Genetic Diversity of the Relict Plant Taiwania cryptomerioides Hayata (Cupressaceae) in Mainland China

Abstract The genetic diversity and differentiation of five populations of Taiwania cryptomerioides Hayata in mainland China were investigated using inter-simple sequence repeats (ISSR). In comparison with other coniferous species, T. cryptomerioides from mainland China possesses little genetic variation, particularly at the level of individual populations (the percentage of polymorphic loci, Nei’s gene diversity and Shannon’s indices of diversity at the species and population levels are 38.02%, 0.1326, 0.1986 and 9.27%, 0.035, 0.0518 respectively). In contrast, the level of population differentiation is much higher (GST: 0.7269; Shannon’s genetic differentiation: 0.7392; Hickory è B: 0.668; AMOVA genetic differentiation: 72.37%). The genetic divergence of pairs of populations was not significantly correlated with the geographical distance separating them. Current patterns of genetic variation were related to biogeographic history and the small population size. On the basis of these findings, we discuss the development of conservation strategies for this endangered species.

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Genetic diversity and population structure of Eurycoma apiculata in Eastern Sumatra, Indonesia

Biodiversitas Journal of Biological Diversity ◽

10.13057/biodiv/d221036 ◽

2021 ◽

Vol 22 (10) ◽

Author(s):

Zulfahmi Zulfahmi ◽

Parjanto Parjanto ◽

Edi Purwanto ◽

Ahmad Yunus

Keyword(s):

Genetic Diversity ◽

Population Structure ◽

Genetic Variation ◽

Genetic Differentiation ◽

Gene Diversity ◽

In Situ Conservation ◽

Genetic Material ◽

Ex Situ ◽

Breeding Programs ◽

The Mean

Abstract. Zulfahmi, Parjanto, Purwanto E, Yunus A. 2021. Genetic diversity and population structure of Eurycoma apiculata in Eastern Sumatra, Indonesia. Biodiversitas 22: 4431-4439. Information on genetic variation within and among populations of Eurycoma apiculata plants is important to develop strategies for their conservation, sustainable use, and genetic improvement. To date, no information on genetic variation within and among populations of the E. apiculata has been reported. This study aims to assess genetic diversity within and among populations of E. apiculata based on RAPD markers, and to determine populations to collect E. apiculata genetic material for conservation and breeding programs. Young leaves of E. apiculata were collected from six natural populations. Fifteen RAPD primers were used to assess the genetic diversity of each population. The data obtained were analyzed with POPGEN and Arlequin software. The amplification results of 15 selected primers produced 3-16 loci with all primers 100% polymorphic. At the species level, the mean allele per locus (Na), number of effective alleles (Ne), percentage of polymorphic loci (PPL), Nei’s gene diversity index (He) and Shannon information index (I) were 2.000, 1.244, 100%, 0.167, and 0.286, respectively. At the population level, the mean values for Na, Ne, PPL, He and I were 1.393, 1.312, 39.27%, 0.119, and 0.186, respectively. The highest value of gene diversity within population (He) was found in the Lingga-1 population and the lowest value was found in the Rumbio population. The value of genetic differentiation among populations (GST) of E. apiculata is 0.284, consistent with the results of the AMOVA analysis which found that genetic variation among populations was 23.14%, indicates that the genetic variation of E. apiculata was more stored within populations than among populations. The gene flow (Nm) value of E. apiculata was 1.259 migrants per generation among populations. The Nm value of this species was high category, and could inhibit genetic differentiation among populations. The clustering of E. apiculata population based on the UPGMA dendrogram and PCA was inconsistent with its geographic distribution, reflecting the possibility that genes migration occurred between islands in the past. The main finding of this study was the genetic variation of the E. apiculata mostly stored within the population. Therefore, the population with the highest genetic diversity is a priority for in-situ conservation, and collection of E. apiculata genetic material for ex-situ conservation and breeding programs should be carried out minimum from Lingga-1 and Pokomo populations.

