Your search keyword '"Angiosperms"' showing total 24,027 results

1. Precipitation, solar radiation, and their interaction modify leaf hydraulic efficiency–safety trade‐off across angiosperms at the global scale.

Author

Jin, Yi, Ye, Qing, Liu, Xiaorong, Liu, Hui, Gleason, Sean M., He, Pengcheng, Liang, Xingyun, and Wu, Guilin

Abstract

Summary: In theory, there is a trade‐off between hydraulic efficiency and safety. However, the strength and direction of this trade‐off at the leaf level are not consistent across studies, and habitat climate may impact this trade‐off.We compiled a leaf hydraulic efficiency and safety dataset for 362 species from 81 sites world‐wide, with 280 paired observations of both traits, and tested whether climate was associated with departure from the proposed trade‐off.The leaf hydraulic efficiency–safety trade‐off was weak (R2 = 0.144) at the global scale. Mean annual precipitation and solar radiation (SR) modified the trade‐off. Species from dry and high SR habitats (e.g. desert and tropical savanna) were generally located above the trade‐off line, indicating that these species tended to have higher leaf hydraulic safety and efficiency than species from wet habitats with low SR (e.g. subtropical monsoon forest and montane rainforest), which were located below the trade‐off line. Leaves with high vein density, dry leaf mass per area, and osmotic regulation enhanced safety without compromising hydraulic efficiency.Variation in the hydraulic efficiency–safety trade‐off at the leaf level likely facilitates plant survival in specific habitats and allows for a more nuanced view of leaf hydraulic adaption strategies at the global scale. [ABSTRACT FROM AUTHOR]

Published

2024

2. Gaining or cutting SLAC: the evolution of plant guard cell signalling pathways.

Author

Sussmilch, Frances C., Maierhofer, Tobias, Herrmann, Johannes, Voss, Lena J., Lind, Christof, Messerer, Maxim, Müller, Heike M., Bünner, Maria S., Ache, Peter, Mayer, Klaus F. X., Becker, Dirk, Roelfsema, M. Rob G., Geiger, Dietmar, Schultz, Jörg, and Hedrich, Rainer

Abstract

Summary: The evolution of adjustable stomatal pores, enabling CO2 acquisition, was one of the most significant events in the development of life on land. Here, we investigate how the guard cell signalling pathways that regulate stomatal movements evolved.We compare fern and angiosperm guard cell transcriptomes and physiological responses, and examine the functionality of ion channels from diverse plant species.We find that, despite conserved expression in guard cells, fern anion channels from the SLAC/SLAH family are not activated by the same abscisic acid (ABA) pathways that provoke stomatal closure in angiosperms. Accordingly, we find an insensitivity of fern stomata to ABA. Moreover, our analysis points to a complex evolutionary history, featuring multiple gains and/or losses of SLAC activation mechanisms, as these channels were recruited to a role in stomatal closure.Our results show that the guard cells of flowering and nonflowering plants share similar core features, with lineage‐specific and ecological niche‐related adaptations, likely underlying differences in behaviour. [ABSTRACT FROM AUTHOR]

Published

2024

3. Botanical description, phytochemical constituents, ethnobotany, traditional medicinal use, and pharmacological activities of Stachys lavandulifolia Vahl.

Author

Dastan, Dara, Dobie, Christopher, Zadali, Reza, Pourrashid, Mouhamad Hassan, Skropeta, Danielle, and Miran, Mansour

Subjects

SCIENCE databases, FLOWERING of plants, ANGIOSPERMS, TRADITIONAL medicine, GROUND cover plants

Abstract

Stachys lavandulifolia Vahl known as "mountain tea", is a perennial flowering plant belonging to the Lamiaceae family and is widespread in Iran, Armenia, Azerbaijan, Iraq, Turkey and Turkmenistan. S. lavandulifolia is widely used in traditional medicine for its analgesic, anti-inflammatory and anxiolytic properties. This plant has different chemical compounds classes including terpenoids, iridoids, flavonoids and phenylethanoids that have been isolated from the aerial parts of it. This review covers the plant botany, traditional medicinal uses and chemical composition of S. lavandulifolia, along with its biological and pharmacological activities including clinical trial data. The information of this review article was obtained from different scientific databases such as Google scholar, Science Direct, Hindawi, SID, Scopus, PubMed, and ACS as well as traditional Persian books. Pharmacological and clinical studies, especially Anxiolytic activity and anti-inflammatory on the plant are relatively low, so these studies are suggested in the future. Also, phytochemical investigation on root of the plant is necessary. [ABSTRACT FROM AUTHOR]

Published

2024

4. Specialized seed dispersal in Neotropical Vanilla reveals fruit unpalatability to omnivores.

Author

Pansarin, E. R.

Subjects

*BIOLOGICAL extinction, *SEED dispersal, *SESSILE organisms, *SEED viability, *ANGIOSPERMS

Abstract

Flowering plants are essentially sessile organisms that disperse their genes through pollination, expanding their areas of occurrence through seed dispersal. In orchids, seed dispersal is commonly mediated by air currents. Conversely, members of several genera have evolved seeds adapted to endozoochory. This is the case for Vanilla, the most economically important genus in the orchid family.The role of indehiscent fruits in the attraction and rewarding of Vanilla seed dispersers was investigated based on field observations, analysis of fragrances, reward substances, and investigation of seed viability through the digestive tract.Indehiscent Vanilla fruits are consumed exclusively by herbivores, i.e. agoutis. Besides providing nutritional rewards, the fruits are rich in polyphenols that are unpalatable to omnivores. The most dominant compound in fruits is attractive only to agoutis. This is the first study showing synzoochory in Orchidaceae and specificity of seed dispersal in orchids.Indehiscent fruits may have evolved early in Neotropical Vanilla in response to selection pressures mediated by large herbivores as the genus emerged ca. 34 Mya in South America, concomitantly with megafauna diversification in the Oligocene. Extinction of the megafauna during the Pleistocene has left agoutis as inheritors of seed dispersal in species with large fleshy fruits. Apart from the effects on omnivores, this study shows that indehiscent fruits of V. chamissonis are consumed exclusively by agoutis, providing the first evidence of target mutualism in orchid seed dispersal. [ABSTRACT FROM AUTHOR]

Published

2024

5. Why do flowers wilt?

Author

Pyke, G. H., Ren, Z.‐X., and Kalman, J. R. M.

Subjects

*FLOWERING of plants, *PLANT reproduction, *ANGIOSPERMS, *FLOWERS, *PERENNIALS, *POLLINATORS, *POLLINATION

Abstract

Resources salvaged when flowers wilt on a perennial plant could promote reproduction by, in preference order, the same flowers (Hypothesis 1), adjacent flowers on the same plant (Hypothesis 2), or during the next flowering season by the same plant (Hypothesis 3).We tested the above hypotheses for Blandfordia grandiflora, a perennial species, where some plants included flowers that were allowed to wilt, while equivalent flowers on other plants were prevented from wilting. The abilities of these plants to produce seed were determined by liberally pollinating all flowers. To test Hypotheses 1 and 2, seed set per flower and per plant were compared between plants with and without wilting flowers. To specifically test Hypothesis 3, reproduction was prevented in all flowers. For each experiment, flowering was monitored in the same plants during the next flowering season, thus also enabling Hypothesis 3 to be tested.The results were consistent with Hypothesis 3, but not with Hypotheses 1 and 2.Hence, we verified, for the first time, that plants may benefit from salvaging resources from wilting flowers and re‐using these resources for subsequent reproduction. However, contrary to expectations, plants re‐used these resources to promote reproduction during subsequent flowering, and not during current flowering by either the same flowers or other flowers on the same plant. The plants must have transferred resources from wilting flowers to underground corms and roots, which provided resources necessary for subsequent flowering. This is likely part of a general plant strategy to salvage resources invested in reproduction during one flowering season and reuse these resources during subsequent flowering. [ABSTRACT FROM AUTHOR]

Published

2024

6. Fungus gnat pollination in Arisaema urashima: the interplay of lethal traps and mutualistic nurseries.

Author

Suetsugu, K., Nishigaki, H., Sato, R., Kakishima, S., Ishitani, E., Fukushima, S., Sugiura, S., and Sueyoshi, M.

Subjects

*MYCETOPHILIDAE, *OVIPARITY, *ANGIOSPERMS, *POLLINATORS, *POLLINATION, *DECEPTION, *ADULTS

Abstract

While most flowering plants engage in mutualistic interactions with their pollinators, Arisaema species employ a unique, seemingly antagonistic strategy by imprisoning and causing the pollinators to perish within their spathes. Recent studies have revealed that Arisaema thunbergii primarily relies on a fungus gnat, Leia ishitanii, with some individuals possibly escaping female spathes after oviposition.We investigated interactions between A. urashima and its pollinating fungus gnats, given that A. urashima is closely related to A. thunbergii. Specifically, we tested whether decaying A. urashima serve as brood‐sites for some pollinators and whether these pollinators can escape seemingly lethal floral traps. We retrieved A. urashima spathes together with adult insect corpses trapped within the spathes and incubated the spathes to see if conspecific insects emerged. In addition, under laboratory conditions, we observed the escape behaviour of Sciophila yokoyamai, whose next‐generation adults most frequently emerge from the decaying spathes.Our findings indicate that S. yokoyamai almost always escapes from the female spathe after oviposition while using the inflorescence as a nursery. In contrast, other pollinators of A. urashima, including Mycetophila spp., remain trapped and perished within the spathes.This study demonstrates that A. urashima spathes can function both as lethal traps and mutualistic nurseries, with outcomes differing among pollinator species. Our results also suggest that the contribution of certain pollinators to Arisaema reproduction is underestimated or even neglected, given that information on their pollinator assemblages has been based on floral visitors trapped within the inflorescences. [ABSTRACT FROM AUTHOR]

Published

2024

7. The enigmatic Triassic ovulate reproductive structures of Dordrechtites are recurved cupules fundamentally comparable to the cupules of Doylea and similar plants.

Author

Crane, Peter R., Anderson, John M., Anderson, Heidi, Herendeen, Patrick S., and Herrera, Fabiany

Subjects

*CONES (Botany), *MESOZOIC Era, *ANGIOSPERMS, *PHYLOGENY, *SEEDS

Abstract

Summary: Recent paleobotanical discoveries have renewed interest in the distinctively recurved, seed‐bearing cupules of Mesozoic plants, which are important for understanding seed plant phylogeny and the origin of the second integument of the angiosperm ovule.Reanalysis of the enigmatic seed‐bearing organ Dordrechtites elongatus from the Triassic of South Africa, the type species of the genus, combined with information from similar material from Antarctica, Argentina and Australia, indicates that Dordrechtites is a highly modified lateral branch of a seed cone. Short lateral projections from a primary cone axis each bear several Dordrechtites units. Each unit consists of a long stalk bearing a straight to sometimes recurved cupule with a long distal extension beyond the cupule apex. Each cupule is flattened in a plane perpendicular to the stalk and distal projection and contains up to two seeds.Structural similarities between Dordrechtites and the cupules of Doyleales indicate that they are homologous, providing new evidence for a close relationship.The persistent cupule stalk and apical extension of Dordrechtites, combined with the flattened cupule, suggests modification for wind and water dispersal. [ABSTRACT FROM AUTHOR]

Published

2024

8. Rainforest transformation reduces parasitoid wasp diversity—Can the enrichment of flowering vegetation alleviate this?

