Mating patterns and pollinator mobility are critical traits in forest fragmentation genetics

Breed, Martin F.; Ottewell, Kym; Gardner, Michael G.; Marklund, Maria H. K.; Dormontt, Eleanor E.; Lowe, Andrew J.

doi:10.1038/hdy.2013.48

Cited by 108 publications

(140 citation statements)

References 50 publications

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“…This result indicates that floweringtree density, an inverse of the distance between the trees, affects mate diversity (Eckert et al 2010;Breed et al 2013). The flowering-tree density seems to be positively related to the number of mates within a mating range.…”

Section: Fruit Productionmentioning

confidence: 62%

“…The flowering-tree density seems to be positively related to the number of mates within a mating range. A positive effect of tree density on mate diversity was also detected in insect-pollinated Eucalyptus species, although this effect was confounded with the effect of forest loss (Breed et al 2013). Our findings in P. verecunda demonstrate that the flowering-tree density affects mate diversity independently of landscape properties.…”

Section: Fruit Productionmentioning

confidence: 99%

“…Loss of forest habitats has frequently been associated with decreased plant density and increased selfing rate, biparental-inbreeding rate, and correlated paternity in animal-pollinated plants (Breed et al 2013). The forest loss resulted in increases in both biparental-inbreeding rate and correlated paternity in P. virginiana, because relatives were more aggregated spatially in fragmented forests than in a continuous forest (Suarez-Gonzalez and Good 2014).…”

Section: Fruit Productionmentioning

confidence: 99%

“…Pollen dispersal distance sometimes increases in patches with reduced plant density (Llorens et al 2012;Cô rtes et al 2013) and between fragmented patches because of changes in pollinator movements in the matrix (Kamm et al 2010). In constrast, landscape disturbances decrease mate diversity (Breed et al 2013). Not only the size but also the shape of patches affects mating patterns (Llorens et al 2013).…”

Section: Introductionmentioning

confidence: 99%

“…However, independent comparisons between continuous and fragmented forests in multiple regions have revealed a consistent effect of fragmentation on reproductive performance in these regions (Aizen and Feinsinger 1994;Mimura et al 2009). Patterns observed at multiple sites with different landscape properties within a region also demonstrate the effects of landscape properties on reproductive performance, which can be estimated using statistical models (Llorens et al 2012;Breed et al 2013). The spatial independence of sites and the separation of factors confounded with the sites are crucial when fitting the models to observed patterns.…”

Section: Introductionmentioning

confidence: 99%

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Effects of converting natural forests to coniferous plantations on fruit and seed production and mating patterns in wild cherry trees

Nagamitsu

Kato²,

Taki

et al. 2016

Ecological Research

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Landscape disturbances can affect reproductive performance of animal-pollinated trees. We verified the effects of the loss and fragmentation of natural forests caused by the creation of coniferous plantations on fruit and seed production as well as mating patterns of animal-pollinated trees. We investigated 146 and 134 individual flowering trees of Prunus verecunda (Koidz.) Koehne in 2012 and 2013, respectively, at 12 sites. These sites were at least 1.2 km apart from each other in an 8 · 15-km forestry region, and the composition and configuration of natural forests varied in the study area. The mean outcrossing rate was >0.99 across the sites. Among trees within the sites, the number of fruits per inflorescence was positively correlated with the basal stem area and leaf chlorophyll density of the trees. Among the sites, the mean number of fruits per inflorescence was positively correlated with the site elevation, and the correlated paternity was positively correlated with the mean distance between trees. The sound-seed rate was positively correlated with the natural-forest area among the sites. These results suggest that environments and resources of trees influence their fruit production, that a loss of natural forests increases in embryo mortality, and that a reduction in tree density decreases pollen donor diversity in P. verecunda. Thus, a landscape disturbance may decrease seed production, whereas outbreeding is maintained, and fruit production is not likely to be dependent on the landscape disturbance in this species.

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Section: Fruit Productionmentioning

confidence: 62%

Section: Fruit Productionmentioning

confidence: 99%

Section: Fruit Productionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Effects of converting natural forests to coniferous plantations on fruit and seed production and mating patterns in wild cherry trees

Nagamitsu

Kato²,

Taki

et al. 2016

Ecological Research

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Limited pollen dispersal, small genetic neighborhoods, and biparental inbreeding in Vallisneria americana

Lloyd

Tumas

Neel

2018

American J of Botany

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Frequent pollen dispersal is not expected among patches, and even within patches, gene flow via pollen will be limited. Limited pollen dispersal establishes genetic neighborhoods, which, unless overcome by seed and propagule dispersal, will lead to genetic differentiation even in a continuous population. Unless loss and fragmentation drive populations to extreme sex bias, local pollen dispersal is likely to be unaffected by habitat loss and fragmentation per se because the spatial scale of patch isolation already exceeds pollen dispersal distances. Therefore, managing specifically for pollen connectivity is only relevant over very short distances.

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Gone with the wind: Negative genetic and progeny fitness consequences of habitat fragmentation in the wind pollinated dioecious treeBrosimum alicastrum

Aguilar-Aguilar

Cristóbal‐Pérez

Lobo

et al. 2023

American J of Botany

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Premise Habitat fragmentation negatively affects population size and mating patterns that directly affect progeny fitness and genetic diversity; however, little is known about the effects of habitat fragmentation on dioecious, wind pollinated trees. We assessed the effects of habitat fragmentation on population sex ratios, genetic diversity, gene flow, mating patterns, and early progeny vigor in the tropical dioecious tree, Brosimum alicastrum. Methods We conducted our study in three continuous and three fragmented forest sites in a Mexican tropical dry forest. We used eight microsatellite loci to characterize the genetic diversity, gene flow via pollen distances, and mean relatedness of progeny. We compared early progeny vigor parameters of seedlings growing under greenhouse conditions. Results Sex ratios did not deviate from 1:1 between habitat conditions except for one population in a fragmented habitat, which was female biased. The genetic diversity of adult trees and their offspring was similar in both habitat conditions. Pollen gene flow distances were similar across habitat types; however, paternity correlations were greater in fragmented than in continuous habitats. Germination rates did not differ between habitat conditions; however, progeny from fragmented habitats produced fewer leaves and had a lower foliar area, total height, and total dry biomass than progeny from continuous habitats. Conclusions Changes in mating patterns because of habitat fragmentation have negative effects on early progeny vigor. We conclude that negative habitat fragmentation effects on mating patterns and early progeny vigor may be a serious threat to the long‐term persistence of tropical dioecious trees.

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Mating patterns and pollinator mobility are critical traits in forest fragmentation genetics

Cited by 108 publications

References 50 publications

Effects of converting natural forests to coniferous plantations on fruit and seed production and mating patterns in wild cherry trees

Effects of converting natural forests to coniferous plantations on fruit and seed production and mating patterns in wild cherry trees

Limited pollen dispersal, small genetic neighborhoods, and biparental inbreeding in Vallisneria americana

Gone with the wind: Negative genetic and progeny fitness consequences of habitat fragmentation in the wind pollinated dioecious treeBrosimum alicastrum

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