Your search keyword '"FLOWERING of plants"' showing total 11,005 results

1. Climate change increases flowering duration, driving phenological reassembly and elevated co‐flowering richness.

Author

Austin, Matthew W., Smith, Adam B., Olsen, Kenneth M., Hoch, Peter C., Krakos, Kyra N., Schmocker, Stefani P., and Miller‐Struttmann, Nicole E.

Subjects

*FLOWERING of plants, *QUANTILE regression, *AUTUMN, *GROWING season, *PLANT communities, *PLANT phenology

Abstract

Summary: Changes to flowering phenology are a key response of plants to climate change. However, we know little about how these changes alter temporal patterns of reproductive overlap (i.e. phenological reassembly).We combined long‐term field (1937–2012) and herbarium records (1850–2017) of 68 species in a flowering plant community in central North America and used a novel application of Bayesian quantile regression to estimate changes to flowering season length, altered richness and composition of co‐flowering assemblages, and whether phenological shifts exhibit seasonal trends.Across the past century, phenological shifts increased species' flowering durations by 11.5 d on average, which resulted in 94% of species experiencing greater flowering overlap at the community level. Increases to co‐flowering were particularly pronounced in autumn, driven by a greater tendency of late season species to shift the ending of flowering later and to increase flowering duration.Our results demonstrate that species‐level phenological shifts can result in considerable phenological reassembly and highlight changes to flowering duration as a prominent, yet underappreciated, effect of climate change. The emergence of an autumn co‐flowering mode emphasizes that these effects may be season‐dependent. [ABSTRACT FROM AUTHOR]

Published

2024

2. Vertebrate grazing can mitigate impacts of nutrient addition on plant diversity and insect abundance in a semi‐natural grassland.

Author

Veen, G. F., Vermaat, Annika T., Sitters, Judith, and Bakker, Elisabeth S.

Subjects

*PLANT fertilization, *PLANT biomass, *INSECT communities, *FLOWERING of plants, *INSECT-plant relationships, *GRASSHOPPERS, *WILD boar

Abstract

Human‐induced nutrient eutrophication is a major threat to grassland biodiversity, because it promotes the dominance of fast‐growing plants. Negative impacts of fertilization on plant biodiversity may be offset by grazing by large vertebrate herbivores. However, whether grazers also mitigate impacts of nutrient addition on insects is less well understood. We use a field experiment to test how plant communities and abundances of pollinators and grasshoppers respond to nutrient addition and grazing by different assemblages of large herbivores, i.e. access by all herbivores (including cattle and horses), access by wild herbivores only (wild boar and deer), no access by large herbivores. Plant biomass increased, plant diversity decreased and community composition shifted towards lower forb cover in response to fertilization, but only in the absence of all herbivores. Flower visitation by Hymenoptera (bees and wasps), i.e. the most abundant pollinator group, was reduced by nutrient addition only in the absence of all herbivores and was positively related to flowering plant richness. In contrast, flower visitation by Diptera (e.g. hoverflies) was enhanced by fertilization, but not affected by grazing. Orthoptera (grasshopper) abundance was reduced by grazing and enhanced by nutrient addition, with positive impacts of fertilization tending to be stronger in plots with only wild or no herbivores. The abundance of grasshoppers was positively related to grass biomass. We conclude that vertebrate herbivores can offset impacts of fertilization on both plant and insect communities, making grazing by large mammals an essential tool to protect insects, particularly pollinators. Most responses to nutrient addition were only apparent in plots without any large herbivores, suggesting that wild herbivores alone could already mitigate nutrient impacts. We also show that insects with contrasting feeding guilds may be favoured by fertilized, ungrazed conditions. Therefore, creating a mosaic of patches grazed at different intensities will enhance overall insect biodiversity. [ABSTRACT FROM AUTHOR]

Published

2024

3. Climatic conditions and landscape diversity predict plant–bee interactions and pollen deposition in bee‐pollinated plants.

Author

Sydenham, Markus A. K., Dupont, Yoko L., Nielsen, Anders, Olesen, Jens M., Madsen, Henning B., Skrindo, Astrid B., Rasmussen, Claus, Nowell, Megan S., Venter, Zander S., Hegland, Stein Joar, Helle, Anders G., Skoog, Daniel I. J., Torvanger, Marianne S., Hanevik, Kaj‐Andreas, Hinderaker, Sven Emil, Paulsen, Thorstein, Eldegard, Katrine, Reitan, Trond, and Rusch, Graciela M.

Subjects

*POLLEN, *POLLINATION by insects, *FLOWERING of plants, *LOTUS corniculatus, *PLANT diversity

Abstract

Climate change, landscape homogenization, and the decline of beneficial insects threaten pollination services to wild plants and crops. Understanding how pollination potential (i.e. the capacity of ecosystems to support pollination of plants) is affected by climate change and landscape homogenization is fundamental for our ability to predict how such anthropogenic stressors affect plant biodiversity. Models of pollinator potential are improved when based on pairwise plant–pollinator interactions and pollinator's plant preferences. However, whether the sum of predicted pairwise interactions with a plant within a habitat (a proxy for pollination potential) relates to pollen deposition on flowering plants has not yet been investigated. We sampled plant–bee interactions in 68 Scandinavian plant communities in landscapes of varying land‐cover heterogeneity along a latitudinal temperature gradient of 4–8°C, and estimated pollen deposition as the number of pollen grains on flowers of the bee‐pollinated plants Lotus corniculatus and Vicia cracca. We show that plant–bee interactions, and the pollination potential for these bee‐pollinated plants increase with landscape diversity, annual mean temperature, and plant abundance, and decrease with distances to sand‐dominated soils. Furthermore, the pollen deposition in flowers increased with the predicted pollination potential, which was driven by landscape diversity and plant abundance. Our study illustrates that the pollination potential, and thus pollen deposition, for wild plants can be mapped based on spatial models of plant–bee interactions that incorporate pollinator‐specific plant preferences. Maps of pollination potential can be used to guide conservation and restoration planning. [ABSTRACT FROM AUTHOR]

Published

2024

4. Proteomic and histological analysis of in vitro callogenesis in three species of Miconia (Melastomataceae) reveals higher accumulation of proteins related to somatic embryogenesis and embryogenic competence in apomictic species.

Author

Ziemmer, Juliana K., Vieira, Leila N., Amano, Erika, de Almeida, Felipe A., Silveira, Vanildo, Goldenberg, Renato, and Fraga, Hugo P.F.

Subjects

*PLANT tissue culture, *COMPARATIVE method, *GENITALIA, *FLOWERING of plants, *CALLUS, *SOMATIC embryogenesis

Abstract

In recent years, proteomics has become a powerful tool in vitro plant tissue culture research. In Miconia , the most diverse flowering plant genus in the Neotropics, these tools together were unexplored. The group is replete with cases of apomixis (asexual seed formation). Some studies indicate that apomixis may have similarities with somatic embryogenesis (SE). However, there is no investigation into whether explants from apomictic species can affect the accumulation of SE-related proteins in vitro morphogenesis processes, such as callogenesis. This study identifies differentially accumulated proteins related to SE in the callogenesis of three Miconia species with different reproductive systems and whether this can affect their embryogenic capacity. For this, we employed the shotgun comparative proteomics approach in a specific phase of callus proliferation of Miconia australis (obligate apomictic), Miconia hyemalis (facultative apomictic), and Miconia sellowiana (sexual). Comparative proteomic analysis revealed that 190 SE-related proteins were differentially accumulated and distributed among the three experimental comparisons. The calluses of apomictic species showed the highest number of up-accumulated proteins associated with SE. Histological examination of the calluses after 45 days of induction revealed the permanence of cells with meristematic characteristics in the apomictic species, however, in M. sellowiana there was greater cellular vacuolization. These results indicate that calluses of Miconia spp. originated from apomictic species may be better able to acquire embryogenic competence in vitro culture. This study is the first to explore and demonstrate the potential advantages of using proteomics to understand the molecular basis of in vitro morphogenesis in apomictic and sexual species of Miconia , highlighting new perspectives for future research in plant tissue culture. [Display omitted] • Proteomics shed light into the mechanisms underlying in vitro morphogenesis in miconia. • Calluses from apomictic miconia up-accumulated proteins related to somatic embryogenesis. • The cu/zn SOD was up-accumulated in the calluses of obligate apomictic M. australis. • Apomictic species showed a higher prevalence of callus cells with meristematic characteristics. [ABSTRACT FROM AUTHOR]

Published

2024

5. Beautiful and wanted – how young people perceive invasive alien plant species and certain options of their management.

Author

Remmele, Martin and Lindemann-Matthies, Petra

Subjects

YOUNG adults, INTRODUCED species, FLOWERING of plants, ANGIOSPERMS, DECISION making

Abstract

The perception of eight invasive alien plant species (IAPS) by 311 children and young people (10–24 years old) and their choice of management options were investigated, either with or without prior information about the IAPS given. In the first questionnaire, photographs of the IAPS (four terrestrial herbs, one tree and three aquatic plants) were presented, but their invasive status was not revealed. Participants characterized each plant by five opposing attributes, e.g. unwanted – wanted. In a consecutive second questionnaire, half of the participants were informed about the invasive character of the plants, the other half not. Both groups then evaluated various management options. Plants with attractive flowers were considered most beautiful and wanted. Moreover, if participants perceived an IAPS as familiar, they considered it native. Participants with information about the IAPS were more likely to choose containment or eradication and were also more able to justify their management decisions in a considerate manner. Participants without information were more likely to choose no intervention, especially in case of flowering forbs. The findings indicate that even a brief information about IAPS might help young people to make informed decisions when dealing with invasive species. [ABSTRACT FROM AUTHOR]

Published

2024

6. Economically viable flower drying techniques to sustain flower industry amid COVID-19 pandemic.

Author

Kumar, Mukesh, Chaudhary, Veena, Sirohi, Ujjwal, and Srivastav, Arun Lal

Subjects

WASTE products management, COVID-19 pandemic, FLOWERING of plants, ASTERS, FLORICULTURISTS

Abstract

Imposing lockdown amid COVID-19 pandemic has severely affected flower cultivation and their trades. Flower plants are very sensitive to the harvesting, and any unexpected delay may cause great loss (~ 50–60%) to the farmers. In 2018–2019, the worth of total production of floriculture products was ~ Rs 571.38 crore. During lockdown, the availability of human laborers and restricted transport has disrupted the supply of flowers to the market. Hence, some alternative options are suggested here for the farmers, for example, conversion of decorative flowers (e.g., anthurium, China aster, globe amaranthus, sweet-william, anemone, sea lavender, etc.) and inflorescence (e.g., Michaelmas daisy, zinnia, statice, ferns, aspidistra, eucalyptus, magnolia, etc.) can also be into value-added products through drying and dehydration technologies. Many dehydration methods such as hot air oven, solar drying, press drying, freeze-drying, embedded drying, glycerine drying, and microwave oven drying polyester drying can be used for flower drying at room temperature (~ 25 °C). These floral and foliage dehydration techniques are quite simple, which can also be operated by unskilled persons. Moreover, it will generate self-employment for the youth and women along with increased revenue than selling fresh flowers. In this review, different techniques of flower drying have been discussed in detail along with the influencing factors, efficiency, economic feasibility, flower waste management and sustainability. Further, it has also been suggested how these techniques could be useful for farmers, researchers, and traders to create value-added products? Hence, the present paper could be very interesting for the flower growers, retailers, students, as well as floricultural scientists who are involved in flower production worldwide. [ABSTRACT FROM AUTHOR]

Published

2024

7. Reciprocal Evaluation of Hybrid Wheat (Triticum aestivum L.) Crosses Between German and US ‘Great Plains’ Genotypes Across Their Contrasting Target Environments.

