Development and characterization of microsatellite markers for Osyris lanceolata Hochst. &amp; Steud., an endangered African sandalwood tree species

Otieno, John O.; Omondi, Stephen F.; Perry, Annika; Odee, David W.; Makatiani, E. T.; Kiplagat, Oliver; Cavers, Stephen

doi:10.22271/tpr.2016.v3.i3.092

Cited by 4 publications

(5 citation statements)

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“…Overall genetic diversity among the populations was high (Na=9.39 and He 0.85) (Table 2). Similar results were obtained in previous studies of Santalum and other tree species like O. lanceolata (Otieno et al, 2016), S. spicatum (Millar et al, 2012), S. lanceolatum (Jones et al, 2010), S. leptocladum (Jones et al, 2010), S. album (Fatima et al, 2019b) and Phyllostachys violascens , (Cai et al, 2019). In contrast to our study, low Na was observed in S. album by using genic SSR markers (Fatima et al, 2019a) and, Ambrosia artemisiifolia , (Meyer et al, 2017).…”

Section: Discussionsupporting

confidence: 90%

Assessment of Genetic Diversity and Population Genetic Structure of Santalum album L. in India by Genic and Genomic SSR markers

Fatima

Srivastava

Hanur

et al. 2021

Preprint

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Sandalwood (Santalum album L.) is highly valued aromatic tropical tree. It is known for its high quality heartwood and oil. In this study 39 genic and genomic SSR markers were used to analyze the genetic diversity and population structure of 177 S. album accessions from 14 populations of three states in India. High genetic diversity was observed in terms of number of alleles 127 expected heterozygosity (He) ranged from 0.63-0.87 and the average PIC was 0.85. The selected population had relatively high genetic diversity with Shannons information index (I) >1.0. 0.02 mean coefficient of genetic differentiation (FST) and 10.55 gene flow were observed. AMOVA revealed that 92% of the variation observed within individuals. Based on cluster and Structure result individuals were not clustered as per their geographical origin. Furthermore the clusters were clearly distinguished by principal component analysis analysis and the result revealed that PC1 reflected the moderate contribution in genetic variation (6%) followed by PC2 (5.5%). From this study, high genetic diversity and genetic differentiation was found in S. album populations. The genetic diversity information of S. album populations can be used for selection of superior genotypes and germplasm conservation to promote the tree improvement of S. album populations.

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Section: Discussionsupporting

confidence: 90%

Assessment of Genetic Diversity and Population Genetic Structure of Santalum album L. in India by Genic and Genomic SSR markers

Fatima

Srivastava

Hanur

et al. 2021

Preprint

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“…This study highlights the knowledge of genetic variation in sandalwood across the highest range of polymorphism was detected with SSR markers developed from Osyris lanceolata compared to Santalum austrocaledonicum, Santalum insulare and Santalum spicatum. [8], S. austrocaledonicum [9] S. insulare [10] and S. spicatum [11] were screened for cross amplification of extracted DNA of S. album. 25 primers (Table 2) were amplified and generated polymorphism with the selected genotypes for the genetic diversity study.…”

Section: Introductionmentioning

confidence: 99%

Genetic Diversity Estimates of <i>Santalum album</i> L. through Microsatellite Markers: Implications on Conservation

Fatima¹,

Srivastava²,

Hanur³

et al. 2019

AJPS

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“…We found a handful of genetic studies on Osyris lanceolata unlike other species such as Santalum sp. For instance, we found three studies focused on the genetics of O. lanceolata [ 33 , 34 , 35 ]. Two studies [ 34 , 35 ] were focused on developing microsatellite markers to assess genetic diversity of O. lanceolata in the Kenyan populations.…”

Section: Results Of Searchmentioning

confidence: 99%

“…For instance, we found three studies focused on the genetics of O. lanceolata [ 33 , 34 , 35 ]. Two studies [ 34 , 35 ] were focused on developing microsatellite markers to assess genetic diversity of O. lanceolata in the Kenyan populations. The study [ 35 ] identified and developed 12 polymorphic and five monomorphic markers for population genetic studies including assessment of gene flow levels in different populations.…”

