Your search keyword '"PEAKALL, ROD"' showing total 46 results

1. UV-B light contributes directly to the synthesis of chiloglottone floral volatiles

Author

Amarasinghe, Ranamalie, Poldy, Jacqueline, Matsuba, Yuki, Barrow, Russell A., Hemmi, Jan M., Pichersky, Eran, and Peakall, Rod

Published

2015

2. Pollination by sexual deception.

Author

Peakall, Rod

Subjects

*POLLINATION, *FLOWERING of plants, *POLLINATION by insects, *PLANT life cycles, *DECEPTION, *REWARD (Psychology), *ORCHIDS

Abstract

The flower is arguably the centrepiece of angiosperm evolution. Its primary function is to secure pollination — the transfer of pollen from the anther (male) to the stigma (female). As plants are sessile organisms, the extraordinary diversity of flowers in large part reflects countless alternative evolutionary solutions to achieve this critical step in the flowering plant life cycle. The majority of flowering plants, some 87% by one estimate, depend on animals for pollination, with most of these paying for the service of pollination via food rewards of nectar or pollen. As in human economic systems, however, some cheating and deception occurs, with the pollination strategy of sexual deception being one such example. The overwhelming majority of the flowering plants are animal pollinated. While most of these species pay for the service of pollination, some plants cheat the system. In this Primer, Rod Peakall discusses a remarkable case of floral mimicry — sexually deceptive plants which secure insect pollination by offering the false promise of sex. [ABSTRACT FROM AUTHOR]

Published

2023

3. The volatile chemistry of orchid pollination.

Author

Perkins, James, Hayashi, Tobias, Peakall, Rod, Flematti, Gavin R., and Bohman, Björn

Subjects

ORCHIDS, POLLINATION, INSECT pollinators, POLLINATORS, SEMIOCHEMICALS

Abstract

Covering: up to September 2022 Orchids are renowned not only for their diversity of floral forms, but also for their many and often highly specialised pollination strategies. Volatile semiochemicals play a crucial role in the attraction of a wide variety of insect pollinators of orchids. The compounds produced by orchid flowers are as diverse as the pollinators they attract, and here we summarise some of the chemical diversity found across orchid taxa and pollination strategies. We focus on compounds that have been experimentally demonstrated to underpin pollinator attraction. We also highlight the structural elucidation and synthesis of a select subset of important orchid pollinator attractants, and discuss the ecological significance of the discoveries, the gaps in our current knowledge of orchid pollination chemistry, and some opportunities for future research in this field. [ABSTRACT FROM AUTHOR]

Published

2023

4. Thynnine Wasps Discriminate among Heights When Seeking Mates: Tests with a Sexually Deceptive Orchid

Author

Handel, Steven N. and Peakall, Rod

Published

1993

5. Sexual deception of male Bradysia (Diptera: Sciaridae) by floral odour and morphological cues in Pterostylis (Orchidaceae).

Author

Hayashi, Tobias, Reiter, Noushka, Phillips, Ryan D, and Peakall, Rod

Subjects

ORCHIDS, MYCETOPHILIDAE, INSECT pollinators, FLORAL morphology, DIPTERA, DECEPTION, POLLINATION by bees

Abstract

Sexually deceptive orchids exploit the innate sexual preferences of their male insect pollinators to achieve pollen transfer. Although floral volatiles are critical for pollinator attraction in sexually deceptive systems, floral morphology is also expected to exploit the sexual preferences of the pollinator. Here, we investigate the pollination of the Australian orchid Pterostylis cycnocephala. We confirm that male fungus gnats of a single undescribed Bradysia sp. (Diptera, Sciaridae) act as pollinators and display sexual behaviour on flowers, including wing fanning, abdomen curling and genitalic clasping of the prominent labellum appendage. Gnats only triggered the labellum and became trapped in the flower after attempting pseudocopulation with the appendage, a process necessary for pollen removal and deposition. Male gnats located flowers hidden from view, suggesting long-range attraction is primarily due to floral odour. However, male gnats displayed reduced copulatory behaviour when the labellum was absent and when the labellum appendage was inaccessible, suggesting that appropriate morphology may be required to elicit the copulatory behaviour needed for pollination. Our study is the first detailed investigation of sexual deception of male Sciaridae in Australian orchids and represents an example of convergent evolution with some Neotropical Lepanthes orchids, which also sexually deceive male Bradysia. [ABSTRACT FROM AUTHOR]

Published

2022

6. Conserved pigment pathways underpin the dark insectiform floral structures of sexually deceptive Chiloglottis (Orchidaceae).

Author

Wong, Darren C. J., Perkins, James, and Peakall, Rod

Subjects

POLLINATORS, INSECT pollinators, ORCHIDS, PIGMENTS, ANALYTICAL chemistry, BIOCHEMISTRY, FLAVONOLS

Abstract

Sexually deceptive plants achieve pollination by enticing specific male insects as pollinators using a combination of olfactory, visual, and morphological mimicry. The sexually deceptive orchid genus Chiloglottis is comprised of some 30 species with predominantly dull green-red flowers except for the dark insectiform calli/callus structure from the labellum lamina. This unique structure mimics the female of the pollinator and potentially enhances the visibility of the mimic. However, the chemical and genetic basis for the color of these structures remains poorly understood across the genus. The goal of this study was to investigate the flower color biochemistry and patterns of gene expression across the anthocyanin and flavonol glycoside biosynthetic pathway within the calli structures across the three distinct clades of Chiloglottis (Formicifera, Reflexa, and Valida) using chemical and transcriptome analysis. Our phylogenomic analysis confirmed the close sister relationship between the Reflexa/Formicifera clades and reaffirms the basal position of the Valida clade. Additionally, the biochemical basis of the dark calli/callus structures is conserved across the genus. Nonetheless, the proportion of methoxylated anthocyanin and flavonol glycoside derivatives and the mean gene expression levels appear to differentiate the Reflexa and Formicifera clades from the Valida clade. In future studies, it will be of interest to tease apart the role of phylogeny, environment, pollinators, and other factors as potential drivers of the observed biochemistry and gene expression differences. It will also be important to characterize the function of candidate genes such as DFR, LDOX, and FLS in this fascinating case of flower color mimicry. [ABSTRACT FROM AUTHOR]

Published

2022

7. Orchid Phylotranscriptomics: The Prospects of Repurposing Multi-Tissue Transcriptomes for Phylogenetic Analysis and Beyond.

Author

Wong, Darren C. J. and Peakall, Rod

Abstract

The Orchidaceae is rivaled only by the Asteraceae as the largest plant family, with the estimated number of species exceeding 25,000 and encompassing more than 700 genera. To gain insights into the mechanisms driving species diversity across both global and local scales, well-supported phylogenies targeting different taxonomic groups and/or geographical regions will be crucial. High-throughput sequencing technologies have revolutionized the field of molecular phylogenetics by simplifying the process of obtaining genome-scale sequence data. Consequently, there has been an explosive growth of such data in public repositories. Here we took advantage of this unprecedented access to transcriptome data from predominantly non-phylogenetic studies to assess if it can be repurposed to gain rapid and accurate phylogenetic insights across the orchids. Exhaustive searches revealed transcriptomic data for more than 100 orchid species spanning 5 subfamilies, 13 tribes, 21 subtribes, and 50 genera that were amendable for exploratory phylotranscriptomic analysis. Next, we performed reassembly of the transcriptomes before strategic selection of the final samples based on a gene completeness evaluation. Drawing on these data, we report phylogenetic analyses at both deep and shallow evolutionary scales via maximum likelihood and shortcut coalescent species tree methods. In this perspective, we discuss some key outcomes of this study and conclude by highlighting other complementary, albeit rarely explored, insights beyond phylogenetic analysis that repurposed multi-tissue transcriptome can offer. [ABSTRACT FROM AUTHOR]

Published

2022

8. Anthocyanin and Flavonol Glycoside Metabolic Pathways Underpin Floral Color Mimicry and Contrast in a Sexually Deceptive Orchid.

Author

Wong, Darren C. J., Perkins, James, and Peakall, Rod

Subjects

GENETIC regulation, FLAVONOL glycosides, INSECT pollinators, FLAVONOIDS, ANTHOCYANINS, ORCHIDS, FLAVONOLS

Abstract

Sexually deceptive plants secure pollination by luring specific male insects as pollinators using a combination of olfactory, visual, and morphological mimicry. Flower color is a key component to this attraction, but its chemical and genetic basis remains poorly understood. Chiloglottis trapeziformis is a sexually deceptive orchid which has predominantly dull green-red flowers except for the central black callus projecting from the labellum lamina. The callus mimics the female of the pollinator and the stark color contrast between the black callus and dull green or red lamina is thought to enhance the visibility of the mimic. The goal of this study was to investigate the chemical composition and genetic regulation of temporal and spatial color patterns leading to visual mimicry, by integrating targeted metabolite profiling and transcriptomic analysis. Even at the very young bud stage, high levels of anthocyanins were detected in the dark callus, with peak accumulation by the mature bud stage. In contrast, anthocyanin levels in the lamina peaked as the buds opened and became reddish-green. Coordinated upregulation of multiple genes, including dihydroflavonol reductase and leucoanthocyanidin dioxygenase, and the downregulation of flavonol synthase genes (FLS) in the callus at the very young bud stage underpins the initial high anthocyanin levels. Conversely, within the lamina, upregulated FLS genes promote flavonol glycoside over anthocyanin production, with the downstream upregulation of flavonoid O-methyltransferase genes further contributing to the accumulation of methylated flavonol glycosides, whose levels peaked in the mature bud stage. Finally, the peak anthocyanin content of the reddish-green lamina of the open flower is underpinned by small increases in gene expression levels and/or differential upregulation in the lamina in select anthocyanin genes while FLS patterns showed little change. Differential expression of candidate genes involved in specific transport, vacuolar acidification, and photosynthetic pathways may also assist in maintaining the distinct callus and contrasting lamina color from the earliest bud stage through to the mature flower. Our findings highlight that flower color in this sexually deceptive orchid is achieved by complex tissue-specific coordinated regulation of genes and biochemical pathways across multiple developmental stages. [ABSTRACT FROM AUTHOR]

Published

2022

9. A multitiered sequence capture strategy spanning broad evolutionary scales: Application for phylogenetic and phylogeographic studies of orchids.

