Your search keyword '"Dioecy"' showing total 334 results

1. Reference-based genome assembly and comparative genomics of Calamus Brandisii Becc. for unveiling sex-specific genes for early gender detection.

Author

Abdul Bari, Muneera Parveen, Arun Dev, Suma, Paremmal, Sarath, V. B, Sreekumar, and Ghosh Dasgupta, Modhumita

Abstract

Calamus brandisii Becc. is an endangered rattan species indigenous to the Western Ghats of India and used in the furniture and handicraft industries. However, its dioecious nature and longer flowering time pose challenges for conservation efforts. Developing markers for early gender detection in seedlings is crucial for maintaining viable populations for in-situ and ex-situ conservation. Currently, no sex chromosomes or gender-specific genes have been reported in the species. We report the first comprehensive comparative genomics study between the male and female genomes of C. brandisii to identify polymorphisms and potential genes for gender determination. Reference-based assembly was conducted and the male and female genomes were predicted to contain 43,810 and 50,493 protein-coding genes respectively. The haploid genome size was ∼691 Mb and ∼884 Mb for male and female genomes respectively. Comparative analysis revealed significant genetic variation between the two genomes including 619,776 SNPs, 73,659 InDels, 212,123 Structural variants (SVs) and 305 copy number variations (CNVs). A total of 5 male-specific and 11 female-specific genes linked to the sex determining region was predicted. The genomic variants identified between the two genomes could be used in development of markers for early gender identification in C. brandisii for restoration programs. The gender-specific genes identified in this study also provide new insights into the mechanisms of sex determination and differentiation in rattans. [ABSTRACT FROM AUTHOR]

Published

2024

2. Mating system, morphological and genetic evidence endorse clonality as an essential reproductive mode in Daphnopsis filipedunculata (Thymelaeaceae), a dioecious and endemic species from the Amazon.

Author

Carvalho, Carolina da Silva, Costa, Lucas Erickson Nascimento da, Leal, Bárbara Simões Santos, Silva, Kleber Resende, Valentin-Silva, Adriano, Costa, Ana Carolina Galindo, Tyski, Lourival, Santos, Fernando Marino Gomes dos, and Watanabe, Mauricio Takashi Coutinho

Abstract

Background and Aims: Clonality is characterized by the formation of independent individuals of the same genotype that are capable of reproducing and propagating vegetatively. Although clonality is an important mechanism that facilitates the persistence of a population, its extensive use can lead to negative impacts on sexual reproduction due to trade-offs in the investment of resources. Therefore, studies on the sexual reproduction of species that exhibit clonality can provide information about resilience to environmental changes, information about fecundity, the risk of the absence of pollinators and the ability to persist in unfavourable conditions and to successfully occupy new areas. Here, we investigated the role of clonal propagation and sexual reproduction in Daphnopsis filipedunculata (Thymelaeaceae), a dioecious species distributed only in Serra dos Carajás. Methods: We evaluated the extent of clonality in this species using molecular tools and anatomical analyses of the underground system responsible for developing new ramets. Furthermore, we analysed the sexual system and its contribution to reproductive success through morphometric analyses of floral types and pollination experiments in the field. Key Results: Overall, we found that clonal propagation plays an important role in maintaining the population of D. filipedunculata. Specifically, we demonstrated that this species presents functional male and female plants, indicating that D. filipedunculata is an obligate xenogamous species but has low reproductive success. We also showed that clonal vegetative propagation is the main form of asexual reproduction in this species, with roots responsible for clonal growth. Finally, our results indicated that this species presents an intermediate phalanx–guerrilla clonal architecture. Conclusions: Our study provides the first insights into sexual reproduction and clonal propagation in D. filipedunculata and can inform management practices, conservation and the restoration of endemic species. [ABSTRACT FROM AUTHOR]

Published

2024

3. Functional analysis of Salix purpurea genes support roles for ARR17 and GATA15 as master regulators of sex determination.

Author

Hyden, Brennan, Carper, Dana, Abraham, Paul, Yuan, Guoliang, Yao, Tao, Baumgart, Leo, Zhang, Yu, Chen, Cindy, OMalley, Ronan, Chen, Jin-Gui, Yang, Xiaohan, Hettich, Robert, Tuskan, Gerald, and Smart, Lawrence

Subjects

Arabidopsis, Salix, dioecy, proteomics, sex determination, transgenics, willow

Abstract

The Salicaceae family is of growing interest in the study of dioecy in plants because the sex determination region (SDR) has been shown to be highly dynamic, with differing locations and heterogametic systems between species. Without the ability to transform and regenerate Salix in tissue culture, previous studies investigating the mechanisms regulating sex in the genus Salix have been limited to genome resequencing and differential gene expression, which are mostly descriptive in nature, and functional validation of candidate sex determination genes has not yet been conducted. Here, we used Arabidopsis to functionally characterize a suite of previously identified candidate genes involved in sex determination and sex dimorphism in the bioenergy shrub willow Salix purpurea. Six candidate master regulator genes for sex determination were heterologously expressed in Arabidopsis, followed by floral proteome analysis. In addition, 11 transcription factors with predicted roles in mediating sex dimorphism downstream of the SDR were tested using DAP-Seq in both male and female S. purpurea DNA. The results of this study provide further evidence to support models for the roles of ARR17 and GATA15 as master regulator genes of sex determination in S. purpurea, contributing to a regulatory system that is notably different from that of its sister genus Populus. Evidence was also obtained for the roles of two transcription factors, an AP2/ERF family gene and a homeodomain-like transcription factor, in downstream regulation of sex dimorphism.

Published

2023

4. Sexually dimorphic acetyl‐CoA biosynthesis and utilization in response to drought and exogenous acetic acid.

Author

Xia, Linchao, Li, Menghan, Chen, Yao, Dai, Yujie, Li, Huanhuan, and Zhang, Sheng

Subjects

*ACETIC acid, *JASMONIC acid, *FATTY acids, *TRANSCRIPTION factors, *BIOSYNTHESIS, *DROUGHT tolerance, *LYSINE

Abstract

SUMMARY: Female willows exhibit greater drought tolerance and benefit more from exogenous acetic acid (AA)‐improved drought tolerance than males. However, the potential mechanisms driving these sex‐specific responses remain unclear. To comprehensively investigate the sexually dimorphic responsive mechanisms of willows to drought and exogenous AA, here, we performed physiological, proteomic, Lys‐acetylproteomic, and transgenic analyses in female and male Salix myrtillacea exposed to drought and AA‐applicated drought treatments, focusing on protein abundance and lysine acetylation (LysAc) changes. Drought‐tolerant females suffered less drought‐induced photosynthetic and oxidative damage, did not activate AA and acetyl‐CoA biosynthesis, TCA cycle, fatty acid metabolism, and jasmonic acid signaling as strongly as drought‐sensitive males. Exogenous AA caused overaccumulation of endogenous AA and inhibition of acetyl‐CoA biosynthesis and utilization in males. However, exogenous AA greatly enhanced acetyl‐CoA biosynthesis and utilization and further enhanced drought performance of females, possibly determining that AA improved drought tolerance more in females than in males. Interestingly, overexpression of acetyl‐CoA synthetase (ACS) could reprogram fatty acids, increase LysAc levels, and improve drought tolerance, highlighting the involvement of ACS‐derived acetyl‐CoA in drought responses. In addition, drought and exogenous AA induced sexually dimorphic LysAc associated with histones, transcription factors, and metabolic enzymes in willows. Especially, exogenous AA may greatly improve the photosynthetic capacity of S. myrtillacea males by decreasing LysAc levels and increasing the abundances of photosynthetic proteins. While hyperacetylation in glycolysis, TCA cycle, and fatty acid biosynthesis potentially possibly serve as negative feedback to acclimate acetyl‐CoA biosynthesis and utilization in drought‐stressed males and AA‐applicated females. Thus, acetyl‐CoA biosynthesis and utilization determine the sexually dimorphic responses of S. myrtillacea to drought and exogenous AA. [ABSTRACT FROM AUTHOR]

Published

2024

5. Genetic diversity and population structure of an insect‐pollinated and bird‐dispersed dioecious tree Magnolia kwangsiensis in a fragmented karst forest landscape.

Author

Lin, Yanfang, Xiang, Yingying, Wei, Sujian, Zhang, Qiwei, Liu, Yanhua, Zhang, Zhiyong, and Tang, Shaoqing

Subjects

*MICROSATELLITE repeats, *GENETIC variation, *POLLEN dispersal, *SEED dispersal, *POPULATION genetics, *CHLOROPLAST DNA, *POLLINATORS

Abstract

This study combined population genetics and parentage analysis to obtain foundational data for the conservation of Magnolia kwangsiensis. M. kwangsiensis is a Class I tree species that occurs in two disjunct regions in a biodiversity hotspot in southwest China. We assessed the genetic diversity and structure of this species across its distribution range to support its conservation management. Genetic diversity and population structure of 529 individuals sampled from 14 populations were investigated using seven nuclear simple sequence repeat (nSSR) markers and three chloroplast DNA (cpDNA) fragments. Parentage analysis was used to evaluate the pollen and seed dispersal distances. The nSSR marker analysis revealed a high genetic diversity in M. kwangsiensis, with an average observed (Ho) and expected heterozygosities (He) of 0.726 and 0.687, respectively. The mean and maximum pollen and seed dispersal distances were 66.4 and 95.7 m and 535.4 and 553.8 m, respectively. Our data revealed two distinct genetic groups, consistent with the disjunct geographical distribution of the M. kwangsiensis populations. Both pollen and seed dispersal movements help maintain genetic connectivity among M. kwangsiensis populations, contributing to high levels of genetic diversity. Both genetically differentiated groups corresponding to the two disjunct regions should be recognized as separate conservation units. [ABSTRACT FROM AUTHOR]

Published

2024

6. Sex‐specific phosphorus acquisition strategies and cycling in dioecious Populus euphratica forests along a natural water availability gradient.

