Pollination limitation to reproductive success in the Missouri evening primrose, Oenothera macrocarpa (Onagraceae)

Habitat fragmentation may result in plant populations that are less attractive to pollinators and thus susceptible to reduced reproductive output due to pollination limitation. Pollination limitation was investigated in three Missouri populations of Oenothera macrocarpa, a hawk-moth-pollinated, perennial herb. The populations represented extremes in size and habitat quality. Following supplemental pollination, mean fertilization success (proportion of ovules fertilized) across populations increased from 24.3 to 44.8% and mean seed set (proportion of ovules that matured into seed) increased from 14.7 to 27.9%. These increases were statistically significant in two of the three populations. Failure to achieve 100% fertilization and seed set following supplementation indicates that other factors, in addition to pollination, were limiting to female reproductive success. Fruit set was pollination limited in only one population. Fruits matured with as few as one seed, suggesting that fruit set was not resource limited. The degree of pollination limitation was greatest in the most disturbed population. The population located in the highest-quality habitat was not significantly pollination limited. This suggests that pollination limitation is occurring, at least in part, because of reduced pollinator activity in degraded habitats.     

Effects of Tidal Action on Pollination and Reproductive Allocation in an Estuarine Emergent Wetland Plant–Sagittaria graminea (Alismataceae)

In estuarine wetlands, the daily periodic tidal activity has a profound effect on plant growth and reproduction. We studied the effects of tidal action on pollination and reproductive allocation of Sagittaria graminea. Results showed that the species had very different reproductive allocation in tidal and non-tidal habitats. In the tidal area, seed production was only 9.7% of that in non-tidal habitat, however, plants produced more male flowers and nearly twice the corms compared to those in non-tidal habitat. An experiment showed that the time available for effective pollination determined the pollination rate and pollen deposition in the tidal area. A control experiment suggested that low pollen deposition from low visitation frequency is not the main cause of very low seed sets or seed production in this plant in tidal habitat. The negative effects of tides (water) on pollen germination may surpass the influence of low pollen deposition from low visitation frequency. The length of time from pollen deposition to flower being submerged by water affected pollen germination rate on stigmas; more than three hours is necessary to allow pollen germination and complete fertilization to eliminate the risk of pollen grains being washed away by tidal water.     

Pollen limitation in invasive populations of Solanum rostratum and its relationship to population size

Aims Small plant populations may be more likely to suffer more severe pollen limitation due to the lower number of potential mates or suitable pollinators. For invasive species, this phenomenon may be more common when an invading population colonizes a new habitat. Here, we investigated whether pollen limitation occurs in invasive populations of Solanum rostratum during its invasion from North America to China and evaluated the patterns between pollen limitation and population size.Methods Pollen addition experiments were performed on six invasive populations of S. rostratum. By comparing fruit set and seed production with open pollination treatment, we calculated the index of pollen limitation and regressed it to population size and density.Important findings Among the six sampled invasive populations of S. rostratum, the fruit set and seed production per fruit were 0.346±0.014 and 52.38±9.29, respectively, with open pollination treatment and 0.572±0.022 and 56.28±10.79, respectively, with pollen addition treatment. Compared with open pollination, pollen addition significantly increased fruit set and seed production by 65.3 and 7.4%, respectively. The standardized index of pollen limitation ranged from 0.022 to 0.125, with an average of 0.065, suggesting that invasive populations of S. rostratum do suffer from pollen limitation. The index of pollen limitation was negatively correlated with population size, which is consistent with the pattern that smaller populations suffer from more severe pollen limitation.     

Morph-specific differences in reproductive success in the distylous Primula veris in a context of habitat fragmentation

Heterostylous self-incompatible plant species are particularly sensitive to habitat fragmentation and to disruption of pollination processes because of the need of intermorph cross-pollination for producing seeds. Heterostyly is characterized by sexual polymorphism through the occurrence of two (distyly) or three (tristyly) morph types that differ in floral traits (style length and anther position). We examined whether the long-styled (pin) and short-styled (thrum) morph types show differences in reproductive components and responses to habitat fragmentation in the distylous, self-incompatible perennial herb Primula veris. We documented reproductive components for pin and thrum individuals and their relationships with population size, plant density and morph ratio (pin frequency), in nine populations from Flanders (northern Belgium) located in fragmented habitats of the intensively used agricultural landscape. Seed abortion increased in small populations as a result of inbreeding depression. Fruit set increased with plant density. Seed set was positively related to pin proportion. Seed set was higher for pin than thrum in small populations, but lower in large populations. Two hypotheses can be considered to explain these morph-specific differences: a pollen transfer asymmetry, and a reproductive advantage for the partially self-compatible pin morph. Morph types appear to respond differently to habitat fragmentation constraints. A floral morph type showing partial self-compatibility may be favored in populations under pollination failure, because it can increase reproductive success and mating opportunities through intramorph crosses.     