Author

Azhar, Azru, Grass, Ingo, Rizali, Akhmad, Pudjianto, and Buchori, Damayanti

Subjects

*RUBBER plantations, *RAIN forests, *SPECIES diversity, *ANGIOSPERMS, *WASPS, *OIL palm

Abstract

In Indonesia, the rapid expansion of oil palm and rubber plantations replaces large areas of tropical rainforest. Rainforest transformation alters the diversity and composition of parasitoid wasp communities, but appropriate management strategies to buffer their decline in rainforest transformation landscapes are not yet developed.Here, we studied the effects of rainforest conversion to smallholder rubber and oil palm plantations on parasitoid wasp species richness, abundance and species composition. We also conducted a flowering vegetation enrichment experiment using the flowering weed Asystasia gangetica in all land‐uses to investigate potential mitigation effects on parasitoid wasp diversity and composition.Rainforest transformation to rubber plantations caused a large decrease in species richness (46%) and abundance (59%) of parasitoid wasps. Community structure of parasitoid wasps differed between forest and monoculture habitats with more habitat‐specialised species in forest and a higher proportion of common species in the monoculture.The experimental flowering vegetation enrichment increased parasitoid wasp species richness by 18% and abundance by 127%. Enrichment also enhanced the presence of unique parasitoid species in plantation and furthermore increased differences in community composition between rainforest and plantations. However, the enrichment experiment was confounded by time, meaning that a multi‐year experiment with targeted controls is necessary for statistically more reliable statements.Our study shows the effect of rainforest transformation to oil palm and rubber plantations on parasitoid wasp communities. Although providing additional flowering vegetation in plantations seems to potentially mitigate diversity loss, further research is needed to confirm and to investigate the mechanisms how flowering plants alleviate negative effects of rainforest transformation on parasitoid communities. Thereby, efficient conservation strategies for parasitoids wasps and their biological control services can be developed for rapidly changing tropical landscapes. [ABSTRACT FROM AUTHOR]

Published

2024

9. The bryophyte rhizoid‐sphere microbiome responds to water deficit.

Author

Berdaguer, Roland, van der Wielen, Nicky, Lorenzo, Zulema Carracedo, Testerink, Christa, and Karlova, Rumyana

Subjects

*NITROGEN fixation, *VASCULAR plants, *NATURE reserves, *CROP yields, *RHIZOIDS, *MOSSES

Abstract

The roots of vascular plants are colonised by a multitude of microbes, which play an important role in plant health and stress resilience. Drought stress in particular is devastating for crop yield and causes major shifts in the rhizosphere microbial communities. However, the microbiome associated to the rhizoids (hereafter termed rhizoid‐sphere) of the nonvascular bryophytes remains largely unexplored. Here, we use amplicon sequencing to explore the rhizoid‐sphere microbiome of three bryophyte species under drought and well‐watered conditions. Comparing rhizoid‐sphere microbial communities associated with the two liverworts Marchantia polymorpha and Marchantia paleacea and the moss Physcomitrium patens showed characteristic differences in composition between host species and both conserved and unique changes under drought. At phylum level, these changes were similar to changes in the rhizosphere of angiosperms under drought. Furthermore, we observed strong differences in rhizoid‐sphere colonisation between bryophyte species for taxa known for nitrogen fixation and plant growth promotion. Interestingly, M. polymorpha prioritised the growth of belowground organs under osmotic stress, as is the case for angiosperms under drought. Taken together, our results show interesting parallels between bryophytes and angiosperms in the relation with their rhizo(id‐)sphere, suggesting evolutionary conservation among land plants in their response to drought stress. Summary statement: Here, we explore the microbiome around the rhizoids of bryophyte plants, termed rhizoid‐sphere. These microbiome changes under drought are similar to the rhizosphere of angiosperms. Microbes that could promote plant growth and fix nitrogen seem to be recruited by specific bryophyte species. [ABSTRACT FROM AUTHOR]

Published

2024

10. United by conflict: Convergent signatures of parental conflict in angiosperms and placental mammals.

Author

Soliman, Hagar K and Coughlan, Jenn M

Subjects

*GENOMIC imprinting, *ENDOSPERM, *PLACENTA, *ANGIOSPERMS, *KINSHIP

Abstract

Endosperm in angiosperms and placenta in eutherians are convergent innovations for efficient embryonic nutrient transfer. Despite advantages, this reproductive strategy incurs metabolic costs that maternal parents disproportionately shoulder, leading to potential inter-parental conflict over optimal offspring investment. Genomic imprinting—parent-of-origin-biased gene expression—is fundamental for endosperm and placenta development and has convergently evolved in angiosperms and mammals, in part, to resolve parental conflict. Here, we review the mechanisms of genomic imprinting in these taxa. Despite differences in the timing and spatial extent of imprinting, these taxa exhibit remarkable convergence in the molecular machinery and genes governing imprinting. We then assess the role of parental conflict in shaping evolution within angiosperms and eutherians using four criteria: 1) Do differences in the extent of sibling relatedness cause differences in the inferred strength of parental conflict? 2) Do reciprocal crosses between taxa with different inferred histories of parental conflict exhibit parent-of-origin growth effects? 3) Are these parent-of-origin growth effects caused by dosage-sensitive mechanisms and do these loci exhibit signals of positive selection? 4) Can normal development be restored by genomic perturbations that restore stoichiometric balance in the endosperm/placenta? Although we find evidence for all criteria in angiosperms and eutherians, suggesting that parental conflict may help shape their evolution, many questions remain. Additionally, myriad differences between the two taxa suggest that their respective biologies may shape how/when/where/to what extent parental conflict manifests. Lastly, we discuss outstanding questions, highlighting the power of comparative work in quantifying the role of parental conflict in evolution. [ABSTRACT FROM AUTHOR]

Published

2024

11. A checklist of invasive plants of Gorakhpur district: terai region of eastern Uttar Pradesh.

Author

Singh, Sneha, Datta, Arunava, and Madhukar, Virendra K.

Abstract

Biological invasion is the second most important threat to biodiversity and consequently is a cause of great concern for the ecology and economy of the invaded community. Documentation of invasive plants in a region is crucial as it provides the baseline information for future research and management activities. In this study, we have produced an annotated checklist of the invasive alien plants of Gorakhpur district in the Terai region of Eastern Uttar Pradesh based on field observation, existing literature, and herbarium consultation. A total 58 alien plants species are listed, belonging to 25 angiosperm families of which 15 alien species are invasive having high impact, 37 alien species are naturalized having moderate impact and 6 alien species are casual having low impact over ecological communities. All the invasive plants are not equally problematic and spread across the district while some of them viz. Ageratum houstonianum Mill., Alternanthera philoxeroides (Mart.) Abh., Chromolaena odorata (L.) R.M. King & H. Rob., Mesosphaerum suaveolens (L.) Kuntze., Mikania micrantha Kunth Nov., Parthenium hysterophorus L., Pontederia crassipes Mart., Antigonon leptopus Hook. & Arn., Lantana camara L., are spread in most parts of the district and they are capable of spreading into the protected areas of this region. The present study is based on firsthand field observations, and provides a detailed and recent checklist of invasive species of Gorakhpur district. Therefore, this information can help researchers and policymakers to develop effective management strategies. [ABSTRACT FROM AUTHOR]

Published

2024

12. Cell cycle time in the root apical meristem of angiosperms and its dependence on holoploid DNA content.

Author

Zhukovskaya, Natalia V. and Ivanov, Victor B.

Abstract

Main conclusion: In the angiosperm root apical meristem, the holoploid DNA content is not directly related to cell cycle time. Instead, ploidy, chromosome number, and taxa emerge as key factors that influence this interaction. It is commonly considered that cell cycle time in the angiosperm root apical meristem is directly related to the holoploid DNA content, and this is one of the manifestations of the nucleotypic effect. In this paper, we significantly expanded the previously reported data on cell cycle time using the thymidine method and the rate-of-cell-production method and investigated the nucleotypic effect in different taxonomic groups, in diploids with varying numbers of chromosomes, and in species of different ploidy levels. The nucleotypic effect was most pronounced in diploids with a chromosome number of less than 17, especially in the orders Asparagales and Liliales. In diploids with 17 and a greater number of chromosomes, and in polyploids, the nucleotypic effect was only evident in these two orders and was practically absent in the rest of angiosperms, which have generally lower the holoploid DNA content and average DNA content per chromosome. Overall, our work demonstrates that in angiosperms the relationship between cell cycle time in the root apical meristem and the holoploid DNA content is complex and not homogeneous and it is not directly related to cell cycle time. Instead, ploidy, chromosome number, and taxa emerge as key factors that influence this interaction. [ABSTRACT FROM AUTHOR]

Published

2024

13. Genomic correlates of vascular plant reproductive complexity and the uniqueness of angiosperms.

Author

Leslie, Andrew B. and Mander, Luke

Abstract

Summary Whole genome duplication (WGD) likely plays an important role in plant macroevolution, and has been implicated in diversification rate shifts, structural innovations, and increased disparity. But the general effects of WGD are challenging to evaluate, in part due to the difficulty of directly comparing morphological patterns across disparate clades. We explored relationships between WGD and the evolution of reproductive complexity across vascular plants using a metric based on the number of reproductive part types. We used multiple regression models to evaluate the relative importance of inferred WGD events, genome size, and a suite of additional variables relating to growth habit and reproductive biology in explaining part type complexity. WGD was a consistent predictor of reproductive complexity only among angiosperms. Across vascular plants generally, reproductive biology, clade identity, and the presence of bisexual strobili (those that produce microsporangiate and megasporangiate organs) were better predictors of complexity. Angiosperms are unique among vascular plants in combining frequent polyploidy with high‐reproductive complexity. Whether WGD is mechanistically linked to floral complexity is unclear, but we suggest widespread polyploidy and increased complexity were ultimately facilitated by the evolution of herbaceous growth habits in early angiosperms. [ABSTRACT FROM AUTHOR]

Published

2024

14. A telomere-to-telomere Eucalyptus regnans genome: unveiling haplotype variance in structure and genes within one of the world's tallest trees.