Author

Liu, Miao, Ye, Liyun, Chen, Liangliang, Korpelainen, Helena, Niinemets, Ülo, and Li, Chunyang

Subjects

*WATER supply, *VESICULAR-arbuscular mycorrhizas, *POPLARS, *PLANT-water relationships, *BIOGEOCHEMICAL cycles

Abstract

Soil phosphorus (P) availability affects plant growth and distribution. However, it is still unknown how sex‐specific variation in functional traits affects plants' P acquisition and soil P transformation. On wet sites, female poplars had a greater specific root length (SRL), and a higher diversity of arbuscular mycorrhizal fungi (AMF) and phosphate‐solubilizing bacteria (PSB). Male poplars living on wet sites increased the abundance of AMF and PSB communities and enhanced moderately labile and highly resistant organic P mineralisation via increased phosphatase activity. In contrast, on the dry site, the abundance and diversity of AMF and PSB communities increased in females, enhancing moderately labile and highly resistant organic P mineralisation via elevating phosphatase activities. Males maintained greater SRL and promoted Ca‐P mobilisation via the release of root carboxylic acids and rhizosphere acidification on the dry site. The AMF community diversity followed a similar pattern as that of the PSB community when altering the P availability of different‐sex plants. Our results indicated that organic P and Ca‐P are the major sources of plant‐available P in natural P. euphratica forests. Seasonal shifts and geographic locations affected the share of organic and inorganic P pools, and AMF and PSB diversities, ultimately altering sex‐specific P acquisition strategies of plants. Summary statement: Sex‐specific physiological and physiochemical adjustments of plants to soil water variation differentially regulate organic P mineralisation and inorganic P source mobilisation and accelerate biogeochemical P cycling in soil, which predicts the impact of climate change on soil P biogeochemical processes and sex ratio segregation in natural P. euphratica forests. [ABSTRACT FROM AUTHOR]

Published

2024

7. Rethinking pathways to the dioecy–polyploidy association: Genera with many dioecious species have fewer polyploids.

Author

Osterman, Wilhelm H. A., Hill, Adrian, Hagan, James G., Whitton, Jeannette, Bacon, Christine D., and Bjorkman, Anne D.

Subjects

*SEXUAL dimorphism, *PLOIDY, *INTERSEXUALITY, *POLYPLOIDY, *POLLINATION, *GENOMES

Abstract

Premise: Numerous studies have found a positive association between dioecy and polyploidy; however, this association presents a theoretical conflict: While polyploids are predicted to benefit from self‐reproduction for successful establishment, dioecious species cannot self‐reproduce. We propose a theoretical framework to resolve this apparent conflict. We hypothesize that the inability of dioecious species to self‐reproduce hinders their establishment as polyploids. We therefore expect that genera with many dioecious species have fewer polyploids, leading to a negative association between polyploidy and dioecy across genera. Methods: We used three publicly available databases to determine ploidy and sexual systems for 131 genera and 546 species. We quantified (1) the relationship between the frequency of polyploid species and the frequency of dioecious species across genera, and (2) the proportion of polyploids with hermaphroditism and dioecy across species, adjusting for phylogenetic history. Results: Across genera, we found a negative relationship between the proportion of polyploids and the proportion of dioecious species, a consistent trend across clades. Across all species, we found that sexual system (dioecious or not) was not associated with polyploidy. Conclusions: Polyploids are rare in genera in which the majority of species are dioecious, consistent with the theory that self‐reproduction favors polyploid establishment. The low frequency of polyploidy among dioecious species indicates the association is not as widespread as previously suggested. Our findings are consistent with previous studies identifying a positive relationship between the two traits, but only if polyploidy promotes a transition to dioecy, and not the reverse. [ABSTRACT FROM AUTHOR]

Published

2024

8. One-factor sex determination evolves without linkage between feminizing and masculinizing mutations.

Author

Scott, Michael F. and Immler, Simone

Subjects

*X chromosome, *SEX determination, *SEX chromosomes, *ALLELES, *LOCUS (Genetics), *GENETIC sex determination

Abstract

The evolution of separate sexes from cosexuality requires at least two mutations: a feminizing allele to cause female development and a masculinizing allele to cause male development. Classically, the double mutant is assumed to be sterile, which leads to two-factor sex determination where male and female sex chromosomes differ at two loci. However, several species appear to have one-factor sex determination where sexual development depends on variation at a single locus. We show that one-factor sex determination evolves when the double mutant develops as a male or a female. The feminizing allele fixes when the double mutant is male, and the masculinizing allele fixes when the double mutant is female. The other locus then gives XY or ZW sex determination based on dominance: for example, a dominant masculinizer becomes a Y chromosome. Although the resulting sex determination system differs, the conditions required for feminizers and masculinizers to spread are the same as in classical models, with the important difference that the two alleles do not need to be linked. Thus, we reveal alternative pathways for the evolution of sex determination and discuss how they can be distinguished using new data on the genetics of sex determination. [ABSTRACT FROM AUTHOR]

Published

2024

9. A taxonomic revision of Garcinia sections Dicrananthera and Macrostigma (Clusiaceae) in Thailand.

Author

Ngernsaengsaruay, Chatchai and Chanton, Pichet

Abstract

Garcinia sections Dicrananthera and Macrostigma (Clusiaceae) is revised for Thailand. Three species are enumerated, i.e., one species, G. thorelii belongs to the section Dicrananthera, and two species, G. nuntasaenii and G. prainiana, are in the section Macrostigma. Detailed morphological descriptions and illustrations are provided, together with notes on distribution, habitats and ecology, phenology, conservation assessments, etymology, vernacular names, uses, and specimens examined. An identification key to the species of section Macrostigma is presented. One name, G. thorelii, is lectotypified here. For Garcinia nuntasaenii we recommend a conservation status of Endangered [ EN B2ab(v)] and for the other two species (G. prainiana and G. thorelii) a conservation status of Least concern [ LC ]. A number of vegetative characters and features of reproductive organs, especially the flowers, distinguish the two sections and we enumerate these herein. [ABSTRACT FROM AUTHOR]

Published

2024

10. Seed production in a dioecious subcanopy conifer tree Taxus baccata: the positive effect of neighboring males and female heterozygosity.

Author

Chybicki, Igor J., Bodziarczyk, Jan, Meyza, Katarzyna, and Oleksa, Andrzej

Subjects

*YEW, *GENETIC drift, *SEED industry, *ENDANGERED species, *WATER supply

Abstract

Seed production is known to reveal high individual variation in tree populations, shaping regeneration and competition patterns. In isolated populations, individual variation in seed production drives genetic drift and inbreeding, increasing the risk of local extinction. In this study, we investigated the variation in seed production within a natural remnant population of a dioecious conifer, Taxus baccata. The observed individual seed counts were highly variable and showed excessive zeros. The observed zeros were well explained by the small trunk circumference and the absence of neighboring males. Non-zero seed counts increased with female trunk circumference, neighboring male circumference, and female heterozygosity. In addition, seed production decreased with elevation, presumably reflecting water availability at the site. We did not observe an effect of canopy closure but, since trunk circumference showed a strong relationship with canopy closure, light availability may indirectly influence seed production by determining resources available for reproduction. Overall, the study shows that seed production in yew is strongly pollen-limited. However, for similarly sized and pollen-supplemented trees, seed production may be further determined by an individual genotype and micro-environmental factors. Whether the observed variation in seed production drives density-dependent effects (e.g. mortality) in recruited seedlings remains a matter for future studies. [ABSTRACT FROM AUTHOR]

Published

2024

11. Trait correlation and the assembly of island plant communities: Evidence from the Southwest Pacific.

Author

Ciarle, Riccardo

Subjects

*PLANT breeding, *ISLAND plants, *PLANT variation, *PLANT communities, *ARCHIPELAGOES

Abstract

Aims: Predictable and consistent differences between island and mainland organisms arising from biased colonization/establishment are known as insular assembly rules. Baker's rule is a long‐standing assembly rule predicting that the incidence of dioecy among early island colonizers should be lower than that of the mainland source pool. While Baker's rule is an established pattern of island floras, whether it results from trait correlation or factors other than insularity remains poorly understood. Here, I investigated the relative roles of insularity, climate, and dioecy‐correlated traits in regulating the incidence of dioecy across islands. Location: Southwest Pacific. Methods: I amassed a data set of 485 plant species distributed across eight archipelagos surrounding New Zealand. Trait correlation was estimated using an association rule algorithm. I then used a null model and undirected network models to test for Baker's rule and to disentangle the relative roles of insularity, climate, and dioecy‐correlated traits in filtering dioecy among undifferentiated island colonizers. Results: Some archipelagos conformed to Baker's rule, but the incidence of dioecy was not directly linked to insularity. Instead, it was directly regulated by dioecy‐related traits, that is, fleshy‐fruitedness and woody habit, which in turn were primarily driven by climate. Conclusions: Island assembly rules can result from trait correlation. While results were partially consistent with predictions by Baker's rules, this resulted from dioecy‐related traits being largely excluded from island colonization/establishment because of climatic factors, not insularity. Geographic variation in this plant breeding system can be determined endogenously, rather than by being filtered directly by the characteristics of islands per se. [ABSTRACT FROM AUTHOR]

Published

2024

12. Genomic analyses provide insights into sex differentiation of tetraploid strawberry (Fragaria moupinensis).

Author

Qiao, Qin, Cao, Qiang, Zhang, Rengang, Wu, Mingzhao, Zheng, Yibingyue, Xue, Li, Lei, Jiajun, Sun, Hang, Liston, Aaron, and Zhang, Ticao

Subjects

*STRAWBERRIES, *SEX differentiation (Embryology), *GENOMICS, *SEX determination, *GENETIC sex determination, *DIOECIOUS plants, *GENOME-wide association studies, WESTERN countries

Abstract

Summary: The strawberry genus, Fragaria, exhibits a wide range of sexual systems and natural ploidy variation. Nearly, all polyploid strawberry species exhibit separate sexes (dioecy). Research has identified the sex‐determining sequences as roughly conserved but with repeatedly changed genomic locations across octoploid strawberries. However, it remains unclear whether tetraploid wild strawberries evolved dioecy independently or shared a common origin with octoploid strawberries. In this study, we investigated the sex determinants of F. moupinensis, a dioecious plant with heterogametic females (ZW). Utilizing a combination of haplotype‐resolved genome sequencing of the female F. moupinensis, k‐mer‐based and coverage‐based genome‐wide association studies (GWAS), and transcriptomic analysis, we discovered a non‐recombining, approximately 33.6 kb W‐specific region on chromosome 2a. Within this region, only one candidate sex‐determining gene (FmoAFT) was identified. Furthermore, an extensive resequencing of the entire Fragaria genus indicated that the W‐specific region displays conservative female specificity across all tetraploid species. This observation suggests that dioecy evolved independently in tetraploid and octoploid strawberries. Moreover, employing virus‐induced gene silencing (VIGS), we knocked down the expression of the FmoAFT homologue transcript in cultivated strawberries, revealing its potential role in promoting female functions during early carpel development. We also applied DNA affinity purification sequencing (DAP‐seq) and yeast one‐hybrid assays to identify potential direct targets of FmoAFT. These insights shed new light on the genetic basis and evolutionary history of sex determination in strawberries, thereby facilitating the formulation of strategies to manipulate sex determination in breeding programs. [ABSTRACT FROM AUTHOR]

Published

2024

13. Looking for non-hermaphrodite cacti: multidisciplinary studies in Gymnocalycium bruchii endemic to central Argentina.

