Your search keyword '"GOLDENRODS"' showing total 1,030 results

1. Impacts of ramet density and herbivory on floral volatile emissions and seed production in Solidago altissima.

Author

Herschberger, Jacob E., Ciesla, Lukasz, Stieha, Christopher R., and Kersch‐Becker, Mônica F.

Subjects

*PLANT reproduction, *BIOTIC communities, *VOLATILE organic compounds, *POLLINATORS, *POLLINATION, *SEED industry, *GOLDENRODS

Abstract

Premise: Plants produce an array of floral olfactory and visual cues to attract pollinators, including volatile organic compounds (VOC), which mediate plant–pollinator interactions and may be influenced by herbivory and neighboring plants. Consequently, these factors may affect plant fitness by disrupting pollination. However, most evidence comes from controlled experiments, limiting our understanding of how VOCs function in natural populations. This study investigated how herbivory and conspecific ramet density influence floral VOC profile, pollination, and seed production in a naturally occurring population of Solidago altissima. Methods: We recorded leaf herbivory and ramet density surrounding one focal ramet in 1‐m2 plots. We collected VOCs from the floral headspace and measured ovary fertilization as a proxy for pollination success and the number of seeds produced by the focal ramet. Results: Our findings revealed interactive effects between ramet density and herbivory on floral VOC emission, richness, and diversity. Specifically, at lower ramet densities, herbivory did not affect floral volatile emissions. However, in highly dense stands, herbivory suppressed floral volatile emissions. Despite these changes, floral volatiles did not affect pollination and the number of seeds in S. altissima. Conclusions: Our field‐based findings underscore the importance of understanding the complex responses of floral VOCs to environmental stressors and their contributions to plant reproduction within natural communities. Our results suggest that while herbivory and ramet density influence floral scent, these changes do not affect reproduction in our study. Ultimately, generalist‐pollinated plants like S. altissima might not rely heavily on chemical signaling during pollination. [ABSTRACT FROM AUTHOR]

Published

2024

2. Weed Control and Physiological Responses in Poplar Plantations: Assessing Glyphosate's Impact.

Author

Dudić, Milica, Meseldžija, Maja, Vasić, Verica, Vranešević, Milica, Kesić, Lazar, and Orlović, Saša

Subjects

WATER efficiency, CLIMATE change, WEED control, GLYPHOSATE, GOLDENRODS

Abstract

The presence of weeds and changes in temperature and precipitation due to global climate change can negatively affect the growth, development, and adaptation of poplars to new places. Experiments were conducted at the Experimental Estate of the Institute of Lowland Forestry and Environment to test glyphosate's efficacy and phytotoxicity and to assess the impact of glyphosate on physiological parameters in different stages of poplar plantations. A test with glyphosate was set up by a random block system with four replications at three localities, each characterized by different physical soil properties. Glyphosate efficacy was evaluated after 15 and 30 days, while phytotoxicity was evaluated according to the EWRC scale. Net photosynthesis (A), stomatal conductance (gs), transpiration rate (E), and intercellular CO2 concentration (Ci) were measured, and water use efficiency (WUE) was computed. Annual and perennial broadleaf weeds, grasses, and woody shrubs and bushes were identified. The dominant weed species across all poplar plantations were Solidago gigantea L., Solidago speciosa L., and Poa pratensis L. Glyphosate was highly effective against the major weed species, with the total efficacy ranging from 94.29 to 97.67%. The results showed significant differences in all observed gas exchange parameters, except for transpiration rate (E), between the different-aged poplar plantations. The younger poplars showed lower gas exchange rates in the treatment under the environmental conditions of the studied sites. Weed suppression resulted in altered microhabitats for poplar development at various ages, causing variation in the physiological parameters compared to the control. [ABSTRACT FROM AUTHOR]