Author

Ferguson, Scott, Bar-Ness, Yoav D, Borevitz, Justin, and Jones, Ashley

Subjects

*HAPLOTYPES, *FLOWERING of plants, *GENETIC transcription, *ANGIOSPERMS, *ENERGY conservation, *EUCALYPTUS

Abstract

Background: Eucalyptus regnans (Mountain Ash) is an Australian native giant tree species which form forests that are among the highest known carbon-dense biomasses in the world. To enhance genomic studies in this ecologically important species, we assembled a high-quality, mostly telomere-to-telomere complete, chromosome-level, haplotype-resolved reference genome. We sampled a single tree, the Centurion, which is currently a contender for the world's tallest flowering plant. Results: Using long-read sequencing data (PacBio HiFi, Oxford Nanopore ultra-long reads) and chromosome conformation capture data (Hi-C), we assembled the most contiguous and complete Eucalyptus reference genome to date. For each haplotype, we observed contig N50s exceeding 36 Mbp, scaffold N50s exceeding 43 Mbp, and genome BUSCO completeness exceeding 99%. The assembled genome revealed extensive structural variations between the two haplotypes, consisting mostly of insertions, deletions, duplications and translocations. Analysis of gene content revealed haplotype-specific genes, which were enriched in functional categories related to transcription, energy production and conservation. Additionally, many genes reside within structurally rearranged regions, particularly duplications, suggesting that haplotype-specific variation may contribute to environmental adaptation in the species. Conclusions: Our study provides a foundation for future research into E. regnans environmental adaptation, and the high-quality genome will be a powerful resource for conservation of carbon-dense giant tree forests. [ABSTRACT FROM AUTHOR]

Published

2024

15. Nectar‐inhabiting bacteria differently affect the longevity of co‐occurring egg parasitoid species by modifying nectar chemistry.

Author

Sarakatsani, Evgenia, Ermio, Jay Darryl L., Rahman, Shahinoor, Bella, Patrizia, Agrò, Alfonso, Pinto, Mirella Lo, Peri, Ezio, Colazza, Stefano, Lievens, Bart, Rostás, Michael, and Cusumano, Antonino

Subjects

*NECTAR, *SUGAR alcohols, *BACILLUS (Bacteria), *BACILLACEAE, *ANGIOSPERMS

Abstract

Flowering plants can be introduced in modern agroecosystems to support resident natural enemies in the context of Conservation Biological Control (CBC). Buckwheat (Fagopyrum esculentum) (Polygonales: Polygonaceae) has been shown to enhance the longevity of several parasitoids through the provision of high quality and easily accessible floral nectar. Yet floral nectar is ubiquitously colonized by microbes which can change nectar chemistry with consequences for parasitoids. Nonetheless, how bacteria associated with buckwheat floral nectar affect parasitoid performance is not known. In this study, adult females of Trissolcus basalis (Hymenoptera: Scelionidae) and Ooencyrtus telenomicida (Hymenoptera: Encyrtidae), two parasitoids of Nezara viridula (Hemiptera: Pentatomidae), were provided with synthetic nectar fermented by 14 bacterial isolates originating from buckwheat nectar. We recorded the effect of bacterial fermentation on female longevity and nectar chemistry. In the case of T. basalis, females consuming nectar fermented by Bacillus sp., Brevibacillus sp., Brevibacterium frigoritolerans, Saccharibacillus endophyticus, and Terribacillus saccharophilus significantly enhanced their longevity compared with females fed with non‐fermented nectar. For O. telenomicida, enhanced longevity was recorded only in the case of B. frigoritolerans and Pantoea dispersa. For both parasitoids, no negative effects due to bacterial fermentation of nectar were recorded. Chemical investigations of bacteria‐fermented nectars revealed an increased diversity in the composition of sugars and sugar alcohols, whereas non‐fermented nectar only contained sucrose. Our findings show that nectar‐inhabiting bacteria are important “hidden players” in the interactions between flowers and parasitoids, an indication that a better understanding of plant–microbe–insect interactions could improve CBC programmes. [ABSTRACT FROM AUTHOR]

Published

2024

16. Functions and Regulation of HAM Family Genes in Meristems During Gametophyte and Sporophyte Generations.

Author

Geng, Yuan, Xie, Chong, Zhang, Cankui, Liu, Xing, and Zhou, Yun

Subjects

*PLURIPOTENT stem cells, *MERISTEMS, *FLOWERING of plants, *VASCULAR plants, *ANGIOSPERMS

Abstract

ABSTRACT A fascinating feature of land plants is their ability to continually initiate new tissues and organs throughout their lifespan, driven by a pool of pluripotent stem cells located in meristems. In seed plants, various types of meristems are initiated and maintained during the sporophyte generation, while their gametophytes lack meristems and rely on sporophyte tissues for growth. In contrast, seed‐free vascular plants, such as ferns, develop meristems during both the sporophyte and gametophyte generations, allowing for the independent growth of both generations. Recent findings have highlighted both conserved and lineage‐specific roles of the HAIRY MERISTEM (HAM) family of GRAS‐domain transcriptional regulators in various meristems throughout the land plant lifecycle. Here, we review and discuss how HAM genes maintain meristem indeterminacy in both sporophytes and gametophytes, with a focus on studies performed in two model species: the flowering plant Arabidopsis thaliana and the fern Ceratopteris richardii. Additionally, we summarize the crucial and tightly regulated functions of the microRNA171 (miR171)‐HAM regulatory modules, which define HAM spatial patterns and activities during meristem development across various meristem identities in land plants. [ABSTRACT FROM AUTHOR]

Published

2024

17. Control of sporophyte secondary cell wall development in Marchantia by a Class II KNOX gene.

Author

Dierschke, Tom, Levins, Jonathan, Lampugnani, Edwin R., Ebert, Berit, Zachgo, Sabine, and Bowman, John L.

Subjects

*PLANT evolution, *PECTINS, *CELLULAR evolution, *ANGIOSPERMS, *MUCILAGE

Abstract

Land plants evolved from an ancestral alga around 470 mya, evolving complex multicellularity in both haploid gametophyte and diploid sporophyte generations. The evolution of water-conducting tissues in the sporophyte generation was crucial for the success of land plants, paving the way for the colonization of a variety of terrestrial habitats. Class II KNOX (KNOX2) genes are major regulators of secondary cell wall formation and seed mucilage (pectin) deposition in flowering plants. Here, we show that, in the liverwort Marchantia polymorpha , loss-of-function alleles of the KNOX2 ortholog, Mp KNOX2 , or its dimerization partner, Mp BELL1 , have defects in capsule wall secondary cell wall and spore pectin biosynthesis. Both genes are expressed in the gametophytic calyptra surrounding the sporophyte and exert maternal effects, suggesting intergenerational regulation from the maternal gametophyte to the sporophytic embryo. These findings also suggest the presence of a secondary wall genetic program in the non-vascular liverwort capsule wall, with attributes of secondary walls in vascular tissues. [Display omitted] • Marchantia Class II KNOX is maternally expressed in the calyptra post-fertilization • Mp KNOX2 non-cell autonomously directs sporophytic capsule wall formation • Mp KNOX2 is involved in pectin biosynthesis during microsporogenesis • Secondary cell wall and pectin biosynthesis by KNOX2 genes is land plant universal The evolution of vasculature paved the way for land plants to colonize a vast array of terrestrial habitats. Dierschke et al. demonstrate that maternally expressed Marchantia polymorpha Class II KNOX controls sporophyte capsule secondary cell wall and pectin biosynthesis during sporogenesis, a function conserved throughout land plant evolution. [ABSTRACT FROM AUTHOR]

Published

2024

18. Passive stomatal closure under extreme drought in an angiosperm species.

Author

McAdam, Scott A M, Manandhar, Anju, Kane, Cade N, and Mercado-Reyes, Joel A

Subjects

*ABSCISIC acid, *TURGOR, *DROUGHTS, *XYLEM, *ANGIOSPERMS, *STOMATA

Abstract

The phytohormone abscisic acid (ABA) plays a major role in closing the stomata of angiosperms. However, recent reports of some angiosperm species having a peaking-type ABA dynamic, in which under extreme drought ABA levels decline to pre-stressed levels, raises the possibility that passive stomatal closure by leaf water status alone can occur in species from this lineage. To test this hypothesis, we conducted instantaneous rehydration experiments in the peaking-type species Umbellularia californica through a long-term drought, in which ABA levels declined to pre-stress levels, yet stomata remain closed. We found that when ABA levels were lowest during extreme drought, stomata reopen rapidly to maximum rates of gas exchange on instantaneous rehydration, suggesting that the stomata of U. californica were passively closed by leaf water status alone. This contrasts with leaves early in drought, in which ABA levels were highest and stomata did not reopen on instantaneous rehydration. The transition from ABA-driven stomatal closure to passively driven stomatal closure as drought progresses in this species occurs at very low water potentials facilitated by highly embolism-resistant xylem. These results have important implications for understanding stomatal control during drought in angiosperms. [ABSTRACT FROM AUTHOR]

Published

2024

19. Proximal aperture in Cephalanthera longifolia (L.) Fritsch (Orchidaceae) pollen: a rare germination site for angiosperms.

