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1. Genomic insights into historical population dynamics, local adaptation, and climate change vulnerability of the East Asian Tertiary relict Euptelea (Eupteleaceae)

Author

Cao, Ya‐Nan, Zhu, Shan‐Shan, Chen, Jun, Comes, Hans P, Wang, Ian J, Chen, Lu‐Yao, Sakaguchi, Shota, and Qiu, Ying‐Xiong

Subjects
Genetics, Human Genome, Climate Action, Life Below Water, East Asia's Tertiary relicts, Euptelea, genomic vulnerability, historical population dynamics, local adaptation, restriction site-associated DNA sequencing, East Asia’s Tertiary relicts, restriction site‐associated DNA sequencing, Medicinal and Biomolecular Chemistry, Evolutionary Biology
Abstract

The warm-temperate and subtropical climate zones of East Asia are a hotspot of plant species richness and endemism, including a noticeable number of species-poor Tertiary relict tree genera. However, little is understood about when East Asian Tertiary relict plants diversified, how they responded demographically to past environmental change, and to what extent their current genomic composition (and adaptive capacity) might mitigate the effects of global warming. Here, we obtained genomic (RAD-SNP) data for 171 samples from two extant species of Euptelea in China (24 E. pleiosperma populations) and Japan (11 E. polyandra populations) to elucidate their divergence and demographic histories, genome-wide associations with current environmental variables, and genomic vulnerability to future climate change. Our results indicate that Late Miocene changes in climate and/or sea level promoted species divergence, whereas Late Pliocene uplifting in southwest China likely fostered lineage divergence within E. pleiosperma. Its subsequent range expansion into central/east (CE) China bears genomic signatures of climate-driven selection, yet extant CE populations are predicted to be most vulnerable to future climate change. For E. polyandra, geography was the only significant predictor of genomic variation. Our findings indicate a profound impact of Late Neogene geological and climate change on the evolutionary history of Euptelea, with much stronger signals of local adaptation left in China than in Japan. This study deepens our understanding of the complex evolutionary forces that influence the distribution of genetic variation of Tertiary relict trees, and provides insights into their susceptibility to global change and potential for adaptive responses. Our results lay the groundwork for future conservation and restoration programs for Euptelea.

Published
2020

6. Contributions of historical and contemporary geographic and environmental factors to phylogeographic structure in a Tertiary relict species, Emmenopterys henryi (Rubiaceae).

Author

Zhang, Yong-Hua, Wang, Ian, Comes, Hans, Peng, Hua, and Qiu, Ying-Xiong

Subjects
Amplified Fragment Length Polymorphism Analysis, Bayes Theorem, China, DNA, Plant, Environment, Gene Frequency, Gene-Environment Interaction, Genetic Loci, Genetic Variation, Genetics, Population, Haplotypes, Phylogeny, Phylogeography, Polymorphism, Genetic, Rubiaceae, Sequence Analysis, DNA
Abstract

Examining how historical and contemporary geographic and environmental factors contribute to genetic divergence at different evolutionary scales is a central yet largely unexplored question in ecology and evolution. Here, we examine this key question by investigating how environmental and geographic factors across different epochs have driven genetic divergence at deeper (phylogeographic) and shallower (landscape genetic) evolutionary scales in the Chinese Tertiary relict tree Emmenopterys henryi. We found that geography played a predominant role at all levels - phylogeographic clades are broadly geographically structured, the deepest levels of divergence are associated with major geological or pre-Quaternary climatic events, and isolation by distance (IBD) primarily explained population genetic structure. However, environmental factors are clearly also important - climatic fluctuations since the Last Interglacial (LIG) have likely contributed to phylogeographic structure, and the population genetic structure (in our AFLP dataset) was partly explained by isolation by environment (IBE), which may have resulted from natural selection in environments with divergent climates. Thus, historical and contemporary geography and historical and contemporary environments have all shaped patterns of genetic structure in E. henryi, and, in fact, changes in the landscape through time have also been critical factors.

Published
2016

8. Genome sequences and population genomics reveal climatic adaptation and genomic divergence between two closely related sweetgum species.