Size-dependent sex allocation in a monocarpic perennial herb, <Emphasis Type="Italic">Cardiocrinum cordatum</Emphasis> (Liliaceae)

The size-dependent sex allocation model predicts that the relative resource allocation to female function often increases with plant size in animal-pollinated plants. If size effects on reproductive success vary depending on the environmental conditions, however, the size dependency may differ among populations. We tried to detect site-specific variation in size-dependent sex allocation of a monocarpic hermaphrodite with reference to light availability. Multiple flowers and fruits were sampled from the individuals of Cardiocrinum cordatum, a monocarpic understory herb, and pollen, ovule and seed production were measured with reference to the plant size in two populations. Furthermore, frequency and foraging behavior of pollinator visitation was observed. Ovule production per flower increased with plant size in both populations, while pollen production per flower increased with size only in the population under sparse canopy. Therefore, proportional allocation to male function decreased with plant size in the population under closed canopy, but did not change in the population under sparse canopy. Pollinators usually visited only one flower per plant, indicating the negligible geitonogamous pollination in this species. Although seed production under closed canopy was lower than that under sparse canopy, seed-set rate per flower and seed mass per fruit were independent of plant size in either of the populations. Size-dependent sex allocation in this species was site-specific, suggesting that not only resource storage before reproduction (i.e., plant size) but also resource availability of environment throughout the reproductive process (i.e., light availability) affect reproductive performance in this species.     

Floral display and habitat fragmentation: Effects on the reproductive success of the threatened mass‐flowering Conospermum undulatum (Proteaceae)

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Pollen limitation and demographic structure in small fragmented populations of Brunsvigia radulosa (Amaryllidaceae)

The ecological consequences of disruptions in plant-pollinator mutualisms are poorly understood. We examined how seed production and recruitment of juveniles in populations of the spectacular grassland geophyte Brunsvigia radulosa (Amaryllidaceae) correlate with various indices of habitat fragmentation, including habitat fragment area, population size and population isolation. The species was found to be self-incompatible and adapted for pollination primarily by the long-proboscid fly Philoliche aethiopica (Tabanidae). In places where this fly is locally extinct, carpenter bees appear to act as substitute, though less effective, pollinators. Seed production in B. radulosa showed a significant positive relationship with population size, but not with habitat fragment area or spatial isolation of populations when all three indices of habitat fragmentation were included as predictor variables in multiple regression models. Reduced seed production in small populations was attributable to pollen limitation, as supplemental hand pollinations resulted in proportionally greater increases in seed production in these populations. Pollen limitation appears to have demographic consequences; specifically, the proportion of juvenile plants in populations showed significant positive relationships with current levels of seed production per plant and size of populations. Thus the long term persistence of small B. radulosa populations in habitat fragments may be threatened by a pollination deficit.     

Effects of patch size and density on flower visitation and seed set of wild plants: a pan-European approach

1.  Habitat fragmentation can affect pollinator and plant population structure in terms of species composition, abundance, area covered and density of flowering plants. This, in turn, may affect pollinator visitation frequency, pollen deposition, seed set and plant fitness.
2.  A reduction in the quantity of flower visits can be coupled with a reduction in the quality of pollination service and hence the plants' overall reproductive success and long-term survival. Understanding the relationship between plant population size and/or isolation and pollination limitation is of fundamental importance for plant conservation.
3.  We examined flower visitation and seed set of 10 different plant species from five European countries to investigate the general effects of plant populations size and density, both within (patch level) and between populations (population level), on seed set and pollination limitation.
4.  We found evidence that the effects of area and density of flowering plant assemblages were generally more pronounced at the patch level than at the population level. We also found that patch and population level together influenced flower visitation and seed set, and the latter increased with increasing patch area and density, but this effect was only apparent in small populations.
5.   Synthesis. By using an extensive pan-European data set on flower visitation and seed set we have identified a general pattern in the interplay between the attractiveness of flowering plant patches for pollinators and density dependence of flower visitation, and also a strong plant species-specific response to habitat fragmentation effects. This can guide efforts to conserve plant–pollinator interactions, ecosystem functioning and plant fitness in fragmented habitats.     