Author

Purgina, Carola, Grímsson, Friðgeir, and Ulrich, Silvia

Subjects

*POLLEN, *POLLEN dispersal, *SCANNING electron microscopy, *ANGIOSPERMS, *ORCHIDS

Abstract

The pollen dispersal unit of the epidendroid species, Cephalanthera longifolia, is a soft pollinium consisting of loosely connected tetrads that are agglutinated by elastoviscin. With scanning electron microscopy, the reticulate exine is visible on the outer pollen grains of outer tetrads of a pollinium. The pollen grains are mostly arranged in planar-tetragonal tetrads or decussate tetrads and easily disintegrate into monads. Contrary to the inaperturate pollen in members of subfamily Epidendroideae known so far, C. longifolia exhibits ulcerate pollen. When pollen grains are attached in tetrads within a pollinium the apertures are obscured, as they are located on the proximal side of the pollen grains. The ulcus can only be observed when tetrads disintegrate, freeing the monads and exposing the proximal side of pollen grains for investigation by light and scanning electron microscopy. Proximal aperture configurations are rare among angiosperms and currently known only from few other species of flowering plants. This is the first report of an ulcerate proximal aperture within Orchidaceae. [ABSTRACT FROM AUTHOR]

Published

2024

20. Does Windbreak Enhancement With Floral Resources Increase Pollinator Communities in Citrus Orchards?

Author

Chuang, Angela, Exilien, Romain, Blaauw, Brett, Liesenfelt, Tracy, Malfa, Kathi, Mallinger, Rachel, Martini, Xavier, and Diepenbrock, Lauren

Subjects

*FLOWERING of plants, *EXTREME weather, *AGRICULTURE, *HONEYBEES, *ANGIOSPERMS, *WILD flowers

Abstract

ABSTRACT Agricultural practices and landscape simplification contribute to the ongoing global decline in wildlife. A more integrated approach such as cultivating flowering plants by agricultural fields can enhance wildlife habitat, especially for beneficial arthropods like pollinators. In Florida, citrus orchards are commonly bordered by living windbreaks, single lines of trees designed to buffer orchards from weather extremes as well as pest and pathogen movement. Although these windbreaks act as alternative habitats for residential arthropods, they can be improved with additional floral resources and vegetational complexity. In this study, we explored whether enhancing these field margins by planting flowering herbs, vines and shrubs would lead to higher pollinator abundance and diversity in citrus orchards in north and central Florida. We also investigated the role of naturally occurring wildflowers in attracting pollinators. We found that floral plantings by citrus orchard edges were utilised by pollinators. Cultivated blanketflower (Gaillardia pulchella) was particularly attractive to various wild bees, while commercially managed honey bees were primarily found on a common weedy flowering plant, Spanish needles (Bidens alba). We ultimately found differing patterns of pollinator activity in the adjacent citrus orchards across regions; while more bees, including honey bees, were found within the enhanced orchard compared to control orchard in central Florida, this was not true in north Florida. This study highlights the pollinator resources provided by wild flowers in and around orchards in addition to the conservation potential of cultivated, pollinator‐friendly plants. [ABSTRACT FROM AUTHOR]

Published

2024

21. Comparative case study of evolutionary insights and floral complexity in key early-diverging eudicot Ranunculales models.

Author

Sharma, Bharti, Pandher, Mankirat Kaur, Alcaraz Echeveste, Ana Quetzali, Bravo, Marianellie, Romo, Rene Kenny, and Ramirez, Sarah Christine

Subjects

CROPS, ANGIOSPERMS, RANUNCULALES, PLANT genomes, CORN

Abstract

Famously referred to as "Darwin's abominable mystery," the rapid diversification of angiosperms over the last ~140 million years presents a fascinating enigma. This diversification is underpinned by complex genetic pathways that evolve and rewire to produce diverse and sometimes novel floral forms. Morphological innovations in flowers are shaped not only by genetics but also by evolutionary constraints and ecological dynamics. The importance of model organisms in addressing the long-standing scientific questions related to diverse floral forms cannot be overstated. In plant biology, Arabidopsis thaliana , a core eudicot, has emerged as a premier model system, with its genome being the first plant genome to be fully sequenced. Similarly, model systems derived from crop plants such as Oryza sativa (rice) and Zea mays (maize) have been invaluable, particularly for crop improvement. However, despite their substantial utility, these model systems have limitations, especially when it comes to exploring the evolution of diverse and novel floral forms. The order Ranunculales is the earliest-diverging lineage of eudicots, situated phylogenetically between core eudicots and monocots. This group is characterized by its exceptional floral diversity, showcasing a wide range of floral morphologies and adaptations that offer valuable insights into the evolutionary processes of flowering plants. Over the past two decades, the development of at least five model systems including, Aquilegia , Thalictrum , Nigella , Delphinium and Eschscholzia within the Ranunculales order has significantly advanced our understanding of floral evolution. This review highlights the conservation and divergence of floral organ identity programs observed among these models and discusses their importance in advancing research within the field. The review also delves into elaborate petal morphology observed in Aquilegia , Nigella , and Delphinium genera, and further discusses the contributions, limitations, and future research directions for Ranunculales model systems. Integrating these diverse models from the early-diverging eudicot order has enhanced our understanding of the complex evolutionary pathways that shape floral diversity in angiosperms, bridging the knowledge gaps essential for a comprehensive understanding of floral evolution. [ABSTRACT FROM AUTHOR]

Published

2024

22. Island colonization in flowering plants is determined by the interplay of breeding system, lifespan, floral symmetry, and arrival opportunity.

Author

Zell, Annie N., Miranda, Charlotte H., Grady, Erin L., Grossenbacher, Dena L., and Igić, Boris

Subjects

*FLOWERING of plants, *PLANT colonization, *COLONIZATION (Ecology), *ANGIOSPERMS, *CONSOLIDATED financial statements, *POLLINATION

Abstract

Summary Among flowering plants, self‐compatibility, longer lifespan, and generalized pollination syndrome are each thought to increase the lifetime odds of finding a mate, particularly in isolated locales. An accumulated body of evidence supports the role of breeding system in island colonization, but less is known about the impact of other traits and their interactions during establishment. We employ a global dataset of 3222 flowering plant species from 169 families to estimate the effects of traits on the probability of island occurrence. Our analyses additionally account for taxonomic group membership and assess the role of island arrival opportunity. Self‐compatibility is strongly associated with island colonization. A longer lifespan and generalized pollination syndrome are also associated with increased island colonization, although this is influenced by their interaction with breeding system. The probability of island colonization is highly dependent on taxonomically conserved unmeasured traits and arrival opportunity. As expected, mate limitation appears to increase with dispersal distance, although many other factors are at play. We find that arrival opportunity and breeding system are the primary drivers of island colonization relative to other life‐history traits we account for here, lending additional support for the positive role of uniparental reproduction in establishment following long‐distance dispersal. [ABSTRACT FROM AUTHOR]

Published

2024

23. Evolution and development of complex floral displays.

Author

Khojayori, Farahnoz N., Ponraj, Udhaya, Buch, Kristina, Yi Zhao, Herrera-Ubaldo, Humberto, and Glover, Beverley J.

Subjects

*FLOWERING of plants, *PLANT evolution, *ANGIOSPERMS, *POLLINATION, *FLOWERS, *INFLORESCENCES

Abstract

Flowering plants - angiosperms - display an astounding diversity of floral features, which have evolved in response to animal pollination and have resulted in the most species-rich plant clade. Combinations of macroscale (e.g. colour, symmetry, organ number) and microscale (e.g. cell type, tissue patterning) features often lead to highly elaborate floral displays. Most studies have focused on model species with simple floral displays to uncover the genetic and evolutionary mechanisms involved in flower evolution, yet few studies have focused on complex floral displays. Here, we review current knowledge on the development and evolution of complex floral displays. We review gene regulatory networks involved in four developmental pathways contributing to overall floral display (inflorescence architecture, organ identity, flower symmetry and flower colour) in classical plant models. We then discuss how evolutionary modification of one or more of these pathways has resulted in the production of a range of complex floral displays. Finally, we explore modular systems in which multiple pathways have been modified simultaneously, generating the most elaborate floral displays. [ABSTRACT FROM AUTHOR]

Published

2024

24. The seed morphospace, a new contribution towards the multidimensional study of angiosperm sexual reproductive biology.

Author

Carta, Angelino, Vandelook, Filip, Ramírez-Barahona, Santiago, Chen, Si-Chong, Dickie, John, Steinbrecher, Tina, Thanos, Costas A, Moles, Angela T, Leubner-Metzger, Gerhard, and Mattana, Efisio

Subjects

*SEED coats (Botany), *COMPARATIVE biology, *BIOLOGICAL fitness, *COMPARATIVE method, *ENDOSPERM

Abstract

Background The evolutionary success of flowering plants is associated with the vast diversity of their reproductive structures. Despite recent progress in understanding angiosperm-wide trends in floral structure and evolution, a synthetic view of the diversity in seed form and function across angiosperms is lacking. Scope Here we present a roadmap to synthesize the diversity of seed forms in extant angiosperms, relying on the morphospace concept, i.e. a mathematical representation which relates multiple traits and describes the realized morphologies. We provide recommendations on how to broaden the range of measurable traits beyond mass, by using key morphological traits representative of the embryo, endosperm and seed coat but also fruit attributes (e.g. dehiscence, fleshiness). These key traits were used to construct and analyse a morphospace to detect evolutionary trends and gain insight into how morphological traits relate to seed functions. Finally, we outline challenges and future research directions, combining the morphospace with macroevolutionary comparative methods to underline the drivers that gave rise to the diversity of observed seed forms. Conclusions We conclude that this multidimensional approach has the potential, although still untapped, to improve our understanding of covariation among reproductive traits, and further elucidate angiosperm reproductive biology as a whole. [ABSTRACT FROM AUTHOR]

Published

2024

25. The Gongora gibba genome assembly provides new insights into the evolution of floral scent in male euglossine bee–pollinated orchids.

Author

Amador, Maria Fernanda Guizar, Darragh, Kathy, Liu, Jasen W, Dean, Cheryl, Bogarín, Diego, Pérez-Escobar, Oscar A, Serracín, Zuleika, Pupulin, Franco, and Ramírez, Santiago R

Subjects

*FLOWERING of plants, *ANGIOSPERMS, *CHROMOSOMES, *TERPENES, *GENOMES, *POLLINATORS, *POLLINATION, *ORCHIDS

Abstract

Orchidaceae is one of the most prominent flowering plant families, with many species exhibiting highly specialized reproductive and ecological adaptations. An estimated 10% of orchid species in the American tropics are pollinated by scent-collecting male euglossine bees; however, to date, there are no published genomes of species within this pollination syndrome. In this study, we present the first draft genome of an epiphytic orchid from the genus Gongora , a representative of the male euglossine bee–pollinated subtribe Stanhopeinae. The 1.83-Gb de novo genome with a scaffold N50 of 1.7 Mb was assembled using short- and long-read sequencing and chromosome capture (Hi-C) information. Over 17,000 genes were annotated, and 82.95% of the genome was identified as repetitive content. Furthermore, we identified and manually annotated 26 terpene synthase genes linked to floral scent biosynthesis and performed a phylogenetic analysis with other published orchid terpene synthase genes. The Gongora gibba genome assembly will serve as the foundation for future research to understand the genetic basis of floral scent biosynthesis and diversification in orchids. [ABSTRACT FROM AUTHOR]

Published

2024

26. Short day promotes gall swelling by a CONSTANS‐FLOWERING LOCUS T pathway in Zizania latifolia.

Author

Zhang, Zhiping, Shi, Wangjie, Gu, Jiawen, Song, Sixiao, Xiao, Meng, Yao, Junchi, Liu, Yancheng, Jiang, Jiezeng, and Miao, Minmin