Author

Xu, Wu‐Qin, Ren, Chao‐Qian, Zhang, Xin‐Yi, Comes, Hans‐Peter, Liu, Xin‐Hong, Li, Yin‐Gang, Kettle, Christopher J., Jalonen, Riina, Gaisberger, Hannes, Ma, Ya‐Zhen, and Qiu, Ying‐Xiong

Subjects
REPRODUCTIVE isolation, INTROGRESSION (Genetics), SPECIES, POPULATION genetics, GENOMICS, GENE flow, CLIMATE change
Abstract

SUMMARY: Understanding the genetic basis of population divergence and adaptation is an important goal in population genetics and evolutionary biology. However, the relative roles of demographic history, gene flow, and/or selective regime in driving genomic divergence, climatic adaptation, and speciation in non‐model tree species are not yet fully understood. To address this issue, we generated whole‐genome resequencing data of Liquidambar formosana and L. acalycina, which are broadly sympatric but altitudinally segregated in the Tertiary relict forests of subtropical China. We integrated genomic and environmental data to investigate the demographic history, genomic divergence, and climatic adaptation of these two sister species. We inferred a scenario of allopatric species divergence during the late Miocene, followed by secondary contact during the Holocene. We identified multiple genomic islands of elevated divergence that mainly evolved through divergence hitchhiking and recombination rate variation, likely fostered by long‐term refugial isolation and recent differential introgression in low‐recombination genomic regions. We also found some candidate genes with divergent selection signatures potentially involved in climatic adaptation and reproductive isolation. Our results contribute to a better understanding of how late Tertiary/Quaternary climatic change influenced speciation, genomic divergence, climatic adaptation, and introgressive hybridization in East Asia's Tertiary relict flora. In addition, they should facilitate future evolutionary, conservation genomics, and molecular breeding studies in Liquidambar, a genus of important medicinal and ornamental values. Significance Statement: We assembled a chromosome‐scale genome of Liquidambar formosana and resequenced 160 individuals of L. formosana and its high‐altitude sister species L. acalycina. Benefiting from advanced analytical methods and robust evidence, we found that multiple "genomic islands" mainly evolved as a result of divergence hitchhiking and recombination rate variation, as likely fostered by long‐term refugial isolation and recent differential introgression in low‐recombination genomic regions; and identified some candidate genes associated with climatic adaptation and reproductive isolation. [ABSTRACT FROM AUTHOR]

Published
2024
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13. Geographic and subsequent biotic isolations led to a diversity anomaly of section Heterotropa (genus Asarum : Aristolochiaceae) in insular versus continental regions of the Sino‐Japanese Floristic Region

Author

Takahashi, Daiki, Sakaguchi, Shota, Feng, Yu, Isagi, Yuji, Qiu, Ying‐Xiong, Li, Pan, Lu, Rui‐Sen, Lu, Chang‐Tse, Chung, Shih‐Wen, Lin, Yang‐Shan, Chen, Yun‐Chao, Nagano, J., Atsushi, Kawaguchi, Lina, and Setoguchi, Hiroaki

Subjects
phylogenetics, island biogeography, morphological evolution, fungi, food and beverages, diversity anomaly, East Asia, Asarum sect. Heterotropa, macroevolutionary modelling
Abstract

[Aim] The Sino-Japanese Floristic Region has extremely high species diversity with respect to temperate plants; however, the reasons for this diversity are poorly understood because most studies have only considered geographic isolation caused by climatic oscillations. In some plant groups, high floral trait diversity and uneven species diversity between insular systems and the continental area suggest other factors may have important roles too. The primary purpose of this study is to reveal how abiotic and biotic factors have shaped the species diversity anomaly of Heterotropa between the insular systems and the continental area. [Location] The Sino-Japanese Floristic Region. [Taxon] Section Heterotropa (genus Asarum; Aristolochiaceae). [Methods] Using ddRAD-seq and chloroplast genome data, we built a time-calibrated phylogenetic tree including 79 species. We estimated the patterns of floral traits (flowering time and floral size) evolution using macroevolutionary modelling, and tested the correlation of speciation rate with the trait evolution rates. Finally, we estimated the isolation factors of all taxa pairs and sister-taxa pairs based on distribution range and floral traits. [Results] Phylogenetic analysis indicated that Heterotropa was diverged into two clades (continental clade and insular clade) in the Miocene, and the major subclades corresponded to geographic entities. Most rate shifts accelerating floral trait's evolution occurred during the Pleistocene period. Evolution rate of floral traits showed positive correlation with the speciation rate. Large proportion of taxa in the insular clade are distributed allopatrically. Several sister pairs showed floral trait divergence with geographic overlap. [Main Conclusions] The diversification of Heterotropa appears to have been triggered by geographic and climatic events, and subsequent repeated floral trait evolution with and without geographic isolation. Furthermore, the high species diversity in the insular systems would have been formed by the repeated range fragmentations and contractions. Our study demonstrates the importance of multidimensional studies to understand the diversification process of temperate plants in the Sino-Japanese Floristic Region.