Fertility of Vriesea gigantea Gaud. (Bromeliaceae) in southern Brazil

Plant fertility is a central subject of many questions in plant evolutionary and conservation biology. Pollen availability, abiotic resources, and flowering pattern can limit fruit and seed production. Open pollination and pollen supplementation studies are used to estimate any pollen limitation in natural populations. To study the impact of these factors on the reproductive success of Vriesea gigantea, an epiphytic bromeliad in the Atlantic Rainforest in Brazil, its fertility in four natural populations in Itapu? State Park was assessed by considering plant and inflorescence size, flower production, fruit and seed set, flower and fruit set pattern, and seed viability and germination rate. Supplemental pollination in adult plants was used to determine whether fruit production in V. gigantea is limited by reception of pollen. The results showed that V. gigantea has a high production of flowers, fruits, and seeds. Seeds are highly viable in all populations, presenting an average germination rate of 94% (SE ± 3.5). Plants of V. gigantea from Itapu? State Park are highly fertile. The high proportion of fruit and seed set after manual hand pollination indicates that the species is self-compatible. Pollination treatments showed evidence of pollinator limitation in the Itapu? State Park population.     

Planting designs in ecological restoration: Insights from the Button Wrinklewort

Summary   The re-establishment of threatened (and common) plant species populations is an important conservation activity in the agricultural landscapes of Australia where habitat fragmentation has destroyed much of their former range. The initial design of restoration plantings, including the number of individuals planted and their spatial configuration, is likely to affect long-term persistence of the re-introduced populations because of its potential effects on pollination and gene flow, but this topic has received little attention in the restoration literature. This study examined how population size and population density of experimental arrays of the grassland daisy Button Wrinklewort affected percentage seed set, a measure of reproductive success. We found strong evidence that population density, but not population size, affected seed set in this species. Seed set increased by, on average, 275% when plants were placed at high-density relative to low-density populations. The low seed set observed may occur because pollinator visitation rates decline in sparse populations or, alternatively, because pollinators are less efficient at pollen transfer when individuals are at low density. Hence, planting designs appear to be an important facet of restoration works that deserve far greater theoretical and practical attention than they have previously received.     

Reduced fecundity in large populations of a Mediterranean orchid – Evidence for pollinator limitation

Increased anthropogenic influence is expected to reduce the size of natural populations, which may decrease individual fecundity and long-term survival. However, it is unclear whether populations of a species that occur in a variety of habitats will suffer decreased fecundity similarly. Certain habitats, such as those in agricultural landscapes that used to undergo traditional management, may be altered more than others and therefore individuals within such populations may be more prone to decreased fecundity. This is particularly important to quantify in Mediterranean landscapes, where habitat change is a major threat to biodiversity. We examined the fecundity of 88 populations of the orchid Spiranthes spiralis, across multiple habitats on the Greek island of Lesvos. In each population we recorded both the habitat and geological substrate. At the end of the flowering season, population size was quantified in each population by counting the number of fruiting plants and the percentage fruit set was determined. To test whether seed set was reduced due to pollination limitation we performed a pollen supplementation experiment. Large populations had significantly lower fruit set than small populations, and this effect was most pronounced in olive groves. Pollen supplementation showed that S. spiralis may suffer reduced seed set due to pollen limitation. The results of this study show that larger olive grove populations may be pollinator-limited and there may be two reasons for this: first, olive groves are less favourable sites for honeybees – the major and more efficient pollinators of S. spiralis on Lesvos; second, such populations have been suffering severe management changes in recent years (e.g. chemical treatments, chopping) and are most vulnerable to reductions in reproductive output.     