Author

Delbón, Natalia E., Aliscioni, Nayla L., Lorenzati, Marina, García, Sergio, Singer, Rodrigo B., and Gurvich, Diego E.

Subjects

*CACTUS, *FLOWERING of plants, *GENITALIA, *PLANT size, *FLOWER shows, *SEXUAL dimorphism

Abstract

Key message: Through a multidisciplinary study we found that Gymnocalycium bruchii, an endemic cactus from central Argentina, acts as a dioecious species, which is the first record in this genus. Cactaceae species are typically hermaphroditic; however, about 2% have other different reproductive systems. These non-hermaphroditic species may develop sexual dimorphism in flowers or other reproductive, vegetative or ecological traits, besides a specific breeding system and floral ontogeny. Therefore, multidisciplinary research is necessary to fully understand reproduction in those species. For this purpose, we studied Gymnocalicium bruchii, a globose cactus endemic to central Argentina that is presumably dioecious or gynodioecious. We made observations in two natural and two cultivated populations. We made morphological observations of plants and flowers, and performed quantitative analyses to determine the sex ratio, size of plants and flowers, flower production, fruiting, among other variables. We performed hand-pollination, self-fertilization and free-pollination tests to determine the breeding system. Finally, we studied the anatomy and ontogeny of the reproductive organs using permanent histological slides of flower morphs at different stages. Our results confirm that Gymnocalicium bruchii is a dioecious species. Female flowers have atrophied anthers and a functional gynoecium that produces fruits and seeds. Male flowers are bigger and have a functional androecium but a sterile gynoecium. In the cultivated population, the sex ratio was 1/1, whereas the number of male individuals was higher in both natural populations. Pollination tests corroborated dioecy. Ontogenetic studies revealed that in female flowers the anthers collapse before microspore maturation, while in male flowers the gynoecium shows normal development of the ovary, style, stigma, and ovules; however, the latter are never fertilized. [ABSTRACT FROM AUTHOR]

Published

2024

14. Population Genomics of Yams: Evolution and Domestication of Dioscorea Species

Author

Sugihara, Yu, Kudoh, Aoi, Oli, Muluneh Tamiru, Takagi, Hiroki, Natsume, Satoshi, Shimizu, Motoki, Abe, Akira, Asiedu, Robert, Asfaw, Asrat, Adebola, Patrick, Terauchi, Ryohei, and Rajora, Om P., Editor-in-Chief

Published

2024

15. Functional consequences of temporal reversal of height dimorphism for pollen and seed dispersal in a dioecious plant.

Author

Zeng, Zhi‐Hua, Yu, Qian, Feng, Qing‐Hong, Wang, Xin‐Jia, Zhong, Li, Sun, Hua‐Ying, Wang, Hong, Li, De‐Zhu, Barrett, Spencer C.H., and Zhou, Wei

Subjects

*DIOECIOUS plants, *POLLEN dispersal, *SEED dispersal, *PLANT dispersal, *LIFE history theory, *RUMEX, *SEEDS, *ENDOSPERM

Abstract

The adaptive significance of phenotypic differences between females and males can provide insights into sex‐specific selection and the evolution of sexual dimorphism. Dioecious plants commonly exhibit sexual dimorphism in height, although its ecological and evolutionary significance have rarely been examined experimentally. Here, we investigate the functional consequences of the temporal reversal of height dimorphism for pollen and seed dispersal in dioecious Rumex hastatulus Baldw., a species in which males are taller than females at flowering and the reverse pattern occurs at fruiting. Populations of this colonizing weed are wind‐pollinated and seeds are wind‐dispersed. In a glasshouse experiment we manipulated the height of pollen donors and using sex‐specific genetic markers compared the paternal success of males of contrasting height and investigated whether seed families showed evidence of sexual dimorphism in early life‐history traits. In a second glasshouse experiment using fruiting plants we also examined how female height influenced the distance that seeds were dispersed. We found that taller males had significantly higher siring success than males of equivalent height to flowering females. Similarly, taller females dispersed fruit to greater distances than shorter females. Female seeds were significantly heavier than male seeds and germinated more rapidly, although early seedling growth was greater in males. Our study suggests that the striking sex reversal of height in R. hastatulus likely functions to optimize the contrasting reproductive functions of the sexes by promoting increased pollen and seed dispersal distances. Improved dispersal quality could limit inbreeding and reduce local mate and resource competition within populations. [ABSTRACT FROM AUTHOR]

Published

2024

16. Size class, sex ratio, and spatial distribution of four populations of Pimelea microcephala subsp. microcephala under different long-term rainfall regimes.

Author

Draper, J. T., Conran, J. G., Delean, S., Weinstein, P., and Simpson, B. S.

Subjects

*RAINFALL, *FOREST canopies, *REPRODUCTION, *SEX ratio, *ARID regions, *SEED dispersal, *DIOECIOUS plants

Abstract

The separation of sexes in dioecious plants enables males and females to adopt different strategies to balance reproduction and growth, but can also lead to female susceptibility due to their high reproductive burden. Understanding if a dioecious species is susceptible or adaptable in the face of worsening abiotic conditions would be useful for revegetating habitats under climate change. Our study compared four populations of the Australian native shrub, Pimelea microcephala subsp. microcephala (n = 885) across an annual rainfall gradient of ∼250–400 mm to understand the impact of decreasing rainfall on size classes, growth metrics, sex ratio, the proportion of juveniles and spatial distributions. We found that irrespective of site rainfall, male and female plants achieved similar sizes. The populations exhibited four size classes, defined by height, diameter and sex, but not site rainfall (unpaired group method with arithmetic mean cluster analysis, p <.05). Spatially, populations reflected the clumped distribution of overlying canopy cover, and did not demonstrate niche partitioning between sexes. The lack of population variation with rainfall indicates that the species may be suitable for arid zone revegetation in arid regions with declining rainfall. Conservation management of the species should include maintaining canopy tree cover to encourage seed dispersal. [ABSTRACT FROM AUTHOR]

Published

2024

17. Secondary sexual dimorphism and morphological diversity in two allopatric juniper species: Juniperus oxycedrus and J. deltoides.

Author

Vidaković, Antonio, Šatović, Zlatko, Tumpa, Katarina, Idžojtić, Marilena, Barišić, Andrija, and Poljak, Igor

Subjects

*SEXUAL dimorphism, *JUNIPERS, *SPECIES, *BONSAI, *CONIFERS

Abstract

Juniperus L. is a very diverse genus of dioecious or monoecious conifers distributed throughout the Mediterranean region. In addition to the complex taxonomic characteristics of the genus, sexual dimorphism leads to sexspecific differences in the morphology of juniper species, which further complicates the delimitation of species. Two of these species, Juniperus oxycedrus L., which occurs in the western part of the Mediterranean, and J. deltoides R.P.Adams, which occurs in the eastern part, have only recently been delimited as separate species. To further support the delimitation of the species, we examined the phenotypic traits of the cones and needles of both species for both sexes. Three populations from the western and three from the eastern part of the Mediterranean region were sampled and a total of 2400 needles, 1200 cones and 1200 seeds were measured and analyzed. Both needles and cones of J. oxycedrus were slightly larger, longer and wider than those of J. deltoides and also less variable. Sexual dimorphism was observed in most of the needle traits measured, with the majority of traits in J. oxycedrus being larger in females than in males. Although sexual dimorphism was confirmed based on needle morphology, no consistent pattern of diversity was observed between the two species. In addition, variability among populations of J. oxycedrus was higher than that of J. deltoides. Our results confirm the previous species delimitation and open the possibility for further exploration of sex-specific differences in adaptability, as well as the potential implications for differential management and conservation of individuals of both sexes. [ABSTRACT FROM AUTHOR]

Published

2024

18. Unstable patterns of flower structure and development in the almost dioecious species Acer negundo (Sapindaceae, Sapindales).