Published
2021

14. Climatic niche evolution in Smilacaceae (Liliales) drives patterns of species diversification and richness between the Old and New World.

Author

Qi, Zhe‐Chen, Li, Pan, Wu, Jun‐Jie, Gamisch, Alexander, Yang, Tuo, Zhao, Yun‐Peng, Xu, Wu‐Qing, Chen, Shi‐Chao, Cameron, Kenneth M., Qiu, Ying‐Xiong, and Fu, Cheng‐Xin

Subjects
ECOLOGICAL niche, PHYLOGENY, MIOCENE Epoch, EOCENE Epoch, SPECIES diversity, PLANT species
Abstract

Geographical variation in species richness in plant groups is determined by the interplay between historical, evolutionary, and ecological processes. However, the processes underlying the striking disparity in species richness between Asia and the Americas remain poorly understood. Here, we synthesize global phylogenetic and macroecological data on the diversification of Smilacaceae, deciphering potential drivers underlying the species diversity pattern biased toward Asia. We compiled global distributions of all Smilacaceae species, and reconstructed the biogeographic history and niche evolution using a new time‐calibrated phylogeny (eight genes, 135 species). Integrating these data sets, we estimated evolutionary histories and diversification rates for each region, and tested correlations among species diversification, niche evolution, and niche divergence. Smilacaceae probably originated during the Late Cretaceous/Early Palaeocene and began to diversify in middle to low latitudes in Central America and Eurasia during the Late Eocene. Both the Old and New World clades exhibited a steady, albeit slight, increase of species diversification from the Late Eocene to Early Miocene. However, the Old World clade experienced an abrupt increase in net diversification during the Late Miocene. Our findings also revealed that species diversification rates were positively correlated with ecological niche evolution and niche divergence. Niche shifts and climatic niche evolution since the Middle Miocene played crucial roles in species diversification dynamics within Smilacaceae. The high plant richness in Asia may be explained by greater diversification in this region, potentially promoted by heterogeneous environments. [ABSTRACT FROM AUTHOR]

Published
2023
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19. Molecular Phylogenetics and Evolution / Phylogenomics and diversification drivers of the Eastern Asian – Eastern North American disjunct Podophylloideae

Author

Ye, Wen-Qing, Zhu, Shan-Shan, Comes, Hans Peter, Yang, Tuo, Lian, Lian, Wang, Wei, and Qiu, Ying-Xiong

Subjects
Eastern North America, Biogeography, Podophylloideae, Diversification, Phylogenomics, Diversity anomaly, Eastern Asia
Abstract

