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1. Sex dimorphism in dioecious Palmer amaranth (Amaranthus palmeri) in response to water stress

Author

Mesgaran, Mohsen B, Matzrafi, Maor, and Ohadi, Sara

Subjects
Amaranthus, Dehydration, Plant Breeding, Plant Weeds, Sex Characteristics, Baker's Law, Colonization, Flowering synchrony, Gender specialization, Secondary sex characters, Weed management, Baker’s Law, Plant Biology, Crop and Pasture Production, Plant Biology & Botany
Abstract

Main conclusionPhenological isolation can potentially reduce seed output and may be exploited as a novel tool for ecological management of dioecious weeds. Dioecious plants may benefit from a maximized outcrossing and optimal sex-specific resource allocation; however, this breeding system may also be exploited for weed management. Seed production in dioecious species is contingent upon the co-occurrence and co-flowering of the two genders and can be further disturbed by flowering asynchrony. We explored dimorphism in secondary sex characters in Amaranthus palmeri, and tested if reproductive synchrony can be affected by water stress. We have used seeds of A. palmeri from California, Kansas and Texas, and studied secondary sex characters under natural conditions and in response to water stress. Seeds of A. palmeri from California (CA) and Kansas (KS) were cordially provided by Dr. Anil Shrestha (California State University, Fresno, California) and Dr. Dallas E. Peterson (Kansas State University, Manhattan, Kansas), respectively. Seeds of a third population were collected from mature plants (about 30 plants) from a set-aside field in College Station, Texas. A. palmeri showed no sexual dimorphism with regard to the timing of emergence, plant height, and relative growth rate. While the initiation of flowering occurred earlier in males than females, females preceded males in timing of anthesis. Water stress delayed anthesis in males to a greater extent than females increasing the anthesis mismatch between the two sexes by seven days. Our data provide the first evidence of environment-controlled flowering asynchrony in A. palmeri. From a practical point of view, phenological isolation can potentially reduce seed output and may be exploited as a novel tool for ecological management of dioecious weeds.

Published
2021

3. Surveying the spatial distribution of feral sorghum (Sorghum bicolor L.) and its sympatry with johnsongrass (S. halepense) in South Texas.

Author

Ohadi, Sara, Littlejohn, Matthew, Mesgaran, Mohsen, Rooney, William, and Bagavathiannan, Muthukumar

Subjects
Sorghum, Logistic Models, Odds Ratio, Models, Biological, Agriculture, Automobiles, Texas, Plant Weeds, Sympatry, Plant Dispersal, Edible Grain, General Science & Technology
Abstract

Sorghum (Sorghum bicolor) is an important grain and forage crop grown across the US. In some areas, sorghum can become feral along roadsides and other ruderal areas, as a result of seed spill during harvest or transport. In some of these situations, feral sorghum grows in or near established johnsongrass (S. halepense) populations. Johnsongrass, a wild relative of sorghum and an incredibly noxious weed, is capable of hybridizing with cultivated sorghum. Because commercial hybrid sorghum cultivars are produced with cytoplasmic male sterility, progeny of the hybrid crop which compose the founder feral populations also segregate for male sterility. Consequently, male sterility in feral sorghum may increase the risk of outcrossing with johnsongrass. Using field surveys and spatial modelling, the present study aimed at documenting the occurrence of feral sorghum and understanding the anthropogenic and environmental factors that influence its distribution. Further, this research documented the sympatry of feral sorghum and johnsongrass in the roadside habitat. A total of 2077 sites were visited during a systematic field survey conducted in fall 2014 in South Texas. Feral sorghum and johnsongrass were found in 360 and 939 sites, while the species co-existed at 48 sites (2.3% of all surveyed sites). The binary logistic analysis showed a significant association between the presence of feral sorghum and road type, road body-type, micro-topography of the sampling site, nearby land use, and the presence of johnsongrass, but no association with the distance to the nearest grain sorting facility. The probability of finding feral sorghum away from johnsongrass patches was generally higher than finding them co-occur in the same location. A probability map for spatial distribution of feral sorghum was developed using the nearby land use type and the regional habitat suitability for johnsongrass as two key predictors. Overall, results show that feral sorghum and johnsongrass co-occur at low frequencies in the roadside habitats of South Texas, but these low levels still present a significant opportunity for hybridization between the two species outside of cultivated fields.

Published
2018

5. Hybridization can facilitate species invasions, even without enhancing local adaptation

Author

Mesgaran, Mohsen B, Lewis, Mark A, Ades, Peter K, Donohue, Kathleen, Ohadi, Sara, Li, Chengjun, and Cousens, Roger D

Subjects
Environmental Sciences, Biological Sciences, Ecology, Genetics, Life on Land, Brassicaceae, Ecosystem, Genetic Fitness, Hybridization, Genetic, Inbreeding, Introduced Species, Models, Genetic, Pollination, Population Density, Population Dynamics, species colonization, mating system, model, Cakile, sea-rockets
Abstract

The founding population in most new species introductions, or at the leading edge of an ongoing invasion, is likely to be small. Severe Allee effects-reductions in individual fitness at low population density-may then result in a failure of the species to colonize, even if the habitat could support a much larger population. Using a simulation model for plant populations that incorporates demography, mating systems, quantitative genetics, and pollinators, we show that Allee effects can potentially be overcome by transient hybridization with a resident species or an earlier colonizer. This mechanism does not require the invocation of adaptive changes usually attributed to invasions following hybridization. We verify our result in a case study of sequential invasions by two plant species where the outcrosser Cakile maritima has replaced an earlier, inbreeding, colonizer Cakile edentula (Brassicaceae). Observed historical rates of replacement are consistent with model predictions from hybrid-alleviated Allee effects in outcrossers, although other causes cannot be ruled out.

