Conservation concerns associated with low genetic diversity for K’gari–Fraser Island dingoes

AbstractThe dingo population on world heritage-listed K’gari-Fraser Island (K’gari) is amongst the most well-known in Australia. However, an absence of population genetic data limits capacity for informed conservation management. We used 9 microsatellite loci to compare the levels of genetic diversity and genetic structure of 175 K’gari dingo tissue samples with 264 samples from adjacent mainland regions. Our results demonstrated that the K'gari population has significantly lower genetic diversity than mainland dingoes (AR, HE, PAR; p < 0.05) with a fourfold reduction in effective population size (Ne = 25.7 vs 103.8). There is also strong evidence of genetic differentiation between the island and mainland populations. These results are in accordance with genetic theory for small, isolated, island populations, and most likely the result of low initial diversity and founder effects such as bottlenecks leading to decreased diversity and drift. As the first study to incorporate a large sample set of K’gari dingoes, this provides invaluable baseline data for future research, which should incorporate genetic and demographic monitoring to ensure long-term persistence. Given that human-associated activities will continue to result in dingo mortality, it is critical that genetic factors are considered in conservation management decisions to avoid deleterious consequences for this iconic dingo population.

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Nuclear and cytoplasmic genetic diversity reveals long-term population decline in Abies semenovii, an endemic fir of central Asia

Canadian Journal of Forest Research ◽

10.1139/cjfr-2012-0158 ◽

2012 ◽

Vol 42 (12) ◽

pp. 2142-2152 ◽

Cited By ~ 5

Author(s):

Svetlana A. Semerikova ◽

Martin Lascoux ◽

Vladimir L. Semerikov

Keyword(s):

Genetic Diversity ◽

Central Asia ◽

Population Decline ◽

Population Expansion ◽

Nuclear Marker ◽

Effective Population ◽

Species Status ◽

Siberian Fir ◽

Low Genetic Diversity

The genus Abies is one of the largest conifer genera and many of the marginal species remain poorly characterized. Abies semenovii B. Fedtsch. is a rare mountain fir species from central Asia, and its species status is still disputed. We used both nuclear (allozymes and AFLP) and chloroplastic (cpSSR) markers to show that A. semenovii deserves to be considered as a species and that its low genetic diversity justifies more a proactive conservation policy. First, A. semenovii was significantly differentiated from the Siberian fir Abies sibirica Ledeb. and we did not detect gene flow between the two species. Second, A. semenovii has a very low nuclear genetic diversity, suggesting a prolonged restricted effective population size. Abies semenovii had low cpSSR diversity too but the identification of seven closely related haplotypes suggests that these mutations accumulated recently during a phase of population expansion. This agrees well with the palynological record and is in contrast with the situation observed in another rare Eurasian fir endemic to Kamchatka, Abies gracilis Kom., which was devoid of variation in cpSSRs but that also had a more substantial nuclear marker diversity than A. semenovii, thereby suggesting a more recent but less severe population bottleneck.

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The importance of long-term genetic monitoring of reintroduced populations: inbreeding in the natterjack toad (Epidalea calamita)

Herpetological Journal ◽

10.33256/hj30.3.159167 ◽

2020 ◽

pp. 159-167

Author(s):

Susanna Phillips

Keyword(s):

Genetic Diversity ◽

Conservation Management ◽

Genetic Monitoring ◽

Source Population ◽

Genetic Rescue ◽

Management Actions ◽

Low Genetic Diversity ◽

Population Structuring ◽

Epidalea Calamita

Genetic monitoring is an important, but frequently lacking, component of management actions to support long-term persistence in reintroduced populations. Populations that remain small, due to demographic processes and genetic diversity, are more likely to experience a second extinction event. The natterjack toad (Epidelea calamita) is legally protected in Britain and was the subject of a reintroduction programme in the 1990s. However, subsequent genetic assessment has been mostly lacking. The aim of this study was to assess the genetic diversity of two reintroduced populations of natterjack toads in order to inform conservation management. Adults were sampled and nine microsatellites amplified to assess neutral genetic variation within each site and for comparison with the source population. Inbreeding was observed at the reintroduction sites, as evidenced by high FIS values (0.43 and 0.72), low observed compared to expected heterozygosities, and significant deviation from Hardy-Weinberg equilibrium. Observed heterozygosity is currently lower in the reintroduction sites than it was in the source population at the time of the reintroductions (Red Rocks: 0.15±0.20; Talacre: 0.12±0.20; Ainsdale (source): 0.29). Evidence for a bottleneck was not found, although this is likely a result of sampling overlapping generations. No withinsite population structuring was observed. Such low genetic diversity has not previously been recorded in any natterjack population. Genetic rescue, combined with pool creation, is the most viable option for safeguarding the species at these sites into the future. Our work highlights the importance of ongoing genetic monitoring, in collaboration with conservation organisations, to support conservation management.