Evolutionary and biogeographic processes determine species richness patterns of vascular plants between Eastern Asia (EA) and Eastern North America (ENA). However, the strikingly higher species richness of EA relative to ENA remains poorly understood from this perspective. Here, we studied the relative importance of biogeographical, evolutionary and ecological factors underlying differences in species richness between EA and ENA in Podophylloideae (Berberidaceae, Ranunculales; in total 10 spp. in EA vs. 2 spp. in ENA). Based on large-scale transcriptome data, our phylogenomic analyses strongly supported Podophylloideae and its two multi-species genera, i.e. Dysosma (EA) and Diphylleia (EA/ENA), as monophyletic groups. Sinopodophyllum hexandrum (EA) was identified as sister to the remainder of Podophylloideae. Dysosma (7 spp.) was recovered as sister to Podophyllum peltatum (ENA), forming an EA–ENA disjunct pair with a strong bias of species diversity in the EA counterpart. Our biogeographic analyses support the ‘out-of-Tibet’ hypothesis, suggesting that Podophylloideae started to diversify in the Himalaya–Hengduan Mountains (Mid-Miocene) and migrated eastward (since the Late Miocene) into Central-eastern China, Japan, and ENA (only P. peltatum and Diphylleia cymosa). Overall, we conclude that the striking species diversity anomaly between EA and ENA in Podophylloideae may be explained by a combination of (1) a longer period of time available to accumulate species in EA; and (2) a greater diversification rate in EA, which might have been promoted by greater physiographic and environmental heterogeneity in this region. Wen-Qing Ye, Shan-Shan Zhu, Hans Peter Comes, Tuo Yang, Lian Lian, Wei Wang, Ying-Xiong Qiu

Published
2022
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27. Genome sequencing and transcriptome analyses provide insights into the origin and domestication of water caltrop (Trapaspp., Lythraceae)

Author

Lu, Rui‐Sen, primary, Chen, Yang, additional, Zhang, Xin‐Yi, additional, Feng, Yu, additional, Comes, Hans Peter, additional, Li, Zheng, additional, Zheng, Zhai‐Sheng, additional, Yuan, Ye, additional, Wang, Ling‐Yun, additional, Huang, Zi‐Jian, additional, Guo, Yi, additional, Sun, Guo‐Ping, additional, Olsen, Kenneth M., additional, Chen, Jun, additional, and Qiu, Ying‐Xiong, additional

Published
2021
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30. Geographic and subsequent biotic isolations led to a diversity anomaly of section Heterotropa (genus Asarum : Aristolochiaceae) in insular versus continental regions of the Sino‐Japanese Floristic Region

Author

50726809, 80571835, 70206647, Takahashi, Daiki, Sakaguchi, Shota, Feng, Yu, Isagi, Yuji, Qiu, Ying‐Xiong, Li, Pan, Lu, Rui‐Sen, Lu, Chang‐Tse, Chung, Shih‐Wen, Lin, Yang‐Shan, Chen, Yun‐Chao, Nagano, J., Atsushi, Kawaguchi, Lina, Setoguchi, Hiroaki, 50726809, 80571835, 70206647, Takahashi, Daiki, Sakaguchi, Shota, Feng, Yu, Isagi, Yuji, Qiu, Ying‐Xiong, Li, Pan, Lu, Rui‐Sen, Lu, Chang‐Tse, Chung, Shih‐Wen, Lin, Yang‐Shan, Chen, Yun‐Chao, Nagano, J., Atsushi, Kawaguchi, Lina, and Setoguchi, Hiroaki

Abstract

[Aim] The Sino-Japanese Floristic Region has extremely high species diversity with respect to temperate plants; however, the reasons for this diversity are poorly understood because most studies have only considered geographic isolation caused by climatic oscillations. In some plant groups, high floral trait diversity and uneven species diversity between insular systems and the continental area suggest other factors may have important roles too. The primary purpose of this study is to reveal how abiotic and biotic factors have shaped the species diversity anomaly of Heterotropa between the insular systems and the continental area. [Location] The Sino-Japanese Floristic Region. [Taxon] Section Heterotropa (genus Asarum; Aristolochiaceae). [Methods] Using ddRAD-seq and chloroplast genome data, we built a time-calibrated phylogenetic tree including 79 species. We estimated the patterns of floral traits (flowering time and floral size) evolution using macroevolutionary modelling, and tested the correlation of speciation rate with the trait evolution rates. Finally, we estimated the isolation factors of all taxa pairs and sister-taxa pairs based on distribution range and floral traits. [Results] Phylogenetic analysis indicated that Heterotropa was diverged into two clades (continental clade and insular clade) in the Miocene, and the major subclades corresponded to geographic entities. Most rate shifts accelerating floral trait's evolution occurred during the Pleistocene period. Evolution rate of floral traits showed positive correlation with the speciation rate. Large proportion of taxa in the insular clade are distributed allopatrically. Several sister pairs showed floral trait divergence with geographic overlap. [Main Conclusions] The diversification of Heterotropa appears to have been triggered by geographic and climatic events, and subsequent repeated floral trait evolution with and without geographic isolation. Furthermore, the high species diversity in the insular

Published
2021

37. Genomic insights into historical population dynamics, local adaptation, and climate change vulnerability of the East Asian Tertiary relict Euptelea (Eupteleaceae).