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Conservation genetics of native and European-introduced Chinese water deer (Hydropotes inermis)

Zoological Journal of the Linnean Society ◽

10.1093/zoolinnean/zlaa076 ◽

2020 ◽

Author(s):

Rory Putman ◽

Nicholas Dunn ◽

Endi Zhang ◽

Min Chen ◽

Christian Miquel ◽

...

Keyword(s):

Genetic Diversity ◽

Genetic Variation ◽

Extinction Risk ◽

Mainland China ◽

Reproductive Fitness ◽

Iucn Red List ◽

Conservation Strategies ◽

Source Population ◽

Term Survival ◽

Chinese Water

Abstract Sufficient genetic variation is vital for the long-term survival of a population. The adaptive potential and reproductive fitness of a population is generally enhanced by greater levels of genetic diversity, while loss of genetic variation in small populations may increase extinction risk due to disease susceptibility and decreased reproductive fitness. Determining levels of genetic diversity in threatened species can, therefore, help inform conservation strategies. The Chinese water deer (Hydropotes inermis) is classified as Vulnerable in its native range on the IUCN Red List, and populations in Korea and mainland China have declined drastically in recent years. However, the species was introduced to Europe about a century ago and populations there now make up over 40% of global numbers. To infer the population genetic structure and genetic diversity of Chinese water deer both in their native China and in populations introduced to the UK and France, variation in mitochondrial DNA was investigated for over 100 individuals (92 cytochrome b and 106 control region sequences). Our results reveal lower levels of genetic diversity in the British populations, differentiation between native and introduced populations, and that the source population of British deer is likely to be extinct. Recommendations are made for the conservation of populations.

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Conservation genetics of relict tropical species of Magnolia (section Macrophylla)

Conservation Genetics ◽

10.1007/s10592-021-01334-5 ◽

2021 ◽

Author(s):

Angélica Chávez-Cortázar ◽

Ken Oyama ◽

Maried Ochoa-Zavala ◽

Martín Mata-Rosas ◽

Emily Veltjen ◽

...

Keyword(s):

Genetic Diversity ◽

Genetic Variation ◽

Genetic Differentiation ◽

Extinction Risk ◽

Single Species ◽

Small Population ◽

Tropical Species ◽

Gene Pools ◽

Effective Population ◽

Relict Species

AbstractSpecial conservation efforts should be made for relict species, as they usually have small population sizes and restricted distributions, placing them in critical extinction risk. To achieve conservation, information about genetic diversity distribution is needed. Here, using nine nuclear microsatellites, we analyzed 23 populations of five recently described species of Magnolia distributed in Mexico, which were previously assigned to Magnolia dealbata. We aimed to determine the level of genetic diversity and the distribution of genetic variation and proposed conservation measures. Compared to other endemic and relict species, we found a moderate level of genetic diversity in most populations; however, we identified two populations with no genetic variation. Additionally, we found evidence of positive values of inbreeding likely due to geitonogamy. We found a strong population structure, low effective population size, and no evidence of bottlenecks. Patterns of genetic differentiation did not support the morphological distinction of five species, so we hypothesized that the gene pools may instead represent well-differentiated populations of a single species. We argue that the pattern of genetic differentiation is explained by the natural fragmentation of the cloud forests after glaciation events, and the effects of genetic drift in small populations poorly connected by gene flow. Despite the moderate levels of genetic diversity, special attention is needed to guarantee conservation, with emphasis on the populations in the central region of the country as well as the valuable populations identified in the southwestern region.

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Population genetic variation analysis of bitter gourd wilt caused by Fusarium oxysporum f. sp. momordicae in China using inter simple sequence repeats (ISSR) molecular markers

Journal of Plant Pathology ◽

10.1007/s42161-021-00759-8 ◽

2021 ◽

Author(s):

Rui Zang ◽

Ying Zhao ◽

Kangdi Guo ◽

Kunqi Hong ◽

Huijun Xi ◽

...

