Fine-scale spatial genetic structure in the frankincense tree Boswellia papyrifera (Del.) Hochst. and implications for conservation

Addisalem, A.B.; Duminil, Jérôme; Wouters, Doret; Bongers, Frans; Smulders, M.J.M.

doi:10.1007/s11295-016-1039-2

Cited by 11 publications

(4 citation statements)

References 39 publications

(66 reference statements)

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“…ex Caill.) Hochst (He = 0.69) [54], D. cochinchinenesis (He = 0.55), and D. oliveri (He = 0.75) [55]. Similar observations were reported for Ottelia acuminate (He = 0.35, endemic to southwestern China) [56] and Dipterocarpus alatus Roxb.…”

Section: Genetic Diversity Of D Odoriferasupporting

confidence: 76%

Genetic Diversity of the Endangered Dalbergia odorifera Revealed by SSR Markers

Liu

Hong

et al. 2019

Forests

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Dalbergia odorifera T. Chen (Fabaceae) is a semi-deciduous tree species indigenous to Hainan Island in China. Due to its precious heartwood “Hualimu (Chinese)” and Chinese medicinal components “Jiangxiang”, D. odorifera is seriously threatened of long-term overexploitation and has been listed on the IUCN (International Union for Conservation of Nature’s) red list since 1998. Therefore, the elucidation of its genetic diversity is imperative for conservation and breeding purposes. In this study, we evaluated the genetic diversity of 42 wild D. odorifera trees from seven populations covering its whole native distribution. In total, 19 SSR (simple sequence repeat) markers harbored 54 alleles across the 42 samples, and the medium genetic diversity level was inferred by Nei’s gene diversity (0.36), observed (0.28) and expected heterozygosity (0.37). Among the seven wild populations, the expected heterozygosity (He) varied from 0.31 (HNQS) to 0.40 (HNCJ). The analysis of molecular variance (AMOVA) showed that only 3% genetic variation existed among populations. Moderate population differentiations among the investigated populations were indicated by pairwise Fst (0.042–0.115). Structure analysis suggested two clusters for the 42 samples. Moreover, the seven populations were clearly distinguished into two clusters from both the principal coordinate analysis (PCoA) and neighbor-joining (NJ) analysis. Populations from Haikou city (HNHK), Baisha autonomous county (HNBS), Ledong autonomous county (HNLD), and Dongfang city (HNDF) comprised cluster I, while cluster II comprised the populations from Wenchang city and Sansha city (HNQS), Changjiang autonomous county (HNCJ), and Wuzhisan city (HNWZS). The findings of this study provide a preliminary genetic basis for the conservation, management, and restoration of this endemic species.

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Section: Genetic Diversity Of D Odoriferasupporting

confidence: 76%

Genetic Diversity of the Endangered Dalbergia odorifera Revealed by SSR Markers

Liu

Hong

et al. 2019

Forests

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“…Nevertheless, in detail, the amount of alleles in seedlings is lower at two loci, for which also the observed 50 heterozygosity is lower than for the other two height classes. This trend was expected for seedlings at all loci, because younger cohorts typically show depressed heterozygosity, caused by the higher probability of local reproduction (Addisalem et al, 2016;Moran and Clark, 2012). Subsequently, due to self-thinning, selection takes place, generally preferring fitter individuals -assuming heterozygotes are generally fitter (heterosis effect, for example Babushkina et al, 2016) one expects the older an individual is, the fitter it is compared to other 55 competitors.…”

mentioning

confidence: 69%

Supplementary material to "Dispersal distances and migration rates at the arctic treeline in Siberia – a genetic and simulation based study"

Kruse¹,

Gerdes²,

Kath³

et al. 2018

Preprint

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“…In perennial plant species, different cohorts established within a population conceivably resulting in a high genetic diversity, but lower FSGS ( Addisalem et al 2016 ). However, when differences in FSGS between juvenile and adult stages occur, it may reflect disparities between generations in terms of gene flow and demographic processes ( Berens et al 2014 ).…”

Section: Discussionmentioning

confidence: 99%

Isotropic and anisotropic processes influence fine-scale spatial genetic structure of a keystone tropical plant

et al. 2018

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Propagule dispersal shapes fine-scale spatial genetic structure (FSGS), which is mostly a function of physical distance between individuals. However, such a relation with distance may not occur when asymmetric processes, for instance, wind direction during dispersal, are involved. We combined genetic and seed dispersal data to assess the pattern of FSGS in the keystone species Cyperus papyrus as a function of distance and wind direction. Differences in FSGS between adults and juveniles were detected as a function of distance between individuals. Fine-scale spatial genetic structure was also found to be a function of wind direction during dispersal. Our findings further suggest post-dispersal processes could also influence FSGS.

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Fine-scale spatial genetic structure in the frankincense tree Boswellia papyrifera (Del.) Hochst. and implications for conservation

Cited by 11 publications

References 39 publications

Genetic Diversity of the Endangered Dalbergia odorifera Revealed by SSR Markers

Genetic Diversity of the Endangered Dalbergia odorifera Revealed by SSR Markers

Supplementary material to "Dispersal distances and migration rates at the arctic treeline in Siberia – a genetic and simulation based study"

Isotropic and anisotropic processes influence fine-scale spatial genetic structure of a keystone tropical plant

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Fine-scale spatial genetic structure in the frankincense tree Boswellia papyrifera (Del.) Hochst. and implications for conservation

Cited by 11 publications

References 39 publications

Genetic Diversity of the Endangered Dalbergia odorifera Revealed by SSR Markers

Genetic Diversity of the Endangered Dalbergia odorifera Revealed by SSR Markers

Supplementary material to &quot;Dispersal distances and migration rates at the arctic treeline in Siberia – a genetic and simulation based study&quot;

Isotropic and anisotropic processes influence fine-scale spatial genetic structure of a keystone tropical plant

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Supplementary material to "Dispersal distances and migration rates at the arctic treeline in Siberia – a genetic and simulation based study"