Author

Cao, Ya-Nan, Cao, Ya-Nan, Zhu, Shan-Shan, Chen, Jun, Comes, Hans P, Wang, Ian J, Chen, Lu-Yao, Sakaguchi, Shota, Qiu, Ying-Xiong, Cao, Ya-Nan, Cao, Ya-Nan, Zhu, Shan-Shan, Chen, Jun, Comes, Hans P, Wang, Ian J, Chen, Lu-Yao, Sakaguchi, Shota, and Qiu, Ying-Xiong

Abstract

The warm-temperate and subtropical climate zones of East Asia are a hotspot of plant species richness and endemism, including a noticeable number of species-poor Tertiary relict tree genera. However, little is understood about when East Asian Tertiary relict plants diversified, how they responded demographically to past environmental change, and to what extent their current genomic composition (and adaptive capacity) might mitigate the effects of global warming. Here, we obtained genomic (RAD-SNP) data for 171 samples from two extant species of Euptelea in China (24 E. pleiosperma populations) and Japan (11 E. polyandra populations) to elucidate their divergence and demographic histories, genome-wide associations with current environmental variables, and genomic vulnerability to future climate change. Our results indicate that Late Miocene changes in climate and/or sea level promoted species divergence, whereas Late Pliocene uplifting in southwest China likely fostered lineage divergence within E. pleiosperma. Its subsequent range expansion into central/east (CE) China bears genomic signatures of climate-driven selection, yet extant CE populations are predicted to be most vulnerable to future climate change. For E. polyandra, geography was the only significant predictor of genomic variation. Our findings indicate a profound impact of Late Neogene geological and climate change on the evolutionary history of Euptelea, with much stronger signals of local adaptation left in China than in Japan. This study deepens our understanding of the complex evolutionary forces that influence the distribution of genetic variation of Tertiary relict trees, and provides insights into their susceptibility to global change and potential for adaptive responses. Our results lay the groundwork for future conservation and restoration programs for Euptelea.

Published
2020

38. Genome sequencing and transcriptome analyses provide insights into the origin and domestication of water caltrop (Trapa spp., Lythraceae).

Author

Lu, Rui‐Sen, Chen, Yang, Zhang, Xin‐Yi, Feng, Yu, Comes, Hans Peter, Li, Zheng, Zheng, Zhai‐Sheng, Yuan, Ye, Wang, Ling‐Yun, Huang, Zi‐Jian, Guo, Yi, Sun, Guo‐Ping, Olsen, Kenneth M., Chen, Jun, and Qiu, Ying‐Xiong

Subjects
NUCLEOTIDE sequencing, DOMESTICATION of plants, SEQUENCE analysis, NUTRIENT uptake, AQUATIC plants
Abstract

Summary: Humans have domesticated diverse species from across the plant kingdom; however, our current understanding of plant domestication is largely founded on major cereal crops. Here, we examine the evolutionary processes and genetic basis underlying the domestication of water caltrop (Trapa spp., Lythraceae), a traditional, yet presently underutilized non‐cereal crop that sustained early Chinese agriculturalists. We generated a chromosome‐level genome assembly of tetraploid T. natans, and then divided the allotetraploid genome into two subgenomes. Based on resequencing data from 57 accessions, representing cultivated diploid T. natans, wild T. natans (2x and 4x) and diploid T. incisa, we showed that water caltrop was likely first domesticated in the Yangtze River Valley as early as 6300 yr BP, and experienced a second improvement c. 800 years ago. We also provided strong support for an allotetraploid origin of T. natans within the past 230 000–310 000 years. By integrating selective sweep and transcriptome profiling analyses, we identified a number of genes potentially selected and/or differentially expressed during domestication, some of which likely contributed not only to larger fruit sizes but also to a more vigorous root system, facilitating nutrient uptake, environmental stress response and underwater photosynthesis. Our results shed light on the evolutionary and domestication history of water caltrop, one of the earliest domesticated crops in China. This study has implications for genomic‐assisted breeding of this presently underutilized aquatic plant, and improves our general understanding of plant domestication. [ABSTRACT FROM AUTHOR]