Keyword(s):

Genetic Variation ◽

Genetic Differentiation ◽

Fusarium Oxysporum ◽

Diversity Index ◽

Gene Diversity ◽

Pcr Amplification ◽

Bitter Gourd ◽

Diseased Plant ◽

Variation Analysis ◽

Group I

AbstractBitter gourd wilt caused by Fusarium oxysporum f. sp. momordicae (FOM) is a devastating crop disease in China. A total of 173 isolates characteristic of typical Fusarium oxysporum with abundant microconidia and macroconidia on white or ruby colonies were obtained from diseased plant tissues. BLASTn analysis of the rDNA-ITS of the isolates showed 99% identity with F. oxysporum species. Among the tested isolates, three were infectious toward tower gourd and five were pathogenic to bottle gourd. However, all of the isolates were pathogenic to bitter gourd. For genetic differences analysis, 40 ISSR primers were screened and 11 primers were used for ISSR-PCR amplification. In total, 127 loci were detected, of which 76 were polymorphic at a rate of 59.84%. POPGENE analysis showed that Nei’s gene diversity index (H) and Shannon’s information index (I) were 0.09 and 0.15, respectively, which indicated that the genetic diversity of the 173 isolates was low. The coefficient of gene differentiation (Gst = 0.33 > 0.15) indicated that genetic differentiation was mainly among populations. The strength of gene flow (Nm = 1.01 > 1.0) was weak, indicating that the population differentiation caused by gene drift was blocked to some degree. The dendrogram based on ISSR markers showed that the nine geographical populations were clustered into two groups at the threshold of genetic similarity coefficient of 0.96. The Shandong and Henan populations were clustered into Group I, while the Guangdong, Hainan, Guangxi, Fujian, Jiangxi, and Hubei populations constituted Group II. Results of the genetic variation analysis showed that the Hunan and Guangxi populations had the highest degree of genetic differentiation, while the Hubei population had the lowest genetic differentiation. Our findings enrich the knowledge of the genetic variation characteristics of FOM populations with the goal of developing effective disease-management programs and resistance breeding programs.

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The genetic diversity and population structure of two endemic Amazonian quillwort (Isoetes L.) species

PeerJ ◽

10.7717/peerj.10274 ◽

2020 ◽

Vol 8 ◽

pp. e10274 ◽

Cited By ~ 1

Author(s):

Mirella Pupo Santos ◽

João V.S. Rabelo Araujo ◽

Arthur V. Sant’anna Lopes ◽

Julio Cesar Fiorio Vettorazzi ◽

Marcela Santana Bastos Boechat ◽

...

Keyword(s):

Genetic Diversity ◽

Population Structure ◽

Genetic Variation ◽

Geographical Location ◽

Inter Simple Sequence Repeat ◽

Shannon Index ◽

Conservation Strategies ◽

Amazon Forest ◽

Mass Extinctions ◽

Effective Conservation

Background Two endemic lycophyte species Isoetes cangae and Isoetes serracarajensis have been recently described in the State of Pará in the Amazon forest located in northern Brazil. Isoetes L. has survived through three mass extinctions. Plants are considered small-sized, heterosporous, and can display a great diversity of physiological adaptations to different environments. Thus, the current study aimed to estimate the genetic variation of the populations of I. cangae and I. serracarajensis to generate information about their different mechanisms for survival at the same geographical location that could point to different reproductive, adaptative and dispersal strategies and should be considered for effective conservation strategies. Methods The genetic diversity and population structure of I. cangae and I. serracarajensis were investigated using Inter Simple Sequence Repeat (ISSR) molecular markers. Total genomic DNA was isolated, and the genetic diversity parameters were calculated. Results The sixteen primers produced 115 reproducible bands, 87% of which were polymorphic. A high level of polymorphic loci (81.74% and 68.48%) and a high Shannon index (Sh = 0.376 and 0.289) were observed for I. cangae and I. serracarajensis, respectively. The coefficient of genetic differentiation between population areas (GST) showed a higher value in I. serracarajensis (0.5440). Gene flow was higher in I. cangae (1.715) and lower in I. serracarajensis populations (0.419). Overall, the results further show that I. serracarajensis and I. cangae are two species with considerable genetic variation and that these differences may reflect their habitats and modes of reproduction. These results should be considered in the development of effective conservation strategies for both species.