OVULE PACKAGING IN STOCHASTIC POLLINATION AND FERTILIZATION ENVIRONMENTS

The modular morphology of plants has important consequences for reproductive strategies. Ovules are packaged in discrete structures (flowers) that usually vary stochastically in pollen capture and ovule fertilization, because of the vagaries of pollen transfer by external agents. Different ovule packaging schemes may use limited reproductive resources more or less effectively, so that some number of ovules per flower may be optimal, given the prevailing probabilities of ovule fertilization. I derive a phenotypic model for ovule number per flower that maximizes the expected total ovule fertilizations on a plant when pollination and fertilization vary randomly among individual flowers. This model predicts that, except for small or inexpensive flowers, ovules should be “oversupplied” relative to the mean receipt of pollen tubes, so that pollen limitation of seed set should be common. Published data are congruent with this prediction. Additional hypotheses on the relation of ovule packaging to floral cost, plant size, and variance in pollen receipt are suggested by the model, but few data exist to evaluate these hypotheses.     

Variation in pollinator assemblages in a fragmented landscape and its effects on reproductive stages of a self-incompatible treelet, <Emphasis Type="Italic">Psychotria suterella</Emphasis> (Rubiaceae)

Few studies of plant–pollinator interactions in fragmented landscapes evaluate the consequences of floral visitor variation on multiple stages of plant reproduction. Given that fragmentation potentially has positive or negative effects on different organisms, and that self-incompatible plant species depend on pollinators for sexual reproduction, differences in floral visitor assemblages may affect certain plant reproductive stages. We evaluated how pollinator assemblage, availability of floral resources, pollination, reproductive output, and seed and seedling performance of Psychotria suterella Muell. Arg. varied among three fragmentation categories: non-fragmented habitats, fragments connected by corridors, and isolated fragments. Richness and frequency of floral visitors were greater in fragments than in non-fragmented sites, resulting mainly from the addition of species typically found in disturbed areas. Although 24 species visited Psychotria suterella flowers, bumblebees were considered the most important pollinators, because they showed the highest frequency of visits and were present in eight out of ten sites. Additionally, the number of pollen tubes per flower per visit was lower in areas without bumblebees. The increased visitation in fragments seemed to enhance pollination slightly. However, fruit and seed output, germination, and seed and seedling mass were similar in non-fragmented sites, connected sites, and isolated fragments. Our results suggested that, even for a self-incompatible species, responses to habitat fragmentation at different stages of plant reproduction might be decoupled from the responses observed in floral visitors, if fruit set is not pollen limited. If all reproductive stages were considered, variation on the small scale was more important than the variation explained by fragmentation category. In spite of its self-incompatible breeding system, this plant–pollinator system showed resilience to habitat fragmentation, mainly as a result of high availability of potential mates to P. suterella individuals, absence of pollen limitation, and the presence of bumblebees (Bombus spp.) throughout this highly connected landscape.     

Reproductive success of the endangered shrub Buxus balearica Lam. (Buxaceae): pollen limitation, and inbreeding and outbreeding depression

The increasingly common phenomenon of habitat fragmentation raises the probability of pollination failure in a number of species, as both pollen quantity and quality often decrease as populations become isolated. We experimentally investigated whether pollen was limiting reproductive success of the endangered shrub Buxus balearica in five populations, two continental and three insular, during 2002 and 2003. Pollen limitation varied among populations and years, but such variation was not related to density or degree of isolation. All populations showed inbreeding depression at different phases of the reproductive cycle, although its effects differed greatly among sites. Between-population outcrossing did not have a consistent effect on several components of fitness. The highest levels of inbreeding depression – detected at the level of fruit and seed set- occurred at the smallest and least fecund populations from each region. This indicates that further fragmentation of the populations of this already endangered species could certainly threaten their survival.     

Effects of habitat fragmentation on the reproductive success of the nectar-producing orchid Gymnadenia conopsea and the nectarless Orchis mascula