Author

Peakall, Rod, Wong, Darren C. J., Phillips, Ryan D., Ruibal, Monica, Eyles, Rodney, Rodriguez‐Delgado, Claudia, and Linde, Celeste C.

Subjects

*TRANSCRIPTOMES, *ORCHIDS, *PHALAENOPSIS, *SPECIES

Abstract

With over 25,000 species, the drivers of diversity in the Orchidaceae remain to be fully understood. Here, we outline a multitiered sequence capture strategy aimed at capturing hundreds of loci to enable phylogenetic resolution from subtribe to subspecific levels in orchids of the tribe Diurideae. For the probe design, we mined subsets of 18 transcriptomes, to give five target sequence sets aimed at the tribe (Sets 1 & 2), subtribe (Set 3), and within subtribe levels (Sets 4 & 5). Analysis included alternative de novo and reference‐guided assembly, before target sequence extraction, annotation and alignment, and application of a homology‐aware k‐mer block phylogenomic approach, prior to maximum likelihood and coalescence‐based phylogenetic inference. Our evaluation considered 87 taxa in two test data sets: 67 samples spanning the tribe, and 72 samples involving 24 closely related Caladenia species. The tiered design achieved high target loci recovery (>89%), with the median number of recovered loci in Sets 1–5 as follows: 212, 219, 816, 1024, and 1009, respectively. Interestingly, as a first test of the homologous k‐mer approach for targeted sequence capture data, our study revealed its potential for enabling robust phylogenetic species tree inferences. Specifically, we found matching, and in one case improved phylogenetic resolution within species complexes, compared to conventional phylogenetic analysis involving target gene extraction. Our findings indicate that a customized multitiered sequence capture strategy, in combination with promising yet underutilized phylogenomic approaches, will be effective for groups where interspecific divergence is recent, but information on deeper phylogenetic relationships is also required. [ABSTRACT FROM AUTHOR]

Published

2021

10. Orchid conservation: from theory to practice.

Author

Phillips, Ryan D, Reiter, Noushka, and Peakall, Rod

Subjects

THEORY-practice relationship, SEED dispersal, ORCHIDS, CONSERVATION biology, MYCORRHIZAL fungi, POPULATION differentiation

Abstract

Background Given the exceptional diversity of orchids (26 000+ species), improving strategies for the conservation of orchids will benefit a vast number of taxa. Furthermore, with rapidly increasing numbers of endangered orchids and low success rates in orchid conservation translocation programmes worldwide, it is evident that our progress in understanding the biology of orchids is not yet translating into widespread effective conservation. Scope We highlight unusual aspects of the reproductive biology of orchids that can have important consequences for conservation programmes, such as specialization of pollination systems, low fruit set but high seed production, and the potential for long-distance seed dispersal. Further, we discuss the importance of their reliance on mycorrhizal fungi for germination, including quantifying the incidence of specialized versus generalized mycorrhizal associations in orchids. In light of leading conservation theory and the biology of orchids, we provide recommendations for improving population management and translocation programmes. Conclusions Major gains in orchid conservation can be achieved by incorporating knowledge of ecological interactions, for both generalist and specialist species. For example, habitat management can be tailored to maintain pollinator populations and conservation translocation sites selected based on confirmed availability of pollinators. Similarly, use of efficacious mycorrhizal fungi in propagation will increase the value of ex situ collections and likely increase the success of conservation translocations. Given the low genetic differentiation between populations of many orchids, experimental genetic mixing is an option to increase fitness of small populations, although caution is needed where cytotypes or floral ecotypes are present. Combining demographic data and field experiments will provide knowledge to enhance management and translocation success. Finally, high per-fruit fecundity means that orchids offer powerful but overlooked opportunities to propagate plants for experiments aimed at improving conservation outcomes. Given the predictions of ongoing environmental change, experimental approaches also offer effective ways to build more resilient populations. [ABSTRACT FROM AUTHOR]

Published

2020

11. A Specific Blend of Drakolide and Hydroxymethylpyrazines: An Unusual Pollinator Sexual Attractant Used by the Endangered Orchid Drakaea micrantha.

Author

Bohman, Björn, Tan, Monica M. Y., Phillips, Ryan D., Scaffidi, Adrian, Sobolev, Alexandre N., Moggach, Stephen A., Flematti, Gavin R., and Peakall, Rod

Subjects

PLANT translocation, POLLINATORS, INSECT pheromones, ORCHIDS, PLANT conservation, PHEROMONES, INSECT pollinators

Abstract

Bioactive natural products underpin the intriguing pollination strategy used by sexually deceptive orchids. These compounds, which mimic the sex pheromones of the female insect, are emitted in particular blends to lure male insect pollinators of specific species. By combining methods from field biology, analytical chemistry, electrophysiology, crystallography, and organic synthesis, we report that an undescribed β‐hydroxylactone, in combination with two specific hydroxymethylpyrazines, act as pollinator attractants in the rare hammer orchid Drakaea micrantha. This discovery represents an unusual case of chemically unrelated compounds being used together as a sexual attractant. Furthermore, this is the first example of the identification of pollinator attractants in an endangered orchid, enabling the use of chemistry in orchid conservation. Our synthetic blend is now available to be used in pollinator surveys to locate suitable sites for plant conservation translocations. [ABSTRACT FROM AUTHOR]

Published

2020

12. Duplication and selection in β-ketoacyl-ACP synthase gene lineages in the sexually deceptive Chiloglottis (Orchidaceace).

Author

Wong, Darren C J, Amarasinghe, Ranamalie, Falara, Vasiliki, Pichersky, Eran, and Peakall, Rod

Subjects

ORCHIDS, PLANT molecular biology, BIOCHEMISTRY, BOTANY, LIFE sciences, PLANT physiology

Abstract

The article discusses the processes of gene duplication and selection in the sexually deceptive Chiloglottis (Orchidaceace). Topics discussed include the evolution of fatty acid pathway genes implicated in chiloglottone biosynthesis, tissue-specific differential expression of fatty acid pathway and involvement of the evolution of gene families in the biosynthesis and regulation of plant volatiles.

Published

2019

13. Pollination by sexual deception of fungus gnats (Keroplatidae and Mycetophilidae) in two clades of Pterostylis (Orchidaceae).

Author

Reiter, Noushka, Freestone, Marc, Brown, Graham, and Peakall, Rod

Subjects

MYCETOPHILIDAE, DECEPTION, POLLINATION, POLLINATORS, ORCHIDS, POLLEN, DIPTERA

Abstract

Pterostylis is a diverse genus of terrestrial orchids with dull-coloured trap flowers, of which pollination has largely remained a mystery. Recently, one species has been confirmed to achieve pollination by the sexual deception of male fungus gnats. Here we assess if this pollination mechanism is used more widely in the genus. We 'baited' for pollinators using five representative Pterostylis spp. spanning the three main clades (A–C) of the genus: (A) P. concinna ; (B) P. nutans and P. curta and (C) P. basaltica and P. boormanii. For each baiting trial the number of pollinators approaching, landing, attempting copulation and removing or depositing pollen was recorded. To determine experimentally if long-range attraction was via olfactory cues only, the number of pollinator responses were compared between visible (control) and concealed bait flowers (treatment). Four of the five Pterostylis spp. representing clades B and C, each attracted the males of a single species of fungus gnat of one of two families (Diptera: Keroplatidae or Mycetophilidae). At the flower, these males exhibited pre-mating behaviour, attempted copulation and successful pollination following entrapment. Experiments revealed strong attraction to concealed flowers. Although fungus gnats were unevenly distributed in space, when present, species from both families of gnats responded to bait flowers within four minutes. However, pollinator behaviour differed between Pterostylis clades in the part of the floral display they landed on, and type of sexual behaviour, irrespective of the family of pollinator. Our study confirms that sexual deception operates in two of the three major clades of Pterostylis and provides the first known examples of plant pollination involving keroplatid fungus gnats. We also show that pollinator baiting is an effective but under-utilized tool for understanding the pollination mechanisms of plants that use floral odours as a cue. [ABSTRACT FROM AUTHOR]