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Genetic diversity in wild and hatchery populations of stinging catfish (Heteropneustes fossilis Bloch) revealed by RAPD analysis

Journal of Bio-Science ◽

10.3329/jbs.v19i0.13005 ◽

2012 ◽

Vol 19 ◽

pp. 81-87

Author(s):

Md Nazrul Islam ◽

Abhishak Basak ◽

Dr Ashrafullah ◽

Md Samsul Alam

Keyword(s):

Genetic Diversity ◽

Genetic Variation ◽

Length Polymorphism ◽

Fragment Length ◽

Fragment Length Polymorphism ◽

Gene Diversity ◽

Similarity Index ◽

Heteropneustes Fossilis ◽

Wild Populations ◽

Polymorphic Loci

Context: DNA fingerprinting using genetic markers such as Random Amplification of Polymorphic DNA (RAPD), Restriction Fragment Length Polymorphism (RFLP), microsatellite (Simple sequence repeat), Amplified Fragment Length Polymorphism (AFLP) etc. can be successfully used to reveal genetic variation within and among different populations. Objective: The aim of the present study was to assess genetic diversity in two wild and one hatchery populations of stinging catfish Heteropneustes fossilis by RAPD fingerprinting. Materials and Methods: A total of 90 live fish (H. fossilis), 30 from each source, were collected from a beel in Patuakhali, a beel in Jessore and Rupali Hatchery, Mymensingh. Genomic DNA was extracted from fin tissues. The concentration of DNA was estimated using a spectrophotometer. Fifteen decamer primers of random sequence from three kits (six from kit A, seven from kit B and two from kit C) (Operon technologies, Inc., Alameda, CA, USA) were screened on sub-samples of one randomly chosen H. fossilis DNA sample from the each population to test their suitability for amplifying RAPDs. The amplified products from each sample were separated by electrophoresis on 1.4% agarose gel containing ethidium bromide. The sizes of the bands were calculated using the software DNAFRAG and the sizes in base pair (bp) were used for identification of the bands (RAPD markers). The similarity index values (SI) between the RAPD fingerprint of any two individuals on the same gel were calculated from RAPD band sharing. Results: A total of 28 RAPD bands were obtained using four decamer random primers, among which 21 bands were polymorphic. The percentage of polymorphic loci, intra-population similarity indices and Nei's gene diversity values were 85.71%, 78.75 and 0.304±0.183 for Jessore population, 83.71%, 82.62 and 0.280±0.159 for Patuakhali population, 82.14%, 85.25 and 0.271±0.165 for Rupali hatchery population, respectively. The overall gene flow (Nm) among the populations was 5.755. The highest inter-similarity (Sij) was found between Patuakhali - Rupali hatchery populations. Among the three populations, the highest genetic distance (0.069) was found between Jessore and Patuakhali population. Considering polymorphic loci, intrapopulation similarity index and gene diversity the genetic variation in the Jessore population was higher than the other two populations. The genetic variation of the hatchery population was found to be lower than the two wild populations. Conclusion: The result of the present study can be used as baseline information regarding the genetic variation and population structure before undertaking any breeding programme. Study indicated that the genetic variation in the hatchery populations were slightly lower than those of the wild populations. DOI: http://dx.doi.org/10.3329/jbs.v19i0.13005 J. bio-sci. 19 81-87, 2011

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Spatial Structure and Genetic Variation of a Mangrove Species (Avicennia marina (Forssk.) Vierh) in the Farasan Archipelago

Forests ◽

10.3390/f11121287 ◽

2020 ◽

Vol 11 (12) ◽

pp. 1287

Author(s):

Rahmah N. Al-Qthanin ◽

Samah A. Alharbi

Keyword(s):