Habitat fragmentation decreases plant population sizes and increases spatial isolation, which hampers the exchange of seeds and pollen between fragmented populations. This may result in decreased population viability. We compared the effects of population size and isolation on the reproductive success of two orchid species, Gymnadenia conopsea (nectar-producing) and Orchis mascula (nectarless) growing in highly fragmented calcareous grassland in southern Belgium. We expected that the nectar-producing species would be more susceptible to the negative reproductive consequences of habitat fragmentation compared to the nectarless species. Nectar production has been associated with increased geitonogamous pollination and, therefore, with lower seed viability. Our results show that seed viability increased with increasing population size in O. mascula, whereas it was always low in G. conopsea, even in large populations. In contrast, percentage fruit set was positively related to population size in the nectar-producing G. conopsea, but no such effect was observed in the nectarless O. mascula, where fruit set was low even in large populations. Population isolation was not related to reproductive success for either species. Our results suggest that even in large populations, where pollinators are expected to be more abundant, increased geitonogamous pollination reduces seed viability in the nectar-producing G. conopsea. In contrast, seed viability in O. mascula seems to benefit from increased pollinator availability in larger populations. For the latter species, however, fruit set remains low, even in large populations, compared to G. conopsea. This may be explained by the relatively low attractiveness of nectarless orchid species for pollinators. Our results indicate that small population size may negatively influence reproductive success in both nectarless and nectar-producing orchids by reducing seed viability and fruit set, respectively.     

Implications of the reproductive biology of the narrow endemic <Emphasis Type="Italic">Naufraga balearica</Emphasis> (Apiaceae) for its conservation status

Naufraga balearica is an endemic umbelliferous plant of Mallorca (Balearic Islands, Spain), considered Critically Endangered according IUCN categories. We present a study of its reproductive biology to look for the causes of its threatened status. It was carried out in natural populations at Cap de Catalunya and Coves Blanques and in ex-situ cultivated plants on the campus of the Universitat de les Illes Balears. We examined (1) the flowering and fruiting phenology, reproductive potential and reproductive success; (2) the pollen/ovule (P/O) ratio and mating system; (3) the identities and numbers of pollinators; (4) the germination potential and the effect of temperature on the germination process; and (5) the seedling performance of this species. The results indicated that under natural conditions, an average individual produced approximately 100 seeds and cross-pollination was the most effective mating system. Pollination was myrmecophilous, and the germination potential was high (76–97%), but seedling survival after the first summer was low (7–54%). We conclude that the major threats to this species are fundamentally extrinsic in character and are related to changing climatic conditions, soil erosion and alteration, and umbel predation. Given that cross-pollination yields greater reproductive success and that pollination is myrmecophilous, lower population densities would lead to lower reproductive success for the species. Therefore, conservation efforts should focus primarily on habitat conservation and on ex-situ conservation through the establishment of an ex-situ population and the maintenance of a seed bank.     

The reproductive assurance benefit of selfing: importance of flower size and population size

Autonomous selfing can provide reproductive assurance (RA) for flowering plants that are unattractive to pollinators or in environments that are pollen limited. Pollen limitation may result from the breakdown of once-continuous habitat into smaller, more isolated patches (habitat fragmentation) if fragmentation negatively impacts pollinator populations. Here we quantify the levels of pollen limitation and RA among large and small populations of Collinsia parviflora, a wildflower with inter-population variation in flower size. We found that none of the populations were pollen limited, as pollen-supplemented and intact flowers did not differ in seed production. There was a significant effect of flower size on RA; intact flowers (can self) produced significantly more seeds than emasculated flowers (require pollen delivery) in small-flowered plants but not large-flowered plants. Population size nested within flower size did not significantly affect RA, but there was a large difference between our two replicate populations for large-flowered, small populations and small-flowered, large populations that appears related to a more variable pollination environment under these conditions. In fact, levels of RA were strongly negatively correlated with rates of pollinator visitation, whereby infrequent visitation by pollinators yielded high levels of RA via autonomous selfing, but there was no benefit of autonomous selfing when visitation rates were high. These results suggest that autonomous selfing may be adaptive in fragmented habitats or other ecological circumstances that affect pollinator visitation rates.     

Variability in Pollen Load: Implications for Reproduction and Seedling Vigor in a Rare Plant, Silene douglasii var. Oraria