Published

2019

14. Experimental examination of pollinator-mediated selection in a sexually deceptive orchid.

Author

Jager, Marinus L de and Peakall, Rod

Subjects

*POLLINATORS, *ORCHIDS, *PLANT fertilization, *POLLINATION by insects, *FLOWERS

Abstract

Background and Aims Selection exerted by pollinators on flowers is predicted to occur along two distinct axes. While pollinator attraction to flowers is governed by pollinator preferences, pollen transfer efficiency is mediated by the mechanical fit of pollinators to flower morphology. Although pollinator attraction in sexually deceptive orchids is typically underpinned by floral odour, morphological traits are expected to play a vital role in mechanical fit during floral contact with pollinators. Methods Here we utilize a comprehensive and novel procedure to test for pollinator-mediated selection through mechanical fit with the flower labellum in the orchid Chiloglottis trapeziformis. This approach combines detailed pollinator observations related to plant reproductive fitness with complementary experimental manipulation and phenotypic selection analysis. Key Results Experiments with virgin flowers revealed that pollen removal occurs only during vigorous pseudocopulation. This behaviour involves male wasps that grasp the insectiform callus structure on the labellum while probing the labellum tip in a forward orientation. Both orientation and duration of pseudocopulation were significant predictors of pollen removal, confirming a direct relationship between pollinator behaviour and plant fitness. Controlled floral manipulation that either shortened or elongated the distance between the callus and the labellum tip detected no change in pollinator attraction. The duration of pseudocopulation, however, was significantly reduced on flowers with shortened or elongated callus–tip distances, consistent with stabilizing selection. Phenotypic selection analysis confirmed this prediction in natural populations by uncovering evidence for stabilizing selection on the distance between the callus and the labellum tip. Conclusions Our experimental manipulations and selection analysis in natural populations thus demonstrate stabilizing selection on the distance from the callus to the labellum tip, and illustrate the utility of employing multiple approaches to confirm selection exerted by pollinators on floral form. [ABSTRACT FROM AUTHOR]

Published

2019

15. Development of phylogenetic markers for Sebacina (Sebacinaceae) mycorrhizal fungi associated with Australian orchids1

Author

Ruibal, Monica P., Peakall, Rod, Foret, Sylvain, and Linde, Celeste C.

Subjects

mycorrhizal fungi, phylogenetics, orchids, Sebacina, Primer Note

Abstract

• Premise of the study: To investigate fungal species identity and diversity in mycorrhizal fungi of order Sebacinales, we developed phylogenetic markers. These new markers will enable future studies investigating species delineation and phylogenetic relationships of the fungal symbionts and facilitate investigations into evolutionary interactions among Sebacina species and their orchid hosts. • Methods and Results: We generated partial genome sequences for a Sebacina symbiont originating from Caladenia huegelii with 454 genome sequencing and from three symbionts from Eriochilus dilatatus and one from E. pulchellus using Illumina sequencing. Six nuclear and two mitochondrial loci showed high variability (10–31% parsimony informative sites) for Sebacinales mycorrhizal fungi across four genera of Australian orchids (Caladenia, Eriochilus, Elythranthera, and Glossodia). • Conclusions: We obtained highly informative DNA markers that will allow investigation of mycorrhizal diversity of Sebacinaceae fungi associated with terrestrial orchids in Australia and worldwide.

Published

2014

16. Phylogenetic and microsatellite markers for Tulasnella (Tulasnellaceae) mycorrhizal fungi associated with Australian orchids1

Author

Ruibal, Monica P., Peakall, Rod, Smith, Leon M., and Linde, Celeste C.

Subjects

mycorrhizal fungi, orchids, Tulasnella, phylogenetic, Sebacina, Primer Note, microsatellites

Abstract

• Premise of the study: Phylogenetic and microsatellite markers were developed for Tulasnella mycorrhizal fungi to investigate fungal species identity and diversity. These markers will be useful in future studies investigating the phylogenetic relationship of the fungal symbionts, specificity of orchid–mycorrhizal associations, and the role of mycorrhizae in orchid speciation within several orchid genera. • Methods and Results: We generated partial genome sequences of two Tulasnella symbionts originating from Chiloglottis and Drakaea orchid species with 454 genome sequencing. Cross-genus transferability across mycorrhizal symbionts associated with multiple genera of Australian orchids (Arthrochilus, Chiloglottis, Drakaea, and Paracaleana) was found for seven phylogenetic loci. Five loci showed cross-transferability to Tulasnella from other orchid genera, and two to Sebacina. Furthermore, 11 polymorphic microsatellite loci were developed for Tulasnella from Chiloglottis. • Conclusions: Highly informative markers were obtained, allowing investigation of mycorrhizal diversity of Tulasnellaceae associated with a wide variety of terrestrial orchids in Australia and potentially worldwide.

Published

2013

17. An experimental evaluation of traits that influence the sexual behaviour of pollinators in sexually deceptive orchids.

Author

PHILLIPS, RYAN D. and PEAKALL, ROD

Subjects

*POLLINATORS, *ORCHIDS, *TIPHIIDAE, *INSECT ecology, *INSECT diversity, *CALADENIA

Abstract

Pollination by sexual deception of male insects is perhaps one of the most remarkable cases of mimicry in the plant kingdom. However, understanding the influence of floral traits on pollinator behaviour in sexually deceptive plants is challenging, due to the risk of confounding changes in floral odour when manipulating morphology. Here, we investigated the floral traits influencing the sexual response of male Zaspilothynnus nigripes (Tiphiidae) wasps, a pollinator of two distantly related sexually deceptive orchids with contrasting floral architecture, Caladenia pectinata and Drakaea livida. In D. livida, the chemical sexual attractant is emitted from the labellum, whereas in C. pectinata, it is produced from the distal sepal tips, allowing manipulative experiments. When controlling for visual cues, there was no difference in long-distance attraction, although the floral odour of D. livida induced copulation more frequently than that of C. pectinata. The role of colour in pollinator sexual attraction was equivocal, indicating that colour may not be a strong constraint on the initial evolution of sexual deception. The frequency of wasp visitors landing on C. pectinata decreased when the amount of floral odour was reduced, but attempted copulation rates were enhanced when the source of floral odour was associated with the labellum. These latter variables may represent axes of selection that operate across many sexually deceptive species. Nonetheless, the observed variation in floral traits suggests flexibility among species in how sexual deception can be achieved. [ABSTRACT FROM AUTHOR]

Published

2018

18. Evidence for the Involvement of Fatty Acid Biosynthesis and Degradation in the Formation of Insect Sex Pheromone-Mimicking Chiloglottones in Sexually Deceptive <italic>Chiloglottis</italic> Orchids.

Author

Wong, Darren C. J., Amarasinghe, Ranamalie, Pichersky, Eran, and Peakall, Rod

Subjects

ORCHIDS, BIOSYNTHESIS, FATTY acids

Abstract

Hundreds of orchid species secure pollination by sexually luring specific male insects as pollinators by chemical and morphological mimicry. Yet, the biochemical pathways involved in the synthesis of the insect sex pheromone-mimicking volatiles in these sexually deceptive plants remain poorly understood. Here, we explore the biochemical pathways linked to the chemical mimicry of female sex pheromones (chiloglottones) employed by the Australian sexually deceptive Chiloglottis orchids to lure their male pollinator. By strategically exploiting the transcriptomes of chiloglottone 1-producing Chiloglottis trapeziformis at distinct floral tissues and at key floral developmental stages, we identified two key transcriptional trends linked to the stage- and tissue-dependent distribution profiles of chiloglottone in the flower: (i) developmental upregulation of fatty acid biosynthesis and β-oxidation genes such as KETOACYL-ACP SYNTHASE, FATTY ACYL-ACP THIOESTERASE, and ACYL-COA OXIDASE during the transition from young to mature buds and flowers and (ii) the tissue-specific induction of fatty acid pathway genes in the callus (the insectiform odor-producing structure on the labellum of the flower) compared to the labellum remains (non-odor-producing) regardless of development stage of the flower. Enzyme inhibition experiments targeting KETOACYL-ACP SYNTHASE activity alone in three chiloglottone-producing species (C. trapeziformis, C. valida, and C. aff. valida) significantly inhibited chiloglottone biosynthesis up to 88.4% compared to the controls. These findings highlight the role of coordinated (developmental stage- and tissue-dependent) fatty acid gene expression and enzyme activities for chiloglottone production in Chiloglottis orchids. [ABSTRACT FROM AUTHOR]

Published

2018

19. The Biosynthesis of Unusual Floral Volatiles and Blends Involved in Orchid Pollination by Deception: Current Progress and Future Prospects.