Published

2024

3. Evolution of "invasion syndrome" in invasive goldenrod is not constrained by genetic trade‐offs.

Author

Rigby, Laura C., Hall, Matthew D., Monro, Keyne, and Uesugi, Akane

Subjects

*ALLELOPATHIC agents, *GOLDENRODS, *QUANTITATIVE genetics, *SEED size, *GENETIC variation, *WEEDS

Abstract

A suite of plant traits is thought to make weed populations highly invasive, including vigorous growth and reproduction, superior competitive ability, and high dispersal ability. Using a breeding design and a common garden experiment, we tested whether such an "invasion syndrome" has evolved in an invasive range of Solidago altissima, and whether the evolution is likely to be genetically constrained. We found an overall shift in invasive phenotypes between native North American and invasive Japanese populations. The invasive populations were taller and produced more leaves, suggesting a superior ability to exploit limited resources. The populations also produced more allelopathic compounds that can suppress competitor growth. Finally, invasive populations produced more seeds, which are smaller and are released from a greater height, indicating a potential for superior dispersal ability than the native populations. Quantitative genetics analyses found a large amount of additive genetic variation in most focal traits across native and invasive populations, with no systematic differences in its magnitude between the ranges. Genetic covariances among three traits representing invasion strategies (leaf mass, polyacetylene concentration and seed size) were small. The R metric, which measures the effect of genetic covariances on the rate of adaptation, indicated that the covariance neither constrains nor accelerates concerted evolution of these traits. The results suggest that the invasion syndrome in S. altissima has evolved in the novel range due to ample additive genetic variation, and relatively free from genetic trade‐offs. [ABSTRACT FROM AUTHOR]

Published

2024

4. EXTRACTS OF THE CANADIAN GOLDENROD (SOLIDAGO CANADENSIS L.) - PROMISING AGENTS WITH ANTIMICROBIAL, ANTI-INFLAMMATORY AND HEPATOPROTECTIVE ACTIVITY.

Author

Hrytsyk, Yurii, Koshovyi, Oleh, Hrytsyk, Roman, and Raal, Ain

Subjects

GOLDENRODS, PLANT extracts, ANTI-infective agents, ANTI-inflammatory agents, URINARY organs, PHARMACOLOGY

Abstract

S. canadensis L. and S. virgaurea L. are the most common species of Solidago L. in Europe and with a long tradition of use in medicine for various therapeutic purposes: diseases of the urinary tract, gastrointestinal tract, diabetes, allergies and antiseptic purposes. Therefore, the research of species of the Solidago genus, which have a rich content of natural BACs, and the development of new effective medicinal products of plant origin are relevant. The aim. The method of work is the phytochemical and pharmacological study of extracts of the Canadian goldenrod herb, obtained by ethanol solutions of various concentrations, for the innovative perspective of creating new medicines based on them with antimicrobial, anti-inflammatory and hepatoprotective activity. Materials and methods. The objects of the study were extracts of herb from Canadian goldenrod, obtained using purified water, 40 %, 70 % and 90 % ethanol. Phytochemical study of the extracts was performed by TLC and spectrophotometry. Study of acute toxicity, antimicrobial, anti-inflammatory and hepatoprotective activity of extracts was carried out according to standard methods. Research results. A study of the phytochemical composition and pharmacological activity of extracts of herb from Canadian goldenrod obtained with different solvents. It was established that extracts of herb from Canadian goldenrod show anti-inflammatory activity. The most pronounced antiexudative activity is shown by the extract of the Canadian goldenrod herb (extractant - 40 % ethanol), reducing the degree of swelling by 24.77 %. Herb extracts from from Canadian goldenrod in acute toxic liver damage show moderate hepatoprotective activity, which is somewhat inferior to the comparative drug "Silibor". A more intense and effective effect on the hepatobiliary system was shown by the extract of the Canadian goldenrod herb (extractant - 40 % ethanol). Conclusions. The perspective of creation based on herb of Canadian goldenrod new drugs with hepatoprotective activity. The most promising substance turned out to be an extract of herb from Canadian goldenrod obtained with a 40 % ethanol solution. [ABSTRACT FROM AUTHOR]

Published

2024

5. Solidago virgaurea L.: Chemical composition, antibacterial, and antileishmanial activity of essential oil from aerial part.