Author

Schneider, Johannes, Frels, Katherine, Sakhale, Sandeep, Baenziger, P. Stephen, Longin, C. Friedrich H., Reif, Jochen C., and Schulthess, Albert W.

Subjects

*FLOWERING of plants, *HETEROSIS, *GRAIN yields, *CULTIVARS, *CLIMATE change

Abstract

ABSTRACT Hybrid wheat could deliver the grain yield (GY) and stability levels to confront climate change while crossing genetically divergent pools should maximize heterosis. We crossed 22 breeding lines from Nebraska (USA) with two German cultivars to produce 44 hybrids. Hybrids, parents and 12 checks were reciprocally tested across their contrasting target environments for GY, plant height and flowering biology during 2 consecutive years at multiple locations. Trait variation within target environments had the greatest impact on performance. Therefore, mega‐environments could not be derived from target environments despite a clear clustering using weather variables. Short plants and locally optimized flowering biology were main drivers for crop performance and adaptation. Modified Rogers' distances derived from genotyping‐by‐sequencing revealed the genetic divergence between German and ‘Great Plains’ pools. However, variation on GY heterosis could not be explained by this divergence. In general, GY of hybrids was more stable across target environments than for locally adapted material, whereas GY heterosis was higher under harsh climate conditions of the Nebraska's ‘Great Plains’. [ABSTRACT FROM AUTHOR]

Published

2024

8. PHO1: linking phosphate nutrition translocation and floral signalling in plants.

Author

He, Cunman and Shou, Huixia

Subjects

*TRANSCRIPTION factors, *FLOWERING of plants, *PLANT nutrition, *GENE expression, *PLANT reproduction, *FLOWERING time, *PLANT translocation

Abstract

The article discusses the role of PHO1, a protein involved in phosphate translocation, in regulating flowering time in plants. The study found that mutations in the PHO1 gene resulted in delayed flowering in Arabidopsis plants. The authors also discovered that PHO1 interacts with the jasmonic acid (JA) signaling pathway, which is known to play a role in plant reproduction. Additionally, the study identified other genes and hormonal pathways that may be involved in the regulation of flowering time. The findings contribute to our understanding of the molecular mechanisms governing flowering time regulation in plants. [Extracted from the article]

Published

2024

9. PHOSPHATE1-mediated phosphate translocation from roots to shoots regulates floral transition in plants.

Author

Dai, Senhuan, Chen, Huiying, Shi, Yutao, Xiao, Xinlong, Xu, Lei, Qin, Cheng, Zhu, Yiyong, Yi, Keke, Lei, Mingguang, and Zeng, Houqing

Subjects

*FLOWERING of plants, *FLOWERING time, *SHOOT apexes, *JASMONIC acid, *ANGIOSPERMS

Abstract

Phosphorus nutrition has been known for a long time to influence floral transition in plants, but the underlying mechanism is unclear. Arabidopsis phosphate transporter PHOSPHATE1 (PHO1) plays a critical role in phosphate translocation from roots to shoots, but whether and how it regulates floral transition is unknown. Here, we show that knockout mutation of PHO1 delays flowering under both long- and short-day conditions. The late flowering of pho1 mutants can be partially rescued by Pi supplementation in rosettes or shoot apices. Grafting assay indicates that the late flowering of pho1 mutants is a result of impaired phosphate translocation from roots to shoots. Knockout mutation of SPX1 and SPX2 , two negative regulators of the phosphate starvation response, partially rescues the late flowering of pho1 mutants. PHO1 is epistatic to PHO2, a negative regulator of PHO1, in flowering time regulation. Loss of PHO1 represses the expression of some floral activators, including FT encoding florigen, and induces the expression of some floral repressors in shoots. Genetic analyses indicate that at least jasmonic acid signaling is partially responsible for the late flowering of pho1 mutants. In addition, we find that rice PHO1;2 , the homolog of PHO1 , plays a similar role in floral transition. These results suggest that PHO1 integrates phosphorus nutrition and flowering time, and could be used as a potential target in modulating phosphorus nutrition-mediated flowering time in plants. [ABSTRACT FROM AUTHOR]

Published

2024

10. Integrative analysis of the metabolome and transcriptome reveals the mechanism of polyphenol biosynthesis in Taraxacum mongolicum.

Author

Xing Zhao, Yiguo Li, Yuanchong Huang, Jun Shen, Huini Xu, and Kunzhi Li

Subjects

GENE expression, FLOWERING of plants, GERMPLASM, BIOSYNTHESIS, PHENOLIC acids

Abstract

Introduction: Dandelion is widely used in clinical practice due to its beneficial effects. Polyphenolic compounds are considered the main anti-inflammatory active ingredient of dandelion, but the gene expression patterns of polyphenolic compounds in different dandelion tissues are still unclear. Methods: In this study, we combined a nontargeted metabolome, PacBio Iso-seq transcriptome, and Illumina RNA-seq transcriptome to investigate the relationship between polyphenols and gene expression in roots, flowers, and leaves of flowering dandelion plants. Results: Eighty-eight flavonoids and twenty-five phenolic acids were identified, and 64 candidate genes involved in flavonoid biosynthesis and 63 candidate genes involved in chicoric acid biosynthesis were identified. Most flavonoid and chicoric acid-related genes demonstrated the highest content in flowers. RNA-seq analysis revealed that genes involved in polyphenol biosynthesis pathways, such as CHS, CHI, F3H, F3'H, FLS, HQT, and CAS, which are crucial for the accumulation of flavonoids and chicoric acid, were upregulated in flowers. Discussion: The combination of transcriptomic and metabolomic data can help us better understand the biosynthetic pathways of polyphenols in dandelion. These results provide abundant genetic resources for further studying the regulatory mechanism of dandelion polyphenol biosynthesis. [ABSTRACT FROM AUTHOR]

Published

2024

11. Transgenerational effects of stress on reproduction strategy in the mixed mating plant Lamium amplexicaule.

Author

Binder, Mor, Zinger, Eyal, Hadany, Lilach, and Ohad, Nir

Subjects

*FLOWERING of plants, *SOLUTION (Chemistry), *PLANT size, *HEREDITY, *PLANT reproduction, *POLLINATION

Abstract

Background: The theory of Condition Dependent Sex predicts that – everything else being equal – less fit individuals would outcross at higher rates compared with fitter ones. Here we used the mixed mating plant Lamium amplexicaule, capable of producing both self-pollinating closed flowers (CL), alongside open flowers (CH) that allow cross pollination to test it. We investigated the effects of abiotic stress – salt solution irrigation – on the flowering patterns of plants and their offspring. We monitored several flowering and vegetative parameters, including the number and distribution of flowers, CH fraction, and plant size. Results: We found that stressed plants show an increased tendency for self-pollination and a deficit in floral and vegetative development. However, when parentally primed, stressed plants show a milder response. Un-stressed offspring of stressed parents show reversed responses and exhibit an increased tendency to outcross, and improve floral and vegetative development. Conclusions: In summary, we found that stress affects the reproduction strategy in the plants that experienced the stress and in subsequent offspring through F2 generation. Our results provide experimental evidence supporting a transgenerational extension to the theories of fitness associate sex and dispersal, where an individual's tendency for sex and dispersal may depend on the stress experienced by its parents. [ABSTRACT FROM AUTHOR]

Published

2024

12. Isolation and characterization of <italic>Thymus serpyllum</italic> L. essential oil and mass fragmentation analysis of major constituents.

Author

Kumar, Vineet and Bhattarai, Sushil

Subjects

*MASS spectrometry, *GAS chromatography/Mass spectrometry (GC-MS), *ESSENTIAL oils, *FLOWERING of plants, *THYMOL, *TERPENES

Abstract

The essential oils were isolated from Thymus serpyllum L. leaves, stem, flowers and whole plant using hydrodistillation technique and % yield was determined. The chemical constituents were studied using Gas Chromatography-Mass Spectrometry and Gas Chromatography-Flame Ionisation Detection. The analysis revealed the presence of 38 compounds in the essential oils obtained from different plant parts. Identification of compounds was achieved by detailed analysis of mass spectrum and retention indices. The major constituents of essential oil from the whole plant were thymol (35.25%), p-cymene (27.57%), thymol acetate (8.03%) and γ-terpinene (6.92%). In leaves they were thymol (45.59%), p-cymene (24.26%), thymol acetate (6.41%), and β-bisabolene (5.91%); whereas in flowers these were thymol (68.74%) and thymol acetate (7.40%) and in the stem, these were thymol (55.15%) and thymol acetate (8.01%). Specifically, it is the first report wherein essential oil constituents of T. serpyllum L. whole plant, leaves, flowers, and stems have been analyzed separately. Further, fundamental analysis of complex mass fragmentation patterns of terpenes and terpenoids using EI-MS has been achieved and the logical reason for the fragmentation pattern has been elaborated. Detailed elaboration of the mass fragmentation pattern may strengthen the EI-MS-based compound identification of terpenes and terpenoids from essential oils. [ABSTRACT FROM AUTHOR]

Published

2024

13. Silicon nanoparticles and indole butyric acid positively regulate the growth performance of Freesia refracta by ameliorating oxidative stress under chromium toxicity.