Author

Zavialov, Alexander E and Remizowa, Margarita V

Subjects

*FLOWER development, *SAPINDACEAE, *MAPLE, *SPECIES, *CARPEL, *INFLORESCENCES

Abstract

Acer negundo L. is a wind-pollinated, dioecious tree that occasionally produces flowers with rudiments of the opposite sex. Both the male (staminate) and female (pistillate) flowers possess only two whorls: sepals and stamens or carpels, the arrangement of which is disputed. Here we present data on inflorescence and floral development, pollen fertility in staminodes and the diversity of male and female flowers. We found that the merism of male flowers is unstable, and the numbers of stamens and sepals vary independently. The different floral groundplans always occur within the inflorescences of the same generative shoot. The development of a flower begins with the initiation of sepals, but in female flowers, sepals are initiated sequentially and remain of different sizes, whereas in male flowers, sepals are initiated almost simultaneously and are equal. After the appearance of stamen primordia or carpel primordia, a part of the undifferentiated meristem remains. This unused meristem can be involved in producing staminodes or pistillodia. Both unisexual and (partly) bisexual flowers are found in the same inflorescence. Staminodes are either completely sterile or produce some amount of viable pollen. These features indicate the possibility of functional bisexuality in A. negundo. [ABSTRACT FROM AUTHOR]

Published

2024

19. Genetic diversity and population structure of an insect‐pollinated and bird‐dispersed dioecious tree Magnolia kwangsiensis in a fragmented karst forest landscape

Author

Yanfang Lin, Yingying Xiang, Sujian Wei, Qiwei Zhang, Yanhua Liu, Zhiyong Zhang, and Shaoqing Tang

Subjects

dioecy, genetic diversity, karst forest, Magnolia kwangsiensis, population structure, Ecology, QH540-549.5

Abstract

Abstract This study combined population genetics and parentage analysis to obtain foundational data for the conservation of Magnolia kwangsiensis. M. kwangsiensis is a Class I tree species that occurs in two disjunct regions in a biodiversity hotspot in southwest China. We assessed the genetic diversity and structure of this species across its distribution range to support its conservation management. Genetic diversity and population structure of 529 individuals sampled from 14 populations were investigated using seven nuclear simple sequence repeat (nSSR) markers and three chloroplast DNA (cpDNA) fragments. Parentage analysis was used to evaluate the pollen and seed dispersal distances. The nSSR marker analysis revealed a high genetic diversity in M. kwangsiensis, with an average observed (Ho) and expected heterozygosities (He) of 0.726 and 0.687, respectively. The mean and maximum pollen and seed dispersal distances were 66.4 and 95.7 m and 535.4 and 553.8 m, respectively. Our data revealed two distinct genetic groups, consistent with the disjunct geographical distribution of the M. kwangsiensis populations. Both pollen and seed dispersal movements help maintain genetic connectivity among M. kwangsiensis populations, contributing to high levels of genetic diversity. Both genetically differentiated groups corresponding to the two disjunct regions should be recognized as separate conservation units.

Published

2024

20. Genetic potential for changes in breeding systems: Predicted and observed trait changes during artificial selection for male and female allocation in a gynodioecious species

Author

Campbell, Diane R, Sakai, Ann K, Weller, Stephen G, Culley, Theresa M, Dunbar‐Wallis, Amy K, Andres, Allen M, Wong, Tiffany G, Dang, Tam, Au, Bryan, Ku, Mickey, Marcantonio, Andrea R, Ngo, Paul J, Nguyen, Andrew A, Tran, My Hanh, and Tran, Quoc‐Phong

Subjects

Biological Sciences, Ecology, Evolutionary Biology, Genetics, Animals, Flowers, Plant Breeding, Pollination, Caryophyllaceae, Phenotype, artificial selection, between-sex correlation, dioecy, genetic correlation, inflorescence, Schiedea, sex allocation, Plant Biology, Evolutionary biology, Plant biology

Abstract

PremiseEvolution of separate sexes from hermaphroditism often proceeds through gynodioecy, but genetic constraints on this process are poorly understood. Genetic (co-)variances and between-sex genetic correlations were used to predict evolutionary responses of multiple reproductive traits in a sexually dimorphic gynodioecious species, and predictions were compared with observed responses to artificial selection.MethodsSchiedea (Caryophyllaceae) is an endemic Hawaiian lineage with hermaphroditic, gynodioecious, subdioecious, and dioecious species. We measured genetic parameters of Schiedea salicaria and used them to predict evolutionary responses of 18 traits in hermaphrodites and females in response to artificial selection for increased male (stamen) biomass in hermaphrodites or increased female (carpel, capsule) biomass in females. Observed responses over two generations were compared with predictions in replicate lines of treatments and controls.ResultsIn only two generations, both stamen biomass in hermaphrodites and female biomass in females responded markedly to direct selection, supporting a key assumption of models for evolution of dioecy. Other biomass traits, pollen and ovule numbers, and inflorescence characters important in wind pollination evolved indirectly in response to selection on sex allocation. Responses generally followed predictions from multivariate selection models, with some responses unexpectedly large due to increased genetic correlations as selection proceeded.ConclusionsResults illustrate the power of artificial selection and utility of multivariate selection models incorporating sex differences. They further indicate that pollen and ovule numbers and inflorescence architecture could evolve in response to selection on biomass allocation to male versus female function, producing complex changes in plant phenotype as separate sexes evolve.

Published

2022

21. Young evolutionary origins of dioecy in the genus Asparagus.

Author

Bentz, Philip C., Liu, Zhengjie, Yang, Jun‐Bo, Zhang, Le, Burrows, Sandra, Burrows, John, Kanno, Akira, Mao, Zichao, and Leebens‐Mack, Jim

Subjects

*ASPARAGUS, *SEX chromosomes, *ASPARAGACEAE, *TIME perception, *ANGIOSPERMS

Abstract

Premise: Dioecy (separate sexes) has independently evolved numerous times across the angiosperm phylogeny and is recently derived in many lineages. However, our understanding is limited regarding the evolutionary mechanisms that drive the origins of dioecy in plants. The recent and repeated evolution of dioecy across angiosperms offers an opportunity to make strong inferences about the ecological, developmental, and molecular factors influencing the evolution of dioecy, and thus sex chromosomes. The genus Asparagus (Asparagaceae) is an emerging model taxon for studying dioecy and sex chromosome evolution, yet estimates for the age and origin of dioecy in the genus are lacking. Methods: We use plastome sequences and fossil time calibrations in phylogenetic analyses to investigate the age and origin of dioecy in the genus Asparagus. We also review the diversity of sexual systems present across the genus to address contradicting reports in the literature. Results: We estimate that dioecy evolved once or twice approximately 2.78−3.78 million years ago in Asparagus, of which roughly 27% of the species are dioecious and the remaining are hermaphroditic with monoclinous flowers. Conclusions: Our findings support previous work implicating a young age and the possibility of two origins of dioecy in Asparagus, which appear to be associated with rapid radiations and range expansion out of Africa. Lastly, we speculate that paleoclimatic oscillations throughout northern Africa may have helped set the stage for the origin(s) of dioecy in Asparagus approximately 2.78−3.78 million years ago. [ABSTRACT FROM AUTHOR]

Published

2024

22. Gender specific SNP markers in Coscinium fenestratum (Gaertn.) Colebr. for resource augmentation.

Author

Unnikrishnan, Remya, Balakrishnan, Swathi, Sumod, M, Sujanapal, P, Balan, Bipin, and Dev, Suma Arun

Abstract

Background: Unregulated extraction of highly traded medicinal plant species results in drastic decline of the natural resources and alters viable sex ratio of populations. Conservation and long-term survival of such species, require gender specific restoration programs to ensure reproductive success. However, it is often difficult to differentiate sex of individuals before reaching reproductive maturity. C. fenestratum is one of the medicinally important and overexploited dioecious woody liana, with a reproductive maturity of 15 years. Currently, no information is available to identify sex of C. fenestratum in seedling stage while augmenting the resources. Thus, the current study envisages to utilize transcriptomics approach for gender differentiation which is imperative for undertaking viable resource augmentation programmes. Methods and results: Gender specific SNPs with probable role in sexual reproduction/sex determination was located using comparative transcriptomics approach (sampling male and female individuals), alongside gene ontology and annotation. Nine sets of primers were synthesized from 7 transcripts (involved in sexual reproduction/other biological process) containing multiple SNP variants. Out of the nine primer pairs, only one SNP locus with no available information of its role in reproduction, showed consistent and accurate results (males-heterozygous and females-homozygous), in the analyzed 40 matured individuals of known sexes. Thus validated the efficiency of this SNP marker in differentiating male and female individuals. Conclusions: The study could identify SNPs linked to the loci with apparent role in gender differentiation. This SNP marker can be used for early sexing of seedlings for in-situ conservation and resource augmentation of C. fenestratum in Kerala, India. [ABSTRACT FROM AUTHOR]

Published

2024

23. Influence of sexual dimorphism and dichromatism on reproductive success in a rare native cactus.

Author

Ramadoss, Niveditha, Steele, Scarlet, and Flores-Rentería, Lluvia

Subjects

*SEXUAL dimorphism, *BIOLOGICAL fitness, *CACTUS, *FLUORESCENT dyes, *WILDLIFE conservation, *POLLINATORS

Abstract

Identifying plant sexual dimorphic traits is critical in advancing our knowledge on plant–pollinator interactions. For example, dimorphism in floral colors, or sexual dichromatism, is a crucial mediator of pollinator choice on foraging decisions. We studied Cylindropuntia wolfii, a model system, with diverse flower colors and a functionally dioecious sexual system. However, evidence suggests that sexual reproduction is limited in this species as it has a low seed set especially in naturally pollinated fruits. Thus, it is critical to this native species' conservation to investigate its relationship with pollinators. Our goals were to: (a) investigate the sexual dimorphism including the sexual dichromatism in the flowers of the cactus, and (b) determine whether sexually dimorphic traits affect the pollinator attraction of both the sexes. We measured several quantitative and qualitative traits and compared them between male and female flowers. Then we recorded the pollinator visitation rate in nature for both sexes and tracked pollinator color preference using fluorescent dyes as pollen analogues. Our study showed that male flowers of C. wolfii are bigger and brighter, and they attract more potential pollinators than females, supporting the hypothesis that sexual dimorphism influences pollinator visitation preference. Fluorescence dichromatism, in which female flowers' anthers fluoresce more than male flower anthers suggest this could be female flowers' strategy to compensate for their dark colors and small size. The results from this study showed that C. wolfii exhibits sexual dichromatism and fluorescence dichromatism, which is a novel finding in plant research. [ABSTRACT FROM AUTHOR]

Published

2023

24. Miconia burkeae (Melastomataceae), a new dioecious tree from the montane forests of the Peruvian Andes.

Author

Angulo, Juan C. and Michelangeli, Fabián A.