Subjects

*ANGIOSPERMS, *GENE silencing, *RNA sequencing, *PLANT populations, *CULTIVARS

Abstract

SUMMARY: "Jiaobai" is a symbiont of Zizania latifolia and Ustilago esculenta, producing fleshy galls as a popular vegetable in South and East Asia. Current "Jiaobai" cultivars exhibit abundant variation in their gall formation date; however, the underlying mechanism is not clear. In this study, a strict short‐day (SD) "Jiaobai" line "YD‐3" was used. Plants were treated with two day‐length regimes [14 h/10 h (day/night) (control) and 8 h/16 h (day/night) (SD)] from 100 to 130 days after planting. The gall swelling rate of the two treatments and another early SD treatment (from 60 to 90 days after planting), together with the contingent flowering plants in the experiment population, revealed that SD can improve both gall enlargement and flowering of "Jiaobai" plants. Comparison of RNA sequencing data among control, SD swelling, and SD flowering treatments of leaves and meristems indicated that SD promotion of "Jiaobai" swelling is conducted by the CONSTANS (CO)‐FLOWERING LOCUS T (FT) pathway, similar but not identical to the SD‐induced flowering pathway in Z latifolia and rice. "Virus‐induced gene silencing", "Yeast one‐hybrid assay" and "Dual‐luciferase assay" showed that a FT gene, ZlGsd1, is critical in SD promotion of gall formation and is positively regulated by a CO gene, ZlCOL1. Our study elucidated how photoperiod affects the formation of a unique organ produced by plant‐fungus symbiosis. The difference in SD response between "Jiaobai" and rice, as well as their potential applications in breeding of "Jiaobai" and rice, were also discussed. [ABSTRACT FROM AUTHOR]

Published

2024

27. First Fossil Record of the Extant Neotropical Genus Dicella Griseb. (Malpighiaceae) from India.

Author

Hazra, Taposhi, Manchester, Steven R., and Khan, Mahasin Ali

Subjects

*FOSSILS, *PLIOCENE Epoch, *NEOGENE Period, *VEINS, *ANGIOSPERMS

Abstract

Premise of research. To date, there is no fossil evidence of the malpighiaceous genus Dicella Griseb. Here, we describe a new fossil species attributed to the modern Dicella Griseb. from the latest Neogene sediments (Rajdanda Formation: Pliocene) of Jharkhand, eastern India. Methodology. The five-winged fruit fossil was revealed by careful removal of the overlying matrix and studied under light compound and inverted fluorescence microscopes. It is identified on the basis of its detailed morphology and through comparison with other modern angiosperm genera having five-winged fruits. Pivotal results. Dicella indica Hazra, Manchester and Khan sp. nov. is characterized by winged fruits with five unequal, narrowly elliptic or obovate enlarged persistent sepals arising hypogynously from a globular nut; the sepals are enlarged with slightly constricted bases and obtuse apexes with venation consisting of a strong midvein and pinnate brochidodromous secondary veins, mixed percurrent tertiary veins, and irregular reticulate quaternary veins. Following comparison with numerous extant genera of angiosperms with propeller-like winged fruits, we conclude that this set of characters is diagnostic for the extant genus Dicella. Conclusions. It is interesting to note that, at present, Dicella does not naturally occur in India and is currently restricted to South America. We hypothesize that its disappearance from the present-day vegetation of eastern India may be related to the gradual intensification of rainfall seasonality since the Pliocene. Our discovery provides valuable insights into the biogeographic history of this genus. [ABSTRACT FROM AUTHOR]

Published

2024

28. Frond and mesophyll traits related to photosynthetic capacity and water‐use efficiency in ferns with different life‐forms ex situ.

Author

Ivanova, Larissa A., Tretyakova, Alyona S., Savitsky, Evgeniy, Yudina, Polina K., and Ivanov, Leonid A.

Subjects

*WATER efficiency, *LEAF area, *CELL size, *LIGHT absorption, *ANGIOSPERMS

Abstract

Leaf traits are known as indicative of species functional properties in angiosperms. Fern fronds are little studied in this concern, especially ex situ. We studied leaf mesophyll structure, pigments and gas exchange in four fern species grown in a glasshouse—Sphaeropteris cooperi (terrestrial tree fern), Phlebodium aureum (semi‐epiphytic herbaceous), Asplenium australasicum (epiphytic shrubby) and Platycerium bifurcatum (epiphytic herbaceous). Saturated assimilation rate (Asat) decreased and intrinsic water use efficiency (iWUE) increased from a terrestrial tree fern to epiphytic ferns. Asat positively correlated with chloroplast number (Nchl/A) and their surface area per leaf area (Achl/A). iWUE negatively related to Nchl/A and chlorophyll/carotenoid ratio. Most differences between species were found in the mesophyll thickness (MT) and mesophyll cell volume (Vcell) with the smallest values in S. cooperi and the largest ones in P. bifurcatum. We found that photosynthetic limitations in ferns were related to the chloroplast photosynthetic activity rather than to Nchl/A or pigment content which did not differ from most angiosperms. Epiphytic ferns showed larger values of Vcell per cell and per chloroplast compared to angiosperms and tree ferns. We concluded that an increase in MT and Vcell in the studied ferns was not associated with photosynthetic performance, but was related to volumetric cytoplasm–chloroplast ratio meaningful to light absorption and the water‐storage function of fern fronds. [ABSTRACT FROM AUTHOR]

Published

2024

29. Influence of climate and banana growth stages on spatio‐temporal variation of banana mealybug Pseudococcus elisaeBorchsenius (Hemiptera: Coccomorpha: Pseudococcidae) population ecology.

Author

Becke, Henry Ikome, Achiri, Tange Denis, Okolle, Justin Nambangia, Ntonifor, Nelson Neba, and Ngosong, Christopher

Subjects

*MEALYBUGS, *POPULATION ecology, *RAINFALL, *POPULATION dynamics, *ANGIOSPERMS, *BANANAS

Abstract

The banana mealybug Pseudococcus elisae Borchsenius (Hemiptera: Coccomorpha: Pseudococcidae) is a pest of economic importance in Cameroon that requires effective control practices, especially after the routinely used chlorpyrifos insecticide was banned in 2019. For effective mealybug control, it is imperative to understand their ecology in relation to banana growth stages and climate‐induced seasonal variations. Therefore, the influence of climatic variables and banana growth stages on a spatio‐temporal distribution of mealybugs in Esuke and Benoe banana plantations of the Cameroon Development Corporation in Tiko was assessed.A 60‐ha area was mapped in each plantation and divided into 12 plots of 5 ha each, which were further sub‐divided into four quadrants of 1.25 ha. A total of 10 banana suckers, 10 pre‐flowering, 10 flowering and 10 bunchy plants were sampled per quadrant.Monthly mealybug population dynamics were assessed across 2 years in 2021 and 2022 on lower or upper pseudostem, leaves and banana bunches.Significant yearly and monthly mealybug population variation on banana plants were observed, with more mealybugs in 2022 than 2021, and two monthly mealybug peaks in February and November (p < 0.001). Mealybug population was higher on banana bunches and lower or upper pseudostem than on leaves (p < 0.001). Mealybugs preferred bunchy plants than suckers or pre‐flowering and flowering plants, and exhibited clumped distribution with Taylor aggregation index (b) greater than one (p < 0.001). A simple linear regression revealed strong positive effects of high temperature on mealybug population ecology, while relative humidity and rainfall had inverse effects on the population of mealybug.These highlight the dynamics of banana mealybug population ecology under variable climatic conditions and banana growth stages, which provides valuable baseline information to facilitate developing effective control strategies for mealybugs in banana plantations. [ABSTRACT FROM AUTHOR]

Published

2024

30. Ad fontes: divergence‐time estimation and the age of angiosperms.

Author

Smith, Stephen A. and Beaulieu, Jeremy M.

Subjects

*FOSSILS, *LIFE history theory, *PALEOECOLOGY, *PLANT evolution, *ANGIOSPERMS

Abstract

Summary: Accurate divergence times are essential for interpreting and understanding the context in which lineages have evolved. Over the past several decades, debates have surrounded the discrepancies between the inferred molecular ages of crown angiosperms, often estimated from the Late Jurassic into the Permian, and the fossil record, placing angiosperms in the Early Cretaceous. That crown angiosperms could have emerged as early as the Permian or even the Triassic would have major implications for the paleoecological context of the origin of one of the most consequential clades in the tree of life. Here, we argue, and demonstrate through simulations, that the older ages inferred from molecular data and relaxed‐clock models are misled by lineage‐specific rate heterogeneity resulting from life history changes that occurred several times throughout the evolution of vascular plants. To overcome persistent discrepancies in age estimates, more biologically informed and realistic models should be developed, and our results should be considered in the context of their biological implications before we accept inferences that are a major departure from our strongest evidence. [ABSTRACT FROM AUTHOR]

Published

2024

31. Overexpression of lily MicroRNA156-resistant SPL13A stimulates stem elongation and flowering in Lilium formosanum under non-inductive (non-chilling) conditions.

Author

Masumi Yamagishi, Toshikazu Nomizu, and Takashi Nakatsuka

Subjects

SHOOT apexes, GENE expression, PLANT stems, GENETIC regulation, ANGIOSPERMS, LILIES

Abstract

Flowering plants undergo juvenile vegetative, adult vegetative, and reproductive phases. Lily plants (Lilium spp.) develop scaly leaves during their juvenile vegetative phase. Stem elongation occurs in the adult vegetative phase and is followed by floral transition. As the duration of the juvenile vegetative phase is long in lilies, the microRNA156 (miR156) and SQUAMOSA PROMOTER-BINDING PROTEIN-LIKE (SPL) modules are expected to play a major role in vegetative phase change and flower induction. In the present study, we aimed to explore the functions of lily SLP13A. We evaluated phenotypic changes and gene expression in L. formosanum plants overexpressing miR156-resistant SPL13A (rSPL13A) and examined the accumulation levels of gene transcripts and mature miRNAs in non-transformed L. longiflorum plants. Lily plants overexpressing rSPL13A exhibited stem elongation under non-inductive conditions, and FLOWERING LOCUS T (FT) genes were poorly involved in this stem elongation. Flowering was induced in the transformed plants with elongated stems, and the accumulation of MADS5 (APETALA1) transcripts and mature miR172 was elevated in these plants. In non-transformed lilies, SPL13A transcripts were highly accumulated in the shoot apices of both juvenile and adult plants. As mature miR156 was poorly accumulated in the shoot apices of the adult plants, SPL13A was active enough to stimulate stem elongation and flower induction. In contrast, mature miR156 was reliably detected in shoot apices of the juvenile plants. Because our transient assay using tobacco plants expressing a SPL13A-GFP fusion protein indicated that miR156 repressed SPL13A expression mainly at the translational level, SPL13A activity should be insufficient to stimulate stem elongation in the juvenile plants. In addition, the accumulation of MADS5 transcripts and mature miR172 in the shoot apices increased with plant growth and peaked before the transition to the reproductive phase. Therefore, we conclude that SPL13A regulates stem elongation in the adult vegetative phase, which differs from the mechanisms evaluated in Arabidopsis and rice, wherein stem elongation proceeds in a reproductive phase and FT genes are heavily involved in it, and that SPL13A induces flowering by the activation of genes related to the age pathway underlying floral transition, as APETALA1 and primary-MIR172 are mainly involved in this pathway. [ABSTRACT FROM AUTHOR]