Author

Ahsan, Muhammad, Radicetti, Emanuele, Jamal, Aftab, Ali, Hayssam M., Sajid, Mateen, Manan, Abdul, Bakhsh, Ali, Naeem, Muhammad, Khan, Jawad Ahmad, and Valipour, Mohammad

Subjects

PLANT defenses, PHOTOSYNTHETIC pigments, BUTYRIC acid, CUT flowers, FLOWERING of plants

Abstract

Chromium (Cr) toxicity hampers ornamental crops' growth and post-harvest quality, especially in cut flower plants. Nano-enabled approaches have been developing with phenomenal potential towards improving floricultural crop production under heavy metal-stressed conditions. The current pot experiment aims to explore the ameliorative impact of silicon nanoparticles (Si-NPs; 10 mM) and indole butyric acid (IBA; 20 mM) against Cr stress (0.8 mM) in Freesia refracta. The results showed that Cr stress significantly reduced morphological traits, decreased roots-stems biomass, abridged chlorophyll (14.7%) and carotenoid contents (27.2%), limited gas exchange attributes (intercellular CO2 concentration (Ci) 24.8%, stomatal conductance (gs) 19.3% and photosynthetic rate (A) 28.8%), condensed proline (39.2%) and total protein (40%) contents and reduced vase life (15.3%) of freesia plants by increasing oxidative stress. Contrarily, antioxidant enzyme activities, MDA and H2O2 levels, and Cr concentrations in plant parts were remarkably enhanced in Cr-stressed plants than in the control. However, foliar supplementation of Si-NPs + IBA (combined form) to Cr-stressed plants increased defense mechanism and tolerance as revealed by improved vegetative and reproductive traits, increased biomass, photosynthetic pigments (chlorophyll 30.3%, carotenoid 57.2%) and gaseous exchange attributes (Ci 33.3%, gs 25.6%, A 31.1%), proline (54.5%), total protein (55.1%), and vase life (34.9%) of metal contaminated plants. Similarly, the improvement in the activities of peroxidase, catalase, and superoxide dismutase was recorded by 30.8%, 52.4%, and 60.8%, respectively, compared with Crstressed plants. Meanwhile, MDA (54.3%), H2O2 (32.7%) contents, and Cr levels in roots (43.3), in stems (44%), in leaves (52.8%), and in flowers (78.5%), were remarkably reduced due to combine application of Si-NPs + IBA as compared with Cr-stressed nontreated freesia plants. Thus, the hypothesis that the synergistic application of Si-NPs + IBA will be an effective approach in ameliorating Cr stress is authenticated from the results of this experiment. Furthermore, the study will be significant since it will demonstrate how Si-NPs and IBA can work synergistically to combat Cr toxicity, and even when added separately, they can improve growth characteristics both under stressed and unstressed conditions. [ABSTRACT FROM AUTHOR]

Published

2024

14. RcOST1L phosphorylates RcPIF4 for proteasomal degradation to promote flowering in rose.

Author

Sun, Jingjing, Liu, Hongchi, Wang, Weinan, Fan, Chunguo, Yuan, Guozhen, Zhou, Rui, Lu, Jun, Liu, Jinyi, and Wang, Changquan

Subjects

*FLOWERING of plants, *FLOWERING time, *LIGHT intensity, *ANGIOSPERMS, *VALUE (Economics)

Abstract

Summary: Flowering is a vital agronomic trait that determines the economic value of most ornamental plants. The flowering time of rose (Rosa spp.) is photoperiod insensitive and is thought to be tightly controlled by light intensity, although the detailed molecular mechanism remains unclear.Here, we showed that rose plants flower later under low‐light (LL) intensity than under high‐light (HL) intensity, which is mainly related to the stability of PHYTOCHROME‐INTERACTING FACTORs (RcPIFs) mediated by OPEN STOMATA 1‐Like (RcOST1L) under different light intensity regimes.We determined that HL conditions trigger the rapid phosphorylation of RcPIFs before their degradation. A yeast two‐hybrid screen identified the kinase RcOST1L as interacting with RcPIF4. Moreover, RcOST1L positively regulated rose flowering and directly phosphorylated RcPIF4 on serine 198 to promote its degradation under HL conditions. Additionally, phytochrome B (RcphyB) enhanced RcOST1L‐mediated phosphorylation of RcPIF4 via interacting with the active phyB‐binding motif. RcphyB was activated upon HL and recruited RcOST1L to facilitate its nuclear accumulation, in turn leading to decreased stability of RcPIF4 and flowering acceleration.Our findings illustrate how RcPIF abundance safeguards proper rose flowering under different light intensities, thus uncovering the essential role of RcOST1L in the RcphyB–RcPIF4 module in flowering. [ABSTRACT FROM AUTHOR]

Published

2024

15. Can we harmonize the monitoring of plants and pollinators?

Author

Porcher, Emmanuelle, Bonnet, Pierre, Damgaard, Christian, De Frenne, Pieter, Deguines, Nicolas, Ehlers, Bodil K., Frei, Jérôme, García, María B., Gros, Clément, Jandt, Ute, Joly, Alexis, Martin, Gabrielle, Michez, Denis, Pescott, Oliver L., Roth, Tobias, and Waller, Donald

Subjects

*ANIMAL-plant relationships, *TRANSFORMER models, *APPLIED ecology, *FLOWERING of plants, *SPECIES diversity

Abstract

This meeting report discusses the challenges and importance of monitoring plants and pollinators in a changing world. It emphasizes the need for systematic surveys and monitoring using plot-based methods to gather quantitative data on abundance and distributions. The report highlights the scarcity of monitoring data, lack of support for monitoring programs in many countries, and the need for coordinated efforts and improved statistical tools. It also mentions the development of a standardized EU pollinator monitoring scheme and the potential for technological innovations. The report concludes by emphasizing the importance of policy and international collaboration in conservation efforts, particularly in relation to the EU's Nature Restoration Law. The text acknowledges the funding sources and contributions of citizen scientists to monitoring efforts. [Extracted from the article]

Published

2024

16. Comparative analyses suggest a link between mRNA splicing, stability, and RNA covalent modifications in flowering plants.

Author

Palos, Kyle, Nelson Dittrich, Anna C., Lyons, Eric H., Gregory, Brian D., and Nelson, Andrew D. L.

Subjects

*RNA modification & restriction, *RNA polymerase II, *FLOWERING of plants, *CORN, *GENETIC translation, *SORGHUM

Abstract

Background: In recent years, covalent modifications on RNA nucleotides have emerged as pivotal moieties influencing the structure, function, and regulatory processes of RNA Polymerase II transcripts such as mRNAs and lncRNAs. However, our understanding of their biological roles and whether these roles are conserved across eukaryotes remains limited. Results: In this study, we leveraged standard polyadenylation-enriched RNA-sequencing data to identify and characterize RNA modifications that introduce base-pairing errors into cDNA reads. Our investigation incorporated data from three Poaceae (Zea mays, Sorghum bicolor, and Setaria italica), as well as publicly available data from a range of stress and genetic contexts in Sorghum and Arabidopsis thaliana. We uncovered a strong enrichment of RNA covalent modifications (RCMs) deposited on a conserved core set of nuclear mRNAs involved in photosynthesis and translation across these species. However, the cohort of modified transcripts changed based on environmental context and developmental program, a pattern that was also conserved across flowering plants. We determined that RCMs can partly explain accession-level differences in drought tolerance in Sorghum, with stress-associated genes receiving a higher level of RCMs in a drought tolerant accession. To address function, we determined that RCMs are significantly enriched near exon junctions within coding regions, suggesting an association with splicing. Intriguingly, we found that these base-pair disrupting RCMs are associated with stable mRNAs, are highly correlated with protein abundance, and thus likely associated with facilitating translation. Conclusions: Our data point to a conserved role for RCMs in mRNA stability and translation across the flowering plant lineage. [ABSTRACT FROM AUTHOR]

Published

2024

17. Adaptive responses to elevated CO2 in fruit species with different phloem loading mechanisms.

Author

Davoudi, Marzieh, Kalantzis, Spyridon, and Petridis, Antonios

Subjects

ANGIOSPERMS, FLOWERING of plants, PHYSIOLOGICAL adaptation, FRUIT development, GAS analysis, STRAWBERRIES, TOMATOES

Abstract

Introduction: It has been suggested that the mechanism of phloem loading, that is apoplastic or symplastic loading, may affect a plant's ability to adapt to elevated CO2 levels. Strawberry (Fragaria × ananassa) and tomato (Solanum lycopersicum) are two fruit crops that use different mechanisms to load sugars into the phloem - the former symplastically and the latter apoplastically - yet both species can increase their yields when grown in a CO2-enriched environment. In this study, we subjected strawberry and tomato plants to long-term CO2 enrichment to determine the morphological and physiological adaptations that enable them to increase their yields in response to higher CO2 levels. Methods: Transplanted tomato and strawberry plants were subjected to ambient (400 ppm) and elevated (800 ppm) CO2 for three months. We examined various parameters associated with growth, yield, photosynthesis, and carbon allocation by means of phenotyping, gas exchange analysis, and 13C labelling combined with isotope ratio mass spectrometry. Results: We found that CO2 enrichment promoted growth and reproductive development in both species, resulting in more flowers per plant (tomato and strawberry), larger crown (strawberry), and, eventually, higher yields. Gas exchange analysis and A/ci curves revealed that elevated CO2 increased carbon assimilation rate in strawberry, but not in tomato - the latter being limited by Rubisco's carboxylation efficiency. Finally, whereas both species prioritized fruit development over the development of other sink organs, they were both limited by carbon export at elevated CO2, since new photoassimilates were equally distributed to various sinks between CO2 treatments. Discussion: The findings suggest that both species will benefit from future increases in CO2 levels and support current glasshouse practices entailing CO2 enrichment. Those benefits probably stem from an enhanced performance of both species at early developmental stages, as differences in carbon assimilation rate (tomato) and carbon allocation between treatments at late developmental stages were absent. Moreover, crop adaptation to elevated CO2 seems to depend on the ability of each species to respond to elevated CO2, rather than on the phloem loading mechanism per se. [ABSTRACT FROM AUTHOR]

Published

2024

18. Evaluating the Performance of Cocopeat and Volcanic Tuff in Soilless Cultivation of Roses.

Author

Al-Ajlouni, Malik G., Othman, Yahia A., Abu-Shanab, Nour S., and Alzyoud, Lujain F.

Subjects

CUT flowers, FLOWERING of plants, SUBSTRATES (Materials science), VOLCANIC ash, tuff, etc., PHOTOSYNTHETIC rates

Abstract

Roses are increasingly being grown in soilless systems to increase productivity and reduce the challenges associated with soil-based cultivation. This study investigates the effects of using cocopeat and volcanic tuff substrates, the particle size of tuff, and substrate depth on the growth and flower quality of roses (Rosa hybrida L. cv. top secret) grown under greenhouse conditions. The treatments were cocopeat, tuff, cocopeat–tuff mixture, and tuff of particle size of 2 to 4 mm, 0 to 4 mm, and 0 to 8 mm at depths of 20 cm and 40 cm. The results showed that cocopeat had the highest water-holding capacity and photosynthetic rate. Tuff substrates had higher chlorophyll content throughout the growing season. Although flower numbers per plant in cocopeat and tuff from 0 to 8 mm at a depth of 20 cm were statistically similar, tuff from 0 to 8 mm had longer flowering stems and larger post-harvest flower diameters than cocopeat. An increase in the tuff depth from 20 to 40 cm decreased the flower number and main stem diameter. In conclusion, while cocopeat promotes rapid initial growth, volcanic tuff substrates, particularly tuff from 0 to 8 mm at a depth of 20 cm, provide long-term benefits for flower quality and plant health. [ABSTRACT FROM AUTHOR]

Published

2024

19. GhSWEET42 Regulates Flowering Time under Long-Day Conditions in Arabidopsis thaliana.

Author

Du, Mengxue, Wang, Deying, Li, Jingyu, Zhu, Taotao, Lyu, Peng, Li, Gang, Ding, Yi, Liu, Xinxin, Men, Qingmei, Li, Xiaofei, Sun, Yongwang, Meng, Lingzhi, and Guo, Shangjing

Subjects

FLOWERING time, FLOWERING of plants, GENE expression, TRANSCRIPTION factors, ANGIOSPERMS, COTTON