Section: Results Of Searchmentioning

confidence: 99%

“…Two studies [ 34 , 35 ] were focused on developing microsatellite markers to assess genetic diversity of O. lanceolata in the Kenyan populations. The study [ 35 ] identified and developed 12 polymorphic and five monomorphic markers for population genetic studies including assessment of gene flow levels in different populations. The second study by Andiego [ 34 ] assessed genetic diversity and population genetic differentiation among seven populations in Kenya.…”

Section: Results Of Searchmentioning

confidence: 99%

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Knowledge Gaps in Taxonomy, Ecology, Population Distribution Drivers and Genetic Diversity of African Sandalwood (Osyris lanceolata Hochst. & Steud.): A Scoping Review for Conservation

Mugula

Kiboi

Kanya

et al. 2021

Plants

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The increasing demand for ornamental, cosmetic and pharmaceutical products is driving exploitation of plant species globally. Sub-Saharan Africa harbours unique and valuable plant resources and is now a target of plant resource depletion. African Sandalwood (Osyris lanceolata), a multi-purpose and drought-tolerant species, has seen increased exploitation for the last thirty years and is now declared endangered. Initiatives to conserve O. lanceolata are not yet successful in Africa due to poor understanding of the species. This review surveys relevant research on the ecology, taxonomy, population dynamics, genetic diversity and ethnobotany of O. lanceolata, and highlights gaps in the literature for further research. A scoping review of grey literature, scholarly papers and reports was applied with pre-determined criteria to screen relevant information. Review findings indicate O. lanceolata is a globally distributed species with no identified center of origin. In Africa, it ranges from Algeria to Ethiopia and south to South Africa; in Europe it occurs in the Iberian Peninsula and Balearic Islands; in Asia from India to China, and also on Socotra. The species has a confusing taxonomy, with unresolved issues in nomenclature, country range distribution, extensive synonymisation and variation in growth form (shrub or tree). The species population is reported to be declining in Africa, but information on population dynamics across its entire range of distribution is anecdotal. Additionally, ecological factors influencing spatial distribution and survival of the species remain unknown. A variety of uses are reported for O. lanceolata globally, including: cultural; medicinal and food; dye; perfumery; timber; ethnoveterinary and phytoremediation. Key research areas and implications for conservation of O. lanceolata in Sub-Saharan Africa are proposed.

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Development and characterization of microsatellite markers for Osyris lanceolata Hochst. & Steud., an endangered African sandalwood tree species

Cited by 4 publications

References 5 publications

Assessment of Genetic Diversity and Population Genetic Structure of Santalum album L. in India by Genic and Genomic SSR markers

Assessment of Genetic Diversity and Population Genetic Structure of Santalum album L. in India by Genic and Genomic SSR markers

Genetic Diversity Estimates of <i>Santalum album</i> L. through Microsatellite Markers: Implications on Conservation

Knowledge Gaps in Taxonomy, Ecology, Population Distribution Drivers and Genetic Diversity of African Sandalwood (Osyris lanceolata Hochst. & Steud.): A Scoping Review for Conservation

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Development and characterization of microsatellite markers for Osyris lanceolata Hochst. & Steud., an endangered African sandalwood tree species

Cited by 4 publications

References 5 publications

Assessment of Genetic Diversity and Population Genetic Structure of Santalum album L. in India by Genic and Genomic SSR markers

Assessment of Genetic Diversity and Population Genetic Structure of Santalum album L. in India by Genic and Genomic SSR markers

Genetic Diversity Estimates of &lt;i&gt;Santalum album&lt;/i&gt; L. through Microsatellite Markers: Implications on Conservation

Knowledge Gaps in Taxonomy, Ecology, Population Distribution Drivers and Genetic Diversity of African Sandalwood (Osyris lanceolata Hochst. & Steud.): A Scoping Review for Conservation

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Genetic Diversity Estimates of <i>Santalum album</i> L. through Microsatellite Markers: Implications on Conservation