Published

2024

32. The emerging role of cysteine-rich peptides in pollen–pistil interactions.

Author

Xue, Jiao, Du, Qian, Yang, Fangfang, and Chen, Li-Yu

Subjects

*POLLEN tube, *PLANT breeding, *POLLEN, *GAMETES, *ANGIOSPERMS, *POLLINATION

Abstract

Unlike early land plants, flowering plants have evolved a pollen tube that transports a pair of non-motile sperm cells to the female gametophyte. This process, known as siphonogamy, was first observed in gymnosperms and later became prevalent in angiosperms. However, the precise molecular mechanisms underlying the male–female interactions remain enigmatic. From the landing of the pollen grain on the stigma to gamete fusion, the male part needs to pass various tests: how does the stigma distinguish between compatible and incompatible pollen? what mechanisms guide the pollen tube towards the ovule? what factors trigger pollen tube rupture? how is polyspermy prevented? and how does the sperm cell ultimately reach the egg? Successful male–female communication is essential for surmounting these challenges, with cysteine-rich peptides (CRPs) playing a pivotal role in this dialogue. In this review, we summarize the characteristics of four distinct classes of CRPs, systematically review recent progress in the role of CRPs in four crucial stages of pollination and fertilization, consider potential applications of this knowledge in crop breeding, and conclude by suggesting avenues for future research. [ABSTRACT FROM AUTHOR]

Published

2024

33. Evolution of drought and frost responses in cool season grasses (Pooideae): was drought tolerance a precursor to frost tolerance?

Author

Stolsmo, Sylvia Pal, Lindberg, Camilla Lorange, Ween, Rebekka Eriksen, Schat, Laura, Preston, Jill Christine, Humphreys, Aelys Muriel, and Fjellheim, Siri

Subjects

*DROUGHT tolerance, *FROST, *ANGIOSPERMS, *ECOPHYSIOLOGY, *GRASSES

Abstract

Frost tolerance has evolved many times independently across flowering plants. However, conservation of several frost tolerance mechanisms among distant relatives suggests that apparently independent entries into freezing climates may have been facilitated by repeated modification of existing traits ('precursor traits'). One possible precursor trait for freezing tolerance is drought tolerance, because palaeoclimatic data suggest plants were exposed to drought before frost and several studies have demonstrated shared physiological and genetic responses to drought and frost stress. Here, we combine ecophysiological experiments and comparative analyses to test the hypothesis that drought tolerance acted as a precursor to frost tolerance in cool-season grasses (Pooideae). Contrary to our predictions, we measured the highest levels of frost tolerance in species with the lowest ancestral drought tolerance, indicating that the two stress responses evolved independently in different lineages. We further show that drought tolerance is more evolutionarily labile than frost tolerance. This could limit our ability to reconstruct the order in which drought and frost responses evolved relative to each other. Further research is needed to determine whether our results are unique to Pooideae or general for flowering plants. [ABSTRACT FROM AUTHOR]

Published

2024

34. Spatial and climatic drivers of β‐diversity in assemblages of angiosperm genera across the world.

Author

Qian, Hong, Qian, Shenhua, and Kessler, Michael

Subjects

*CLIMATE change, *ANGIOSPERMS, *BOTANY, *ADDITIVES, *TEMPERATURE

Abstract

β‐diversity quantifies the change in taxonomic and phylogenetic composition between areas. It can be partitioned into two additive components (turnover and nestedness). Geographic distance, which reflects dispersal limitation, and climatic distance, which reflects environmental filtering, are major drivers of β‐diversity, but few studies have assessed their relative importance to β‐diversity at a global scale. Here, we investigate the relationship of β‐diversity of angiosperm genera in regional floras worldwide to climatic conditions within regions and to geographic and climatic distances between regions. We found that (1) current climate has a stronger effect on phylogenetic turnover than does Quaternary climate change; (2) of the current climate variables examined, mean annual temperature is the strongest driver of phylogenetic turnover, followed by precipitation seasonality; (3) regions with high precipitation seasonality have high phylogenetic β‐diversity and phylogenetic turnover; and (4) at a global scale, the variation in phylogenetic turnover explained jointly by geographic and climatic distances is, on average, much larger than that explained uniquely by either distance, but that geographic distance explains more variation in phylogenetic turnover than climatic distance. Synthesis. These results reveal the synergistic role of geographic isolation and climatic filtering in determining the composition of floras worldwide, with less influence of Quaternary climate changes. [ABSTRACT FROM AUTHOR]

Published

2024

35. <italic>Palmoxylon</italic> (Magnoliopsida: Arecaceae) richness in the Puntudo Chico Formation (Campanian-lowermost Maastricthian), Chubut Province, Argentina: systematics, palaeoclimatic significance and comments on biogeography of Phytelepheae.

Author

Vera, Ezequiel Ignacio, Perez Loinaze, Valeria S., Llorens, Magdalena, and Passalia, Mauro Gabriel

Subjects

*PALMS, *DICOTYLEDONS, *BOTANY, *ANGIOSPERMS, TROPICAL climate

Abstract

The Puntudo Chico Formation is an uppermost Cretaceous continental sequence deposited in the Cañadón Asfalto Basin, cropping out in the Chubut Province, Argentina. Fossils collected from this unit are essentially palaeobotanical remains, and comprise conifers (Agathoxylon, Brachyoxylon, Podocarpoxylon and Cupressinoxylon) and a dicotyledonous angiosperm (Aextoxicoxylon kawasianus). In this contribution, five taxa referred to the genus Palmoxylon (Arecaceae) are reported for the unit: Palmoxylon sp. 1 (Coryphoideae or Nypoideae), Palmoxylon sp. 2 (close to Coryphoideae), Palmoxylon sp. 3 (Arecoideae), Palmoxylon sp. 4 (Coryphoideae or Arecoideae) and Palmoxylon sp. cf. P. phytelephantoides; (close to Phytelephas of the Ceroxyloideae). Based on the recognised taxa, subtropical to tropical climate is postulated for the Puntudo Chico flora, which is in agreement with previous climatic inferences made for the unit. Finally, the presence of a taxon close to the extant genus Phytelephas permits discussing the diversification of the Ceroxyloidea, and the time of arrival of Phytelepheae to South America. [ABSTRACT FROM AUTHOR]

Published

2024

36. Ancient large‐scale gene duplications and diversification in bryophytes illuminate the plant terrestrialization.

Author

Shen, Chao, Li, Hao, Shu, Lei, Huang, Wen‐Zhuan, and Zhu, Rui‐Liang

Subjects

*CHROMOSOME duplication, *VASCULAR plants, *BRYOPHYTES, *ANGIOSPERMS, *GYMNOSPERMS

Abstract

Summary Large‐scale gene duplications (LSGDs) are crucial for evolutionary adaptation and recurrent in vascular plants. However, the role of ancient LSGDs in the terrestrialization and diversification of bryophytes, the second most species‐rich group of land plants, remains largely elusive due to limited sampling in bryophytes. Employing the most extensive nuclear gene dataset in bryophytes to date, we reconstructed a time‐calibrated phylogenetic tree from 209 species, covering virtually all key bryophyte lineages, for phylogenomic analyses of LSGDs and diversification. We newly identified two ancient LSGDs: one in the most recent common ancestor (MRCA) of extant bryophytes and another in the MRCA of the majority of Jungermanniales s. lato. Duplicated genes from these two LSGDs show significant enrichment in photosynthesis‐related processes and structures. Rhizoid‐responsive ROOTHAIR DEFECTIVE SIX‐LIKE (RSL) genes from ancient LSGDs are present in rhizoidless bryophytes, challenging assumptions about rhizoid absence mechanisms. We highlighted four major diversification rate upshifts, two of which slightly postdated LSGDs, potentially linked to the flourishing of gymnosperms and angiosperms and explaining over 80% of bryophyte diversity. Our findings, supported by extensive bryophyte sampling, highlight the significance of LSGDs in the early terrestrialization and diversification of bryophytes, offering new insights into land plant evolution. [ABSTRACT FROM AUTHOR]

Published

2024

37. Antioxidants by nature: an ancient feature at the heart of flavonoids' multifunctionality.

Author

Agati, Giovanni, Brunetti, Cecilia, dos Santos Nascimento, Luana Beatriz, Gori, Antonella, Lo Piccolo, Ermes, and Tattini, Massimiliano

Subjects

*MOLECULAR biology, *BIOCHEMISTRY, *BOTANY, *BIOLOGICAL systems, *PLANT molecular biology, *STOMATA, *CHLOROPLAST membranes, *MEDICAGO, *SCOTS pine

Abstract

The article explores the ancient role of flavonoids in land plants' adaptability to environmental stresses, highlighting their antioxidant properties and multifunctionality. Flavonoids have evolved to serve as defense mechanisms against stressors, modulate plant growth and development, and potentially emerged in response to biotic pressures and UV protection. They also act as signaling molecules, influencing auxin movement and belowground organ growth in angiosperms, while regulating human cell growth and metabolism through protein activities. The document further discusses flavonoids' interactions with hormone signaling pathways, stress responses, and their contribution to plant adaptation in changing environments, shedding light on their diverse roles in plant biology and specialized metabolism. [Extracted from the article]

Published

2024

38. A higher tissue fraction of parenchyma in secondary xylem supports growth recovery of angiosperm trees after drought.

Author

Zhang, Xijin, Li, Qingyao, Yang, Yongchuan, Fukuda, Kenji, Morris, Hugh, Jansen, Steven, Da, Liangjun, and Song, Kun

Subjects

*TREE growth, *DENDROCHRONOLOGY, *PLANT growth, *XYLEM, *ANGIOSPERMS

Abstract

Resilience to drought represents an important focus for trees during climate change, with the aim of predicting the resistance and recovery of species worldwide. Previous studies mainly linked tree growth resilience to plant functional traits that are related to resource acquisition and investment. Here, we investigate a potential link between resilience and the amount of parenchyma tissue in wood, a multifunctional tissue that may provide various physiological benefits to drought‐related mechanisms. We compiled a global tree‐ring data set to evaluate the relationship between growth resistance, resilience or recovery from drought and xylem parenchyma tissue fractions of 50 angiosperms, which was complemented with a local study of nine species from Mt. Tiantong in China. We also assessed the influence of climate and phylogeny on these relationships. We found that growth recovery after drought was positively related to the fractions of total parenchyma locally and globally. This association remained statistically significant when accounting for the effects of climate and phylogeny. No other associations between parenchyma fractions and growth resilience metrics were statistically significant. Our results suggest that drought recovery of angiosperm trees is affected by the amount of parenchyma. Incorporating xylem parenchyma fraction with other traits, such as hydraulic traits, could therefore enhance our comprehension of how various angiosperm tree species will respond to future droughts. Further studies should focus on unravelling the physiological roles of xylem parenchyma fraction. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

39. E3 ubiquitin ligase IPI1 controls rice immunity and flowering via both E3 ligase-dependent and -independent pathways.