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Low genetic diversity in the endangered Taxus yunnanensis following a population bottleneck, a low effective population size and increased inbreeding

Silvae Genetica ◽

10.1515/sg-2016-0008 ◽

2016 ◽

Vol 65 (1) ◽

pp. 59-66 ◽

Cited By ~ 3

Author(s):

Y. C. Miao ◽

Z. J. Zhang ◽

J. R. Su

Keyword(s):

Genetic Diversity ◽

Habitat Fragmentation ◽

Population Size ◽

Effective Population Size ◽

Spatial Genetic Structure ◽

Population Bottleneck ◽

Effective Population ◽

Taxus Yunnanensis ◽

Low Genetic Diversity ◽

Two Populations

Abstract Taxus yunnanensis, which is an endangered tree that is considered valuable because it contains the effective natural anticancer metabolite taxol and heteropolysaccharides, has long suffered from severe habitat fragmentation. In this study, the levels of genetic diversity in two populations of 136 individuals were analyzed based on eleven polymorphic microsatellite loci. Our results suggested that these two populations were characterized by low genetic diversity (NE = 2.303/2.557; HO = 0.168/0.142; HE = 0.453/0.517), a population bottleneck, a low effective population size (Ne = 7/9), a high level of inbreeding (FIS = 0.596/0.702), and a weak, but significant spatial genetic structure (Sp = 0.001, b = −0.001*). Habitat fragmentation, seed shadow overlap and limited seed and pollen dispersal and potential selfing may have contributed to the observed gene tic structure. The results of the present study will enable development of practical conservation measures to effectively conserve the valuable genetic resources of this endangered plant.

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Behavioral effects of the neurotoxin ß-N-methylamino-L-alanine on the mangrove rivulus (Kryptolebias marmoratus) larvae

Journal of Xenobiotics ◽

10.4081/xeno.2018.7820 ◽

2018 ◽

Author(s):

Alessandra Carion ◽

Julie Hétru ◽

Angèle Markey ◽

Victoria Suarez-Ulloa ◽

Silvestre Frédéric

Keyword(s):

Genetic Factors ◽

Prey Capture ◽

Aquatic Ecotoxicology ◽

Low Genetic Diversity ◽

Variable Environments ◽

Maximal Speed ◽

Self Fertilization ◽

Kryptolebias Marmoratus ◽

Mangrove Rivulus

Mangrove rivulus, Kryptolebias marmoratus, is a hermaphrodite fish capable of self-fertilization. This particularity allows to naturally produce highly homozygous and isogenic individuals. Despite the low genetic diversity, rivulus can live in extremely variable environments and adjust its phenotype accordingly. This species represents a unique opportunity to clearly distinguish the genetic and non-genetic factors implicated in adaptation and evolution, such as epigenetic mechanisms. It is thus a great model in aquatic ecotoxicology to investigate the effects of xenobiotics on the epigenome, and their potential long-term impacts. In the present study, we used the mangrove rivulus to investigate the effects of the neurotoxin ß-N-methylamino-L-alanine (BMAA) on larvae behaviors after 7 days exposure to two sub-lethal concentrations. Results show that BMAA can affect the maximal speed and prey capture (trials and failures), suggesting potential impacts on the organism’s fitness.

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Genetic Diversity of Indigenous Pigs from South China Area Revealed by SNP Array

Animals ◽

10.3390/ani9060361 ◽

2019 ◽

Vol 9 (6) ◽

pp. 361 ◽

Cited By ~ 3

Author(s):

Shuqi Diao ◽

Shuwen Huang ◽

Zhiting Xu ◽

Shaopan Ye ◽

Xiaolong Yuan ◽

...