Habitat fragmentation can markedly influence the levels of pollen deposition and seed production in natural populations, and rare plants may be especially susceptible to any associated reductions in pollen quantity and quality. In order to ascertain the potential for pollen limitation of maternal fitness in a rare plant, Silene douglasii var. oraria, which is endemic to western coastal prairies, we counted ovules and measured conspecific and heterospecific pollen deposition on stigmas collected from open-pollinated plants. We further investigated the effect of increasing pollen intensity on fruit production, seed number and weight, as well as several measures of progeny vigor. Three levels of outcross pollen were added to plant stigmas for comparison with autogamous and open pollination in the largest naturally occurring population. Both seed and fruit production were significantly greater (P<0.05) for supplemented versus nonsupplemented stigmas, but flowers receiving different levels of pollen addition were statistically indistinguishable. Seed germination and seedling survival were also lowest for the offspring of nonsupplemented flowers; however, in natural populations, opportunities for pollen competition are very limited since open-pollinated flowers averaged fewer viable pollen grains than ovules. Seed production was equivalent for open- and autogamously pollinated flowers in 1996, indicating that natural pollen transfer may have involved mostly self pollen. Overall, the low reproductive success of var. oraria likely reflects both low pollen quantity and quality. Multiyear empirical studies of pollen intensity in field populations are needed so that we can better understand the fitness consequences of pollen limitation in rare perennials.     

Seed abortion in the sexual counterpart of <Emphasis Type="Italic">Brachiaria brizantha</Emphasis> apomicts (Poaceae)

Gametophytic organization, fertilization and reproductive success are described for the fertile diploid Brachiaria brizantha accession BRA-002747 which is being raised for use in Brachiaria breeding programs, as well as to understand and control of apomixis in this genus. The current paper reports on reproductive biology and analysis of seed set in field experiments during three consecutive years. Unsuccessful seed production in this plant is believed to correlate with early inbreeding depression, based on the reproductive features analyzed. Caryopsis development was observed using differential interference contrast microscopy with seed set determined by the number of self- and open-pollinated pistils that fully developed into viable seeds. Developing and mature female and male gametophytes were observed in the context of flower phenology, morphology and anthesis patterns. Pollen viability was determined by acetocarmine staining and by observation of germination in vivo, which was also used to observe pollen tube/pistil interaction. Although normal development was observed in floral structures, anthesis and gametophytes, seed set was low, with 2 and 6% in self- and open-pollination, respectively, producing seed. Variations observed in the female organs, such as the presence of a hermaphrodite flower in 50% of the inferior floscules and the presence of multiple embryo sacs of the Polygonum type within the same ovule in 15% of the pistils, are not related to low fertility. The majority of pollen grains are viable, in spite of the reduced number of pollen tubes within the style and ovary carpel, and a developing caryopsis was observed in 70% of self-pollinated pistils, indicating successful double fertilization from 2 days after anthesis (DAA). Nevertheless, abortion gradually increased from 2 until 7 DAA and remains elevated until 12 DAA, when caryopsis maturity is achieved. These data confirm low seed set in this accession and indicate that low fertility is not a consequence of abnormalities, either in the floral or gamete structures, or pollen tube rejection, but most likely a consequence of inbreeding depression.     

Offspring fitness in relation to population size and genetic variation in the rare perennial plant species Gentiana pneumonanthe (Gentianaceae)

Seeds were sampled from 19 populations of the rare Gentiana pneumonanthe, ranging in size from 5 to more than 50,000 flowering plants. An analysis was made of variation in a number of life-history characters in relation to population size and offspring heterozygosity (based on seven polymorphic isozyme loci). Life-his-tory characters included seed weight, germination rate, proportion of seeds germinating, seedling mortality, seedling weight, adult weight, flower production per plant and proportion of plants flowering per family. Principal component analysis (PCA) reduced the dataset to three main fitness components. The first component was highly correlated with adult weight and flowering performance, the second with germination performance and the third component with seed and seedling weight and seedling mortality. The latter two components were considered as being maternally influenced, since these comprised life-history traits that were significantly correlated with seed weight. Multiple regression analysis showed that variation in the first fitness component was mainly associated with heterozygosity and not with population size, while the third fitness component was only correlated with population size and not with heterozygosity. The latter relationship appeared to be non-linear, which suggests a stronger loss of fitness in the smallest populations. The second (germination) component was neither correlated with population size nor with genetic variation. There was only a weak association between population size, heterozygosity and the population coefficients of variation for each life history character. Most correlation coefficients were negative, however, which suggests that there is more variation among progeny from smaller populations. We conclude that progeny from small populations of Gentiana pneumonanthe show reduced fitness and may be phenotypically more variable. One of the possible causes of the loss of fitness is a combination of unfavourable environmental circumstances for maternal plants in small populations and increased inbreeding. The higher phenotypic variation in small populations may also be a result of inbreeding, which can lead to deviation of individuals from the average phenotype through a loss of developmental stability.