytotypes in North American deserts</title><author>Laport, Robert G. ; Hatem, Layla ; Minckley, Robert L. ; Ramsey, Justin</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c288t-cd8a524bf27821759e6d768dd536d238af81987f9fd9e55ddb24e46738d255023</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2013</creationdate><topic>Adaptation</topic><topic>Arenaria</topic><topic>Climate</topic><topic>Conservation</topic><topic>Deserts</topic><topic>Diploidy</topic><topic>Ecological modeling</topic><topic>Ecological niches</topic><topic>Ecology</topic><topic>Flowers & plants</topic><topic>Hexaploidy</topic><topic>Larrea tridentata</topic><topic>Modeling</topic><topic>Plants</topic><topic>Polyploidy</topic><topic>Soil samples</topic><topic>Tetraploidy</topic><topic>Tridentata</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Laport, Robert G.</creatorcontrib><creatorcontrib>Hatem, Layla</creatorcontrib><creatorcontrib>Minckley, Robert L.</creatorcontrib><creatorcontrib>Ramsey, Justin</creatorcontrib><collection>Docstoc</collection><collection>Ecology Abstracts</collection><collection>Environmental Sciences and Pollution Management</collection><jtitle>The journal of the Torrey Botanical Society</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Laport, Robert G.</au><au>Hatem, Layla</au><au>Minckley, Robert L.</au><au>Ramsey, Justin</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Ecological niche modeling implicates climatic adaptation, competitive exclusion, and niche conservatism among Larrea tridentata cytotypes in North American deserts</atitle><jtitle>The journal of the Torrey Botanical Society</jtitle><date>2013-09-01</date><risdate>2013</risdate><volume>140</volume><issue>3</issue><spage>349</spage><epage>363</epage><pages>349-363</pages><issn>1095-5674</issn><eissn>1940-0616</eissn><abstract>Larrea tridentata is a dominant and widespread shrub of North American warm deserts. The species comprises three "chromosomal races," including diploids (Chihuahuan Desert), tetraploids (Sonoran Desert), hexaploids (Mojave and western Sonoran Deserts), as well as the geographically restricted tetraploid L. tridentata var. arenaria. Creosote bush is a recent arrival to the North American continent, and it is hypothesized that its geographic dispersion reflects rapid ecological divergence mediated by polyploidization. Here we use species distribution modeling to quantitatively evaluate alternate hypotheses for cytotype distributions, based on comprehensive field sampling of creosote bush populations over four years. Using ecological niche models and analyses of fieldcollected soils, we test whether (1) the climatic niche of the three cytotypes are differentiated; (2) there is evidence for strong climatic gradients at the distributional boundaries of the cytotypes; and (3) cytotype ranges are distinguished by edaphic features. Quantitative tests of niche equivalence indicated that distribution models for all cytotypes were significantly different from one other, suggesting that cytotype races occupy unique and distinctive habitats. However, tests of niche similarity suggest a pattern of niche conservatism, wherein cytotypes tend to occur in climatically similar regions of their respective deserts. Moreover, the modeled diploid distribution was projected to intrude into the geographic range of tetraploids, and the modeled tetraploid distribution was projected to intrude into the range of hexaploids, suggesting that intercytotype competition is a factor influencing cytotype distributions. The range boundary between the dune endemic L. tridentata var. arenaria and hexaploid L. tridentata was noteworthy for exhibiting a strong climatic gradient and striking differences in soil texture (increased sand, decreased gravel). More generally, soil texture differed statistically between sites occupied by diploid, tetraploid, and hexaploid L. tridentata, albeit with considerable overlap across the geographic ranges of the three cytotypes. Taken together, our findings suggest that multiple factors affect the distribution of creosote bush chromosome races, including but not limited to ecological divergence.</abstract><cop>Lawrence</cop><pub>Torrey Botanical Society, Allen Press, Inc</pub><doi>10.3159/TORREY-D-13-00009.1</doi><tpages>15</tpages></addata></record>
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subjects	Adaptation Arenaria Climate Conservation Deserts Diploidy Ecological modeling Ecological niches Ecology Flowers & plants Hexaploidy Larrea tridentata Modeling Plants Polyploidy Soil samples Tetraploidy Tridentata
title	Ecological niche modeling implicates climatic adaptation, competitive exclusion, and niche conservatism among Larrea tridentata cytotypes in North American deserts
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