Subjects

*MOUNTAIN forests, *MELASTOMATACEAE, *SILENE (Genus), *TREES

Abstract

We describe Miconia burkeae, a new dioecious species of Miconia section Cremanium from the Peruvian Andes. The new species shares the presence of nearly sessile and glabrescent leaves with two other Andean species in section Cremanium, M. lilacina and M. opacifolia, but differs in leaf shape and texture, as well as other characters. The occurrence of dioecy in Miconia is discussed. [ABSTRACT FROM AUTHOR]

Published

2023

25. Sexual systems in the New Zealand angiosperm flora.

Author

McGlone, Matt S. and Richardson, Sarah J.

Subjects

*BOTANY, *ANGIOSPERMS, *WOODY plants, *SHRUBS, *POLLINATION, *TEMPERATE forests, *GENDER

Abstract

We present data on sexual systems and associated traits in the New Zealand angiosperm flora and discuss reasons for the anomalously high levels of gender dimorphism in the flora, and the low levels of monoecy in woody species. Along with Hawai’i and New Caledonia, New Zealand has exceptionally high levels of gender dimorphism (19.5% of angiosperm species). The plant traits associated with gender dimorphism (woody growth, small, unspecialised white to yellow-green flowers, abiotic pollination, fleshy fruit) are the same as those in other regions and most gender dimorphic species belong to lineages that were already gender dimorphic on arrival in New Zealand. We attribute the high levels of gender dimorphism to several distinct factors. New Zealand’s evergreen forests have many small trees and understorey shrubs with fleshy fruit and small, open, inconspicuous flowers, a combination characterised by high levels of gender dimorphism elsewhere. Many of these species belong to lineages that migrated from the tropical north, a region with high levels of gender dimorphism. In comparison with many other regions, the New Zealand angiosperm flora has few annuals, and few plants with large, specialised flowers or pollinated by birds, traits elsewhere associated with exceedingly low levels of gender dimorphism. Finally, chance may have played a role through the association of gender dimorphism with rapidly radiating lineages. While the New Zealand angiosperm flora has similar levels of monoecy (14.2%) to other comparable regions, monoecy is exceptionally uncommon in the tree flora (3.4% for strictly monoecious species). However, the endemic Nothofagaceae and introduced woody monoecious species thrive in New Zealand. We suggest it is the lack of temperate sources for monoecious tree species, combined with the difficulty large-fruited monoecious tropical species have in crossing ocean gaps that may be ultimate reason for their failure to establish in greater numbers. [ABSTRACT FROM AUTHOR]

Published

2023

26. A taxonomic revision of Garcinia section Xanthochymus (Clusiaceae) in Thailand.

Author

Chatchai Ngernsaengsaruay, Pichet Chanton, Minta Chaiprasongsuk, and Nisa Leksungnoen

Subjects

GARCINIA, CLUSIACEAE, HABITATS, WILDLIFE conservation, SYNONYMS

Abstract

Garcinia section Xanthochymus (Clusiaceae) is revised for Thailand with four native species, i.e., G. dulcis, G. nervosa, G. prainiana, and G. xanthochymus. All species are described with updated morphological descriptions, illustrations, and an identification key, together with notes on distributions, distribution maps, habitats and ecology, phenology, conservation assessments, etymology, vernacular names, uses, and specimens examined. Four taxa, G. andamanica, G. andamanica var. pubescens, G. cambodgiensis and G. vilersiana, are synonymized under G. dulcis, and two taxa, G. nervosa var. pubescens and G. spectabilis, are newly synonymized under G. nervosa. Nine names are lectotypified: G. dulcis and its associated synonyms (G. cambodgiensis and G. vilersiana), G. nervosa and its associated synonyms (G. andersonii, G. nervosa var. pubescens, and G. spectabilis), G. prainiana, and G. xanthochymus. All species have a conservation assessment of Least Concern (LC). The fruits of all species are edible and have a sour or sweet-sour taste. [ABSTRACT FROM AUTHOR]

Published

2023

27. Comparative transcriptomic analysis of male and females in the dioecious weeds Amaranthus palmeri and Amaranthus tuberculatus

Author

Lucas K. Bobadilla, Yousoon Baek, and Patrick J. Tranel

Subjects

Dioecy, Sex-determination, Reproduction, Weeds, RNA-seq, Sex-determinant region, Botany, QK1-989

Abstract

Abstract Background Waterhemp (Amaranthus tuberculatus (Moq.) Sauer) and Palmer amaranth (Amaranthus palmeri S. Wats.) are two dioecious and important weed species in the world that can rapidly evolve herbicide-resistance traits. Understanding these two species' dioecious and sex-determination mechanisms could open opportunities for new tools to control them. This study aims to identify the differential expression patterns between males and females in A. tuberculatus and A. palmeri. Multiple analyses, including differential expression, co-expression, and promoter analyses, used RNA-seq data from multiple tissue types to identify putative essential genes for sex determination in both dioecious species. Results Genes were identified as potential key players for sex determination in A. palmeri. Genes PPR247, WEX, and ACD6 were differentially expressed between the sexes and located at scaffold 20 within or near the male-specific Y (MSY) region. Multiple genes involved with flower development were co-expressed with these three genes. For A. tuberculatus, no differentially expressed gene was identified within the MSY region; however, multiple autosomal class B and C genes were identified as differentially expressed and possible candidate genes. Conclusions This is the first study comparing the global expression profile between males and females in dioecious weedy Amaranthus species. Results narrow down putative essential genes for sex-determination in A. palmeri and A. tuberculatus and also strengthen the hypothesis of two different evolutionary events for dioecy within the genus.

Published

2023

28. Allelochemicals and soil microorganisms jointly mediate sex‐specific belowground interactions in dioecious Populus cathayana.

Author

Xia, Zhichao, He, Yue, Korpelainen, Helena, Niinemets, Ülo, and Li, Chunyang

Subjects

*SOIL microbiology, *ALLELOCHEMICALS, *POPLARS, *ENVIRONMENTAL soil science, *SOIL composition

Abstract

Summary: Little is known about how sex differences in root zone characteristics, such as contents of allelochemicals and soil microbial composition, mediate intra‐ and intersexual interactions in dioecious plants.We examined the processes and mechanisms of sex‐specific belowground interactions mediated by allelochemicals and soil microorganisms in Populus cathayana females and males in replicated 30‐yr‐old experimental stands in situ and in a series of controlled experiments.Female roots released a greater amount and more diverse phenolic allelochemicals into the soil environment, resulting in growth inhibition of the same sex neighbors and deterioration of the community of soil microorganisms. When grown with males, the growth of females was consistently enhanced, especially the root growth. Compared with female monocultures, the presence of males reduced the total phenolic accumulation in the soil, resulting in a shift from allelopathic inhibition to chemical facilitation. This association was enhanced by a favorable soil bacterial community and increased bacterial diversity, and it induced changes in the orientation of female roots.Our study highlighted a novel mechanism that enhances female performance by males through alterations in the allelochemical content and soil microbial composition. The possibility to improve productivity by chemical mediation provides novel opportunities for managing plantations of dioecious plants. [ABSTRACT FROM AUTHOR]

Published

2023

29. Gender dimorphic species flower earlier than cosexuals.

Author

Richardson, Sarah J., McCarthy, James K., Tanentzap, Andrew J., Houliston, Gary J., Ausseil, Anne‐Gaelle, Wilton, Aaron D., Clearwater, Mike J., Burge, Olivia R., Perry, George L. W., and McGlone, Matthew S.

Subjects

*FLOWERING time, *PLANT phenology, *SEXUAL selection, *PHYLOGENETIC models, *SPECIES, *LIFE history theory

Abstract

The timing of flowering is central to plant life‐history as it initiates sexual reproduction, thus controlling plant interaction with pollinators and climate factors. A fundamental question is: what are the drivers of flowering time strategy in a species?We assembled mean flowering times for the indigenous dicotyledonous flora of New Zealand (n = 1303 species, including 177 tree species) and used phylogenetic models to determine how climate, plant traits, and evolutionary history (phylogeny) controlled interspecific variation in flowering times across an island flora.Across all species, on average, flowering was 19 days earlier in abiotically pollinated species relative to biotically pollinated species, 23 days earlier in woody species, relative to herbaceous species, 45 days earlier in species with fleshy‐fruits, relative to species with dry fruits and 31 days earlier in gender dimorphic species, relative to cosexual species. Species in warmer and drier climates flowered earlier than those growing under cool, moist climates.When all factors were considered together, the strongest influence on flowering time was sexual system: gender dimorphic species flowered earlier than cosexuals, even after accounting for other factors.Synthesis. We propose that these differences in flowering time arise because of sexual selection for early male flowering and sexual conflict between male and female individuals. As sexual selection and conflict may be stronger in gender dimorphic species than in cosexual species, our study suggests that plant sexual system is an important force structuring the phenology of plant communities, with potential consequences for ecological interactions and ecosystem processes. [ABSTRACT FROM AUTHOR]

Published

2023

30. Reproductive Sexual Dimorphisms in Two Willow Species, Salix exigua Nutt. and Salix nigra Marshall.

Author

Hu, Nan, Hale, Haley, Sanderson, Brian, Feng, Guanqiao, Guo, Minghao, Gambhir, Diksha, and Olson, Matt

Subjects

*SEXUAL dimorphism, *DIOECIOUS plants, *SEX determination, *SEXUAL selection, *SPECIES

Abstract

Premise of research. The prevalence of sexual dimorphisms, which evolve due to contrasting strategies to maximize reproductive success in males and females, is variable among dioecious plant species. In the Salicaceae , many traits have been assessed across many studies, but direct or indirect associations between these traits and reproductive allocation are often neglected. Given the dynamic evolution of sex determination systems and the strong interest in wood production in the family, we wondered whether sexual dimorphisms related to reproduction may have gone unreported. Here, we assess sexual dimorphism in reproductive traits in two species of Salix. Recognition of reproductive sexually dimorphic traits will contribute to understanding the evolution of sex determination systems in the Salicaceae. Methodology. We conducted observational studies in natural populations to assess the presence of sexual dimorphisms in early spring bud density, catkin number, and flower number per catkin across four sampling periods in Salix exigua. We also analyzed flower number and catkin number per flower in Salix nigra. Pivotal results. We observed no sexual dimorphism in preseason buds per branch in S. exigua but did find that males produced more flowers per catkin and more catkins per branch than females in both S. exigua and S. nigra. Conclusions. Higher flower numbers in males compared to females are consistent with expectations from intrasexual selection among males. The presence of reproductive sexual dimorphisms in Salix suggests that sexual selection may affect the evolution of mating strategies in Salix species and the evolution of the sex determination system within this genus. [ABSTRACT FROM AUTHOR]

Published

2023

31. Cosexuality Reduces Pollen Production and Fitness in Cannabis sativa L.

Author

Wizenberg, Sydney B., Muir-Guarnaccia, Jillian, and Campbell, Lesley G.