Published
2016

20. Explaining the worldwide distributions of two highly mobile species: Cakile edentula and Cakile maritima.

Author

Shaw, Elliot C., Fowler, Rachael, Ohadi, Sara, Bayly, Michael J., Barrett, Rosemary A., Tibbits, Josquin, Strand, Allan, Willis, Charles G., Donohue, Kathleen, Robeck, Philipp, and Cousens, Roger D.

Subjects
CHLOROPLAST DNA, BIOLOGICAL pest control agents, RIBOSOMAL DNA, COLONIZATION (Ecology), NUCLEAR DNA
Abstract

Aim: If we are able to determine the geographic origin of an invasion, as well as its known area of introduction, we can better appreciate the innate environmental tolerance of a species and the strength of selection for adaptation that colonizing populations have undergone. It also enables us to maximize the success of searches for effective biological control agents. We determined the number of successful colonization events that have occurred throughout the world for two Cakile species and compared the climates from which they originated, in which they established and then spread. Location: Worldwide. Taxon: Sea‐Rockets (Cakile spp.), Brassicaceae. Methods: We used a high‐throughput sequencing and a genome skimming approach combined with Bayesian Inference phylogenetics to examine variation in entire chloroplast genomes and regions of nuclear ribosomal DNA within native and introduced areas. Databases were used to compare climates between native ranges and introduced regions for multiple clades within each species. Results: At least seven clades have invaded different regions of the world. In most cases we were able to identify their source regions and climates. The environmental bottlenecks differed in intensity: while some clades colonized into climates that were similar to climates in their native range, other clades had a very broad innate environmental tolerance such that new invasions succeeded beyond the climate range of native populations. We found clear evidence of hybridization—specifically, chloroplast capture—between two species in Australia. Conclusions: Results here show that these species are sometimes capable of colonizing in climates that are beyond the climate range of native populations. Whether successful colonization beyond native climate niches requires de novo adaptation, or whether it represents an innate broad fundamental niche requires further investigation. Cakile species provide an excellent opportunity to study replicated climate adaptation trajectories. [ABSTRACT FROM AUTHOR]

Published
2021
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21. Asymmetry in fitness‐related traits of later‐generation hybrids between two invasive species.

Author

Li, Chengjun, Ohadi, Sara, and Mesgaran, Mohsen B.

Subjects
*INTROGRESSION (Genetics), *INTRODUCED species, *SPECIES hybridization, *GENES, *PLANT invasions, *HYBRID zones, *BIOLOGICAL invasions, *GENETIC speciation
Abstract

PREMISE: The importance of hybridization to invasion has been frequently discussed, with most studies focusing on the comparison of fitness‐related traits between F1 hybrids and their parents and the consequences of such fitness differences. However, relatively little attention has been given to late‐generation hybrids. Different fitness landscapes could emerge in later generations after hybrids cross with each other or backcross with their parents, which may play an important role in plant invasion and subsequent speciation. METHODS: In this study, artificial crosses were conducted to generate multiple generations, including F1, F2, and backcrosses between two invasive species: Cakile edentula (self‐compatible) and C. maritima (self‐incompatible). Putative hybrids were also collected in the sympatric zone and compared with their co‐occurring parents for phenotypic and genetic differences. RESULTS: Genetic data provided evidence of hybridization happening in the wild, and phenotypic comparisons showed that natural hybrids had intermediate traits between the two species but showed more similarity to C. maritima than to C. edentula. The asymmetry was further identified in artificial generations for several phenotypic characters. Furthermore, backcrosses exhibited different patterns of variation, with backcrosses to C. maritima having higher reproductive output than their counterparts. CONCLUSIONS: Our results suggest that hybridization and introgression (backcrossing) in Cakile species is asymmetric and most likely to favor the proliferation of C. maritima genes in the mixed population and thus help its establishment, a finding that could not be predicted by characterizing F1 hybrids. [ABSTRACT FROM AUTHOR]

Published
2021
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23. Hybridization rate and hybrid fitness for Camelina microcarpa Andrz. ex DC (♀) and Camelina sativa (L.) Crantz(Brassicaceae) (♂).

Author

Martin, Sara L., Lujan‐Toro, Beatriz E., Sauder, Connie A., James, Tracey, Ohadi, Sara, and Hall, Linda M.