Keyword(s):

Genetic Diversity ◽

Population Size ◽

Effective Population Size ◽

Conservation Status ◽

Snp Array ◽

Size Analysis ◽

Selection Signatures ◽

Effective Population ◽

Low Genetic Diversity ◽

Indigenous Pigs

To investigate the genetic diversity, population structure, extent of linkage disequilibrium (LD), effective population size (Ne), and selection signatures in indigenous pigs from Guangdong and Guangxi in China, 226 pigs belonging to ten diverse populations were genotyped using single nucleotide polymorphism (SNP) chips. The genetic divergence between Chinese and Western pigs was determined based on the SNP chip data. Low genetic diversity of Dahuabai (DHB), Luchuan (LC), Lantang (LT), and Meihua (MH) pigs, and introgression of Western pigs into Longlin (LL), MH, and Yuedonghei (YDH) pigs were detected. Analysis of the extent of LD showed that indigenous pigs had low LD when pairwise SNP distance was short and high LD when pairwise SNP distance was long. Effective population size analysis showed a rapid decrease for Chinese indigenous pigs, and some pig populations had a relatively small Ne. This result indicated the loss of genetic diversity in indigenous pigs, and introgression from Western commercial pigs. Selection signatures detected in this study overlapped with meat quality traits, such as drip loss, intramuscular fat content, meat color b*, and average backfat thickness. Our study deepened understanding of the conservation status and domestication of Chinese indigenous pigs.

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Weak genetic structuring suggests historically high genetic connectivity among recently fragmented urban populations of the scincid lizard, Ctenotus fallens

Australian Journal of Zoology ◽

10.1071/zo15022 ◽

2015 ◽

Vol 63 (4) ◽

pp. 279 ◽

Cited By ~ 5

Author(s):

Josef Krawiec ◽

Siegfried L. Krauss ◽

Robert A. Davis ◽

Peter B. S. Spencer

Keyword(s):

Genetic Diversity ◽

Gene Flow ◽

Large Population ◽

Geographic Distance ◽

Genetic Erosion ◽

Genetic Connectivity ◽

Genetic Structuring ◽

Low Genetic Diversity ◽

Population Sizes

Populations in fragmented urban remnants may be at risk of genetic erosion as a result of reduced gene flow and elevated levels of inbreeding. This may have serious genetic implications for the long-term viability of remnant populations, in addition to the more immediate pressures caused by urbanisation. The population genetic structure of the generalist skink Ctenotus fallens was examined using nine microsatellite markers within and among natural vegetation remnants within a highly fragmented urban matrix in the Perth metropolitan area in Western Australia. These data were compared with samples from a large unfragmented site on the edge of the urban area. Overall, estimates of genetic diversity and inbreeding within all populations were similar and low. Weak genetic differentiation, and a significant association between geographic and genetic distance, suggests historically strong genetic connectivity that decreases with geographic distance. Due to recent fragmentation, and genetic inertia associated with low genetic diversity and large population sizes, it is not possible from these data to infer current genetic connectivity levels. However, the historically high levels of gene flow that our data suggest indicate that a reduction in contemporary connectivity due to fragmentation in C. fallens is likely to result in negative genetic consequences in the longer term.

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Genetic diversity at the Major Histocompatibility Complex class II DZB gene, and geographical distribution of alleles, in platypuses in a Tasmanian river catchment.

Australian Zoologist ◽

10.7882/az.2017.034 ◽

2019 ◽

Vol 40 (2) ◽

pp. 241-250

Author(s):

J.W. Macgregor ◽

C. Holyoake ◽

S. Munks ◽

J.H. Connolly ◽

I.D. Robertson ◽

...