Author

Yi, Hong, Shi, Hui, Mao, Wei, Yin, Junjie, Ma, Yanyan, Xu, Li, Jing, Linjie, He, Min, Zhu, Xiaobo, Lu, Xiang, Xiong, Qing, Tang, Yongyan, Hou, Qingqing, Song, Li, Wang, Long, Li, Weitao, Yu, Hong, Chen, Xuewei, Li, Jiayang, and Wang, Jing

Subjects

*RICE blast disease, *FLOWERING time, *FLOWERING of plants, *DISEASE resistance of plants, *ANGIOSPERMS

Abstract

Immunity and flowering are energy-consuming processes. However, the mechanism underlying the balance between immunity and flowering remains to be elucidated. Here, we report that the E3 ligase ideal plant architecture 1 interactor 1 (IPI1) controls rice immunity and flowering via two different pathways, one dependent on and another independent of its E3 ligase activity. We found that IPI1, a RING-finger E3 ligase, interacts with another E3 ligase, AvrPiz-t-interacting protein 6 (APIP6), and protects APIP6 from degradation by preventing APIP6's self-ubiquitination. Stabilization of APIP6 by IPI1 requires no IPI1 E3 ligase activity and leads to degradation of APIP6 substrates via the ubiquitin-proteasome system (UPS). Meanwhile, IPI1 directly ubiquitinates OsELF3-1 and OsELF3-2, two homologs of EARLY FLOWERING3 (ELF3), targeting them for degradation via the 26S proteasome. IPI1 knockout plants display early flowering but compromised resistance to rice blast. Thus, IPI1 balances rice immunity and flowering via both E3 ligase-dependent and -independent pathways. [Display omitted] • IPI1 functions dependent on or independent of its E3 ligase activity • IPI1 protects APIP6 from degradation, independent of its E3 ligase activity • IPI1 promotes the degradation of OsELF3-1/OsELF3-2 dependent on its E3 ligase activity • IPI1 balances rice immunity and flowering Yi et al. demonstrate that the E3 ligase IPI1 inhibits flowering time by promoting the degradation of OsELF3-1, dependent on its E3 ligase activity, and enhances rice immunity by ubiquitinating OsELF3-2 and stabilizing APIP6, dependent and independent of its E3 ligase activity, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

40. Unravelling the microbiome of wild flowering plants: a comparative study of leaves and flowers in alpine ecosystems.

Author

Ramakrishnan, Dinesh Kumar, Jauernegger, Franziska, Hoefle, Daniel, Berg, Christian, Berg, Gabriele, and Abdelfattah, Ahmed

Subjects

*MOUNTAIN ecology, *WILD flowers, *WILD plants, *ANGIOSPERMS, *MOUNTAIN plants, *FUNGAL communities

Abstract

Background: While substantial research has explored rhizosphere and phyllosphere microbiomes, knowledge on flower microbiome, particularly in wild plants remains limited. This study explores into the diversity, abundance, and composition of bacterial and fungal communities on leaves and flowers of wild flowering plants in their natural alpine habitat, considering the influence of environmental factors. Methods: We investigated 50 wild flowering plants representing 22 families across seven locations in Austria. Sampling sites encompassed varied soil types (carbonate/silicate) and altitudes (450–2760 m). Amplicon sequencing to characterize bacterial and fungal communities and quantitative PCR to assess microbial abundance was applied, and the influence of biotic and abiotic factors assessed. Results: Our study revealed distinct bacterial and fungal communities on leaves and flowers, with higher diversity and richness on leaves (228 fungal and 91 bacterial ASVs) than on flowers (163 fungal and 55 bacterial ASVs). In addition, Gammaproteobacteria on flowers and Alphaproteobacteria on leaves suggests niche specialization for plant compartments. Location significantly shaped both community composition and fungal diversity on both plant parts. Notably, soil type influenced community composition but not diversity. Altitude was associated with increased fungal species diversity on leaves and flowers. Furthermore, significant effects of plant family identity emerged within a subset of seven families, impacting bacterial and fungal abundance, fungal Shannon diversity, and bacterial species richness, particularly on flowers. Conclusion: This study provides novel insights into the specific microbiome of wild flowering plants, highlighting adaptations to local environments and plant–microbe coevolution. The observed specificity indicates a potential role in plant health and resilience, which is crucial for predicting how microbiomes respond to changing environments, ultimately aiding in the conservation of natural ecosystems facing climate change pressures. [ABSTRACT FROM AUTHOR]

Published

2024

41. Expression‐based machine learning models for predicting plant tissue identity.

Author

Palande, Sourabh, Arsenault, Jeremy, Basurto‐Lozada, Patricia, Bleich, Andrew, Brown, Brianna N. I., Buysse, Sophia F., Connors, Noelle A., Das Adhikari, Sikta, Dobson, Kara C., Guerra‐Castillo, Francisco Xavier, Guerrero‐Carrillo, Maria F., Harlow, Sophia, Herrera‐Orozco, Héctor, Hightower, Asia T., Izquierdo, Paulo, Jacobs, MacKenzie, Johnson, Nicholas A., Leuenberger, Wendy, Lopez‐Hernandez, Alessandro, and Luckie‐Duque, Alicia

Subjects

*MACHINE learning, *PLANT cells & tissues, *GENE expression, *ANGIOSPERMS, *TISSUES

Abstract

Premise Methods Results Discussion The selection of Arabidopsis as a model organism played a pivotal role in advancing genomic science. The competing frameworks to select an agricultural‐ or ecological‐based model species were rejected, in favor of building knowledge in a species that would facilitate genome‐enabled research.Here, we examine the ability of models based on Arabidopsis gene expression data to predict tissue identity in other flowering plants. Comparing different machine learning algorithms, models trained and tested on Arabidopsis data achieved near perfect precision and recall values, whereas when tissue identity is predicted across the flowering plants using models trained on Arabidopsis data, precision values range from 0.69 to 0.74 and recall from 0.54 to 0.64.The identity of belowground tissue can be predicted more accurately than other tissue types, and the ability to predict tissue identity is not correlated with phylogenetic distance from Arabidopsis. k‐nearest neighbors is the most successful algorithm, suggesting that gene expression signatures, rather than marker genes, are more valuable to create models for tissue and cell type prediction in plants.Our data‐driven results highlight that the assertion that knowledge from Arabidopsis is translatable to other plants is not always true. Considering the current landscape of abundant sequencing data, we should reevaluate the scientific emphasis on Arabidopsis and prioritize plant diversity. [ABSTRACT FROM AUTHOR]

Published

2024

42. Leaf venation network architecture coordinates functional trade‐offs across vein spatial scales: evidence for multiple alternative designs.

Author

Matos, Ilaine Silveira, Boakye, Mickey, Niewiadomski, Izzi, Antonio, Monica, Carlos, Sonoma, Johnson, Breanna Carrillo, Chu, Ashley, Echevarria, Andrea, Fontao, Adrian, Garcia, Lisa, Kalantar, Diana, Madhavan, Srinivasan, Mann, Joseph, McDonough, Samantha, Rohde, James, Scudder, Meg, Sharma, Satvik, To, Jason, Tomaka, Connor, and Vu, Bradley

Subjects

*CONSTRUCTION costs, *VEINS, *HYDRAULICS, *ANGIOSPERMS, *DROUGHTS

Abstract

Summary: Variation in leaf venation network architecture may reflect trade‐offs among multiple functions including efficiency, resilience, support, cost, and resistance to drought and herbivory. However, our knowledge about architecture‐function trade‐offs is mostly based on studies examining a small number of functional axes, so we still lack a more integrative picture of multidimensional trade‐offs.Here, we measured architecture and functional traits on 122 ferns and angiosperms species to describe how trade‐offs vary across phylogenetic groups and vein spatial scales (small, medium, and large vein width) and determine whether architecture traits at each scale have independent or integrated effects on each function.We found that generalized architecture‐function trade‐offs are weak. Architecture strongly predicts leaf support and damage resistance axes but weakly predicts efficiency and resilience axes. Architecture traits at different spatial scales contribute to different functional axes, allowing plants to independently modulate different functions by varying network properties at each scale.This independence of vein architecture traits within and across spatial scales may enable evolution of multiple alternative leaf network designs with similar functioning. [ABSTRACT FROM AUTHOR]

Published

2024

43. Genetic and Environmental Patterns Underlying Phenotypic Plasticity in Flowering Time and Plant Height in Sorghum.

Author

Wei, Jialu, Guo, Tingting, Mu, Qi, Alladassi, Boris M.E., Mural, Ravi V., Boyles, Richard E., Hoffmann, Leo, Hayes, Chad M., Sigmon, Brandi, Thompson, Addie M., Salas‐Fernandez, Maria G., Rooney, William L., Kresovich, Stephen, Schnable, James C., Li, Xianran, and Yu, Jianming

Subjects

*ENVIRONMENTAL indicators, *FLOWERING of plants, *PHENOTYPES, *ANGIOSPERMS, *PHENOTYPIC plasticity, *GENOTYPES

Abstract

ABSTRACT Phenotypic plasticity is the property of a genotype to produce different phenotypes under different environmental conditions. Understanding genetic and environmental factors behind phenotypic plasticity helps answer some longstanding biology questions and improve phenotype prediction. In this study, we investigated the phenotypic plasticity of flowering time and plant height with a set of diverse sorghum lines evaluated across 14 natural field environments. An environmental index was identified to quantitatively connect the environments. Reaction norms were then obtained with the identified indices for genetic dissection of phenotypic plasticity and performance prediction. Genome‐wide association studies (GWAS) detected different sets of loci for reaction‐norm parameters (intercept and slope), including 10 new genomic regions in addition to known maturity (Ma1) and dwarfing genes (Dw1, Dw2, Dw3, Dw4 and qHT7.1). Cross‐validations under multiple scenarios showed promising results in predicting diverse germplasm in dynamic environments. Additional experiments conducted at four new environments, including one from a site outside of the geographical region of the initial environments, further validated the predictions. Our findings indicate that identifying the environmental index enriches our understanding of gene‐environmental interplay underlying phenotypic plasticity, and that genomic prediction with the environmental dimension facilitates prediction‐guided breeding for future environments. [ABSTRACT FROM AUTHOR]