Subjects
BRASSICACEAE, OILSEEDS, PLANT hybridization, CULTIVARS, PLANT populations
Abstract

Hybridization between crops and their wild relatives has the potential to introduce novel variation into wild populations. Camelina (Camelina sativa) is a promising oilseed and cultivars with modified seed characteristics and herbicide resistance are in development, prompting a need to evaluate the potential for novel trait introgression into weedy relatives. Little‐podded false flax (littlepod; Camelina microcarpa) is a naturalized weed in Canada and the USA. Here we evaluated the hybridization rate between the three cytotypes of littlepod (♀) and camelina (♂), assessed characteristics of hybrids, and evaluated the fitness of hexaploid littlepod and camelina hybrids in the glasshouse and field. In total we conducted, 1,005 manual crosses with diploid littlepod, 1, 172 crosses with tetraploid littlepod, and 896 crosses with hexaploid littlepod. Hybrids were not produced by the diploids, but were produced by the tetraploids and hexaploids at rates of one hybrid for 2,000 ovules pollinated and 24 hybrids for 25 ovules pollinated, respectively. Hybrids between tetraploid littlepod and camelina showed low pollen fertility and produced a small number of seeds. In the glasshouse, hybrids between hexaploid littlepod and camelina also showed significantly lower pollen fertility and seed production than parental lines, but their seeds showed high viability. A similar pattern was observed in field trials, with hybrids showing earlier flowering, reduced biomass, seed production and seed weight. However, seed produced by the hybrids showed greater viability than that produced by hexaploid littlepod and is potentially the result of a shortened lifecycle. The introgression of lifecycle traits into littlepod populations may facilitate range expansion and contribute to crop gene persistence. Consequently, future work should evaluate the hybridization rate in the field, the fitness of advanced generation backcrosses, and the role of time to maturity in limiting hexaploid littlepod's distribution. [ABSTRACT FROM AUTHOR]

Published
2019
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24. Patterns of genetic and phenotypic variation in invasive Cakile species in Australia

Author

Ohadi, Sara and Ohadi, Sara

Abstract

Biological invasions are one of the key drivers of biodiversity changes. In spite of their environmental and economic impacts, invasive species provide a valuable system for studying evolution over contemporary timescales. However, the complexity of the habitats makes it hard to infer about the evolutionary processes, such as founder events, drift, and admixture and novel selection pressures, in the invasive populations. Invasion studies, however, can benefit from the simplicity of coastal systems where dispersal happens along a linear, one-dimensional habitat with usually less complex biotic interactions. Such a confined habitat makes eco-evolutionary changes in the population more tractable as compared with most two-dimensional terrestrial habitats. My dissertation addresses the patterns of genetic and phenotypic diversity in invasive populations of two coastal species; Cakile maritima and Cakile edentula. These two species have a unique history of invasions in Australia and in two other regions (West coast of North America and New Zealand): in all these three regions C. edentula arrived earlier than C. maritima; however, later on C. maritima replaced C. edentula in most regions. Using these two coastal invaders, the main questions of my thesis were: does variation follow geographical patterns expected from particular invasion mechanisms? If so, what mechanisms predominate? And, does hybridisation/introgression between the two Cakile spp. contribute to population variation and therefore affecting invasion outcomes? These questions were addressed through studies of microsatellite variation on a continental scale, followed up by the use of CAPS markers derived from genome sequencing. A common garden experiment examined phenotypic differences between populations. The species were hand-crossed in the glasshouse to examine the viability and mating systems of hybrid progeny, while putative hybrids from the field were examined using genetic techniques. It is concluded th

Published
2015

26. Reassessment of the invasion history of two species of Cakile (Brassicaceae) in Australia

Author

Cousens, Roger D., Ades, Peter K., Mesgaran, Mohsen B., Ohadi, Sara, Cousens, Roger D., Ades, Peter K., Mesgaran, Mohsen B., and Ohadi, Sara

Abstract

In this paper we revisit the invasion history of two species of Cakile in Australia. Cakile edentula subsp. edentula arrived in the mid 19th Century and spread into coastal strandline habitat from the southeast towards the west and to the north; Cakile maritima arrived in the late 19th Century and has replaced Cakile edentula over much of the range. While Cakile edentula is morphologically quite uniform, the great variation within Cakile maritima has confused field ecologists. Using herbarium records we update previous accounts of the spread of the species and report on field surveys that determined their current geographic overlap in Tasmania and in northern New South Wales/southern Queensland. We examine regional morphological variation within Cakile maritima using the national herbaria collections and variation within new population samples. We support previous interpretations that Cakile maritima has been introduced on more than one occasion from morphologically distinct races, resulting in regional variation within Australia and high variability within populations in the south-east. Western Australian populations appear distinct and probably did not initiate those in the east; we consider that eastern populations are likely to be a mix of Cakile maritima subsp. maritima from the Mediterranean and Cakile maritima subsp. integrifolia from Atlantic Europe. Although introgression from Cakile edentula into Cakile maritima cannot be discounted from our results, it is not required to explain the levels of variation in the latter species observed in Australia. Cakile maritima continues to spread southwards in Tasmania and northwards in NSW; in Queenland, a recent occurrence has proliferated in Moreton Bay, spreading slowly to the north but not appreciably southwards.

Published
2013

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