Published
2022
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44. Geographic and subsequent biotic isolations led to a diversity anomaly ofHeterotropa(Aristolochiaceae) in insular versus continental regions of the Sino-Japanese Floristic Region

Author

Takahashi, Daiki, primary, Feng, Yu, additional, Sakaguchi, Shota, additional, Isagi, Yuji, additional, Qiu, Ying-Xiong, additional, Li, Pan, additional, Lu, Rui-Sen, additional, Lu, Chang-Tse, additional, Chung, Shih-Wen, additional, Lin, Yang-Shan, additional, Chen, Yun-Chao, additional, Nagano, Atsushi J., additional, Kawaguchi, Lina, additional, and Setoguchi, Hiroaki, additional

Published
2020
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47. Phylogenomics and biogeography of Wisteria: Implications on plastome evolution among inverted repeat‐lacking clade (IRLC) legumes.

Author

Xia, Mao‐Qin, Liao, Ren‐Yu, Zhou, Jin‐Ting, Lin, Han‐Yang, Li, Jian‐Hua, Li, Pan, Fu, Cheng‐Xin, and Qiu, Ying‐Xiong

Subjects
VICARIANCE, DECIDUOUS forests, ORNAMENTAL plants, BIOGEOGRAPHY, TEMPERATE forests
Abstract

The genus Wisteria (Fabaceae) is disjunctly distributed in eastern Asian and eastern North American temperate deciduous forests, and it is widely cultivated around the world as spectacular garden plants. It is a member of inverted repeat‐lacking clade (IRLC). The IRLC Species are characterized by the loss of an IR region in their plastomes, which has long been of great interest. In this research, we report whole plastome sequences from all four Wisteria species and a Wisteriopsis japonica, combining these with existing data to explore phylogenetic relationships and biogeography of Wisteria, as well as plastome evolution of IRLC species. Phylogenetic analyses recognized a clade containing Glycyrrhiza–Wisteriopsis–Wisteria as sister to the remaining genera of IRLC. North American Wisteria frutescens and the three Asian species formed reciprocal clades, and Wisteria brachybotrys was sister to Wisteria floribunda and Wisteria sinensis. Wisteria may have originated in Japan near the boundary of the Oligocene and Miocene. The disappearance of Bering Land Bridge in the late Miocene might lead to the Eastern Asian–Eastern North American disjunction of Wisteria. Allopatric speciation of Wisteria between the Japanese archipelago and the Asian continent in the Quaternary increased the species richness of eastern Asia in comparison with eastern North America. Synonymous substitution rates (dS) of protein‐coding genes in the IRLC species were around 2‐fold (SC genes) or 11‐fold (IR genes) higher than those of non‐IRLC species. For both SC and IR genes, herbaceous legumes have around 3‐fold higher dS than woody ones. Both loss of one IR region and herbaceous habit elevated substitution rates of the plastomes. [ABSTRACT FROM AUTHOR]

Published
2022
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50. Contrasting patterns of genetic structure and phylogeography in the marine agarophytesGelidiophycus divaricatusandG.freshwateri(Gelidiales, Rhodophyta) from East Asia

Author

Boo, Ga Hun, primary, Qiu, Ying‐Xiong, additional, Kim, Jung Yeon, additional, Ang, Put O., additional, Bosch, Samuel, additional, De Clerck, Olivier, additional, He, Peimin, additional, Higa, Atsushi, additional, Huang, Bangqin, additional, Kogame, Kazuhiro, additional, Liu, Shao‐Lun, additional, Nguyen, Tu, additional, Suda, Shoichiro, additional, Terada, Ryuta, additional, Miller, Kathy Ann, additional, and Boo, Sung Min, additional

Published
2019
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