Keyword(s):

Genetic Diversity ◽

Major Histocompatibility Complex ◽

Mhc Class Ii ◽

Class Ii ◽

Major Histocompatibility ◽

Island Populations ◽

Low Genetic Diversity ◽

Histocompatibility Complex ◽

Wildlife Populations ◽

River Catchments

Genetic diversity at loci concerned with fitness is an important part of the ability of a wild population to adapt to changes in its environment, including climatic events, disease and pollution. Research into the effects of genetic diversity on the impacts of disease on wildlife populations has focussed on genes of the major histocompatibility complex (MHC). This study investigated the genetic diversity at the MHC class II DZB gene, as well as the distribution of alleles of the same gene, for platypuses Ornithorhynchus anatinus in the Seabrook Creek Catchment in northwest Tasmania. This study detected 10 previously identified alleles and two previously unreported alleles at the MHC Class II DZB locus in 18 platypuses from the Seabrook Creek Catchment. An additional sequence isolated from two individuals was consistent with a pseudogene. Alleles were reasonably well distributed geographically through the catchment, but there was evidence of a degree of isolation at one site. Consistent with evidence that smaller wildlife populations have relatively low genetic diversity, and that there is relatively slow gene flow between river catchments, the observed genetic diversity at the MHC Class II locus was lower than those in larger previously studied river catchments but higher than those in two island populations. Consequently, this population of platypuses may have a limited capacity to respond to new infectious challenges, such as the fungal disease mucormycosis.

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Long-term survival despite low genetic diversity in the critically endangered Madagascar fish-eagle

Molecular Ecology ◽

10.1111/j.1365-294x.2008.04012.x ◽

2008 ◽

Cited By ~ 6

Author(s):

JEFF A. JOHNSON ◽

RUTH E. TINGAY ◽

MELANIE CULVER ◽

FRANK HAILER ◽

MICHÈLE L. CLARKE ◽

...

Keyword(s):

Genetic Diversity ◽

Critically Endangered ◽

Term Survival ◽

Long Term Survival ◽

Low Genetic Diversity

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Low genetic diversity and small long-term population sizes in the spring endemic watercress darter, Etheostoma nuchale

Conservation Genetics ◽

10.1007/s10592-010-0111-y ◽

2010 ◽

Vol 11 (6) ◽

pp. 2267-2279 ◽

Cited By ~ 23

Author(s):

Brook L. Fluker ◽

Bernard R. Kuhajda ◽

Nicholas J. Lang ◽

Phillip M. Harris

Keyword(s):

Genetic Diversity ◽

Low Genetic Diversity ◽

Population Sizes

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Diversitas Genetika dan Identifikasi Jenis Kelamin Burung Pelikan (Pelecanus conspicillatus Temminck, 1824) di Penangkaran Taman Margasatwa Ragunan Jakarta

Jurnal Biologi Indonesia ◽

10.47349/jbi/17022021/105 ◽

2021 ◽

Vol 17 (2) ◽

pp. 105-114

Author(s):

Anik Budhi Dharmayanthi ◽

Achmad Muchsinin ◽

Afriana Pulungan ◽

Moch Syamsul Arifin Zein

Keyword(s):

Genetic Diversity ◽

Nucleotide Diversity ◽

Haplotype Diversity ◽

Population Expansion ◽

Bird Populations ◽

Low Genetic Diversity ◽

In Captivity ◽

D Loop ◽

Haplotype 1

Pelicans (Pelecanus conspicillatus) is one of the wild species that have a widely distribution. This bird has been successfully bred in Ragunan Zoo, Jakarta. The indicator of inbreeding in the captive population is shown by the decrease of nucleotide diversity and number of haplotypes. The result of genetic diversity analysis using D-loop fragment sequences showed low genetic diversity with nucleotide diversity (p) = 0.00064 ± 0.00010 and haplotype diversity (Hd) = 0.532 ± 0.061 in Pelecanus conspicillatus populations in the Ragunan Zoo. However, negative Fu's Fs value (-3,246) indicates population expansion. We found that there were seven haplotypes in bird populations in the captivity: haplotype 1, 2 and 3 consist of 43 individuals (65.15%), five individuals (7.57%), and 14 individuals (21.21%), respectively. For each haplotype 4, 5, 6 and 7 is only represented by one individual of Pelecanus conspicillatus (1.51%). The sex ratio of males to females is 1: 8.86 with four males identified as haplotype 1, and one male on haplotypes 3, 5 and 7, respectively. Genetic diversity data of the population is an important way for designing long-term plans and goals in efforts to maintain genetic diversity of the Pelecanus conspicillatus population in captivity.

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