Abstract

Flowering in plants is pivotal for initiating and advancing reproductive processes, impacting regional adaptation and crop yield. Despite numerous cloned and identified flowering time genes, research in cotton remains sparse. This study identified GhSWEET42 as a key determinant of the flowering time in cotton, demonstrating that its heterologous expression in Arabidopsis accelerated flowering under LD conditions compared to WT. Transgenic plants exhibited upregulated expression of the flowering inducers AtFT, AtSOC1, AtGI, and AtFKF1, alongside downregulated expression of the repressors AtTSF, AtFLC, and AtRGL2, correlating with the earlier flowering phenotype. GhSWEET42 showed a constitutive expression pattern, with elevated levels in the leaves, petals, and flower buds, and was notably higher in early-maturing cotton varieties. Subcellular localization assays confirmed GhSWEET42's presence on the cell membrane. Transcriptome analysis between WT and GhSWEET42-overexpressing Arabidopsis plants revealed 2393 differentially expressed genes (DEGs), spanning 221 biological processes, 93 molecular functions, and 37 cellular components according to Gene Ontology (GO) enrichment analysis. Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analysis categorized the DEGs into metabolism and environmental information processing. These findings enhance the understanding of GhSWEET42's function and provide a foundation for elucidating the molecular mechanisms governing flowering time regulation in cotton. [ABSTRACT FROM AUTHOR]

Published

2024

20. Coordination of shoot apical meristem shape and identity by APETALA2 during floral transition in Arabidopsis.

Author

Bertran Garcia de Olalla, Enric, Cerise, Martina, Rodríguez-Maroto, Gabriel, Casanova-Ferrer, Pau, Vayssières, Alice, Severing, Edouard, López Sampere, Yaiza, Wang, Kang, Schäfer, Sabine, Formosa-Jordan, Pau, and Coupland, George

Subjects

TRANSCRIPTION factors, FLOWERING of plants, SHOOT apexes, FLORAL morphology, FLOWERING time

Abstract

Plants flower in response to environmental signals. These signals change the shape and developmental identity of the shoot apical meristem (SAM), causing it to form flowers and inflorescences. We show that the increases in SAM width and height during floral transition correlate with changes in size of the central zone (CZ), defined by CLAVATA3 expression, and involve a transient increase in the height of the organizing center (OC), defined by WUSCHEL expression. The APETALA2 (AP2) transcription factor is required for the rapid increases in SAM height and width, by maintaining the width of the OC and increasing the height and width of the CZ. AP2 expression is repressed in the SAM at the end of floral transition, and extending the duration of its expression increases SAM width. Transcriptional repression by SUPPRESSOR OF OVEREXPRESSION OF CONSTANS1 (SOC1) represents one of the mechanisms reducing AP2 expression during floral transition. Moreover, AP2 represses SOC1 transcription, and we find that reciprocal repression of SOC1 and AP2 contributes to synchronizing precise changes in meristem shape with floral transition. Bertran Garcia de Olalla, Cerise and colleagues discovered that the transcription factor APETALA2 has a dual role at the shoot tip of Arabidopsis, where it both mediates changes in the timing of flowering and in the morphology of the shoot apex. [ABSTRACT FROM AUTHOR]

Published

2024

21. Negative and sex‐specific effects of drought on flower production, resources and pollinator visitation, but not on floral scent in monoecious Cucurbita pepo.

Author

Barman, Monica, Tenhaken, Raimund, and Dötterl, Stefan

Subjects

*FLOWERING of plants, *POLLINATORS, *FLOWER development, *CUCURBITA pepo, *PLANT growth, *CLIMATE change

Abstract

Summary The globally changing climatic condition is increasing the incidences of drought in several parts of the world. This is predicted and already shown to not only impact plant growth and flower development, but also plant–pollinator interactions and the pollination success of entomophilous plants. However, there is a large gap in our understanding of how drought affects the different flowers and pollen transfer among flowers in sexually polymorphic species. Here, we evaluated in monoecious Styrian oil pumpkin, and separately for female and male flowers, the responses of drought stress on flower production, petal size, nectar, floral scent and visitation by bumblebee pollinators. Drought stress adversely affected all floral traits studied, except floral scent. Although both flower sexes were adversely affected by drought stress, the effects were more severe on female flowers, with most of the female flowers even aborted before opening. The drought had negative effects on floral visitation by the pollinators, which generally preferred female flowers. Overall, our study highlights that the two flower sexes of a monoecious plant species are differently affected by drought stress and calls for further investigations to better understand the cues used by the pollinators to discriminate against male flowers and against flowers of drought‐stressed plants. [ABSTRACT FROM AUTHOR]

Published

2024

22. Responses of mustard greens (<italic>Brassica juncea</italic> L.) to additional lighting duration of LED under greenhouse conditions in the tropical zone.

Author

Duong, Nha V., Pham, Tan M., Nguyen, Thuan V., Nguyen, Phuoc V., Vo, Huyen X., Vo, Phong T., Duong, Khoa D.N., Nguyen, Hau T.T., and Pham, Quang V.

Subjects

*LIGHT emitting diodes, *FLOWERING time, *TROPICAL conditions, *FLOWERING of plants, *PLANT growth, *BRASSICA juncea

Abstract

Light-emitting diodes have been beneficial for plant growth, especially for microgreens in countries with low radiation, greenhouses, and chambers. However, information about how plants respond to additional light-emitting diode lighting after 12 hours of sunlight exposure in tropical areas is limited. This study examines the effects of long-duration light-emitting diodes on mustard greens in Kien Giang province, Vietnam (105°14’33.21” E; 9°91’41.13” N). The trials were conducted in the greenhouse for two growing seasons with a completely randomized design, including 0, 2, 4, and 6 hours of assembled light-emitting diodes lighting and 4 hours of commercial light-emitting diodes lighting after 6 pm, with three replications. Results showed that weather factors in season 2 favorably influenced mustard’s growth. At 4 hours of lighting, commercial light-emitting diodes showed a higher chlorophyll index, flowering time, flowering rate, leaf number, and absolute growth rate of leaf number but less leaf and fresh shoot weight than assembled light-emitting diodes. Four hours of assembled light-emitting diodes positively affected most mustard growth, while 6 hours of assembled light-emitting diodes were superior for flowering aspects. Adding 4 hours of light-emitting diodes could increase leafy yield and shorten the harvesting time of mustard greens grown in greenhouses under tropical conditions. [ABSTRACT FROM AUTHOR]

Published

2024

23. Flower longevity and size are coordinated with ecophysiological traits in a tropical montane ecosystem.

Author

Paiva, Dario C. and Roddy, Adam B.

Subjects

*BOTANY, *FLOWER shows, *MOUNTAIN plants, *HEAT convection, *MOUNTAIN climate, *FLOWERING of plants, *PLANT-water relationships

Abstract

This article discusses a study on the relationship between flower traits and pollination in the campo rupestre ecosystem in Brazil. The study found that flower longevity is linked to petal mass per area and petal thickness, indicating that longer-lived flowers require more resources. Larger flowers have lower rates of water loss and longer water residence times. The document also provides references to scientific articles on various topics related to flower physiology and plant reproduction, which can be valuable for researchers in this field. [Extracted from the article]

Published

2024

24. Floral thermal biology in relation to pollen thermal performance in an early spring flowering plant.

Author

Sherer, T. N., Heiling, J. M., and Koski, M. H.

Subjects

*FLOWERING of plants, *SPRING, *BODY temperature regulation, *POLLINATORS, *POLLEN, *FLOWER shows, *EVAPORATIVE cooling

Abstract

The floral microenvironment impacts gametophyte viability and plant–pollinator interactions. Plants employ mechanisms to modify floral temperature, including thermogenesis, absorption of solar radiation, and evaporative cooling. Whether floral thermoregulation impacts reproductive fitness, and how floral morphological variation mediates thermoregulatory capacity are poorly understood.We measured temperature of the floral microenvironment in the field and tested for thermogenesis in the lab in early spring flowering Hexastylis arifolia (Aristolochiaceae). We evaluated whether thermoregulatory capacity was associated with floral morphological variation. Finally, we experimentally determined the thermal optimum and tolerance of pollen to assess whether thermoregulation may ameliorate thermal stress to pollen.Pollen germination was optimal near 21 °C, with a 50% tolerance breadth of ~18 °C. In laboratory conditions, flowers exhibited thermogenesis of 1.5–4.8 °C for short intervals within a conserved timeframe (08:00–09:00 h). In the field, temperature inside the floral tube often deviated from ambient – floral interiors were up to 4 °C above ambient when it was cold, but some fell nearly 10 °C below ambient during peak heat. Flowers with smaller openings were cooler and more thermally stable than those with larger openings during peak heat. Thermoregulation maintained a floral microenvironment within the thermal tolerance breadth of pollen.Results suggest that H. arifolia flowers have a stronger capacity to cool than to warm, and that narrower floral openings create a distinct floral microenvironment, enhancing floral cooling effects. While deviation of floral temperature from ambient conditions maintains a suitable environment for pollen and suggests an adaptive role of thermoregulation, we discuss adaptive and nonadaptive mechanisms underlying floral warming and cooling. [ABSTRACT FROM AUTHOR]

Published

2024

25. Pollen sources used by the stingless bee Schwarziana quadripunctata in a coffee-growing landscape.

Author

Silva, Caíque Barcellos da, Hautequestt, Anna Pazini, Matos, Vanessa Ribeiro, Mendonça, Cláudia Barbieri Ferreira, Goncalves Lourenço Esteves, Vania, Freitas, Leandro, and Gaglianone, Maria Cristina

Subjects

*STINGLESS bees, *POLLEN, *PALYNOLOGY, *COFFEE plantations, *FLOWERING of plants, *COFFEE beans, *HONEY, *SOLANACEAE, *COFFEE

Abstract

Research on the food sources used by bees in agricultural landscapes is crucial to promote pollinator conservation measures in and around cultivated areas. This investigation aims to identify and quantify the pollen resources exploited by Schwarziana quadripunctata (Lepeletier 1836), assessing the trophic niche of this bee in agricultural areas with coffee plantations. Pollen analysis was conducted based on the pollen load of the corbiculae of 70 bees, sampled during the flowering period of two species of coffee trees in commercial plantations located in Rio de Janeiro, Minas Gerais and Espírito Santo states, Brazil, in 2019 and 2021. A total of 78 pollen types from 23 botanical families were identified, with Coffea arabica and Coffea canephora comprising 92% of the samples. Cestrum sp. (2.3% – Solanaceae), Fabaceae sp. 1 (0.9%), Solanum sp. (0.75% – Solanaceae) and Chamaecrista sp. (0.71% – Fabaceae) were the next most prevalent. The dominance of the coffee tree pollen confirms the floral constancy of S. quadripunctata during periods of intense flowering. Excluding coffee pollen, the most represented families were Solanaceae (46.6% of the samples), Fabaceae (27.5%), Rubiaceae (8.51%), and Meliaceae (2.53%). The findings reveal that S. quadripunctata actively forages from sources other than coffee, even during the intense flowering of these plants, highlighting the importance of floral resources in the proximity of plantations. The use of pollen sources beyond the coffee tree highlights the importance of conserving nearby forest fragments and maintaining a diverse array of plants surrounding coffee trees even during coffee flowering. [ABSTRACT FROM AUTHOR]

Published

2024

26. H3K36 methyltransferase GhKMT3;1a and GhKMT3;2a promote flowering in upland cotton.

Author

Ju, Jisheng, Li, Ying, Ling, Pingjie, Luo, Jin, Wei, Wei, Yuan, Wenmin, Wang, Caixiang, and Su, Junji

