[an error occurred while processing this directive]

Plant Diversity ›› 2022, Vol. 44 ›› Issue (05): 492-498.DOI: 10.1016/j.pld.2021.11.006

• Research paper • 上一篇    下一篇

Evolutionary importance of the relationship between cytogeography and climate: New insights on creosote bushes from North and South America

Romina Vidal-Russella, Mariana Tadeya, Romana Urfusováb, Tomáš Urfusb, Cintia Paola Soutoa   

  1. a. Laboratorio Ecotono- INIBIOMA (CONICET-UNComahue), Quintral, 1250, Bariloche, Río Negro, Argentina;
    b. Department of Botany, Faculty of Science, Charles University, Benátská 2, 128 00, Prague, Czech Republic
  • 收稿日期:2021-05-10 修回日期:2021-11-18 出版日期:2022-09-25 发布日期:2022-10-14
  • 通讯作者: Cintia Paola Souto,E-mail:cintiap.souto@gmail.com
  • 基金资助:
    This work was supported by Argentine National Found for Science and Technology,under Grant PICT 2014-3478-BID and 2019-0149 BID;and Council of Science and Technology-CONICET under Grant PIP-0712.R.V.R.,M.T.,and C.P.S.are members of CONICET.Grant Agency of the Czech Republic 17-12420S.We thank Peter Smouse and two anonymous reviewers for helpful comments that improved the quality of our manuscript.Thanks also to Thomas Kitzberger,Julieta Betinelli and Daiana Jaume,Carolina Calviño,Laura Zalazar,who collaborated in field work,sample processing,and downloading climatic data respectively.

Evolutionary importance of the relationship between cytogeography and climate: New insights on creosote bushes from North and South America

Romina Vidal-Russella, Mariana Tadeya, Romana Urfusováb, Tomáš Urfusb, Cintia Paola Soutoa   

  1. a. Laboratorio Ecotono- INIBIOMA (CONICET-UNComahue), Quintral, 1250, Bariloche, Río Negro, Argentina;
    b. Department of Botany, Faculty of Science, Charles University, Benátská 2, 128 00, Prague, Czech Republic
  • Received:2021-05-10 Revised:2021-11-18 Online:2022-09-25 Published:2022-10-14
  • Supported by:
    This work was supported by Argentine National Found for Science and Technology,under Grant PICT 2014-3478-BID and 2019-0149 BID;and Council of Science and Technology-CONICET under Grant PIP-0712.R.V.R.,M.T.,and C.P.S.are members of CONICET.Grant Agency of the Czech Republic 17-12420S.We thank Peter Smouse and two anonymous reviewers for helpful comments that improved the quality of our manuscript.Thanks also to Thomas Kitzberger,Julieta Betinelli and Daiana Jaume,Carolina Calviño,Laura Zalazar,who collaborated in field work,sample processing,and downloading climatic data respectively.

摘要: Relationships between genome size and environmental variables suggest that DNA content might be adaptive and of evolutionary importance in plants. The genus Larrea provides an interesting system to test this hypothesis, since it shows both intra- and interspecific variation in genome size. Larrea has an amphitropical distribution in North and South American deserts, where it is most speciose. Larrea tridentata in North America shows a gradient of increasing autopolyploidy; while three of the four studied South American species are diploids, Larrea divaricata, Larrea nitida, Larrea ameghinoi, and the fourth is an allopolyploid, Larrea cuneifolia. We downloaded available focal species’ georeferenced records from seven data reservoirs. We used these records to extract biologically relevant environmental variables from WorldClim at 30 arcseconds scale, to have a broad characterization of the variable climatic conditions of both regions, and a climatic envelope for each species. We estimated relative DNA content index and relative monoploid genome values, by flow cytometry, of four most abundant Larrea species throughout their respective ranges. Then we winnow the bioclimatic dataset down to uncorrelated variables and sampled locales, to analyse the degree of association between both intra- and interspecific relative DNA content and climatic variables that are functionally relevant in arid environments using Pearson correlations, general linear and mixed effects models. Within the genus Larrea, relative DNA content increases with rising temperature and decreases with rising precipitation. At the intraspecific level, all four species show relative DNA content variation across climatic conditions. Larrea is a genus that shows genome size variation correlated with climate. Our results are also consistent with the hypothesis that extreme environmental pressures may have facilitated repeated whole genome duplication events in North America, while in South America, reticulate evolution, as allopolyploidization, and speciation might have been climate-dependent since the Oligocene.

关键词: DNA content, Drylands, Genome size, Jarilla, Larrea, Zygophyllaceae

Abstract: Relationships between genome size and environmental variables suggest that DNA content might be adaptive and of evolutionary importance in plants. The genus Larrea provides an interesting system to test this hypothesis, since it shows both intra- and interspecific variation in genome size. Larrea has an amphitropical distribution in North and South American deserts, where it is most speciose. Larrea tridentata in North America shows a gradient of increasing autopolyploidy; while three of the four studied South American species are diploids, Larrea divaricata, Larrea nitida, Larrea ameghinoi, and the fourth is an allopolyploid, Larrea cuneifolia. We downloaded available focal species’ georeferenced records from seven data reservoirs. We used these records to extract biologically relevant environmental variables from WorldClim at 30 arcseconds scale, to have a broad characterization of the variable climatic conditions of both regions, and a climatic envelope for each species. We estimated relative DNA content index and relative monoploid genome values, by flow cytometry, of four most abundant Larrea species throughout their respective ranges. Then we winnow the bioclimatic dataset down to uncorrelated variables and sampled locales, to analyse the degree of association between both intra- and interspecific relative DNA content and climatic variables that are functionally relevant in arid environments using Pearson correlations, general linear and mixed effects models. Within the genus Larrea, relative DNA content increases with rising temperature and decreases with rising precipitation. At the intraspecific level, all four species show relative DNA content variation across climatic conditions. Larrea is a genus that shows genome size variation correlated with climate. Our results are also consistent with the hypothesis that extreme environmental pressures may have facilitated repeated whole genome duplication events in North America, while in South America, reticulate evolution, as allopolyploidization, and speciation might have been climate-dependent since the Oligocene.

Key words: DNA content, Drylands, Genome size, Jarilla, Larrea, Zygophyllaceae