Subjects

POLLEN, CANNABIS (Genus), POLLEN viability, POLLINATION, PLANT populations, PHENOLOGY

Abstract

Cannabis sativa L. is cultivated globally for its cannabinoid-dense inflorescences. Commercial preference for sinsemilla has led to the development of methods for producing feminized seeds through cross-pollination of cosexual (masculinized) female plants. Although the induction of cosexuality in Cannabis plants is common, to date, no work has empirically tested how masculinization of female Cannabis plants impacts male flowering, pollen production, pollen fitness, and related life-history trade-offs. Here, we cultivated a population of Cannabis plants (CFX-2) and explored how the route to cosexuality (drought vs. chemical induction) impacted flowering phenology, pollen production, and pollen fitness, relative to unsexual male plants. Unisexual males flowered earlier and longer than cosexual plants and produced 223% more total pollen (F2,28 = 74.41, p < 0.001), but per-flower pollen production did not differ across reproductive phenotypes (F2,21 = 0.887, p = 0.427). Pollen viability was 200% higher in unisexual males and drought-induced cosexuals (F2,36 = 189.70, p < 0.001). Pollen non-abortion rates only differed in a marginally significant way across reproductive phenotypes (F2,36 = 3.00, p = 0.06). Here, we demonstrate that masculinization of female plants impacts whole-plant pollen production and pollen fitness in Cannabis sativa. [ABSTRACT FROM AUTHOR]

Published

2023

32. A Multidisciplinary Study of Wild Grapevines in the River Crati Natural Reserve, South Italy (Calabria): Implications in Conservation Biology and Palaeoecological Reconstructions.

Author

Clò, Eleonora, Torri, Paola, Baliva, Michele, Brusco, Agostino, Marchianò, Roberto, Sgarbi, Elisabetta, Palli, Jordan, Mercuri, Anna Maria, Piovesan, Gianluca, and Florenzano, Assunta

Subjects

CONSERVATION biology, PALEOECOLOGY, VITIS vinifera, RIPARIAN areas, GRAPES, HABITAT destruction, PALYNOLOGY

Abstract

Nowadays, wild grapevine populations are quite limited and sporadic mainly due to habitat destruction, land-use change, and the spread of pathogens that have reduced their distribution range. Palaeoecological, archaeobotanical, and genetic studies indicate that modern cultivars of Vitis vinifera are the results of the domestication of the dioecious, and sometimes hermaphrodite, wild species standing in riparian zones and wet environments. Wild grapevine populations have declined as a consequence of various forms of anthropogenic disturbance and were assigned by the IUCN Red List of Threatened Species to the Least Concern category. The River Crati Natural Reserve (Riserva Naturale Foce del Crati), located in southern Italy, hosts a population of Vitis vinifera subsp. sylvestris in a rewilding wet forest close to the Ionian Sea. These protected areas are of high scientific, biogeographic, and conservation interest in terms of Mediterranean biodiversity. Dendroecological and pollen morpho-biometric analyses of the wild grapevine are presented in this study. Palaeoecological perspectives for a landscape management strategy aimed at conserving and restoring the relic grapevine population are discussed. [ABSTRACT FROM AUTHOR]

Published

2023

33. Functional analysis of Salix purpurea genes support roles for ARR17 and GATA15 as master regulators of sex determination

Author

Brennan Hyden, Dana L. Carper, Paul E. Abraham, Guoliang Yuan, Tao Yao, Leo Baumgart, Yu Zhang, Cindy Chen, Ronan O'Malley, Jin‐Gui Chen, Xiaohan Yang, Robert L. Hettich, Gerald A. Tuskan, and Lawrence B. Smart

Subjects

Arabidopsis, dioecy, proteomics, Salix, sex determination, transgenics, Botany, QK1-989

Abstract

Abstract The Salicaceae family is of growing interest in the study of dioecy in plants because the sex determination region (SDR) has been shown to be highly dynamic, with differing locations and heterogametic systems between species. Without the ability to transform and regenerate Salix in tissue culture, previous studies investigating the mechanisms regulating sex in the genus Salix have been limited to genome resequencing and differential gene expression, which are mostly descriptive in nature, and functional validation of candidate sex determination genes has not yet been conducted. Here, we used Arabidopsis to functionally characterize a suite of previously identified candidate genes involved in sex determination and sex dimorphism in the bioenergy shrub willow Salix purpurea. Six candidate master regulator genes for sex determination were heterologously expressed in Arabidopsis, followed by floral proteome analysis. In addition, 11 transcription factors with predicted roles in mediating sex dimorphism downstream of the SDR were tested using DAP‐Seq in both male and female S. purpurea DNA. The results of this study provide further evidence to support models for the roles of ARR17 and GATA15 as master regulator genes of sex determination in S. purpurea, contributing to a regulatory system that is notably different from that of its sister genus Populus. Evidence was also obtained for the roles of two transcription factors, an AP2/ERF family gene and a homeodomain‐like transcription factor, in downstream regulation of sex dimorphism.

Published

2023

34. Revision of Tinospora (Menispermaceae - Chasmantheroideae - Burasaieae) in Singapore

Author

I.M. Turner

Subjects

Christmas Island, climbers, dioecy, lianas, Malesia, Zoology, QL1-991, Botany, QK1-989

Abstract

The lianescent genus Tinospora Miers in Singapore is revised. Four species are recognised, two of which are newly described. Tinospora krispura I.M.Turner sp. nov. is known from Christmas Island and Singapore. Tinospora singapura I.M.Turner sp. nov. is known only from Singapore. Two new lectotypifications are included, one at the second step.

Published

2023

35. Plant sexual variation modulates rhizospheric nutrient processes through the soil microbiome response to drought and rewetting in Populus cathayana.

Author

Zhao, Yang, Chen, Liangliang, Chen, Yankai, Yang, Qihang, and Liu, Miao

Subjects

*PLANT variation, *DROUGHTS, *FUNGAL communities, *BACTERIAL communities, *POPLARS, *SEXUAL dimorphism, *RHIZOSPHERE

Abstract

Drought affects the physiological environment of the soil microbiome and plants. However, the ability of drought and rewetting to regulate sex-specific soil nutrient availability with respect to bacterial- and fungal-mediated rhizospheric processes has not been clarified. The impact of drought and rewetting on soil bacterial and fungal communities and rhizospheric processes were examined in dioecious Populus cathayana females and males. Drought and rewetting affected the composition and abundance of the bacterial and fungal communities but not their diversity in the rhizosphere of both sexes. Male had more drought-tolerant fungi and bacteria in the rhizosphere of males than females in response to drought. The changing bacterial and fungal community composition promoted soil ammonification in the rhizosphere of female plants, whereas nitrification by ammonia-oxidizing archaea (AOA) and ammonia-oxidizing bacteria (AOB) was accelerated in the rhizosphere of male plants. Rewetting reduced the sexual differences in the ratio of nitrate (NO3−) to ammonium (NH4+) in the rhizosphere. In the rhizosphere of females, the changes in fungal community composition were linked more strongly to soil N and P reactions during recovery compared with that in the bacterial community composition. Conversely, the bacterial community rather than fungal components was the main contributor to soil N reactions in the rhizosphere of males. Plant sex influenced the response and recovery of fungal and bacterial communities to drought, and sexual dimorphism was detected in the regulation of rhizospheric nutrient reactions. Our results emphasize the ecological relevance of plant sex in determining the response of soil microbial communities to drought and rewetting effects and their ecological functions in P. cathayana. [ABSTRACT FROM AUTHOR]

Published

2023

36. Comparative floral development in male and female plants of Palmer amaranth (Amaranthus palmeri).

Author

Wu, Wenzhuo, Jernstedt, Judy, and Mesgaran, Mohsen B.

Subjects

*AMARANTHUS palmeri, *FEMALE reproductive organs, *MALE reproductive organs, *BIOLOGICAL systems, *FLOWER development, *INTERSEXUALITY

Abstract

Premise: Characterizing the developmental processes in the transition from hermaphroditism to unisexuality is crucial for understanding floral evolution. Amaranthus palmeri, one of the most devastating weeds in the United States, is an emerging model system for studying a dioecious breeding system and understanding the biological traits of this invasive weed. The objectives of this study were to characterize phases of flower development in A. palmeri and compare organogenesis of flower development in female and male plants. Methods: Flower buds from male and female plants were dissected for light microscopy. Segments of male and female inflorescences at different stages of development were cut longitudinally and visualized using scanning electron microscopy. Results: Pistillate flowers have two to three styles, one ovary with one ovule, and five obtuse tepals. Staminate flowers have five stamens with five acute tepals. Floral development was classified into 10 stages. The distinction between the two flower types became apparent at stage four by the formation of stamen primordia in staminate flowers, which developed female and male reproductive organs initially, as contrasted to pistillate flowers, which produced carpel primordia only. In staminate flowers, the putative carpel primordia changed little in size and remained undeveloped. Conclusions: Timing of inappropriate organ termination varies across the two sexes in A. palmeri. Our study suggests that the evolution of A. palmeri from a cosexual ancestral state to complete dioecy is still in progress since males exhibited transient hermaphroditism and females produced strictly pistillate flowers. [ABSTRACT FROM AUTHOR]

Published

2023

37. Limited sex differentiation in poplars: similar physiological responses to low temperature of males and females of three cottonwood taxa.

