Limiting inbreeding in disjunct and isolated populations of a woody shrub

Sampson, Jane; Byrne, Margaret; Gibson, Neil; Yates, Colin J.

doi:10.1002/ece3.2322

Cited by 18 publications

(16 citation statements)

References 71 publications

(144 reference statements)

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“…Standard deviations (population values) or standard errors (means) are in parenthesis. a Values are significantly different to 1 (t m and t s ) or to zero (other estimates (Sampson et al 2016). Combined with a high outcrossing rate, a pattern of random realized pollen dispersal suggests the attraction of effective pollinators for the restoration population of H. nitida.…”

Section: Pollen Dispersalmentioning

confidence: 99%

Evaluating restoration outcomes through assessment of pollen dispersal, mating system, and genetic diversity

Millar

Coates²,

Byrne

et al. 2021

Restoration Ecology

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Ecological genetics can provide a novel contribution to assessing the achievement of restoration objectives. We used paternity assignment to infer realized pollen dispersal within, and pollen immigration into, a restoration population of Hakea nitida, a common near-coastal shrub or small tree in southwest Australia. We compared mating system parameters and genetic diversity with a nearby remnant reference population and assessed genetic divergence among the restoration and reference populations. We found realized pollen dispersal events closely tracked the frequency distributions of the distances between all plants within the restoration focus area. Mean realized pollen dispersal distance (359 m) approached the mean of the distances between all plants (407 m), far exceeding mean nearest neighbor distance (12 m). Maximum realized pollen dispersal distance (869 m) approached the maximum distance between all plants in the study area (1,033 m). Pollen immigration into the restoration study area was limited (4%). The mating system revealed moderate outcrossing rates (t m = 0.861 restoration and t m = 0.745 reference population), with significant and similar biparental inbreeding (t m − t s = 0.180, t m − t s = 0.186) but greater correlated paternity (r pm) in the restoration (0.519) than in the reference (0.188) population. Genetic divergence among the restoration and reference remnant population was moderate (F ST = 0.094, D ST = 0.239). Patterns of pollen dispersal and mating system parameters imply the attraction of pollinators within the restoration population as a key factor in progressing towards the establishment of self-sustaining populations.

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Section: Pollen Dispersalmentioning

confidence: 99%

Evaluating restoration outcomes through assessment of pollen dispersal, mating system, and genetic diversity

Millar

Coates²,

Byrne

et al. 2021

Restoration Ecology

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“…Despite no direct genetic and demographic effects of fragmentation, the associated disturbance has led to high weed densities resulting in a lack of recruitment in populations in degraded remnants (Gibson et al., 2012). In another rare species, Hakea oldfieldii , high outcrossing rates and long distance pollen dispersal appear to maintain connectivity among naturally fragmented populations (Sampson et al., 2016).…”

Section: Threats and Threat Mitigation In The Swafrmentioning

confidence: 99%

Recovery of threatened plant species and their habitats in the biodiversity hotspot of the Southwest Australian Floristic Region

Monks¹,

Barrett

Beecham

et al. 2019

Plant Diversity

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The Southwest Australian Floristic Region (SWAFR) is a global biodiversity hotspot with high plant diversity and endemism and a broad range of threatening processes. An outcome of this is a high proportion of rare and threatened plant species. Ongoing discovery and taxonomic description of new species, many of which are rare, increases the challenges for recovery of threatened species and prioritisation of conservation actions. Current conservation of this diverse flora is based on integrated and scientific evidence-based management. Here we present an overview of current approaches to the conservation of threatened flora in the SWAFR with a focus on active management through recovery and restoration that is integrated with targeted research. Key threats include disease, fragmentation, invasive weeds, altered fire regimes, grazing, altered hydro-ecology and climate change. We highlight the integrated approach to management of threats and recovery of species with four case studies of threatened flora recovery projects that illustrate the breadth of interventions ranging from In situ management to conservation reintroductions and restoration of threatened species habitats. Our review and case studies emphasise that despite the scale of the challenge, a scientific understanding of threats and their impacts enables effective conservation actions to arrest decline and enhance recovery of threatened species and habitats.

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“…Gene flow through pollen and seeds may be inhibited, inbreeding rates may increase, and the level of isolation in fragmented populations may be exacerbated. Ongoing fragmentation events can create a disjunct population in which gene flows are disrupted by physical and/or genetic barriers (Sampson et al 2016).…”

Section: Introductionmentioning

confidence: 99%

The genetic diversity and reproductive dynamics of sandalwood in Gunung Sewu (Java, Indonesia) in 2012-2019: designing conservation strategies in a continuous versus fragmented landrace

et al. 2021

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Abstract. Ratnaningrum YWN, Indrioko S, Karrin A, Kurniawan A, Putri ADC. 2021. The genetic diversity and reproductive dynamics of sandalwood in Gunung Sewu (Java, Indonesia) in 2012-2019: designing conservation strategies in a continuous versus fragmented landrace. Biodiversitas 22: 3219-3229. This research aimed to compare the dynamics of the genetic diversity, mating systems, and reproductive outputs of the most fragmented (Bejiharjo) and continuous (Bleberan) sandalwood landraces in Gunung Sewu in the flowering periods of 2012-2019. Among the different sandalwood landraces found in Gunung Sewu, Bejiharjo has the highest levels of santalol; unfortunately, this landrace also requires the most attention because of heavy habitat fragmentation resulting from overexploitation, urbanization, and cave-tourism activities. Compared with Bejiharjo, Bleberan demonstrated a wider genetic base and greater outcrossing. Mature and flowering individuals in Bejiharjo decreased from 2012 to 2019 as fragmentation increased, particularly in 2019, during which extreme individual reduction due to illegal logging and land conversion was noted. Recent years consisted of more-clonalized stands, as indicated by the finding of fewer distinct genotypes and higher clonality rates. Increases in clonality and narrowing of the genetic base over time increased selfing rates and reduced offspring heterozygosity and seedling recruitment. The dynamics of genetic diversity in Bleberan, which was relatively undisturbed, appeared to be highly affected by fluctuations in the number of parental genetic bases (i.e., flowering parents) in each flowering season. Some parents bore flowers in one flowering season but remained in a vegetative state in the following season. This irregularity of flowering individuals caused fluctuations in actual population size, resulting in a different genetic base, mating system, and reproductive outputs in every season. All six loci (i.e., Dia-1, Dia-2, Est-1, Est-2, Est-3, and Skd-1) examined in Bleberan are polymorphic sites, and no missing alleles were noted in any of the observation years. Est-2 was monomorphic in Bejiharjo, where rare and missing alleles were more apparent, particularly at the seedling level. Genetic differentiation over time was observed between Bejiharjo and Bleberan, and increased fragmentation was noted in Bejiharjo. The migration rate between these two landraces also decreased over time. Focusing on maintaining the reproductive and genetic processes of each population by implementing different strategies based on the genetic base, mating systems, and degree of fragmentation and clonality of the landrace is recommended.

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Limiting inbreeding in disjunct and isolated populations of a woody shrub

Cited by 18 publications

References 71 publications

Evaluating restoration outcomes through assessment of pollen dispersal, mating system, and genetic diversity

Evaluating restoration outcomes through assessment of pollen dispersal, mating system, and genetic diversity

Recovery of threatened plant species and their habitats in the biodiversity hotspot of the Southwest Australian Floristic Region

The genetic diversity and reproductive dynamics of sandalwood in Gunung Sewu (Java, Indonesia) in 2012-2019: designing conservation strategies in a continuous versus fragmented landrace

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