Subjects

*HISTONE methyltransferases, *COTTON, *FLOWERING time, *GENE silencing, *GERMPLASM, *FLOWERING of plants

Abstract

Background: The SET domain group (SDG) genes encode histone lysine methyltransferases, which regulate gene transcription by altering chromatin structure and play pivotal roles in plant flowering determination. However, few studies have investigated their role in the regulation of flowering in upland cotton. Results: A total of 86 SDG genes were identified through genome-wide analysis in upland cotton (Gossypium hirsutum). These genes were unevenly distributed across 25 chromosomes. Cluster analysis revealed that the 86 GhSDGs were divided into seven main branches. RNA-seq data and qRT‒PCR analysis revealed that lysine methyltransferase 3 (KMT3) genes were expressed at high levels in stamens, pistils and other floral organs. Using virus-induced gene silencing (VIGS), functional characterization of GhKMT3;1a and GhKMT3;2a revealed that, compared with those of the controls, the GhKMT3;1a- and GhKMT3;2a-silenced plants exhibited later budding and flowering and lower plant heightwere shorter. In addition, the expression of flowering-related genes (GhAP1, GhSOC1 and GhFT) significantly decreased and the expression level of GhSVP significantly increased in the GhKMT3;1a- and GhKMT3;2a-silenced plants compared with the control plants. Conclusion: A total of 86 SDG genes were identified in upland cotton, among which GhKMT3;1a and GhKMT3;2a might regulate flowering by affecting the expression of GhAP1, GhSOC1, GhFT and GhSVP. These findings will provide genetic resources for advanced molecular breeding in the future. [ABSTRACT FROM AUTHOR]

Published

2024

27. Pollination Strategies and Reproductive Biology of Fritillaria imperialis L. (Liliaceae): Insights from Erzincan, Türkiye.

Author

Yildiz, Faruk, Aslay, Meral, and Kaya, Ozkan

Subjects

*BIOLOGICAL evolution, *ORNAMENTAL plants, *FLOWERING of plants, *POLLEN, *POLLEN viability

Abstract

Fritillaria spp., comprising perennial bulbous plants of significant medicinal and ornamental value, face high endangerment in their natural habitats. Despite their importance, the reproductive characteristics and adaptive evolution mechanisms of these species remain incompletely understood. This study focused on the pollination strategies and reproductive biology of Fritillaria imperialis L. The research was conducted at the Erzincan Horticultural Research Institute in Türkiye. Our investigation categorized the flowering process of F. imperialis into nine distinct phases. Through comprehensive assessments of the pollen/ovule ratio, self-incompatibility index (SII), and ex situ pollination experiments, we observed high levels of self-incompatibility and allogamy in F. imperialis. Our findings revealed that pollination of F. imperialis primarily relied on pollen vectors, with Apis mellifera and Bombus terrestris identified as the most effective pollinators. Furthermore, average seed set rate, seed production, and seed viability were quantified at 80.5%, 228 seeds, and 86.3%, respectively. The average numbers of pollen viability and pollen grains were measured at 93% and 702,000, respectively. This comprehensive analysis of the reproductive biology of F. imperialis provides crucial insights for the conservation and genetic management of this highly valuable species. The findings contribute to a deeper understanding of the reproductive strategies employed by Fritillaria spp., which may inform future conservation efforts and breeding programs for these endangered plants. [ABSTRACT FROM AUTHOR]

Published

2024

28. Plastome Evolution of Asyneuma japonicum : Insights into Structural Variation, Genomic Divergence, and Phylogenetic Tree.

Author

Park, Byeong-Seon, Yoon, Won-Sub, Kim, Chang-Kug, and Kim, Yong-Kab

Subjects

ORNAMENTAL plants, GENE rearrangement, FLOWERING of plants, BASE pairs, ANGIOSPERMS

Abstract

Asyneuma japonicum is an ornamental flowering plant in East Asia. The genus Asyneuma is difficult to distinguish taxonomically because of its morphological similarities with the genus Campanula. We constructed the first complete plastome of A. japonicum (NCBI accession number: OR805474) using the Illumina platform. This plastome is a circular ring structure with a length of 185,875 base pairs. It is organized into four parts: a pair of inverted repeats (33,084 bp each) as well as large (83,795 bp) and small (35,912 bp) single-copy regions. One hundred nine unique genes were encoded in the assembled plastome. Using structural variations, junction boundaries, rearrangements, divergent hotspots, and phylogenetic analysis, we revealed that A. japonicum was in the closest evolutionary position to Hanabusaya asiatica and it had a large evolutionary divergence from the Campanulaceae family due to gene rearrangements. [ABSTRACT FROM AUTHOR]

Published

2024

29. Advances on the Photoperiodic Regulation of Plant Flowering: A Bibliometric Study.

Author

Luo, Jian, Lv, Hengmin, Shu, Yiting, Mei, Guihu, You, Xiong, and Hou, Xilin

Subjects

FLOWERING of plants, ANGIOSPERMS, PLANT photomorphogenesis, CULTIVARS, SYSTEMS biology, AGRICULTURE, PLANT selection

Abstract

Light is a crucial environmental factor for plant growth and development, and the light required for plant development on Earth mainly comes from solar radiation. Light not only affects the photomorphogenesis of plants as a trigger signal but also has an important influence on the whole development of plants. The study of photoperiod regulation of plant flowering is crucial in agricultural practice, as it directly affects plant variety selection, introductory adaptation, and yield stability. In this paper, we used the Bibliometrix package in R Studio, VOSviewer, and Citespace to bibliometrically and statistically analyze 3919 publications in the Web of Science core ensemble database from 2000 to 2023 and to explore the progress and trends in the study of photoperiodic regulation of plant flowering. Literature visualization techniques were used to analyze the annual quantitative distribution of the studies in the dataset, and co-occurrence analysis of collaboration between authors, co-occurrence analysis of collaboration between organizations, co-citation analysis, keyword co-occurrence analysis, and identification of topic evolution were also performed. The results show that the number of publications on photoperiodic regulation of plant flowering is increasing every year, showing a significant diversification and globalization trend in this research area. Growth, gene expression, and Arabidopsis thaliana are the most popular research areas in this field. Flowering gene networks and signaling pathways in the photoperiodic pathway, systems biology and multi-omics, environmental adaptation studies, and cross-species comparisons are current research hotspots. The thematic evolution suggests that environmental change, crop improvement and sustainable agriculture, light quality, and biological clock regulation may be foci of future research. This study reveals the research trends in photoperiodic regulation of plant flowering over the past 23 years and the areas where more research inputs are needed in the future, aiming to offer guidance for future research endeavors in the field of photoperiodic regulation of plant flowering. [ABSTRACT FROM AUTHOR]

Published

2024

30. Adding Phyto-LED Spectrum to White-LED Light Increases the Productivity of Lettuce Plants.

Author

Vereshchagin, Mikhail, Pashkovskiy, Pavel, and Tarakanov, Ivan

Subjects

PLANT productivity, GREEN light, FLOWERING of plants, CHLOROPHYLL spectra, LIGHT sources, LETTUCE

Abstract

Highlights: The spectral characteristics of different types of white LEDs differ significantly. The Phyto-LED spectrum increases the productivity of lettuce plants The combination of white LEDs and Phyto-LEDs had the same effect on the productivity of lettuce plants as the Phyto-LEDs alone. The combination of white LEDs and Phyto-LEDs has a significantly greater effect on color rendering than does the use of sole Phyto-LED spectrum Phyto-LEDs provoke flowering of lettuce plants The effect of light of various spectral compositions on the complex morphophysiological parameters of lettuce plants in hydroponic was studied. The light sources had the following light spectra: warm white light—2700 K, cold white light—6500 K, and Phyto-LED light, as well as 2700 K + Phyto-LED and 6500 K + Phyto-LED. The dry and fresh biomass, leaf area, stem length, photosynthetic pigment content, photosynthesis and transpiration rates, chlorophyll fluorescence parameters, and percentage of plants that passed into the generative stage of development were studied. The results showed that partial and complete replacement of white LEDs by Phyto-LEDs with lower green light content and greater amounts of far-red light in the radiation spectrum caused an increase in plant productivity of 37%, average leaf area, and transpiration rate in the treatments but also promoted an earlier transition of plants to flowering under light treatment, Phyto-LEDs, and Phyto-LEDs + white LEDs. The 2700 K + Phyto-LED treatment had one of the highest productivities, as did the Phyto-LED and 6500 K + Phyto-LED treatments, but this lighting treatment provoked less flowering on the 60th day of the growing period. [ABSTRACT FROM AUTHOR]

Published

2024

31. Determination of Phenolic, Flavonoid Content and Antioxidant Activity of Oil Rose Products.

Author

KAYAHAN, Seda, GÜLBAĞ, Fatih, KAYA, Yalçın, and ALTUNKANAT, Hasret

Subjects

DAMASK rose, FLOWERING of plants, GALLIC acid, FLAVONOIDS, ESSENTIAL oils, HERBAL teas

Abstract

Rose and rose products are used as raw materials in many sectors including cosmetics, food and medicine. The Rosa damascena Mill. rose genotype, which is intensively cultivated in the Isparta region of Türkiye, is an important export product. The flower of the plant is main source of raw materials for rose oil, herbal teas and cosmetic products due to its high essential oil and polyphenols contents. In this study, Rosa damascena, Rosa centifolia, Rosa alba L., Rosa alba 'Semiplena' genotypes were grown in Yalova, which is an alternative region in terms of agro-climatic conditions from Isparta and its surroundings where rose oil cultivation is carried out in Türkiye. Within the scope of the study, total phenolic matter, total antioxidant activity (DPPH and CUPRAC) and total flavonoid contents of flowers (whole flowers), rose water and wastewater of the genotypes were determined. It is important to identify alternative rose genotypes to R. damascena in Türkiye and their potential for cultivation under different climatic conditions. The highest phenolic content (4115 mg gallic acid equivalent GAE 100 g-1) and DPPH antioxidant activity (4893 mg trolox equivalent TE 100 g-1) values were obtained in R. damascena genotype at the first harvest period. The highest CUPRAC antioxidant activity (34237 mg TE 100 g-1) values were obtained in R. centifolia genotype at the first harvest period. In the second harvest period, the highest phenolic content, DPPH antioxidant activity and CUPRAC antioxidant activity values were determined in R. centifolia genotype. Antioxidant activity, phenolic and flavonoid contents of dried rose flowers were higher than in rose water and wastewater. Rose petals were found to have the potential to be used as an important antioxidant source, while total phenolic matter and antioxidant activity values were found to be low in rose water and wastewater. The harvest period was found to be major factor in oil rose flowers, which can be an important polyphenol source. [ABSTRACT FROM AUTHOR]

Published

2024

32. Using photographs and deep neural networks to understand flowering phenology and diversity in mountain meadows.

Author

John, Aji, Theobald, Elli J., Cristea, Nicoleta, Tan, Amanda, and Hille Ris Lambers, Janneke

Subjects

ARTIFICIAL neural networks, MOUNTAIN meadows, PLANT phenology, PHENOLOGY, FLOWERING of plants, TIMBERLINE, DEEP learning, FLOWERING time