Published

2024

44. First Report of cucumber mosaic virus in Zinnia elegans in Indonesia.

Author

Zahra, Hayu Alifia, Defitra, Nabilla Kurnialaili, Probowati, Wiwit, Randa-Zelyüt, Filiz, and Santosa, Adyatma Irawan

Subjects

FARM produce, PEST control, FLOWERING of plants, BEGOMOVIRUSES, ANGIOSPERMS, CUCUMBER mosaic virus, CUCUMBERS

Abstract

Zinnia elegans of Family Asteraceae is a flowering plant grown widely in gardens in Indonesia. The plant is also often integrated into pest management of different agricultural commodities as its colourful flowers may attract beneficial insects including natural enemies. A total of eight viral symptomatic and four non-symptomatic Z. elegans samples were collected from four districts in Kulon Progo and Sleman Regencies of Special Region of Yogyakarta. They were molecularly tested using two universal primer pairs for begomoviruses, and two specific primer pairs for cucumber mosaic virus (CMV, Cucumovirus) detections. The eight symptomatic samples were all positive for CMV but negative for begomoviruses infections. The four non-symptomatic samples were tested negative to begomoviruses and CMV. Partial RNA2 and RNA3 segments of four CMV isolates were sequenced to demonstrate that they are members of subgroup IB. 4Ze-Ngaglik isolate was shown to be mechanically transmitted to healthy Z. elegans and cucumber cv. Baresta (Cucumis sativus). To the best of our knowledge, this report confirmed the first CMV occurrence in Z. elegans in Indonesia. [ABSTRACT FROM AUTHOR]

Published

2024

45. AP1c and SOC1 Form a Regulatory Feedback Loop to Regulate Flowering Time in Soybean.

Author

Li, Haiyang, Liao, Chunmei, Yang, Hui, Kong, Lingping, Liu, Shuangrong, Wei, Jin, Chen, Haili, Zhao, Xiaohui, Liu, Baohui, Kong, Fanjiang, and Chen, Liyu

Subjects

*FLOWERING time, *CROP yields, *FLOWERING of plants, *ANGIOSPERMS, *PHENOTYPES

Abstract

ABSTRACT Flowering time is a key agronomic trait that directly affects soybean yield. Both APETALA1 (AP1) and SUPPRESSOR OF OVEREXPRESSION OF CO 1 (SOC1) regulate flowering time in soybean, but their genetic and regulatory relationships have not been clarified. Here, we report that AP1c physically interacted with two SOC1 proteins, SOC1a and SOC1b, and that these SOC1s upregulated the expression of AP1c, promoting flowering. Moreover, AP1c repressed the expression of the SOC1s by directly binding to their promoters, thus preventing plants from flowering too early. These findings indicate that AP1c and SOC1s form a regulatory feedback loop that regulates flowering time. Importantly, we identified an exceptional allele, AP1cG, that was selected for during soybean domestication and promotes the early‐flowering phenotype in cultivated soybean. Collectively, our work identifies a previously unknown allelic combination potentially useful for both classical and molecular soybean breeding. [ABSTRACT FROM AUTHOR]

Published

2024

46. Taxonomic and phylogenetic β‐diversity of regional assemblages of angiosperm species in relation to geographic and climatic determinants in Africa.

Author

Qian, Hong, Jin, Yi, and Deng, Tao

Subjects

*FLOWERING of plants, *ANGIOSPERMS, *CLIMATE change, *BOTANY, TROPICAL climate

Abstract

Aim: Beta‐diversity quantifies the change in taxonomic and phylogenetic composition between areas, and is a scalar between local (α) and regional (γ) diversity. Geographic distance, which reflects dispersal limitation, and climatic distance, which reflects environmental filtering, are major drivers of β‐diversity. Here, we analyse a comprehensive data set of angiosperms in regional floras across Africa to assess the relationships of β‐diversity, and its components, to three major types of environmental variables (current climate, Quaternary climate change and topographic heterogeneity) thought to drive β‐diversity. Location: Africa. Taxon: Angiosperms. Methods: Africa was divided into 27 regions. Species lists of angiosperms for each region were collated. The relationships of both taxonomic and phylogenetic β‐diversity, and their respective turnover and nestedness components, with geographic and environmental distances were assessed. Results: This study showed that (1) regions of the lowest β‐diversity are located in moist tropical climates, (2) the turnover and nestedness components of β‐diversity are negatively correlated with each other, (3) taxonomic β‐diversity is higher than phylogenetic β‐diversity across Africa, (4) variation in β‐diversity of angiosperms is more strongly associated with current climate than with Quaternary climate change and topographic heterogeneity and (5) the variation in taxonomic β‐diversity and its turnover component that is independently explained by geographic distance is much larger than that is independently explained by climatic distance for angiosperms in Africa. Main Conclusions: The finding that geographic distance explained more variation than climatic distance suggests that dispersal limitation plays a greater role than environmental filtering in shaping angiosperm β‐diversity in Africa. Of climatic factors, current climate plays a more important role than Quaternary climate change in shaping angiosperm β‐diversity in Africa. [ABSTRACT FROM AUTHOR]

Published

2024

47. Diverse geotropic responses in the orchid family.

Author

Chen, Jhun‐Chen, Lin, Hsiang‐Yin, Novák, Ondřej, Strnad, Miroslav, Lee, Yung‐I., and Fang, Su‐Chiung

Subjects

*ROOT development, *ANGIOSPERMS, *GEOTROPISM, *AUXIN, *ORCHIDS, *PHALAENOPSIS

Abstract

In epiphytes, aerial roots are important to combat water‐deficient, nutrient‐poor, and high‐irradiance microhabitats. However, whether aerial roots can respond to gravity and whether auxin plays a role in regulating aerial root development remain open‐ended questions. Here, we investigated the gravitropic response of the epiphytic orchid Phalaenopsis aphrodite. Our data showed that aerial roots of P. aphrodite failed to respond to gravity, and this was correlated with a lack of starch granules/statolith sedimentation in the roots and the absence of the auxin efflux carrier PIN2 gene. Using an established auxin reporter, we discovered that auxin maximum was absent in the quiescent center of aerial roots of P. aphrodite. Also, gravity failed to trigger auxin redistribution in the root caps. Hence, loss of gravity sensing and gravity‐dependent auxin redistribution may be the genetic factors contributing to aerial root development. Moreover, the architectural and functional innovations that achieve fast gravitropism in the flowering plants appear to be lost in both terrestrial and epiphytic orchids, but are present in the early diverged orchid subfamilies. Taken together, our findings provide physiological and molecular evidence to support the notion that epiphytic orchids lack gravitropism and suggest diverse geotropic responses in the orchid family. Summary statement: The architectural and functional innovations required to achieve fast gravitropism in flowering plants are lost in terrestrial and epiphytic orchids, but present in the early diverged orchid subfamilies. Our data suggest diverse geotropic responses in the orchid family. [ABSTRACT FROM AUTHOR]

Published

2024

48. RAFFLESIA REALITIES AND FANTASIES.

Author

F. S. P., Ng

Subjects

*PHANEROGAMS, *PLANT size, *ANGIOSPERMS, *MERISTEMS, *FLOWERS

Abstract

The belief that Rafflesia is a repeat-flowering holoparasite with an invasive endophytic mycelium-like vegetative body is not supported by evidence. Instead, the evidence favors Rafflesia as a localized holoparasite that bears one flower only, dying after a single reproductive event. Also, whereas angiosperms and gymnosperms begin life as seedlings with apical meristems that drive open-ended acropetal growth, Rafflesia has no seedling stage and no apical meristems. Its development is closeended, resulting in a plant of fixed size, shape, and life-span. The Rafflesia flower and fruit differ fundamentally from the flower and fruit of angiosperms. The structure and behavior of Rafflesia seeds is unlike the seeds of other plants. [ABSTRACT FROM AUTHOR]

Published

2024

49. Diversity and Relative Abundance of Insect Pollinators on Pigeon Pea (Cajanus cajan L.) in Gajapati District of Odisha.

Author

Padhy, Deepayan, Satapathy, Chitta Ranjan, Borkataki, Shimantini, Shankar, Tanmoy, and Ray, Soumik

Subjects

*INSECT pollinators, *LEGUMES, *ANGIOSPERMS, *POLLEN, *NECTAR, *POLLINATORS, *POLLINATION, *PIGEON pea

Abstract

Background: Many cross pollinated flowering plants rely on pollinators for reproduction and survival. The pigeon pea (arhar), Cajanus cajan L., is the India's most important pulse crop. It attracts pollinators because to its cross pollination nature, possible nectar and pollen source, attractive colour and scent of the seeds and timing of blossoming. As a result, a complete research of pigeon pea insect pollinator fauna shall be used to conserve those fauna for increasing pigeon pea pollination effectiveness. Methods: Diversity of different pollinating agents associated with the crop pigeon pea by observing their abundance, diversity, percentage contribution, dominance status and diversity following the statistical diversity indexes were recorded during Kharif, 2021-22 in the state of Odisha where the insect pollinators' fauna was recorded through fixed plot survey. Result: Megachille lanata (Fabricius) was found to be the most dominant pollinator throughout the flowering period among seven different pollinators of order Hymenoptera. M. lanata and Megachille disjuncta (Fabricius) shown higher foraging activity i.e. 6.02 bees/5 min/m2 and 4.25 bees/5 min/m2 respectively. Subdominant class represented maximum species among different dominant status classes exhibited. Very less diversity was observed throughout the season but still more diversity has been observed at mid flowering stags during 10:00-11:00 AM. [ABSTRACT FROM AUTHOR]

Published

2024

50. Three New Species of Mytilinidioid Fungi (Dothideomycetes, Ascomycota) from Mexico.

Author

Raymundo, Tania, Martínez-González, César R., Martínez-Pineda, Michelle, Cobos-Villagrán, Aurora, Ramírez-Rosales, Isabel, and Valenzuela, Ricardo

Subjects

*BIVALVE shells, *LIQUIDAMBAR, *ACACIA, *ASCOMYCETES, *ANGIOSPERMS

Abstract

Mytilinidioid fungi are conchiform in nature, with the appearance of bivalve shells or wedge-shaped, rigid, brittle, and carbonaceous hysterothecia growing on the bark of gymnosperms or angiosperms. Based on their morphological characteristics and molecular markers (ITS and LSU), this study describes three new species of mytilinidioid fungi: Ericboehmia mexicana of the family Hysteriaceae of the order Hysteriales and Lophium pinicola and Mytilinidion mexicanum of the family Mytilinidiaceae of the order Mytilinidiales. The first species grows on Liquidambar styracyphlua, the second species grows on Pinus patula, and the third species grows on Acacia californica subsp. pringlei. The specimens studied were deposited in the ENCB Herbarium. [ABSTRACT FROM AUTHOR]

Published

2024