Genetic Variation ◽

Genetic Differentiation ◽

Species Conservation ◽

Natural Populations ◽

Avicennia Marina ◽

Conservation Strategies ◽

Isolated Populations ◽

Mangrove Species ◽

Population Genetic Differentiation ◽

Sea Currents

Avicennia marina (Forssk.) Vierh is distributed in patches along the Farasan archipelago coast and is the most common mangrove species in the Red Sea. However, to date, no studies have been directed towards understanding its genetic variation in the Farasan archipelago. In this investigation, genetic variations within and among natural populations of Avicennia marina in the Farasan archipelago were studied using 15 microsatellite markers. The study found 142 alleles on 15 loci in nine populations. The observed (Ho) and expected (He) heterozygosity values were 0.351 and 0.391, respectively, which are much lower than those of earlier studies on A. marina in the Arabian Gulf. An inbreeding effect from self-pollination might explain its heterozygote deficiency. Population genetic differentiation (FST = 0.301) was similar to other mangrove species. Our findings suggest that the sea current direction and coastal geomorphology might affect genetic dispersal of A. marina. The more isolated populations with fewer connections by sea currents exhibited lower genetic variation and differentiation between populations. The genetic clustering of populations fell into three main groups—Group 1 (populations of Farasan Alkabir Island), Group 2 (populations of Sajid Island), and Group 3 (mix of one population of Farasan Alkabir Island and a population of Zifaf Island). More genetic variation and less genetic differentiation occurred when the population was not isolated and had a direct connection with sea currents. Both of these factors contributed to limited propagule dispersal and produced significant structures among the population. It is expected that the results of this research will be useful in determining policy and species-conservation strategies and in the rehabilitation of A. marina mangrove stands on the Farasan islands in an effort to save this significant natural resource.

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Genetic diversity of high-molecular-weight glutenin subunit compositions in bread wheat landraces originated from Turkey

Plant Genetic Resources ◽

10.1017/s1479262116000356 ◽

2016 ◽

Vol 16 (1) ◽

pp. 28-38 ◽

Cited By ~ 1

Author(s):

Ridvan Temizgul ◽

Mikail Akbulut ◽

Domenico Lafiandra

Keyword(s):

Genetic Diversity ◽

Molecular Weight ◽

Genetic Variation ◽

High Molecular Weight ◽

Bread Wheat ◽

Gene Diversity ◽

Polyacrylamide Gel Electrophoresis ◽

Genetic Erosion ◽

Allele Polymorphism ◽

Wheat Landraces

AbstractFocusing on 116 bread wheat landraces, this study investigated high molecular weight glutenin allele polymorphism, gene diversity, genetic variation and linkage disequilibrium (LD) inGlu-1loci. To identify gluten alleles, sodium dodesyl sulphate-polyacrylamide, gel electrophoresis was used and for statistical analyses POPGENE software was employed. The results indicated that average genetic variation (h) was the highest inGlu-B1(0.6421) and the lowest inGlu-A1locus (0.4548); genetic similarity ratio (I) was the highest inGlu-B1(1.4170); the highest average genetic diversity (Ht) was observed inGlu-B1(0.6575) and the lowest diversity was observed inGlu-A1(0.4558). It was also observed that genetic diversity inGlu-1locus was largely due to intra-population variations. Inter-population gene flow was also calculated as 4.0051. Marmara and Southeastern Anatolia regions, the results further indicated, had the highest (2.8691) and lowest (0.1694) heterozygosity. Genetic erosion risk for Turkish bread wheat landraces was also seen to be high. Considering the mutual analyses of subunits of nationwide wheat landraces, it is possible to speculate about a limited migration between the landraces. LD of the landraces was largely because of this limited migration and/or epistatic natural selection. Since Turkey is known as the gene centre for major cereals including wheat, barley, rye and oat, where they diversified and spread throughout the world, studying the gluten allele diversity of Turkish bread wheat landraces is important. In addition, this study has revealed the applicability of LD, and neutrality tests to gluten protein diversity for the first time.