Author

Wong, Darren C. J., Pichersky, Eran, and Peakall, Rod

Subjects

ORCHIDS, POLLINATION, BIOSYNTHESIS, PHYSIOLOGY

Abstract

Flowers have evolved diverse strategies to attract animal pollinators, with visual and olfactory floral cues often crucial for pollinator attraction. While most plants provide reward (e.g., nectar, pollen) in return for the service of pollination, 1000s of plant species, particularly in the orchid family, offer no apparent reward. Instead, they exploit their often specific pollinators (one or few) by mimicking signals of female insects, food source, and oviposition sites, among others. A full understanding of how these deceptive pollination strategies evolve and persist remains an open question. Nonetheless, there is growing evidence that unique blends that often contain unusual compounds in floral volatile constituents are often employed to secure pollination by deception. Thus, the ability of plants to rapidly evolve new pathways for synthesizing floral volatiles may hold the key to the widespread evolution of deceptive pollination. Yet, until now the biosynthesis of these volatile compounds has been largely neglected. While elucidating the biosynthesis in non-model systems is challenging, nonetheless, these cases may also offer untapped potential for biosynthetic breakthroughs given that some of the compounds can be exclusive or dominant components of the floral scent and production is often tissue-specific. In this perspective article, we first highlight the chemical diversity underpinning some of the more widespread deceptive orchid pollination strategies. Next, we explore the potential metabolic pathways and biosynthetic steps that might be involved. Finally, we offer recommendations to accelerate the discovery of the biochemical pathways in these challenging but intriguing systems. [ABSTRACT FROM AUTHOR]

Published

2017

20. New species of Tulasnella associated with terrestrial orchids in Australia.

Author

Linde, Celeste C., May, Tom W., Phillips, Ryan D., Ruibal, Monica, Smith, Leon M., and Peakall, Rod

Subjects

FUNGI, ORCHIDS, PLANT-fungus relationships

Abstract

Recent studies using sequence data from eight sequence loci and coalescent-based species delimitation methods have revealed several species-level lineages of Tulasnella associated with the orchid genera Arthrochilus, Caleana, Chiloglottis, and Drakaea in Australia. Here we formally describe three of those species, Tulasnella prima, T. secunda, and T. warcupii spp. nov., as well as an additional Tulasnella species associated with Chiloglottis growing in Sphagnum, T. sphagneti sp. nov. Species were identified by phylogenetic analyses of the ITS with up to 1.3 % sequence divergence within taxa and a minimum of 7.6 % intraspecific divergence. These new Tulasnella (Tulasnellaceae, Cantharellales) species are currently only known from orchid hosts, with each fungal species showing a strong relationship with an orchid genus. In this study, T. prima and T. sphagneti associate with Chiloglottis, while T. secunda associates with Drakaea and Caleana, and T. warcupii associates with Arthrochilus oreophilus. [ABSTRACT FROM AUTHOR]

Published

2017

21. Does morphology matter? An explicit assessment of floral morphology in sexual deception.

Author

Jager, Marinus L., Peakall, Rod, and Campbell, Diane

Subjects

*ORCHIDS, *CHILOGLOTTIS, *FLORAL morphology, *INSECT pollinators, *INSECT pheromones, *SEMIOCHEMICALS

Abstract

Sexually deceptive orchids are renowned for their olfactory mimicry of female insect sex pheromones to lure male pollinators, but the role of floral morphology remains unknown., Here, we reveal compelling new experimental evidence that morphology also matters in sexual deception. Our study exploited two morphologically distinct Chiloglottis orchids that both employ the same semiochemical (chiloglottone 1) to attract their respective primary pollinator. In these experiments, we monitored attempted copulation of pollinators with orchid labella as this likely impacts plant fitness., Reciprocal pollinator choice tests revealed significant reductions in the frequency and duration of attempted copulation when pollinators were presented with alternate orchid species that differ in floral morphology, but nevertheless exhibit identical semiochemicals. Experimentally shortening the labellum also reduced the duration of attempted copulation in one of the species., Pollinators exhibited contrasting orientations during attempted copulation and pollination, which seem to be correlated with fundamental differences in the morphological adaptations for both mechanical fit and female mimicry in these orchids., Our findings confirm the overlooked importance of floral morphology for sexually deceptive orchid pollination and indicate that pollinator behaviour could impose strong selection on specific floral traits. [ABSTRACT FROM AUTHOR]

Published

2016

22. Parapheromones for Thynnine Wasps.

Author

Bohman, Björn, Karton, Amir, Dixon, Ruby, Barrow, Russell, and Peakall, Rod

Subjects

ORCHIDS, INSECT pollinators, INSECT-plant relationships, FLOWERS, PHEROMONES

Abstract

Sexually deceptive orchids produce floral volatiles that attract male insect pollinators. This interaction between flower and pollinator normally is highly specific. In the few cases where the chemical composition of the volatiles is known, the compounds have been found to be identical to those that comprise the sex pheromone of the female wasp. In this study, we investigated whether there is potential for flexibility in the molecular structure of the chemical cues used to mediate these specific interactions. Specifically, we asked whether strong sexual attraction can be maintained with structural modifications of sex pheromone components. Our study focused on the orchid, Drakaea glyptodon, which is pollinated by males of the thynnine wasp, Zaspilothynnus trilobatus. Three alkylpyrazines and a unique hydroxymethylpyrazine are components of the female produced sex pheromone of Z. trilobatus, and also the semiochemicals produced by the orchid that lures the males as pollinators. A blend of 2-butyl-3,5-dimethylpyrazine and 2-hydroxymethyl-3,5-diethyl-6-methylpyrazine (3:1) is as attractive as the full blend of four compounds. Therefore, in this study we substituted 2-hydroxymethyl-3,5-diethyl-6-methylpyrazine with one of five structurally related parapheromones in a blend with 2-butyl-3,5-dimethylpyrazine. All blends tested stimulated approaches by male wasps, with some also eliciting landing and attempted copulation. High-level calculations (G4(MP2)) showed the energy differences between the structural isomers were small, although the degree of sexual attraction varied, indicating the importance of structural factors for activity. One of the parapheromones, 2-hydroxymethyl-3,5-dimethyl-6-ethylpyrazine, elicited similar proportions of approaches, landings, and attempted copulations as the sex pheromone at the ratio and dose tested. The findings suggest that there is potential for chemical flexibility in the evolution of sexual deception. [ABSTRACT FROM AUTHOR]

Published

2016

23. Pollinator rarity as a threat to a plant with a specialized pollination system.

Author

Phillips, Ryan D., Peakall, Rod, Retter, Bryony A., Montgomery, Kirke, Menz, Myles H. M., Davis, Belinda J., Hayes, Christine, Brown, Graham R., Swarts, Nigel D., and Dixon, Kingsley W.

Subjects

*POLLINATORS, *POLLINATION, *PLANT diversity, *EFFECT of human beings on climate change, *LANDSCAPES, *ORCHIDS

Abstract

An increasing diversity of highly specialized pollination systems are being discovered, many of which are likely to be vulnerable to anthropogenic landscape modification. Here, we investigate if a specialized pollination system limits the persistence of C aladenia huegelii ( Orchidaceae), an endangered species pollinated by sexual deception of thynnine wasps. Once locally common in part of its geographical range, C. huegelii is now largely restricted to small habitat remnants in urban areas. Pollinator surveys coupled with DNA barcoding detected a single pollinator taxon, a small form of Macrothynnus insignis. Phylogenetic analysis revealed that small M. insignis from within the range of C. huegelii are strongly divergent from other wasp populations, suggesting that some reproductive isolation may exist. Although common in intact landscapes outside the range of C. huegelli, small M. insignis individuals were recorded at only 4% of sites in suitable C. huegelii habitat. Accordingly, reproductive success in C. huegelii was low compared with related Caladenia spp., with 33-60% of populations failing to set fruit in any given year. As such, populations are likely to now persist primarily through individual plant longevity rather than reproduction. Due to the low reproductive success of C. huegelii, ongoing human intervention will almost certainly be needed to sustain the species. Future research will need to focus on optimizing hand pollination to maintain reproduction and high seed fitness. © 2015 The Linnean Society of London, B otanical J ournal of the L innean S ociety, 2015, 179, 511-525. [ABSTRACT FROM AUTHOR]

Published

2015

24. An informational diversity framework, illustrated with sexually deceptive orchids in early stages of speciation.

Author

Smouse, Peter E., Whitehead, Michael R., and Peakall, Rod

Subjects

ORCHIDS, GENETIC speciation, CHLOROPLAST DNA, MICROSATELLITE repeats, GENOMES

Abstract

Reconstructing evolutionary history for emerging species complexes is notoriously difficult, with newly isolated taxa often morphologically cryptic and the signature of reproductive isolation often restricted to a few genes. Evidence from multiple loci and genomes is highly desirable, but multiple inputs require 'common currency' translation. Here we deploy a Shannon information framework, converting into diversity analogue, which provides a common currency analysis for maternally inherited haploid and bi-parentally inherited diploid nuclear markers, and then extend that analysis to construction of minimum-spanning networks for both genomes. The new approach is illustrated with a quartet of cryptic congeners from the sexually deceptive Australian orchid genus Chiloglottis, still in the early stages of speciation. Divergence is more rapid for haploid plastids than for nuclear markers, consistent with the effective population size differential ( Nep < Nen), but divergence patterns are broadly correlated for the two genomes. There are nevertheless intriguing discrepancies between the emerging plastid and nuclear signals of early phylogenetic radiation of these taxa, and neither pattern is entirely consistent with the available information on the sexual cues used by the orchids to lure the pollinators enforcing reproductive isolation. We describe possible extensions of this methodology to multiple ploidy levels and other types of markers, which should increase the range of application to any taxonomic assemblage in the very early stages of reproductive isolation and speciation. [ABSTRACT FROM AUTHOR]