Abstract

Mountain meadows are an essential part of the alpine–subalpine ecosystem; they provide ecosystem services like pollination and are home to diverse plant communities. Changes in climate affect meadow ecology on multiple levels, for example, by altering growing season dynamics. Tracking the effects of climate change on meadow diversity through the impacts on individual species and overall growing season dynamics is critical to conservation efforts. Here, we explore how to combine crowd‐sourced camera images with machine learning to quantify flowering species richness across a range of elevations in alpine meadows located in Mt. Rainier National Park, Washington, USA. We employed three machine‐learning techniques (Mask R‐CNN, RetinaNet and YOLOv5) to detect wildflower species in images taken during two flowering seasons. We demonstrate that deep learning techniques can detect multiple species, providing information on flowering richness in photographed meadows. The results indicate higher richness just above the tree line for most of the species, which is comparable with patterns found using field studies. We found that the two‐stage detector Mask R‐CNN was more accurate than single‐stage detectors like RetinaNet and YOLO, with the Mask R‐CNN network performing best overall with mean average precision (mAP) of 0.67 followed by RetinaNet (0.5) and YOLO (0.4). We found that across the methods using anchor box variations in multiples of 16 led to enhanced accuracy. We also show that detection is possible even when pictures are interspersed with complex backgrounds and are not in focus. We found differential detection rates depending on species abundance, with additional challenges related to similarity in flower characteristics, labeling errors and occlusion issues. Despite these potential biases and limitations in capturing flowering abundance and location‐specific quantification, accuracy was notable considering the complexity of flower types and picture angles in this dataset. We, therefore, expect that this approach can be used to address many ecological questions that benefit from automated flower detection, including studies of flowering phenology and floral resources, and that this approach can, therefore, complement a wide range of ecological approaches (e.g., field observations, experiments, community science, etc.). In all, our study suggests that ecological metrics like floral richness can be efficiently monitored by combining machine learning with easily accessible publicly curated datasets (e.g., Flickr, iNaturalist). [ABSTRACT FROM AUTHOR]

Published

2024

33. Willingness of rural and urban citizens to undertake pollinator conservation actions across three contrasting European countries.

Author

Geppert, Costanza, Franceschinis, Cristiano, Fijen, Thijs P. M., Kleijn, David, Scheper, Jeroen, Steffan‐Dewenter, Ingolf, Thiene, Mara, and Marini, Lorenzo

Subjects

INSECT pollinators, SCIENTIFIC knowledge, POLLINATION by insects, REGIONAL economic disparities, FLOWERING of plants, PLANNED behavior theory

Abstract

Over the last two decades, ecological and conservation studies on pollinator insects have increased significantly. However, scientific evidence alone is not enough to translate knowledge into policy and into changes in behaviour. To reduce the gap between scientific knowledge on conservation actions and their actual uptake, one should understand the socio‐psychological drivers of people's willingness to undertake these actions.Here, we investigated the socio‐psychological factors influencing individual behaviour in favour of conservation interventions for pollinators in rural versus urban environments across three European countries: Germany, Italy and the Netherlands. We administered an online questionnaire to 4541 respondents stratified by nationality, environment, age and gender.Despite regional differences in socio‐cultural and economic conditions, individuals from Germany, Italy and the Netherlands living in both rural or urban environments shared similar socio‐psychological drivers to protect pollinators. People intended to take action to protect pollinators when they felt morally obliged to, when their social environment supported pollinator protection, when they believed their individual behaviour had an impact, and when they engaged frequently in outdoor activities.Interestingly, specific values held towards pollinators, such as their right to exist, seemed much more important predictors of activating norms that promote conservation actions compared to increasing general environmental concern. In all countries, among the conservation actions, the most likely to be implemented was planting flowers, while one of the most unlikely was participating in monitoring activities.Synthesis and applications. People from three contrasting European countries living in both rural and urban landscapes were mostly driven by the same socio‐psychological factors to help pollinator insects. Therefore, our results offer several practical recommendations to promote pollinator conservation across Europe. First, conservation practitioners interested in pollinator conservation should pay greater attention to values specific to pollinators, as they seemed more important behaviour predictors than general care for the environment. Second, engaging people in conservation efforts can be accomplished by increasing awareness about the vital roles that pollinators play within ecosystems. Lastly, promoting simple nature‐based activities such as wildlife observation, and gardening can help foster a sense of connection to and appreciation for pollinators and pollination. Read the free Plain Language Summary for this article on the Journal blog. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

34. Morphological and physiological investigations reveal the regulatory effect of exogenous paclobutrazol on flowering promotion by winter warming in Chaenomeles speciosa 'Changshouguan'.

Author

Luo, Siqian, Sun, Meng, Liang, Wenchao, Zhang, Wangxiang, Wang, Tao, and Xie, Yinfeng

Subjects

*FLOWERING of plants, *INDOLEACETIC acid, *ABSCISIC acid, *GIBBERELLIC acid, *PACLOBUTRAZOL

Abstract

The application of exogenous paclobutrazol (PP333) can improve the ability of winter warming to promote flowering in Chaenomeles speciosa, but the underlying mechanism is unclear. In this study, the cultivar 'Changshouguan' was sprayed with different concentrations of PP333 during flower bud differentiation, and the changes in the anatomical structures and physiological characteristics of the flower buds during the differentiation process, as well as the growth state of the flower buds and the effect on flowering promotion after winter warming treatment, were comprehensively investigated. The results showed that different concentrations of PP333 could advance the flowering time of 'Changshouguan' by 15–24 d under the warming treatment and increase the flowering duration to 17 d compared with those under the warming treatment alone (CK), and 1000 mg/L was the best treatment. Compared with the CK treatment, the PP333 treatment decreased the contents of indole acetic acid (IAA) and gibberellic acid (GAs) and increased the contents of zeatin ribosides (ZRs) and abscisic acid (ABA), thus changing the balance of hormones during flower bud differentiation. The inflection point (low point) of the curve shapes of the ZRs/GAs and ZRs/IAA ratios appeared significantly earlier, which showed a pattern consistent with soluble sugar and protein content and antioxidant activity. Interestingly, the above changes also corresponded to earlier flowering times during the warming process. Taken together, these results indicate that spraying an appropriate concentration of PP333 in the early stage of 'Changshouguan' flower bud differentiation promotes the early differentiation of flower buds and early flowering under winter warming treatment by altering their endogenous hormone content and homeostasis and changing their physiological state. The key to maintaining a relatively long flowering period in plants in the PP333 treatment group after flowering promotion was the increased accumulation of sugars and proteins. [ABSTRACT FROM AUTHOR]

Published

2024

35. Ignoring within‐flower self‐fertilization and inbreeding depression biases estimates of selection on floral traits in a perennial alpine herb.

Author

Chen, Kai‐Hsiu and Pannell, John R.

Subjects

*FLORAL morphology, *FLOWERING of plants, *MOUNTAIN plants, *SEX allocation, *MICROSATELLITE repeats, *POLLINATION, *POLLINATORS

Abstract

Within‐flower self‐pollination should be the major source of self‐fertilization in mixed‐mating species that present single or few flowers simultaneously. It is also an often unmeasured source of selfing in species with many flowers open simultaneously. In self‐compatible species in which pistil and stamen numbers vary, the rate of within‐flower selfing should depend on the number of pistils and stamens, the timing of flowering and the morphology of subsidiary floral traits. The intensity and direction of selection on these traits should thus also depend on the level of inbreeding depression. Here, we measured the dependence of the within‐flower selfing rate on floral sex allocation, phenology, petal length and floral stalk height in a population of the perennial herb Pulsatilla alpina (Ranunculaceae) in which most individuals had single flowers. We estimated inbreeding depression in the population by comparing inbreeding coefficients between parents and seed progeny using microsatellite markers. We then estimated selection on the measured traits via female reproductive success at the flower level and compared our estimates with a hypothetical scenario in which inbreeding depression was assumed to be absent. Inbreeding depression was estimated to be severe (0.95). The within‐flower selfing rate varied widely among flowers and depended positively on stamen number and negatively on pistil number and flowering date, supporting the predictions of a mass‐action model. The dependence of the selfing rate on the measured floral traits consistently predicted (non‐linear) patterns of selection under high inbreeding depression that were distinct from those under a hypothetical scenario of no inbreeding depression. Synthesis. While previous research has emphasized the importance of mass‐action mating on selfing among flowers of plants with large floral displays, our results demonstrate its importance for selfing within individual flowers. They also demonstrate the importance of accounting for both the selfing rate and inbreeding depression when inferring selection on floral and other traits via female fitness. [ABSTRACT FROM AUTHOR]

Published

2024

36. The first record of ants as potential pollinators of a Neotropical tree species (Lomatia hirsuta Diels ex J.F.Macbr., Proteaceae)

Author

Pereyra, Mariana, Probst, Rodolfo S., and Cocucci, Andrea A.

Subjects

*POLLEN, *NATURAL history, *TRANSPORT workers, *CARPENTER ants, *FLOWERING of plants

Abstract

We provide evidence that Camponotus chilensis (Spinola) visit flowers of the Radal tree (Lomatia hirsuta Diels ex J.F.Macbr.), possibly acting as pollinators of this important tree of the Proteaceae family in the Andean Patagonian forests of Argentina. We found several ant workers transporting pollen from different trees during the blooming season. Pollen transported by workers varied in amount, with some individuals observed fully coated with pollen grains. This note constitutes the first observation of ant activity on the flowers of this plant species and also the first potential example of a tree pollinated by ants in the Neotropics. This note highlights the importance of natural history data in the emergent study field of ant‐pollination. [ABSTRACT FROM AUTHOR]

Published

2024

37. Genetic and epigenetic basis of phytohormonal control of floral transition in plants.

Author

Li, Xiaoxiao, Lin, Chuyu, Lan, Chenghao, and Tao, Zeng

Subjects

*PLANT hormones, *ABSCISIC acid, *FLOWERING time, *EPIGENETICS, *FLOWERING of plants, *JASMONATE, *POLLINATORS

Abstract

The timing of the developmental transition from the vegetative to the reproductive stage is critical for angiosperms, and is fine-tuned by the integration of endogenous factors and external environmental cues to ensure successful reproduction. Plants have evolved sophisticated mechanisms to response to diverse environmental or stress signals, and these can be mediated by hormones to coordinate flowering time. Phytohormones such as gibberellin, auxin, cytokinin, jasmonate, abscisic acid, ethylene, and brassinosteroids and the cross-talk among them are critical for the precise regulation of flowering time. Recent studies of the model flowering plant Arabidopsis have revealed that diverse transcription factors and epigenetic regulators play key roles in relation to the phytohormones that regulate floral transition. This review aims to summarize our current knowledge of the genetic and epigenetic mechanisms that underlie the phytohormonal control of floral transition in Arabidopsis, offering insights into how these processes are regulated and their implications for plant biology. [ABSTRACT FROM AUTHOR]

Published

2024

38. Untangling the plant reproductive success of changing community composition and pollinator foraging choices.

Author

Allen‐Perkins, Alfonso, Artamendi, Maddi, Montoya, Daniel, Rubio, Encarnación, and Magrach, Ainhoa

Subjects

*PLANT competition, *BIOLOGICAL fitness, *POLLINATORS, *PLANT species diversity, *FLOWERING of plants, *FLORAL morphology