Author

Bisht, Manisha, Pant, Bhawana, Samant, Mukesh, Shah, G.C., and Dhami, D.S.

Subjects

*ESSENTIAL oils, *PHYTOPATHOGENIC bacteria, *GOLDENRODS, *LEISHMANIA donovani, *BACTERIAL diseases, *BASIL, *ETHYLENE oxide, *TERPENES

Abstract

Solidago virgaurea L. popularly called Goldenrod is a member of the Asteraceae family. S. virgaurea sample were obtained from Binsar, Almora (Indian state of Uttarakhand). The essential oil from the aerial part was distilled out using steam distillation, and GC and GC-MS were employed for analysis. A total of 27 constituents from aerial part were identified constituting 92.92% of total oil composition. The aerial parts of S. virgaurea were found to contain limonene (25.57%), α-humulene (12.19%), linalool oxide (8.65%), benzyl salicylate (6.40%), 1,4-cineole (6.22%) and humulene epoxide (II) (5.93%). The antibacterial activity of this essential oil was studied using disk diffusion and broth microdilution methods on five human pathogen bacteria and six plant pathogenic bacteria. There was moderate to good antibacterial activity in the oil sample extracted from the entire aerial portion of the plant. We did the antileishmanial activity of essential oils with Leishmania donovani (Dd8) promastigotes and intracellular amastigotes. EO was safer on the J774.A1 macrophages and lethal to promastigotes and intracellular amastigotes at different concentrations (10, 50, and 100 μg/ mL). These findings support the traditional uses of S. virgaurea and suggest its potential as a natural remedy for bacterial infections and leishmaniasis. [ABSTRACT FROM AUTHOR]

Published

2024

6. Element Cycling at Thermally Active Coal-Waste Dumps: A Case Study of Calamagrostis epigejos and Solidago canadensis.

Author

Abramowicz, Anna K. and Rahmonov, Oimahmad

Subjects

TRACE elements, SCIENTIFIC method, ANALYSIS of heavy metals, GOLDENRODS, COPPER, SOIL chemistry, SOIL pollution

Abstract

Coal-waste dumps in the Upper Silesian Coal Basin are usually colonized by tall grass Calamagrostis epigejos and Solidago canadensis, which influence the direction of vegetation formation and the soil chemistry. The aim of this study is to analyze and determine the content of major elements (Fe, Ca, P, Mg, Al, Na, K, S) and trace elements (Mo, Cu, Pb, Zn, Ni, Co, Mn, Sr, Cd, Cr) in aboveground and underground parts of the plants and the soil at the thermally active coal-waste dump. Analysis of the heavy metal concentrations reveals that they are higher in plant materials than in soil materials within the root zone of the plants. Environmental indicator analysis (geoaccumulation index, enrichment factor, translocation factor) shows that the studied species exhibit varying degrees of pollution, with cadmium and zinc showing the highest accumulation rates. The content of elements in the analyzed species, both in washed and unwashed specimens, does not show significant differences, which is confirmed by the enrichment factor. Statistical analysis shows a positive correlation between the amount of microelements in plants (roots, aerial part) and soil samples in both thermally active and inactive zones. These findings broaden the scientific inquiry and hold practical significance for the reclamation of post-industrial areas. [ABSTRACT FROM AUTHOR]

Published

2024

7. Investigating the effects of whole genome duplication on phenotypic plasticity: implications for the invasion success of giant goldenrod Solidago gigantea.

Author

Walczyk, Angela M. and Hersch‐Green, Erika I.