Published

2015

25. Ecological and genetic evidence for cryptic ecotypes in a rare sexually deceptive orchid, Drakaea elastica.

Author

Menz, Myles H. M., Phillips, Ryan D., Anthony, Janet M., Bohman, Björn, Dixon, Kingsley W., and Peakall, Rod

Subjects

PLANT ecology, PLANT genetics, ORCHIDS, SEXING of plants, PLANT phylogeny, PLANT species

Abstract

Species with specialized ecological interactions present significant conservation challenges. In plants that attract pollinators with pollinator-specific chemical signals, geographical variation in pollinator species may indicate the presence of cryptic plant taxa. We investigated this phenomenon in the rare sexually deceptive orchid Drakaea elastica using a molecular phylogenetic analysis to resolve pollinator species boundaries, pollinator choice experiments and a population genetic study of the orchid. Pollinator choice experiments demonstrated the existence of two ecotypes within D. elastica, each attracting their own related but phylogenetically distinct pollinator species. Despite the presence of ecotypes, population genetic differentiation was low across populations at six microsatellite loci ( FST = 0.026). However, Bayesian STRUCTURE analysis revealed two genetic clusters, broadly congruent with the ecotype distributions. These ecotypes may represent adaptation to regional variation in pollinator availability and perhaps the early stages of speciation, with pronounced morphological and genetic differences yet to evolve. Resolution of the taxonomic status of the D. elastica ecotypes is required as this has implications for conservation efforts and allocation of management funding. Furthermore, any reintroduction programmes must incorporate knowledge of ecotype distribution and pollinator availability to ensure reproductive success in restored populations. © 2014 The Linnean Society of London, Botanical Journal of the Linnean Society, 2015, 177, 124-140. [ABSTRACT FROM AUTHOR]

Published

2015

26. Pyrazines Attract Catocheilus Thynnine Wasps.

Author

Bohman, Bjorn and Peakall, Rod

Subjects

*SEMIOCHEMICALS, *INSECT pheromones, *TIPHIIDAE, *PYRAZINES, *ORCHIDS, *ELECTROPHYSIOLOGY of insects

Abstract

Five previously identified semiochemicals from the sexually deceptive Western Australian hammer orchid Drakaea livida, all showing electrophysiological activity in gas chromatography-electroantennogram detection (EAD) studies, were tested in field bioassays as attractants for a Catocheilus thynnine wasp. Two of these compounds, (3,5,6-trimethylpyrazin-2-yl)methyl 3-methylbutanoate and 2-(3-methylbutyl)-3,5,6- trimethylpyrazine, were attractive to male wasps. Additionally, the semiochemical 3-(3-methylbutyl)-2,5-dimethylpyrazine, a close analogue to 2-(3-methylbutyl)-3,5,6- trimethylpyrazine, identified in five other species of thynnine wasps, was equally active. The three remaining compounds from D. livida, which were EAD-active against Catocheilus, did not attract the insects in field trials. It is interesting that two structurally similar compounds induce similar behaviours in field experiments, yet only one of these compounds is present in the orchid flower. Our findings suggest the possibility that despite the high specificity normally characterising sex pheromone systems, the evolution of sexual deception may not be entirely constrained by the need to precisely match the sex pheromone constituents and blends. Such evolutionary flexibility may be particularly important during the early stages of speciation. [ABSTRACT FROM AUTHOR]

Published

2014

27. Caught in the act: pollination of sexually deceptive trap-flowers by fungus gnats in Pterostylis (Orchidaceae).

Author

Phillips, Ryan D., Scaccabarozzi, Daniela, Retter, Bryony A., Hayes, Christine, Brown, Graham R., Dixon, Kingsley W., and Peakall, Rod

Subjects

PTEROSTYLIS, ORCHIDS, DIPTERA, POLLINATORS, POLLINATION

Abstract

Background and Aims Pterostylis is an Australasian terrestrial orchid genus of more than 400 species, most of which use a motile, touch-sensitive labellum to trap dipteran pollinators. Despite studies dating back to 1872, the mechanism of pollinator attraction has remained elusive. This study tested whether the fungus gnat-pollinated Pterostylis sanguinea secures pollination by sexual deception. Methods The literature was used to establish criteria for confirming sexual deception as a pollination strategy. Observations and video recordings allowed quantification of each step of the pollination process. Each floral visitor was sexed and DNA barcoding was used to evaluate the degree of pollinator specificity. Following observations that attraction to the flowers is by chemical cues, experimental dissection of flowers was used to determine the source of the sexual attractant and the effect of labellum orientation on sexual attraction. Fruit set was quantified for 19 populations to test for a relationship with plant density and population size. Key Results A single species of male gnat (Mycetophilidae) visited and pollinated the rewardless flowers. The gnats often showed probing copulatory behaviour on the labellum, leading to its triggering and the temporary entrapment of the gnat in the flower. Pollen deposition and removal occurred as the gnat escaped from the flower via the reproductive structures. The labellum was the sole source of the chemical attractant. Gnats always alighted on the labellum facing upwards, but when it was rotated 180 ° they attempted copulation less frequently. Pollination rate showed no relationship with orchid population size or plant density. Conclusions This study confirms for the first time that highly specific pollination by fungus gnats is achieved by sexual deception in Pterostylis. It is predicted that sexual deception will be widespread in the genus, although the diversity of floral forms suggests that other mechanisms may also operate. [ABSTRACT FROM PUBLISHER]

Published

2014

28. Floral odour chemistry defines species boundaries and underpins strong reproductive isolation in sexually deceptive orchids.

Author

Peakall, Rod and Whitehead, Michael R.

Subjects

*ORCHIDS, *BIOLOGICAL evolution, *REPRODUCTION, *SPECIES, *POLLINATION, *INSECT pollinators, REPRODUCTIVE isolation

Abstract

Background and Aims The events leading to speciation are best investigated in systems where speciation is ongoing or incomplete, such as incipient species. By examining reproductive barriers among incipient sister taxa and their congeners we can gain valuable insights into the relative timing and importance of the various barriers involved in the speciation process. The aim of this study was to identify the reproductive barriers among sexually deceptive orchid taxa in the genus Chiloglottis. Methods The study targeted four closely related taxa with varying degrees of geographic overlap. Chemical, morphological and genetic evidence was combined to explore the basis of reproductive isolation. Of primary interest was the degree of genetic differentiation among taxa at both nuclear and chloroplast DNA markers. To objectively test whether or not species boundaries are defined by the chemistry that controls pollinator specificity, genetic analysis was restricted to samples of known odour chemistry. Key Results Floral odour chemical analysis was performed for 600+ flowers. The three sympatric taxa were defined by their specific chiloglottones, the semiochemicals responsible for pollinator attraction, and were found to be fully cross-compatible. Multivariate morphometric analysis could not reliably distinguish among the four taxa. Although varying from very low to moderate, significant levels of genetic differentiation were detected among all pairwise combinations of taxa at both nuclear and chloroplast loci. However, the levels of genetic differentiation were lower than expected for mature species. Critically, a lack of chloroplast DNA haplotype sharing among the morphologically indistinguishable and most closely related taxon pair confirmed that chemistry alone can define taxon boundaries. Conclusions The results confirmed that pollinator isolation, mediated by specific pollinator attraction, underpins strong reproductive isolation in these taxa. A combination of large effective population sizes, initial neutral mutations in the genes controlling floral scent, and a pool of available pollinators likely drives diversity in this system. [ABSTRACT FROM PUBLISHER]

Published

2014

29. Congruent species delineation of Tulasnella using multiple loci and methods.

Author

Linde, Celeste C., Phillips, Ryan D., Crisp, Michael D., and Peakall, Rod

Subjects

GENES, DNA, PLANT reproduction, PLANT physiology, NUCLEIC acids

Abstract

The article presents a study that investigates the delineation of congruent species of Tulasnella utilizing multiple loci methods. It offers information no the methods and materials used in getting samples from the isolates of Tulasnella. Moreover, the results of the study that combines the six new developed DNA loci sequence are also mentioned.