Abstract

Pollinator choices when selecting flowers for nectar or pollen collection are crucial in determining the effectiveness of pollination services provided to plants. From the plant's perspective, this effectiveness is a phenomenon shaped by factors at both the species‐ (e.g. pollinator density and flower morphology) and community‐level, including pollinator diversity and plant competition for pollinators. At the species level, individual pollinator effectiveness is influenced by foraging choices, plant identity, and the resulting pollen flow within and between plant species. In natural ecosystems, these species coexist within a complex community, where various interactions can modify foraging choices and alter pollen flows, giving rise to community‐level effectiveness, a less explored aspect of pollinator effectiveness. This study investigates the drivers of individual pollinator foraging choices across two study areas and two flowering seasons. It also assesses the community‐level effectiveness of pollination services received by different plant species, considering indirect interactions between plants through shared pollinators and evaluating their impact on plant reproductive success. Our results show that the determinants of pollinator foraging choices are consistent across different habitats, with floral constancy and flower abundance playing pivotal roles across all species and sites. Foraging choices can shift throughout the flowering season as plant and pollinator composition changes, significantly impacting pollination effectiveness. The overlap in pollination service use by individuals of the same plant species decreases their fruit set, whereas sharing pollinator services with individuals of other plant species increases fruit set. Our results support significant, positive biodiversity–ecosystem functioning associations driven by both plant and pollinator species richness, suggesting that the overlap in pollination service use by different plant species fosters facilitative interactions rather than competition. This is likely influenced by more stable pollination supplies under high plant species diversity conditions and the existence of mechanisms to mitigate the negative impacts of heterospecific pollen deposition. [ABSTRACT FROM AUTHOR]

Published

2024

39. Identification of Apple Flower Development-Related Gene Families and Analysis of Transcriptional Regulation.

Author

Mei, Chuang, Li, Xianguo, Yan, Peng, Feng, Beibei, Mamat, Aisajan, Wang, Jixun, and Li, Ning

Subjects

*GENE families, *GENETIC transcription regulation, *BUD development, *TRANSCRIPTION factors, *FLOWERING of plants, *ORCHARDS, *APPLES, *FRUIT trees

Abstract

Apple (Malus domestica Borkh.) stands out as a globally significant fruit tree with considerable economic importance. Nonetheless, the orchard production of 'Fuji' apples faces significant challenges, including delayed flowering in young trees and inconsistent annual yields in mature trees, ultimately resulting in suboptimal fruit yield due to insufficient flower bud formation. Flower development represents a pivotal process influencing plant adaptation to environmental conditions and is a crucial determinant of successful plant reproduction. The three gene or transcription factor (TF) families, C2H2, DELLA, and FKF1, have emerged as key regulators in plant flowering regulation; however, understanding their roles during apple flowering remains limited. Consequently, this study identified 24 MdC2H2, 6 MdDELLA, and 6 MdFKF1 genes in the apple genome with high confidence. Through phylogenetic analyses, the genes within each family were categorized into three distinct subgroups, with all facets of protein physicochemical properties and conserved motifs contingent upon subgroup classification. Repetitive events between these three gene families within the apple genome were elucidated via collinearity analysis. qRT-PCR analysis was conducted and revealed significant expression differences among MdC2H2-18, MdDELLA1, and MdFKF1-4 during apple bud development. Furthermore, yeast two-hybrid analysis unveiled an interaction between MdC2H2-18 and MdDELLA1. The genome-wide identification of the C2H2, DELLA, and FKF1 gene families in apples has shed light on the molecular mechanisms underlying apple flower bud development. [ABSTRACT FROM AUTHOR]

Published

2024

40. Lateral root enriched Massilia associated with plant flowering in maize.

Author

Wang, Danning, He, Xiaoming, Baer, Marcel, Lami, Klea, Yu, Baogang, Tassinari, Alberto, Salvi, Silvio, Schaaf, Gabriel, Hochholdinger, Frank, and Yu, Peng

Subjects

FLOWERING of plants, FLOWERING time, ANGIOSPERMS, PLANT biomass, ROOT development

Abstract

Background: Beneficial associations between plants and soil microorganisms are critical for crop fitness and resilience. However, it remains obscure how microorganisms are assembled across different root compartments and to what extent such recruited microbiomes determine crop performance. Here, we surveyed the root transcriptome and the root and rhizosphere microbiome via RNA sequencing and full-length (V1–V9) 16S rRNA gene sequencing from genetically distinct monogenic root mutants of maize (Zea mays L.) under different nutrient-limiting conditions. Results: Overall transcriptome and microbiome display a clear assembly pattern across the compartments, i.e., from the soil through the rhizosphere to the root tissues. Co-variation analysis identified that genotype dominated the effect on the microbial community and gene expression over the nutrient stress conditions. Integrated transcriptomic and microbial analyses demonstrated that mutations affecting lateral root development had the largest effect on host gene expression and microbiome assembly, as compared to mutations affecting other root types. Cooccurrence and trans-kingdom network association analysis demonstrated that the keystone bacterial taxon Massilia (Oxalobacteraceae) is associated with root functional genes involved in flowering time and overall plant biomass. We further observed that the developmental stage drives the differentiation of the rhizosphere microbial assembly, especially the associations of the keystone bacteria Massilia with functional genes in reproduction. Taking advantage of microbial inoculation experiments using a maize early flowering mutant, we confirmed that Massilia-driven maize growth promotion indeed depends on flowering time. Conclusion: We conclude that specific microbiota supporting lateral root formation could enhance crop performance by mediating functional gene expression underlying plant flowering time in maize. Bx1boQ7JopFdryKG-s66HP Video Abstract [ABSTRACT FROM AUTHOR]

Published

2024

41. Variations of floral temperature in changing weather conditions.

Author

Harrap, Michael J. M., de Vere, Natasha, Hempel de Ibarra, Natalie, Whitney, Heather M., and Rands, Sean A.

Subjects

*HIGH temperatures, *THERMOGRAPHY, *CLOUDINESS, *BIOLOGICAL fitness, *WEATHER, *FLOWERING of plants

Abstract

Floral temperature is a flower characteristic that has the potential to impact the fitness of flowering plants and their pollinators. Likewise, the presence of floral temperature patterns, areas of contrasting temperature across the flower, can have similar impacts on the fitness of both mutualists. It is currently poorly understood how floral temperature changes under the influence of different weather conditions, and how floral traits may moderate these changes. The way that floral temperature changes with weather conditions will impact how stable floral temperatures are over time and their utility to plants and pollinators. The stability of floral temperature cues is likely to facilitate effective plant–pollinator interactions and play a role in the plant's reproductive success. We use thermal imaging to monitor how floral temperatures and temperature patterns of four plant species (Cistus 'snow fire' and 'snow white', Coreopsis verticillata and Geranium psilostemon) change with several weather variables (illumination, temperature; windspeed; cloud cover; humidity and pressure) during times that pollinators are active. All weather variables influenced floral temperature in one or more species. The directionality of these relationships was similar across species. In all species, light conditions (illumination) had the greatest influence on floral temperatures overall. Floral temperature and the extent to which flowers showed contrasting temperature patterns were influenced predominantly by light conditions. However, several weather variables had additional, lesser, influences. Furthermore, differences in floral traits, pigmentation and structure, likely resulted in differences in temperature responses to given conditions between species and different parts of the same flower. However, floral temperatures and contrasting temperature patterns that are sufficiently elevated for detection by pollinators were maintained across most conditions if flowers received moderate illumination. This suggests the presence of elevated floral temperature and contrasting temperature patterns are fairly constant and may have potential to influence plant–pollinator interactions across weather conditions. [ABSTRACT FROM AUTHOR]

Published

2024

42. Phylogeny, ecology, and evolution of mycophagous Drosophilidae (Diptera).

Author

Kimura, Masahito T and Tuno, Nobuko

Subjects

*PHYLOGENY, *DIPTERA, *FRUITING bodies (Fungi), *NUMBERS of species, *PLANT stems, *FLOWERING of plants

Abstract

A number of species and taxa of Drosophilidae (Diptera) are used as model clades in various fields of biology, but our knowledge on their ecology and co-evolution (e.g. how their populations are regulated and how they interact with host organisms, enemies, and competitors) is still limited. According to studies on their host use, their primary larval resources are fruits, flowers, plant leaves and stems, tree sap, and fungal fruiting bodies, and most species are specialized to one of these resources. Among these species, those exploiting fungal fruiting bodies (i.e. mycophagous species) have been relatively well studied for their ecology, because their resources are commonly found in the field, hence their interactions with enemies and competitors can be assessed rather easily. So far, a review article has been published on their ecology in 1990. Since then, remarkable advances have been achieved on their taxonomy, phylogeny, diversity, and interactions with parasites, parasitoids, and competitors. This article reviews literature mainly published since 1990 to provide a basis for the future study of their ecology and evolution. [ABSTRACT FROM AUTHOR]

Published

2024

43. The seasons within: a theoretical perspective on photoperiodic entrainment and encoding.

Author

Schmal, Christoph

Subjects

*CIRCADIAN rhythms, *AUTOMATIC timers, *FLOWERING of plants, *ENCODING, *MOLECULAR models

Abstract

Circadian clocks are internal timing devices that have evolved as an adaption to the omnipresent natural 24 h rhythmicity of daylight intensity. Properties of the circadian system are photoperiod dependent. The phase of entrainment varies systematically with season. Plastic photoperiod-dependent re-arrangements in the mammalian circadian core pacemaker yield an internal representation of season. Output pathways of the circadian clock regulate photoperiodic responses such as flowering time in plants or hibernation in mammals. Here, we review the concepts of seasonal entrainment and photoperiodic encoding. We introduce conceptual phase oscillator models as their high level of abstraction, but, yet, intuitive interpretation of underlying parameters allows for a straightforward analysis of principles that determine entrainment characteristics. Results from this class of models are related and discussed in the context of more complex conceptual amplitude–phase oscillators as well as contextual molecular models that take into account organism, tissue, and cell-type-specific details. [ABSTRACT FROM AUTHOR]

Published

2024

44. Traditional knowledge complexity and climate change resilience: a case study of natural rainfall indicators of the Lacandon Maya.

Author

Zeiger, John, Chankin, Adolfo, Selfa, Theresa, Rolnick, Rebecca, and Diemont, Stewart A.W.