Subjects

*PHENOTYPIC plasticity, *WATER efficiency, *GOLDENRODS, *ASEXUAL reproduction, *INTRODUCED species, *GENOMES

Abstract

Polyploidy commonly occurs in invasive species, and phenotypic plasticity (PP, the ability to alter one's phenotype in different environments) is predicted to be enhanced in polyploids and to contribute to their invasive success. However, empirical support that increased PP is frequent in polyploids and/or confers invasive success is limited. Here, we investigated if polyploids are more pre‐adapted to become invasive than diploids via the scaling of trait values and PP with ploidy level, and if post‐introduction selection has led to a divergence in trait values and PP responses between native‐ and non‐native cytotypes. We grew diploid, tetraploid (from both native North American and non‐native European ranges), and hexaploid Solidago gigantea in pots outside with low, medium, and high soil nitrogen and phosphorus (NP) amendments, and measured traits related to growth, asexual reproduction, physiology, and insects/pathogen resistance. Overall, we found little evidence to suggest that polyploidy and post‐introduction selection shaped mean trait and PP responses. When we compared diploids to tetraploids (as their introduction into Europe was more likely than hexaploids) we found that tetraploids had greater pathogen resistance, photosynthetic capacities, and water‐use efficiencies and generally performed better under NP enrichments. Furthermore, tetraploids invested more into roots than shoots in low NP and more into shoots than roots in high NP, and this resource strategy is beneficial under variable NP conditions. Lastly, native tetraploids exhibited greater plasticity in biomass accumulation, clonal‐ramet production, and water‐use efficiency. Cumulatively, tetraploid S. gigantea possesses traits that might have predisposed and enabled them to become successful invaders. Our findings highlight that trait expression and invasive species dynamics are nuanced, while also providing insight into the invasion success and cyto‐geographic patterning of S. gigantea that can be broadly applied to other invasive species with polyploid complexes. [ABSTRACT FROM AUTHOR]

Published

2024

8. The complete chloroplast genome assembly of Solidago altissima (Lineaus, 1753) (Astereae; Asteraceae).

Author

Eun Su Kang, Dong Chan Son, and Sang-Chul Kim

Subjects

GOLDENRODS, CHLOROPLAST DNA, INVASIVE plants, GENOMES, ANGIOSPERMS, TRANSFER RNA, ASTERACEAE

Abstract

This study aims to report the complete chloroplast genome of Solidago altissima L., a globally recognized invasive plant. The complete genome length of S. altissima is 152,961 bp; S. altissima has a typical quadripartite structure (including a large single copy of 84,829 bp, a small single copy of 18,084 bp, and two inverted repeat regions of 25,024 bp), which is commonly found in angiosperms. The genome contains 129 genes, consisting of 85 coding sequences, 36 tRNA genes, and 8 rRNA genes. To understand the phylogenetic relationship between S. altissima and its related species, maximum likelihood analysis was performed. The results revealed that S. altissima is closely related to Symphyotrichum subulatum. The findings of the present study could provide fundamental data for the future phylogenetic and evolutionary studies, while also research on species invasion and resolving complexity of S. altissima. [ABSTRACT FROM AUTHOR]

Published

2024

9. Selected Plants as Sources of Natural and Active Ingredients for Cosmetics of the Future.

Author

Kowalczyk, Sławomir, Grymel, Mirosława, Bilik, Janusz, Kula, Wiktoria, Wawoczny, Agata, Grymel, Paulina, and Gillner, Danuta

Subjects

CENTELLA asiatica, COSMETICS, BOTULINUM toxin, BOTULINUM A toxins, GOLDENRODS

Abstract

A clear trend of replacing synthetic cosmetic ingredients with natural ones can be observed in modern cosmetology. This entails the need to search for bioactive ingredients in the natural environment, especially in plants. This paper presents a comprehensive overview of dermatological, cosmetic, and pharmacological properties of highly potent plants, namely Acmella oleracea (A. oleracea), Centella asiatica (C. asiatica), Psoralea corylifolia (P. corylifolia), Plantago lanceolata L. (P. lanceolata L.), and Solidago virgaurea L. (S. virgaurea L.). Biological activity and phytochemical constituents are presented for all plants, but special attention is paid to ingredients of particular value to the cosmetics industry. The advantages of spilanthol and bakuchiol as a replacement for the popular botulinum toxin and retinol are discussed. Natural habitats, ethnomedical importance, cultivation area, as well as extraction methods of active plant ingredients are presented in detail. A wide spectrum of biological activity indicates the enormous potential of the presented plants in formulating new cosmetic and dermatological preparations. [ABSTRACT FROM AUTHOR]

Published

2024

10. Evaluation of sequential mesotrione application rates and sequential tolpyralate and mesotrione applications for narrow-leaved goldenrod management in lowbush blueberry.