Published

2014

30. Convergent specialization - the sharing of pollinators by sympatric genera of sexually deceptive orchids.

Author

Phillips, Ryan D., Xu, Tingbao, Hutchinson, Michael F., Dixon, Kingsley W., Peakall, Rod, and Santamaria, Luis

Subjects

POLLINATORS, POLLINATION by animals, ORCHIDS, SEMIOCHEMICALS, MIMICRY (Biology), PLANT defenses

Abstract

Pollinator sharing can offer powerful insights into the floral traits associated with the evolution of a pollination system and the consequences of floral differences for pollinator behaviour. Here, we investigate the first known case of pollinator sharing between two sexually deceptive plant genera. Floral manipulations were used to test the importance of floral traits for pollinator behaviour and pollination efficiency. We also explored the ecological differences enabling species co-occurrence., Drakaea livida and Caladenia pectinata (Orchidaceae) exhibit dramatic differences in floral display and the insectiform appearance of the labellum, yet both are pollinated by sexually attracted males of the thynnine wasp Zaspilothynnis nigripes. Because of the prevalence of cryptic species in some genera of thynnine wasps, we confirmed pollinator sharing by a mark-recapture study and sequencing of the mt DNA CO1 region., Floral dissections revealed that semiochemicals used to attract the pollinator are released from the labellum in D. livida and sepaline clubs in C. pectinata. Drakaea livida was more efficient at converting pollinator attraction into potential pollen deposition leading to higher fruit set. Floral manipulations showed that pollinator contact with the labellum increases when it is the point of semiochemical release. However, sexual attraction to the labellum remained infrequent in C. pectinata in all experimental treatments., While their distribution and climatic range show extensive overlap, the differences in edaphic requirements of the two orchid species suggest that they rarely co-occur. Therefore, the potential cost of sharing the same pollinator species is not realized., Synthesis. This case of pollinator sharing confirms that morphological traits do not place a strong constraint on the evolution of sexual deception. However, interspecific differences in floral traits have important consequences for converting attraction into pollination, suggesting that selection can act to increase efficiency at multiple steps of the pollination process. This system provides a novel opportunity to elucidate the chemical, visual and morphological adaptations underpinning the evolution of sexual mimicry. [ABSTRACT FROM AUTHOR]

Published

2013

31. Mate-Searching Behaviour of Common and Rare Wasps and the Implications for Pollen Movement of the Sexually Deceptive Orchids They Pollinate.

Author

Menz, Myles H. M., Phillips, Ryan D., Dixon, Kingsley W., Peakall, Rod, and Didham, Raphael K.

Subjects

WASP behavior, COURTSHIP, INSECT pollinators, ORCHIDS, OUTCROSSING of plants, INSECT populations, BIOLOGICAL evolution, INSECTS

Abstract

Pollinator behaviour directly affects patterns of pollen movement and outcrossing rates in plants. In orchids pollinated by sexual deception of insects, patterns of pollen movement are primarily determined by the mate-searching behaviour of the deceived males. Here, using a capture-mark-recapture study (CMR) and dietary analysis, we compare mate-searching behaviour in relation to local abundance of two pollinator species and explore the implications for pollen movement in sexually deceptive Drakaea (Orchidaceae). Drakaea are pollinated solely by the sexual deception of male thynnine wasps. The rare Drakaea elastica and widespread D. livida occur sympatrically and are pollinated by the rare but locally common Zaspilothynnus gilesi, and the widespread and abundant Z. nigripes, respectively. Local abundance was significantly different with Z. nigripes twice as abundant as Z. gilesi. For the 653 marked wasps, there was no significant difference in median movement distance between Z. gilesi and Z. nigripes. However, the maximum movement distance was twice as high for Z. gilesi (556 m) compared with Z. nigripes (267 m). This is up to three times greater than previously reported for thynnines in CMR studies. Recapture rates were six times higher in Z. gilesi (57%) compared to Z. nigripes (9%). Pollen loads and wasp longevity were similar, suggesting that this difference in recapture rate arises due to differences in the number of males moving at a scale >500 m rather than through diet or mortality. Differences in the frequency of longer movements may arise due to variation in the spatial distribution of the wingless females. We predict that pollen movement will largely be restricted to within populations of Drakaea (<500 m), with few movements between populations (>500 m). [ABSTRACT FROM AUTHOR]

Published

2013

32. The production of a key floral volatile is dependent on UV light in a sexually deceptive orchid.

Author

Falara, Vasiliki, Amarasinghe, Ranamalie, Poldy, Jacqueline, Pichersky, Eran, Barrow, Russell A., and Peakall, Rod

Subjects

ULTRAVIOLET radiation, ORCHIDS, OLFACTORY receptors, CHILOGLOTTIS, GAS chromatography/Mass spectrometry (GC-MS), PLANT cells & tissues, PHYSIOLOGY

Abstract

Background and Aims Plants use a diverse range of visual and olfactory cues to advertize to pollinators. Australian Chiloglottis orchids employ one to three related chemical variants, all 2,5-dialkylcyclohexane-1,3-diones or ‘chiloglottones’ to sexually attract their specific male pollinators. Here an investigation was made of the physiological aspects of chiloglottone synthesis and storage that have not previously been examined. Methods The location of chiloglottone production was determined and developmental and diurnal changes by GC-MS analysis of floral tissue extracts was monitored in two distantly related Chiloglottis species. Light treatment experiments were also performed using depleted flowers to evaluate if sunlight is required for chiloglottone production; which specific wavelengths of light are required was also determined. Key Results Chiloglottone production only occurs in specific floral tissues (the labellum calli and sepals) of open flowers. Upon flower opening chiloglottone production is rapid and levels remain more or less stable both day and night, and over the 2- to 3-week lifetime of the flower. Furthermore, it was determined that chiloglottone production requires continuous sunlight, and determined the optimal wavelengths of sunlight in the UV-B range (with peak of 300 nm). Conclusions UV-B light is required for the synthesis of chiloglottones – the semiochemicals used by Chiloglottis orchids to sexually lure their male pollinators. This discovery appears to be the first case to our knowledge where plant floral odour production depends on UV-B radiation at normal levels of sunlight. In the future, identification of the genes and enzymes involved, will allow us to understand better the role of UV-B light in the biosynthesis of chiloglottones. [ABSTRACT FROM AUTHOR]

Published

2013

33. Low population genetic differentiation in the Orchidaceae: implications for the diversification of the family.

Author

Phillips, Ryan D., Dixon, Kingsley W., and Peakall, Rod

Subjects

ORCHIDS, PLANT diversity, GENE flow in plants, PLANT population genetics, META-analysis

Abstract

A leading hypothesis for the immense diversity of the Orchidaceae is that skewed mating success and small, disjunct populations lead to strong genetic drift and switches between adaptive peaks. This mechanism is only possible under conditions of low gene flow that lead to high genetic differentiation among populations. We tested whether orchids typically exhibit high levels of population genetic differentiation by conducting a meta-analysis to compare mean levels of population genetic differentiation ( F ST) between orchids and other diverse families and between rare and common orchids. Compared with other families, the Orchidaceae is typically characterized by relatively low genetic differentiation among populations (mean F ST = 0.146) at allozyme loci. Rare terrestrial orchids showed higher population genetic differentiation than common orchids, although this value was still lower than the mean for most plant families. All lines of evidence suggest that orchids are typically characterized by low levels of population genetic differentiation, even in species with naturally disjunct populations. As such, we found no strong evidence that genetic drift in isolated populations has played a major role in the diversification of the Orchidaceae. Further research into the diversification of the family needs to unravel the relative roles of biotic and environmental selective pressures in the speciation of orchids. [ABSTRACT FROM AUTHOR]

Published

2012

34. A NARROW GROUP OF MONOPHYLETIC TULASNELLA (TULASNELLACEAE) SYMBIONT LINEAGES ARE ASSOCIATED WITH MULTIPLE SPECIES OF CHILOGLOTTIS (ORCHIDACEAE): IMPLICATIONS FOR ORCHID DIVERSITY.

Author

ROCHE, SEAN A., CARTER, RICHARD J., PEAKALL, ROD, SMITH, LEON M., WHITEHEAD, MICHAEL R., and LINDE, CELESTE C.

Subjects

CHILOGLOTTIS, ORCHIDS, SPECIES diversity, ECTOMYCORRHIZAS, PHYTOGEOGRAPHY

Abstract

• Premise of the study The Orchidaceae is characterized by exceptional species diversity. Obligate orchid mycorrhizae are predicted to determine orchid distributions, and highly specific relationships between orchids and fungi may drive orchid diversification. In this study, mycorrhizal diversity was examined in the terrestrial, photosynthetic orchid genus Chiloglottis to test the hypothesis of mycorrhizal-mediated diversification in the genus Chiloglottis. This orchid genus secures pollination by sexual deception, an obligate and highly specific pollination strategy. Here we asked whether the obligate orchid-fungal interactions are also specific. • Methods: Two sequenced loci, the internal transcribed spacer region (ITS) and mitochondrial large subunit (mtLSU), were used to identify fungal isolates and assess fungal species diversity. Symbiotic germination of two species Chiloglottis aff. jeanesii and C. valida were used to assess germination potential of isolates and confirm mycorrhizal association. • Key results: Phylogenetic analyses revealed that six representative Chiloglottis species spanning a broad survey of the genus were all associated with a narrow group of monophyletic Tulasnella fungal lineages. • Conclusions: The Chiloglottis-Tulasnella interaction appears to be the first known case of such a narrow symbiont association across a broadly surveyed orchid genus. It appears that the specific pollination system of Chiloglottis, rather than specific orchid--fungal interactions has been the key driving force in the diversification of the genus. These findings also indicate that plant groups with highly specific mycorrhizal partners can have a widespread distribution. [ABSTRACT FROM AUTHOR]

Published

2010

35. Speciation in the Orchidaceae: confronting the challenges.

Author

PEAKALL, ROD

Subjects

*ORCHIDS, *PLANT species diversity, *POLLINATION, *PLANT fertilization, *ANIMAL-plant relationships, *PLANT physiology, *PLANT reproduction, *PLANT populations, *POLLEN

Abstract

The Orchidaceae is renowned for its large number of species (19 500) and its many diverse, even bizarre, specialized pollination systems. One unusual feature of orchids is the high frequency of food deception whereby animal pollination is achieved without providing nectar, pollen or other food rewards. Food-deceptive pollination is estimated to occur in approximately one-third of all orchids. Equally intriguing is pollination by sexual deception whereby pollination is achieved by the sexual attraction of male insects to the orchid flower. Sexual deception is found in several hundred species representing multiple lineages. Given their rich species diversity and extraordinary plant–animal interactions, orchids clearly offer exciting research opportunities in pollination biology, reproductive isolation and speciation, yet surprisingly they remain under-represented in scientific investigations both in these fields and more generally. In this special issue of Molecular Ecology, Moccia et al. provide an exemplar study that combine multiple lines of evidence to illuminate the mechanism of reproductive isolation between two closely related food-deceptive orchids. Their study demonstrates that many of the challenges that confront orchid researchers and impede progress in our understanding of speciation in the Orchidaceae can be overcome by the creative application and integration of both old and new tools in ecology and genetics. [ABSTRACT FROM AUTHOR]

Published

2007

36. Conservation of taxonomically difficult species: the case of the Australian orchid, Microtis angusii.

Author

Flanagan, Nicola S., Peakall, Rod, Clements, Mark A., and Tupac Otero, J.