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Genetic Variation in Invasive Populations of Yellow Toadflax (Linaria vulgaris) in the Western United States

Weed Science ◽

10.1614/ws-07-157.1 ◽

2008 ◽

Vol 56 (3) ◽

pp. 394-399 ◽

Cited By ~ 24

Author(s):

Sarah M. Ward ◽

Scott D. Reid ◽

Judy Harrington ◽

Jason Sutton ◽

K George Beck

Keyword(s):

Genetic Diversity ◽

Genetic Variation ◽

Genetic Recombination ◽

Diversity Index ◽

Gene Diversity ◽

Group Method ◽

Restricted Gene Flow ◽

Genetic Structuring ◽

Invasive Weed ◽

Yellow Toadflax

Intraspecific genetic variation may contribute significantly to invasiveness and control problems, but has been characterized to date in relatively few invasive weed species. We examined 56 intersimple sequence repeat (ISSR) loci in 220 individuals from 11 invading populations of yellow toadflax sampled across five western states. All populations showed high levels of genetic diversity. Estimated values for Shannon's diversity measure ranged from 0.217 to 0.388, and for expected heterozygosity from 0.178 to 0.260. Nei's total gene diversity index (HT), on the basis of all individuals across all populations, was 0.267. Partitioning of genetic variance using analysis of molecular variance revealed 1.7% of genetic variation among regional population groups, 29.1% among populations within groups, and 69.2% within populations, consistent with expectations for an outcrossing species but suggesting little geographic differentiation. Pairs of adjacent individuals identical at all ISSR loci that appeared to be ramets of a single clone were detected in only one population. This indicates that patch expansion in yellow toadflax is driven more by sexual reproduction via seed than by rhizomatous clonal spread, at least at the spatial scale of sampling for this study. Eight populations had significant values for Mantel's R at P = 0.05, suggesting some fine-scale positive genetic structuring, possibly from restricted gene flow. Population clustering on the basis of Nei's genetic distance between populations and unweighted pair group method with arithmetic mean did not reflect geographic location. It is likely that multiple introductions of this species have occurred across the Intermountain West, followed by extensive genetic recombination. High levels of genetic diversity within yellow toadflax populations pose management challenges, as already seen in reports of variable response to herbicide application and limited impacts of biocontrol agent releases.

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Genetic diversity and relationships among Egyptian Galium (Rubiaceae) and related species using ISSR and RAPD markers

Biologia ◽

10.2478/s11756-013-0314-z ◽

2014 ◽

Vol 69 (3) ◽

Cited By ~ 2

Author(s):

Kadry Abdel Khalik ◽

Magdy Abd El-Twab ◽

Rasha Galal

Keyword(s):

Genetic Diversity ◽

Genetic Variation ◽

Rapd Markers ◽

Phylogenetic Analyses ◽

Randomly Amplified Polymorphic Dna ◽

Inter Simple Sequence Repeats ◽

Close Relationship ◽

Rapd And Issr ◽

Simple Sequence ◽

Issr Primers

AbstractGenetic diversity and phylogenetic analyses of 24 species, representing nine sections of the genus Galium (Rubiaceae), have been made using the Inter Simple Sequence Repeats (ISSR), Randomly Amplified Polymorphic DNA (RAPD), and combined ISSR and RAPD markers. Four ISSR primers and three RAPD primers generated 250 polymorphic amplified fragments. The results of this study showed that the level of genetic variation in Galium is relatively high. RAPD markers revealed a higher level of polymorphism (158 bands) than ISSR (92 bands). Clustering of genotypes within groups was not similar when RAPD and ISSR derived dendrograms were compared. Six clades can be recognized within Galium, which mostly corroborate, but also partly contradict, traditional groupings. UPGMA-based dendrogram showed a close relationship between members of section Leiogalium with G. verum and G. humifusum (sect. Galium), and G. angustifolium (sect. Lophogalium). Principal coordinated analysis, however, showed some minor differences with UPGMA-based dendrograms. The more apomorphic groups of Galium form the section Leiogalium clade including the perennial sections Galium, Lophogalium, Jubogalium, Hylaea and Leptogalium as well as the annual section Kolgyda. The remaining taxa of Galium are monophyletic.

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