Author

Zanewich, Karen P. and Rood, Stewart B.

Abstract

Key Message: Foliar physiological traits were similar in males versus females of three Populus taxa grown at warm to cool temperatures, opposing the hypothesis that males would be more tolerant of environmental stress. Dioecy is common in riparian (streamside) trees and shrubs, and other studies indicated that in some poplars (Populus) and willows (Salix), males are more tolerant than females of environmental limitation, including drought, salinity or high temperature (T). We investigated another environmental influence and hypothesized that males might better tolerate low T, consistent with their earlier development during cool spring weather. Branch cuttings from distinct trees of each sex from each of three taxa, narrowleaf, lanceleaf and plains cottonwoods (P. angustifolia, P. × acuminata and P. deltoides), were grown as replicated saplings in four growth chambers with (daytime) temperatures of 24, 20, 18 or 15 °C. With decreasing T, stomatal density and stomatal conductance (gs) decreased, chlorophyll content was consistent; and N concentration, photosynthesis (Asat, by area), and water use efficiency (Asat/gs) increased. None of the foliar characteristics varied significantly between the sexes, and there was no sex × T interaction for any physiological trait, opposing our hypothesis. For growth, P. deltoides and P. × acuminata males had larger leaf and root mass than females, especially at 20 °C, but an opposing pattern was observed for P. angustifolia, as females had larger leaf mass than males. We thus observe similar foliar physiological characteristics between males and females, conclude that low T adaptation has minimal contribution to sex differentiation in cottonwoods, and recommend further investigation for sex differentiation across taxa, particularly including analyses of root structure and function. [ABSTRACT FROM AUTHOR]

Published

2023

38. Germinación, crecimiento vegetativo y morfología floral de Dasylirion cedrosanum del matorral rosetófilo de Coahuila.

Author

Benavides-Mendoza, Adalberto, Hernández-Juárez, Agustín, and Francisco-Francisco, Nazario

Subjects

FLORAL morphology, INFLORESCENCES, CROP management, WILD plants, FLOWER shows, ENDEMIC species

Abstract

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Published

2023

39. Foliar Water Uptake and Its Relationship with Photosynthetic Capacity and Anatomical Structure between Female and Male Populus euphratica at Different Growth Stages.

Author

Li, Zhoukang, Chen, Yudong, Wang, Huimin, and Zhang, Xueni

Subjects

LEAF physiology, ABSORPTION of water in plants, GROWING season, POPLARS, CHLOROPHYLL spectra, FEMALES, WATER consumption

Abstract

Foliar water uptake (FWU) is considered to be a common phenomenon in most terrestrial plants. As a supplementary water source, it plays an important role in the growth and survival of plants in arid areas. However, there is no research to explain the water absorption of plant leaves from the perspective of gender specificity. To this end, we carried out a leaf water absorption capacity experiment and in situ wetting field experiment, respectively, in the early (Initial), middle (Mid) and end (End) of the growth season of male and female Populus euphratica. The results of the leaf water absorption capacity experiment showed that the FWU capacity of male and female P. euphratica showed an increasing trend with the growth period and reached the maximum at the End period. The FWU capacity of female P. euphratica was significantly greater than that of male P. euphratica after the Initial stage. The water absorption speed (k) of male and female leaves also increased with the growth period, but the increase was not significant. The increase in leaf water content per mg of water absorbed per unit of leaf area (LWCA) of male P. euphratica was always greater than that of female P. euphratica. Specific leaf area (SLA), leaf water saturated deficit (WSD) and water absorption parameters (FWU capacity, k) were significantly correlated. The results of the in situ wetting field experiment show that humidification significantly increased the predawn water potential (Mid period) of female and male P. euphratica leaves and the net photosynthetic rate (Mid period) of male P. euphratica leaves, but had no significant effect on chlorophyll fluorescence parameters and anatomical structure. The MFA results show that the water status of male and female P. euphratica leaves was significantly correlated with photosynthetic parameters, fluorescence parameters and anatomical parameters. Our results show that the foliar water uptake capacity of female P. euphratica leaves was stronger than that of male P. euphratica and shows significant dynamic changes during the growing season. This was because female P. euphratica has a developed water storage structure. Foliar water uptake can effectively improve the water status and photosynthetic capacity of male and female P. euphratica, and this improvement was more significant during the most intense period of soil water stress. These findings will deepen our understanding of the ecological adaptation of dioecious plants to foliar water uptake. [ABSTRACT FROM AUTHOR]

Published

2023

40. Comparative transcriptomic analysis of male and females in the dioecious weeds Amaranthus palmeri and Amaranthus tuberculatus.

Author

Bobadilla, Lucas K., Baek, Yousoon, and Tranel, Patrick J.

Subjects

*AMARANTHUS palmeri, *WEEDS, *SEX determination, *HERBICIDE resistance, *GENE expression, *FLOWER development, *COMPARATIVE studies, *FEMALES

Abstract

Background: Waterhemp (Amaranthus tuberculatus (Moq.) Sauer) and Palmer amaranth (Amaranthus palmeri S. Wats.) are two dioecious and important weed species in the world that can rapidly evolve herbicide-resistance traits. Understanding these two species' dioecious and sex-determination mechanisms could open opportunities for new tools to control them. This study aims to identify the differential expression patterns between males and females in A. tuberculatus and A. palmeri. Multiple analyses, including differential expression, co-expression, and promoter analyses, used RNA-seq data from multiple tissue types to identify putative essential genes for sex determination in both dioecious species. Results: Genes were identified as potential key players for sex determination in A. palmeri. Genes PPR247, WEX, and ACD6 were differentially expressed between the sexes and located at scaffold 20 within or near the male-specific Y (MSY) region. Multiple genes involved with flower development were co-expressed with these three genes. For A. tuberculatus, no differentially expressed gene was identified within the MSY region; however, multiple autosomal class B and C genes were identified as differentially expressed and possible candidate genes. Conclusions: This is the first study comparing the global expression profile between males and females in dioecious weedy Amaranthus species. Results narrow down putative essential genes for sex-determination in A. palmeri and A. tuberculatus and also strengthen the hypothesis of two different evolutionary events for dioecy within the genus. [ABSTRACT FROM AUTHOR]

Published

2023

41. Structural variation of a sex‐linked region confers monoecy and implicates GATA15 as a master regulator of sex in Salix purpurea.

Author

Hyden, Brennan, Zou, Junzhu, Wilkerson, Dustin G., Carlson, Craig H., Robles, Ayiana Rivera, DiFazio, Stephen P., and Smart, Lawrence B.

Subjects

*SEX determination, *WILLOWS, *SHOTGUN sequencing, *GENETIC sex determination, *DNA sequencing, *SEX ratio

Abstract

Summary: The Salicaceae, including Populus and Salix, are dioecious perennials that utilize different sex determination systems. This family provides a useful system to better understand the evolution of dioecy and sex chromosomes.Here, a rare monoecious genotype of Salix purpurea, 94003, was self‐ and cross‐pollinated and progeny sex ratios were used to test hypotheses on possible mechanisms of sex determination. To delimit genomic regions associated with monoecious expression, the 94003 genome sequence was assembled and DNA‐ and RNA‐Seq of progeny inflorescences was performed.Based on alignments of progeny shotgun DNA sequences to the haplotype‐resolved monoecious 94003 genome assembly and reference male and female genomes, a 1.15 Mb sex‐linked region on Chr15W was confirmed to be absent in monecious plants. Inheritance of this structural variation is responsible for the loss of a male‐suppressing function in what would otherwise be genetic females (ZW), resulting in monoecy (ZWH or WWH), or lethality, if homozygous (WHWH).We present a refined, two‐gene sex determination model for Salix purpurea, mediated by ARR17 and GATA15 that is different from the single‐gene ARR17‐mediated system in the related genus Populus. [ABSTRACT FROM AUTHOR]

Published

2023

42. A Foundational Population Genetics Investigation of the Sexual Systems of Solanum (Solanaceae) in the Australian Monsoon Tropics Suggests Dioecious Taxa May Benefit from Increased Genetic Admixture via Obligate Outcrossing.

Author

Cantley, Jason T., Jordon-Thaden, Ingrid E., Roche, Morgan D., Hayes, Daniel, Kate, Stephanie, and Martine, Christopher T.

Subjects

SOLANUM, SOLANACEAE, GENETIC variation, MONSOONS, POPULATION genetics, PHYLOGEOGRAPHY, RESOURCE allocation, INBREEDING

Abstract

Solanum section Leptostemonum is an ideal lineage to test the theoretical framework regarding proposed evolutionary benefits of outcrossing sexual systems in comparison to cosexuality. Theoretically, non-cosexual taxa should support more genetic diversity within populations, experience less inbreeding, and have less genetic structure due to a restricted ability to self-fertilize. However, many confounding factors present challenges for a confident inference that inherent differences in sexual systems influence observed genetic patterns among populations. This study provides a foundational baseline of the population genetics of several species of different sexual systems with the aim of generating hypotheses of any factor—including sexual system—that influences genetic patterns. Importantly, results indicate that dioecious S. asymmetriphyllum maintains less genetic structure and greater admixture among populations than cosexual S. raphiotes at the same three locations where they co-occur. This suggests that when certain conditions are met, the evolution of dioecy may have proceeded as a means to avoid genetic consequences of self-compatibility and may support hypotheses of benefits gained through differential resource allocation partitioned across sexes. Arguably, the most significant finding of this study is that all taxa are strongly inbred, possibly reflective of a shared response to recent climate shifts, such as the increased frequency and intensity of the region's fire regime. [ABSTRACT FROM AUTHOR]

Published

2023

43. Life-history characteristics and climate correlates of dioecious plant species in central southern Australia.

Author

Draper, J. T., Delean, S., Conran, J. G., Weinstein, P., and Simpson, B. S.