Subjects

*TRADITIONAL knowledge, *WEATHER forecasting, *FLOWERING of plants, *ANIMAL behavior, *TRADITIONAL societies

Abstract

Many traditional societies forecast weather using observations of phenological changes. In Lacanja Chansayab, Chiapas, Mexico, Indigenous farmers use animal behavior, plant flowering, and solar and lunar halos, to predict rainfall. These indicators were observed and weather patterns were measured in Lacanja Chansayab. Interviews with Lacandon Maya revealed a diverse system of indicators that overlapped with systems used by other cultures. Due to indicator diversity, it is possible that this traditional system will remain useful as climate change alters local weather; cultural knowledge is nonetheless threatened by societal and economic changes. [ABSTRACT FROM AUTHOR]

Published

2024

45. Morphological Characteristics and Drought Tolerance of the Diploid and Tetraploid Angelonia angustifolia.

Author

Yu-Chun Liao, Yun-Shan Tsai, and Der-Ming Yeh

Subjects

*DROUGHT tolerance, *FLOWERING of plants, *FLOWER shows, *PHOTOSYNTHETIC rates, *BEDDING plants, *TYPHA

Abstract

Angelonia (Angelonia angustifolia) is an important potted flowering plant or bedding plant widely used in tropical and subtropical regions. However, most Angelonia cultivars have relatively small flowers and demonstrate limited drought tolerance in rootrestricted environments such as small containers. Polyploid plants often exhibit larger flowers and enhanced drought tolerance. In this study, Angelonia 'Serena White' seeds and 'Serena Purple' seedlings were treated with 0.1% and 0.2% colchicine to induce polyploid lines, respectively. The resulting tetraploids had larger pollen and flowers, along with thicker, greener leaves distinguished by serrated edges, longer stomata, and lower stomatal density compared with diploid 'Serena White' and 'Serena Purple' plants. Both diploid and tetraploid plants subjected to a 20% volumetric water content (VWC) treatment exhibited smaller leaves, higher SPAD-502 readings, and a decreased number of flowers compared with those subjected to 40% VWC treatment. Moreover, tetraploids had higher photosynthetic rates than diploids under both 20% and 40% VWC conditions. When grown in 0.8-L containers, tetraploid plants required fewer watering events and had thicker, erect stems with larger flowers than diploids, even under a 20% VWC treatment. Colchicine-induced polyploidization presents a promising method to potentially enhance drought tolerance in angelonia. [ABSTRACT FROM AUTHOR]

Published

2024

46. Assessment of combining capacity and hybrid performance for morphological traits in geranium (Pelargonium×hortorum) genotypes using diallel analysis.

Author

do Nascimento Costa Ferreira, Gérson, Viana Ferraz, Gabriel, Matos Monção, Raíssa, Angelo Portela, Heyd Yohana, Costa, Marcones Ferreira, Oliveira Silva, Raimundo Nonato, Brito da Silva, Verônica, Loges, Vivian, Ferreira Gomes, Regina Lucia, and de Almeida Lopes, Ângela Celis

Subjects

*GERANIUMS, *GENOTYPES, *FLOWERING of plants, *DOMINANCE (Genetics), *PLANT size, *ORNAMENTAL plants

Abstract

Geraniums (Pelargonium spp.) are ornamental plants that are widely popular because of their abundant flowering, color variability, different flower patterns, and ease of cultivation. Genetic breeding of this species aims to reduce the plant size and flower color. The objective of this study was to carry out morphoagronomic characterization of parents and F1 hybrids and to estimate the combined capacity and hybrid performance in the circulating diallel in F2 geranium (Pelargonium sp.). We obtained 18 and 275 plants from the F1 and F2 generations, respectively. Characterization of the parental genotypes and F1 and F2 hybrids was performed based on the descriptors for Pelargonium. Parents and F1 hybrids were grouped using the Tocher and UPGMA methods and diallel analyses in the F2 generation. The F1 hybrids G8, G11, and G17 exhibited color combinations suitable for commercialization and are promising for inclusion in breeding programs. The effects of general combining ability (GCA) and specific combining ability (SCA) were significant for these traits were also significant. The results showed the presence of both additive and non-additive genes. However, non-additive and dominant genes were predominant in most characteristics studied. Diallel analysis of the F2 hybrids revealed that the best hybrid combinations for reducing plant height were 14 × 11, 14 × 13, and 15 × 12. Therefore, the implementation and use of diallel analysis were efficient in selecting superior parental genotypes and producing hybrids with high yields. [ABSTRACT FROM AUTHOR]

Published

2024

47. Annual flower strips increase biodiversity even if planting is delayed.

Author

Westbrook, Anna S., Morris, Scott H., Stup, Rebecca S., Xia, Rosa H., Coffey, Ryleigh E., and DiTommaso, Antonio

Subjects

*FLOWERS, *SPECIES diversity, *PLANTING, *BIODIVERSITY, *NUMBERS of species, *FLOWERING of plants, *FLOWERING time

Abstract

Flower strips are an effective way to enhance agroecosystem biodiversity and ecosystem services. Most flower strips are composed of perennial species. Despite their ecological benefits, perennial flower strips are not widely adopted. Barriers to adoption include the long‐term commitment required and concerns about weeds. This study explores whether annual flower strips might be feasible for more farmers. We conducted an on‐farm experiment on five commercial farms in New York, USA. On each farm, we established four treatments. At maize planting time, we seeded an early‐established planting (EP) treatment with a commercial mix of annual flowers. An early‐established control (EC) was set up at the same time with no seeding. Four weeks later, we prepared a new seedbed for late‐established planting (LP) and late‐established control (LC) treatments. We observed significant effects of planting on plant species richness and Shannon diversity (F‐test, p <.001). Planted treatments were more diverse than control treatments. However, there was no effect of establishment time on diversity. Both planting (F‐test, p =.004) and establishment time (F‐test, p =.04) affected the number of dicot species at the flowering stage, which was highest in the EP treatment. This flowering species richness was positively associated with spider abundance in sweep‐net samples. Overall, our results demonstrate that annual flower strip establishment is possible even under weedy conditions. In addition, they show that a delay in planting date does not eliminate the benefits of this practice. This information could help farmers make informed, site‐specific decisions about whether flower strips are a good fit for their farms. [ABSTRACT FROM AUTHOR]

Published

2024

48. DNA Methylation of the Autonomous Pathway Is Associated with Flowering Time Variations in Arabidopsis thaliana.

Author

Xie, Hongjie, Li, Xinchen, Sun, Yuli, Lin, Lei, Xu, Keke, Lu, Huan, Cheng, Biao, Xue, Siming, Cheng, Dan, and Qiang, Sheng

Subjects

*FLOWERING time, *CAPSICUM annuum, *DNA methylation, *ARABIDOPSIS thaliana, *GENE expression, *FLOWERING of plants, *MICROSATELLITE repeats, *HISTONE deacetylase

Abstract

Plant flowering time is affected by endogenous and exogenous factors, but its variation patterns among different populations of a species has not been fully established. In this study, 27 Arabidopsis thaliana accessions were used to investigate the relationship between autonomous pathway gene methylation, gene expression and flowering time variation. DNA methylation analysis, RT-qPCR and transgenic verification showed that variation in the flowering time among the Arabidopsis populations ranged from 19 to 55 days and was significantly correlated with methylation of the coding regions of six upstream genes in the autonomous pathway, FLOWERING LOCUS VE (FVE), FLOWERING LOCUS Y (FY), FLOWERING LOCUS D (FLD), PEPPER (PEP), HISTONE DEACETYLASE 5 (HAD5) and Pre-mRNA Processing Protein 39-1 (PRP39-1), as well as their relative expression levels. The expression of FVE and FVE(CS) was modified separately through degenerate codon substitution of cytosine and led to earlier flowering of transgenic plants by 8 days and 25 days, respectively. An accurate determination of methylated sites in FVE and FVE(CS) among those transgenic plants and the recipient Col-0 verified the close relationship between the number of methylation sites, expression and flowering time. Our findings suggest that the methylation variation of these six key upstream transcription factors was associated with the gene expression level of the autonomous pathway and flowering time in Arabidopsis. The FVE(CS) and FVE genes in transgenic plants tended to be hypermethylated, which could be a protective mechanism for plants. However, modification of gene sequences through degenerate codon substitution to reduce cytosine can avoid hypermethylated transferred genes in transgenic plants. It may be possible to partially regulate the flowering of plants by modified trans-epigenetic technology. [ABSTRACT FROM AUTHOR]

Published

2024

49. Inoculation and tracking of beneficial microbes reveal they can establish in field-grown potato roots and decrease blemish diseases.

Author

Darbon, Geoffrey, Declerck, Stéphane, Riot, Gaétan, Doubell, Marcé, and Dupuis, Brice

Subjects

*POTATOES, *FLOWERING of plants, *MICROBIAL inoculants, *VACCINATION, *MICROORGANISMS, *CROP development, *ANGIOSPERMS

Abstract

In a three-year field study, we inoculated two potato varieties with a selection of four beneficial microbial strains (i.e. Rhizophagus irregularis MUCL41833, Trichoderma asperelloides A, Pseudomonas brassicacearum 3Re2-7 and Paraburkholderia phytofirmans PsJN), alone or in combination. Plants were grown under rainfed or irrigated conditions, and potato yield and development of several diseases were evaluated. The microbial inoculants were traced in the root system at different stages of crop development via molecular markers. Whatever the water supply, the inoculants had no effect on yield. Conversely, some of the inoculants were able to lower the incidence and/or severity of several blemish diseases, namely common scab-associated symptoms (CSAS) and silver scurf/black dot-associated symptoms (SSAS). Microbial consortia were more efficient in decreasing symptoms compared to single strain inoculations. The best control was obtained with the combination of R. irregularis and P. brassicacearum, which reduced the incidence of CSAS by 22% and severity of SSAS by 21%. Root tracking revealed that P. brassicacearum and P. phytofirmans PsJN were able to establish in the root system of the potato, while only P. brassicacearum was detected from emergence until flowering of the plants. [ABSTRACT FROM AUTHOR]

Published

2024

50. Arabidopsis transcription factor TCP4 controls the identity of the apical gynoecium.

Author

Wang, Yutao, Wang, Ning, Lan, Jingqiu, Pan, Yige, Jiang, Yidan, Wu, Yongqi, Chen, Xuemei, Feng, Xianzhong, and Qin, Genji

Subjects

*TRANSCRIPTION factors, *GYNOECIUM, *PLANT reproduction, *ARABIDOPSIS thaliana, *FLOWERING of plants

Abstract

The style and stigma at the apical gynoecium are crucial for flowering plant reproduction. However, the mechanisms underlying specification of the apical gynoecium remain unclear. Here, we demonstrate that Class II TEOSINTE BRANCHED 1/CYCLOIDEA/PCF (TCP) transcription factors are critical for apical gynoecium specification in Arabidopsis (Arabidopsis thaliana). The septuple tcp2 tcp3 tcp4 tcp5 tcp10 tcp13 tcp17 (tcpSEP) and duodecuple tcp2 tcp3 tcp4 tcp5 tcp10 tcp13 tcp17 tcp24 tcp1 tcp12 tcp18 tcp16 (tcpDUO) mutants produce narrower and longer styles, while disruption of TCPs and CRABS CLAW (CRC) or NGATHAs (NGAs) in tcpDUO crc or tcpDUO nga1 nga2 nga4 causes the apical gynoecium to be replaced by lamellar structures with indeterminate growth. TCPs are predominantly expressed in the apex of the gynoecium. TCP4 interacts with CRC to synergistically upregulate the expression level of NGAs, and NGAs further form high-order complexes to control the expression of auxin-related genes in the apical gynoecium by directly interacting with TCP4. Our findings demonstrate that TCP4 physically associates with CRC and NGAs to control auxin biosynthesis in forming fine structures of the apical gynoecium. High-order complexes of transcription factors synergistically promote auxin biosynthesis, finely tuning the development of the apical gynoecium in Arabidopsis. [ABSTRACT FROM AUTHOR]

Published

2024