Subjects

ORCHIDS, SPECIES, DIAGNOSIS, NUCLEOTIDE sequence, GENETICS, PLANT clones, BIOLOGICAL classification, BIODIVERSITY, CONSERVATION biology

Abstract

As species are the common currency for conservation efforts, their accurate description is essential for efficient preservation of biological diversity. The genus Microtis (Orchidaceae) is typified by a paucity of consistent morphological characters, confounding taxonomic attempts. We report the results of a study of the conservation genetics of the recently discovered, endangered Australian orchid species M. angusii (Jones). This species was known only from one small population, with identification of further populations hampered by taxonomic difficulties. We used a combination of 122 AFLP markers and DNA sequence variation in the ribosomal ITS gene region to investigate the population genetic structure of the type population of M. angusii. Six further putative M. angusii populations were also analysed with these markers. Two of these populations showed high genetic affinity to M. angusii, bearing identical ITS sequences. Both the type and a second population were invariable across all AFLP loci. The third population, 3 km distant, showed minor genetic differentiation. These two new populations warrant immediate protection. Phylogenetic relationships between M. angusii and close relatives revealed its genetic affiliation to an unidentified, more distant population, and to the species M. unifolia. Given the propensity in Microtis for both selfing and clonality, mechanisms that both reduce within population variability and promote divergence between isolated populations, we recommend an extended study of both the genetic structure and breeding systems in the M. angusii/M. unifolia group, in order to ensure that the protection provided is both adequate and justified. [ABSTRACT FROM AUTHOR]

Published

2006

37. Microsatellite markers for evolutionary studies in the sexually deceptive orchid genus Chiloglottis.

Author

Flanagan, Nicola S., Ebert, Daniel, Porter, Carolyn, Rossetto, Maurizio, and Peakall, Rod

Subjects

ORCHIDS, CHILOGLOTTIS, POLLINATION, MICROSATELLITE repeats, ECOLOGY

Abstract

The orchids in the genus Chiloglottis are pollinated exclusively by sexual deception. We describe 20 variable microsatellite loci that will facilitate the study of the evolution and ecology of this specialized pollination system. Two loci were isolated from Chiloglottis trilabra, with the rest derived from Chiloglottis valida. All loci were polymorphic in C. valida ( HE 0.07–0.87). Most loci amplified, and were variable within close relatives of C. valida, and a number amplified more broadly, including outside the genus. [ABSTRACT FROM AUTHOR]

Published

2006

38. DOES SELECTION ON FLORAL ODOR PROMOTE DIFFERENTIATION AMONG POPULATIONS AND SPECIES OF THE SEXUALLY DECEPTIVE ORCHID GENUS OPHRYS?

Author

Mant, Jim, Peakall, Rod, Schiestl, Florian P., and Williams, C. F.

Subjects

*ANIMAL sexual behavior, *ORCHIDS, *OPHRYS, *POLLINATORS, *HYMENOPTERA

Abstract

Sexually deceptive orchids from the genus Ophrys attract their pollinators primarily through the chemical mimicry of female hymenopteran sex pheromones, thereby deceiving males into attempted matings with the orchid labellum. Floral odor traits are crucial for the reproductive success of these pollinator-limited orchids, as well as for maintaining reproductive isolation through the attraction of specific pollinators. We tested for the signature of pollinator-mediated selection on floral odor by comparing intra and interspecific differentiation in odor compounds with that found at microsatellite markers among natural populations. Three regions from southern Italy were sampled. We found strong floral odor differentiation among allopatric populations within species, among allopatric species and among sympatric species. Population differences in odor were also reflected in significant variation in the attractivity of floral extracts to the pollinator, Colletes cunicularius. Odor compounds that are electrophysiologically active in C. cunicularius males, especially alkenes, were more strongly differentiated among conspecific populations than non-active compounds in the floral odor. In marked contrast to these odor patterns, there was limited population or species level differentiation in microsatellites (FST range 0.005 to 0.127, mean FST 0.075). We propose that the strong odor differentiation and lack of genetic differentiation among sympatric taxa indicates selection imposed by the distinct odor preferences of different pollinating species. Within species, low FST values are suggestive of large effective population sizes and indicate that divergent selection rather than genetic drift accounts for the strong population differentiation in odor. The higher differentiation in active versus non-active odor compounds suggests that divergent selection among orchid populations may be driven by local pollinator preferences for those particular compounds critical for pollinator attraction. [ABSTRACT FROM AUTHOR]

Published

2005

39. A mark-recapture study of maleColletes cuniculariusbees: implications for pollination by sexual deception.

Author

Peakall, Rod and Schiestl, Florian P.

Subjects

COLLETES, BEES, POLLINATION, INSECT behavior, ANIMAL sexual behavior, POLLEN, ORCHIDS

Abstract

An unusual pollination strategy is pollination by sexual deception in which orchids sexually attract male insects as pollinators. One gap in knowledge concerns the pattern and extent of pollinator movement among these sexually deceptive flowers and how this translates to pollen and gene flow. Our aim was to use mark and recapture techniques to investigate the behavior and movement of maleColletes cunicularius, an important bee pollinator ofOphrys. Our study site was located in northern Switzerland where a large population of the bees was nesting. Within two plots, (10×40 m), we marked bees with different colors and numbered tags. Seventeen percent of the 577 marked bees were recaptured over a period of 1 to a maximum of 11 days. However, the number of recaptures dropped dramatically after 3-5 days, suggesting an average lifetime of less than 10 days. Mark-recapture distances varied from 0 to 50 m, with a mean of 5 m. Our findings show that individual male bees patrol a specific and restricted region of the nesting area in search of mates. This mark-recapture study provides the first clues about the potential movement of pollen within populations ofOphrysorchids. We predict that orchid-pollen movements mediated by bees will be similar to the mark-recapture distances in this study. Parallel studies within orchid populations, including direct studies of pollen movement, are now required to better understand how pollinator mate-searching behavior translates to pollination success and pollen movement within sexually deceptive orchid populations. [ABSTRACT FROM AUTHOR]

Published

2004

40. Chemical communication in the sexually deceptive orchid genus Cryptostylis.

Author

Schiestl, Florian P., Peakall, Rod, and Mant, Jim

Subjects

*ORCHIDS, *POLLINATION, *INSECT pollinators, *PLANT fertilization, *GAS chromatography, *ELECTROPHYSIOLOGY of plants

Abstract

Pollination by sexual deception is among the most intriguing of orchid pollination syndromes. Odours are well established as the primary stimuli for sexually attracting the male insect pollinators in these orchids. We applied gas chromatography with electroantennographic detection (GC-EAD) to investigate chemical communication between the sympatric, but morphologically distinct, orchids Cryptostylis erecta and C. subulata and their pollinators. Cryptostylis is unusual among sexually deceptive orchid genera in that all five Australian species share the same pollinator, the ichneumonid wasp Lissopimpla excelsa, but hybrids are unknown. We show that volatile odour compounds are not produced in detectable amounts in either species. Floral extracts containing many low-volatility compounds showed considerable differences in composition between C. erecta and C. subulata. By contrast, GC-EAD revealed the male wasp pollinators are electrophysiologically responsive to the same GC peak on two different kinds of GC column in both orchids. This leads us to predict that a single compound is the sexual attractant in all Australian Cryptostylis. The apparent conservation of chemical signals among distinct species contrasts with that of other sexually deceptive orchids that are often morphologically similar but reproductively isolated by their different chemical signals. © 2004 The Linnean Society of London, Botanical Journal of the Linnean Society, 2004, 144, 199–205. [ABSTRACT FROM AUTHOR]

Published

2004

41. Spatial autocorrelation analysis of individual multiallele and multilocus genetic structure.

Author

Smouse, Peter E. and Peakall, Rod

Subjects

*GENETIC sex determination, *ORCHIDS

Abstract

Population genetic theory predicts that plant populations will exhibit internal spatial autocorrelation when propagule flow is restricted, but as an empirical reality, spatial structure is rarely consistent across loci or sites, and is generally weak. A lack of sensitivity in the statistical procedures may explain the discrepancy. Most work to date, based on allozymes, has involved pattern analysis for individual alleles, but new PCR-based genetic markers are coming into vogue, with vastly increased numbers of alleles. The field is badly in need of an explicitly multivariate approach to autocorrelation analysis, and our purpose here is to introduce a new approach that is applicable to multiallelic codominant, multilocus arrays. The procedure treats the genetic data set as a whole, strengthening the spatial signal and reducing the stochastic (allele-to-allele, and locus-to-locus) noise. We (i) develop a very general multivariate method, based on genetic distance methods, (ii) illustrate it for multiallelic codominant loci, and (iii) provide nonparametric permutational testing procedures for the full correlogram. We illustrate the new method with an example data set from the orchid Caladenia tentaculata, for which we show (iv) how the multivariate treatment compares with the single-allele treatment, (v) that intermediate frequency alleles from highly polymorphic loci perform well and rare alleles poorly, (vi) that a multilocus treatment provides clearer answers than separate single-locus treatments, and (vii) that weighting alleles differentially improves our resolution minimally. The results, though specific to Caladenia, offer encouragement for wider application. [ABSTRACT FROM AUTHOR]

Published

1999

42. Pollinators discriminate among floral heights of a sexually deceptive orchid: Implications for...

Author

Peakall, Rod and Handel, Steven N.