Abstract

Context: The proportion of dioecious species can vary considerably among climates and habitats. However, studies often involve isolated communities or large diverse areas and fail to capture how proportions vary across diverse landscapes. Aims: To identify (1) life-history associations of terrestrial dioecious plant species in central southern Australia, (2) whether proportion of dioecy varies spatially across central southern Australia, and (3) whether proportion of dioecy is correlated with life-history and/or climate factors. Methods: Species growth form, pollination mechanisms and seed-dispersal features were extracted from herbarium databases to determine potential dioecy-linked traits. Distribution data for native terrestrial species in 66 Interim Biogeographical Regionalisation of Australia subregions were extracted from the Australasian Virtual Herbarium to calculate the proportion of total native species richness that are dioecious. Climate data for each subregion were also obtained from Terrestrial Ecology Research Network databases to investigate relationships among climate, life-history traits and dioecy. Key results: Woodiness, abiotic pollination and endozoochory were more prevalent in dioecious than non-dioecious taxa. Proportion of dioecy ranged from 1.7% to 8.5% among subregions and correlated negatively with annual temperature range, January to March rainfall and precipitation seasonality and with average annual daily mean, minimum, maximum and average annual minimum temperature. The highest-ranked models of dioecy incorporated the additive effects of the relative proportion of woody species and either annual temperature ranges, January to March rainfall or average annual daily maximum temperature. Conclusions: Dioecy was associated with woodiness, abiotic pollination and endozoochory, in line with studies of other flora, with the model of stable temperature range and woodiness being the highest-ranked model of dioecy. Implications: Areas with higher proportions of dioecy can be targeted for future investigations into dioecious plant ecology to aid conservation and ecosystem management. Dioecious plants comprise 6% of Angiosperm species, yet the proportion of dioecious species varies considerably among the native floras of the world. Higher proportions appear to be linked to life history and habitat climate conditions; however, the variation of proportions across larger, climatically diverse landmasses is rarely studied. We compared the proportion of dioecious plants of total native species richness across the climatically diverse southern Australia, to identify dioecious 'hotspots' and climate and life-history conditions associated with higher proportions of dioecy. [ABSTRACT FROM AUTHOR]

Published

2023

44. Evolution of plant sex and molecular mechanisms underlying plants sex separation

Author

Wei Li, Wei Fu, Jing Hou, Yonghua Yang, and Tongming Yin

Subjects

plant sex, dioecy, sex chromosome, sex-determining gene, plant sex evolution, Forestry, SD1-669.5

Abstract

Unlike animals, plants exhibit more complexity of sexual morphs. The genetic mechanism underlying plant sex is a hot research topic in plant biology. In recent decades, advanced theories have been put forth on plant sex determination, but experimental proof is scarce. In recent years, vast achievements have been made to reveal the genetic mechanisms underlying sex separation of plants at the molecular level. Although the sex determination mechanisms have been clarified only in a limited number of plant species thus far, the discoveries offer us an opportunity to understand the genetic mechanisms triggering the separation of plant sexes. This paper reviewed the different aspects of the advanced studies on plant sex evolution and the molecular mechanisms underlying plant sex separation.

Published

2023

45. Chromosome-level Genomes Reveal the Genetic Basis of Descending Dysploidy and Sex Determination in Morus Plants

Author

Zhongqiang Xia, Xuelei Dai, Wei Fan, Changying Liu, Meirong Zhang, Peipei Bian, Yuping Zhou, Liang Li, Baozhong Zhu, Shuman Liu, Zhengang Li, Xiling Wang, Maode Yu, Zhonghuai Xiang, Yu Jiang, and Aichun Zhao

Subjects

Mulberry, Karyotype evolution, Dioecy, Sex determination, Population genomics, Biology (General), QH301-705.5, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Multiple plant lineages have independently evolved sex chromosomes and variable karyotypes to maintain their sessile lifestyles through constant biological innovation. Morus notabilis, a dioecious mulberry species, has the fewest chromosomes among Morus spp., but the genetic basis of sex determination and karyotype evolution in this species has not been identified. In this study, three high-quality genome assemblies were generated for Morus spp. [including dioecious M. notabilis (male and female) and Morus yunnanensis (female)] with genome sizes of 301–329 Mb and were grouped into six pseudochromosomes. Using a combination of genomic approaches, we found that the putative ancestral karyotype of Morus species was close to 14 protochromosomes, and that several chromosome fusion events resulted in descending dysploidy (2n = 2x = 12). We also characterized a ∼ 6.2-Mb sex-determining region on chromosome 3. Four potential male-specific genes, a partially duplicated DNA helicase gene (named MSDH) and three Ty3_Gypsy long terminal repeat retrotransposons (named MSTG1/2/3), were identified in the Y-linked area and considered to be strong candidate genes for sex determination or differentiation. Population genomic analysis showed that Guangdong accessions in China were genetically similar to Japanese accessions of mulberry. In addition, genomic areas containing selective sweeps that distinguish domesticated mulberry from wild populations in terms of flowering and disease resistance were identified. Our study provides an important genetic resource for sex identification research and molecular breeding in mulberry.

Published

2022

46. Reproductive biology of two Lagenaria (Curcubitaceae) species

Author

Babatunde Olanrewaju Okunlola, Sekinat Okikiola Azeez, and Julius Olaoye Faluyi

Subjects

conservation, dioecy, germination, monoecy, pollen morphology, pollen stainability, pollination mechanisms, Biology (General), QH301-705.5, Microbiology, QR1-502

Abstract

The genus Lagenaria (Cucurbitaceae) members are underutilised, neglected and on the verge of being threatened to extinction. An investigation of their reproductive biology will serve as the basis for effective strategic planning towards their conservation. The plant materials used for this study were collected from Osun, Ekiti and Niger States in Nigeria. Reproductive parameters, including seed germination, phenology and pollination mechanism, were documented. The highest seed germination rate was observed in the accession of Lagenaria siceraria from Ekiti Bowl. The male flowers appeared first, followed by female flowers’ emergence 14–28 days later, on the secondary shoots. The female flowers of each accession had unique inferior ovary shapes, which developed into different fruit shapes with distinct seed morphology. This study showed that the members of Lagenaria performed better as climbers than as trailers, and the number of fruits produced per accession depends on the size or weight of the fruit. Chrysomelidae and Coryna apicicornis beetles were the primary pollinators observed. Furthermore, the pollens were predominantly monad, spheroidal and tricolporate, and pollen stainability ranged between 81% and 91% in all the accessions studied. Therefore, the fruit and seed morphology were diagnostic for each accession, and the flowers were pollinated mainly by beetles.

Published

2022

47. Corema album (L.) D. Don Phenological Growth Stages according to Extended BBCH Scale

Author

João Jacinto, Tomás Magalhães, Pedro B. Oliveira, Cristina Oliveira, Francisco Luz, Cândida Sofia Trindade, and Teresa Valdiviesso

Subjects

Phenology, crowberry, dioecy, berry fruit, Plant culture, SB1-1110

Abstract

The wild dioecious plant Corema album, endemic to the Atlantic coast of the Iberian Peninsula, has potential to become a new crop and to integrate the berry fruit market. Due to its potential, the aim of this study was to propose a BBCH (Biologische Bundesanstalt, Bundessortenamt and CHemical Industry) scale for the species. Based on field observation, the principal growth stages were described and sequentially established. Photographs and stereomicroscope acquisition software were used to illustrate the phenological stages of male and female plants.The scale includes seven principal stages starting with bud development (stage 0), followed by leaf development (Stage 1), main stem elongation (Stage 3), inflorescence emergence (Stage 5), flowering (Stage 6), fruit development (Stage 7) and ending with fruit maturation (stage 8), with mesostages for male and female inflorescence (stage 5) and flower development (stage 6). Through field observations carried out in plants in different growth conditions, the proposition of this extended BBCH scale was made, to have a standardized system for Corema album phenological stages. This study will have an application especially in fields of agronomy and plant breeding and will also be a stepping stone for the inclusion of this species as a novelty crop in a nearby future.

Published

2022

48. Sexual System and Its Evolution

Author

Masuda, Kanae, Akagi, Takashi, Kole, Chittaranjan, Series Editor, Tao, Ryutaro, editor, and Luo, Zhengrong, editor

Published

2022

49. A Review of the Reproductive Ecology of Mangrove Plant Species

Author

Aluri, Jacob Solomon Raju, Das, Sudhir Chandra, editor, Pullaiah, editor, and Ashton, Elizabeth C., editor

Published

2022

50. Development differs between independently evolved staminode whorls in the same flower.

Author

Schenk, John J. and Appleton, Andrea D.

Subjects

*ANTHER, *FLOWERS, *SCANNING electron microscopy

Abstract

Premise: Staminodes are commonly studied in hermaphroditic flowers, in which a fraction of the androecium evolves into infertile structures, but few studies have addressed the evolution of staminodes as they occur through the loss of stamen function in carpellate flowers. Plants of Paronychia (Caryophyllaceae) are monoecious with hermaphroditic flowers with one staminodial whorl, except for the dioecious P. chartacea and P. minima. Dioecious species have carpellate flowers that evolved an additional whorl of staminodes, providing an exceptional opportunity to study a second origin of staminodes in the same flower. Methods: Using scanning electron microscopy, we observed the development of carpellate and staminate flowers to determine whether the developmental pathway of the staminodes in hermaphroditic flowers was co‐opted during the evolutionary transition to unisexual flowers. Results: In carpellate flowers, antesepalous staminodes initiate as sterile anthers that develop similar to functioning stamens, but arrest before full development, leaving a rudimentary anther with lateral lobes that correspond to thecae. After antesepalous staminodes arrest, alternisepalous staminodes initiate as structures that correspond with filaments, as they do in staminate and hermaphroditic flowers. Conclusions: The second origin of staminodes in carpellate flowers evolved using a different developmental pathway than what had previously evolved in the alternisepalous whorl. The two androecial whorls in the same flowers are serialogous as members of the androecium, but are paralogous as staminodes on the basis of structural and developmental differences. [ABSTRACT FROM AUTHOR]

Published

2023