Subjects

*POLLINATION by insects, *ORCHIDS, *PLANT reproduction, *ANIMAL-plant relationships

Abstract

Reports the results of experiments that test whether there is an optimal floral height for pollination in Chiloglottis trilabra orchids. Relationship between floral height and pollination; Height-choice experiments; Wasp visitation and choice.

Published

1993

43. Molecular genetic analysis and ecological evidence reveals multiple cryptic species among thynnine wasp pollinators of sexually deceptive orchids

Author

Griffiths, Kate E., Trueman, John W.H., Brown, Graham R., and Peakall, Rod

Subjects

*MOLECULAR genetics, *INSECT pollinators, *ORCHIDS, *SEX in plants, *PARSIMONIOUS models, *SEMIOCHEMICALS

Abstract

Abstract: Sexually deceptive Chiloglottis orchids lure their male thynnine wasp pollinators to the flower by emitting semiochemicals that mimic the specific sex pheromone of the wasp. Sexual deception is possible because chemical rather than visual cues play the key role in wasp mate search, suggesting that cryptic wasp species may be frequent. We investigated this prospect among Neozeleboria wasp pollinators of Chiloglottis orchids, drawing on evidence from molecular phylogenetic analysis at three genes (CO1, rhodopsin and wingless), population genetic and statistical parsimony analysis at CO1, orchid associations and their semiochemicals, and geographic ranges. We found a compelling relationship between genetically defined wasp groups, orchid associations, semiochemicals and geographic range, despite a frequent lack of detectable morphological differences. Our findings reveal multiple cryptic species among orchid pollinators and indicate that chemical changes are important for wasp reproductive isolation and speciation. The diversity of Neozeleboria may have enabled, rather than constrained, pollinator-driven speciation in these orchids. [Copyright &y& Elsevier]

Published

2011

44. An unusual tricosatriene is crucial for male fungus gnat attraction and exploitation by sexually deceptive Pterostylis orchids.

Author

Hayashi, Tobias, Bohman, Björn, Scaffidi, Adrian, Peakall, Rod, and Flematti, Gavin R.

Subjects

*MYCETOPHILIDAE, *INSECT pheromones, *ORCHIDS, *PHEROMONES, *POLLINATORS, *HUMAN sexuality, *HYMENOPTERA, *MOTHS

Abstract

Cross-kingdom mimicry of female insect sex pheromones by sexually deceptive orchids has evolved multiple times. 1 Fungus gnats (Diptera) are predicted to be pollinators of hundreds of sexually deceptive orchids, 2–4 yet unlike orchids that sexually attract bees and wasps (Hymenoptera), 5–11 the chemistry of fungus gnat-pollinated orchids remains unknown. Furthermore, despite the importance of fungus gnats as pollinators, pests, and decomposers of organic material, and evidence for sex pheromones since 1971, 12–17 no structure of any fungus gnat sex pheromone has to date been confirmed. In this study, we found a mixture of five hydrocarbons shared between Pterostylis orbiculata orchids and female Mycomya sp. (Mycetophilidae) fungus gnats, which included three alkanes, a C 23 diene, and a C 23 triene. The triene was an undescribed natural product, which we synthesized and confirmed to be (6 Z ,9 Z)-1,6,9-tricosatriene. Field bioassays with a synthetic blend of the five hydrocarbons elicited attraction and sexual behavior from male gnats. The triene alone elicited attraction and low levels of sexual behavior, but the blend without it was unattractive, suggesting that this compound is a key component of orchid pollinator attraction and the female fungus gnat sex pheromone. In two closely related Pterostylis species, we found related C 23 trienes, but not (6 Z ,9 Z)-1,6,9-tricosatriene. These results suggest that unusual long-chain unsaturated hydrocarbons hold the key to sexual deception in Pterostylis orchids, and are an important step toward deciphering female fungus gnat sex pheromones. [Display omitted] • An unusual long-chain triene is crucial for sexually deceiving male fungus gnats • Four additional long-chain hydrocarbons enhance sexual behavior • The same compounds are sex pheromone constituents of the female fungus gnat • Related unsaturated hydrocarbons likely underpin sexual deception in Pterostylis Hayashi et al. examine the cross-kingdom mimicry of fungus gnat sex pheromones by sexually deceptive Pterostylis orchids. Using a bioassay-guided approach, they demonstrate that an unusual long-chain triene is crucial for sexually attracting male fungus gnats. They show that related compounds may hold the key to sexual deception in Pterostylis. [ABSTRACT FROM AUTHOR]

Published

2021

45. The Discovery of 2-Hydroxymethyl-3-(3-methylbutyl)-5-methylpyrazine: A Semiochemical in Orchid Pollination.

Author

Bohman, Björn, Jeffares, Lynne, Flematti, Gavin, Phillips, Ryan D., Dixon, Kingsley W., Peakall, Rod, and Barrow, Russell A.

Subjects

*PYRAZINES, *SEMIOCHEMICALS, *POLLINATION, *ORCHIDS, *TIPHIIDAE, *PHEROMONES, *GAS chromatography/Mass spectrometry (GC-MS), *HYMENOPTERA

Abstract

Drakaea livida(Orchidaceae) is pollinated by sexual deception of the wasp Zaspilothynnus nigripes(Thynnidae). It is shown that the orchid emits the same compound, 2-hydroxymethyl-3-(3-methylbutyl)-5-methylpyrazine, that females emit when calling for mates. This novel pyrazine was isolated and identified by GC-EAD and GC-MS and confirmed by synthesis. This compound may represent the first known case of pyrazines as sex pheromones in Hymenoptera. [ABSTRACT FROM AUTHOR]

Published

2012

46. Complex Sexual Deception in an Orchid Is Achieved by Co-opting Two Independent Biosynthetic Pathways for Pollinator Attraction.

Author

Xu, Haiyang, Bohman, Björn, Wong, Darren C.j., Rodriguez-Delgado, Claudia, Scaffidi, Adrian, Flematti, Gavin R., Phillips, Ryan D., Pichersky, Eran, and Peakall, Rod

Subjects

*POLLINATION, *ORCHIDS, *SEMIOCHEMICALS, *PHEROMONES, *POLYKETIDE synthase genetics

Abstract

Summary Sexually deceptive orchids lure their specific male pollinators using volatile semiochemicals that mimic female sex pheromones. To date, the semiochemicals known to be involved consist of blends of chemically and biosynthetically related compounds. In contrast, we report that ( S )-β-citronellol and 2-hydroxy-6-methylacetophenone, two biosynthetically distinct compounds, are the active semiochemicals in Caladenia plicata , which is pollinated by male Zeleboria sp. thynnine wasps. They are also sex pheromone components of the female Zeleboria . A 1:4 blend elicits a high rate of attempted copulation (∼70%) in bioassays, equivalent to rates observed at orchid flowers. Whereas β-citronellol is well known, 2-hydroxy-6-methylacetophenone appears to be previously unknown as a floral volatile. Production of the two compounds is restricted to glandular sepal tips; thus, differential expression analysis of contrasting floral tissue transcriptomes was employed to illuminate the biosynthesis. As expected, production of ( S )-β-citronellol commences with the terpene synthase GES1 catalyzing the irreversible conversion of geranyl diphosphate (GPP) to geraniol. Contrary to prediction, biosynthesis subsequently proceeds in three steps, commencing with the oxidation of geraniol to geranial by alcohol dehydrogenase ADH3, followed by the enantioselective reduction of a double bond in geranial by geranial reductase GER1 to give ( S )-β-citronellal. Finally, ADH3-catalyzed reduction of ( S )-β-citronellal results in ( S )-β-citronellol. In line with previous work on insects showing that 2-hydroxy-6-methylacetophenone is derived from a polyketide pathway, we report a differentially expressed polyketide synthase (PKS) gene candidate. Thus, in this unique example of sexual deception, pollination is achieved by co-opting and regulating two independent biosynthetic pathways of floral volatile compounds. Video Abstract [ABSTRACT FROM AUTHOR]

Published

2017