Author

White, Scott N.

Subjects

GOLDENRODS, HERBICIDES, BLUEBERRIES, CROPS, WEEDS

Abstract

Sequential mesotrione applications of 72 g a.i. ha−1 gave similar control of narrow-leaved goldenrod as sequential applications of 144 g a.i. ha−1. This use pattern is recommended for narrow-leaved goldenrod management in lowbush blueberry. Early POST tolpyralate applications exhibited good crop tolerance and could be considered as part of a sequential herbicide program for lowbush blueberry. [ABSTRACT FROM AUTHOR]

Published

2024

11. Nitrogen addition increased resistance of resident plant community to Solidago canadensis invasion by altering allelopathic effect.

Author

Cai, Jing-Fang, Sun, Kai, Li, Lin, A, Si-Ha, Shen, Yi-Luan, and Li, Hong-Li

Subjects

PLANT communities, GOLDENRODS, ATMOSPHERIC nitrogen, PLANT invasions, ALLELOPATHY, ACTIVATED carbon

Abstract

Allelopathy plays an important role in the interaction between invasive and resident plants. Atmospheric nitrogen (N) deposition has become a global problem, but it is unclear whether N enrichment affects the interaction between invasive and resident plants by affecting their allelopathy. Thus, we performed a greenhouse experiment in which the resident plant community was grown under two levels of invasion by S. canadensis (invasion vs. no invasion) and fully crossed with two levels of allelopathy (with or without adding activated carbon) and two levels of N addition (with or without). The resident plant communities were constructed with eight herbaceous species that often co-occur with S. canadensis. The results showed that both allelopathy of S. canadensis and the resident plants had obvious positive effects on their own growth. Nitrogen addition had more obvious positive effects on the resident plants under invasion than those that were not invaded. Moreover, N addition also altered the allelopathy of resident plants. Specifically, N addition improved the allelopathy of resident plants when they were invaded but decreased the allelopathy of resident plants when they grew alone. Although nitrogen addition had no obvious effect on S. canadensis , it reduced the allelopathy of S. canadensis. These results suggest that N addition could improve the resistance of resident plants to invasion by improving the allelopathy of resident plants and reducing the allelopathy of S. canadensis. These findings provide a scientific basis to manage and control the S. canadensis invasion. [ABSTRACT FROM AUTHOR]

Published

2024

12. Sentinel-2 versus PlanetScope Images for Goldenrod Invasive Plant Species Mapping.

Author

Zagajewski, Bogdan, Kluczek, Marcin, Zdunek, Karolina Barbara, and Holland, David

Subjects

*VEGETATION mapping, *LAND cover, *INTRODUCED species, *GOLDENRODS, *PLANT species, *NATIVE species, *INVASIVE plants

Abstract

A proliferation of invasive species is displacing native species, occupying their habitats and degrading biodiversity. One of these is the invasive goldenrod (Solidago spp.), characterized by aggressive growth that results in habitat disruption as it outcompetes native plants. This invasiveness also leads to altered soil composition through the release of allelopathic chemicals, complicating control efforts and making it challenging to maintain ecological balance in affected areas. The research goal was to develop methods that allow the analysis of changes in heterogeneous habitats with high accuracy and repeatability. For this reason, we used open source classifiers Support Vector Machine (SVM), Random Forest (RF), and satellite images of Sentinel-2 (free) and PlanetScope (commercial) to assess their potential in goldenrod classification. Due to the fact that invasions begin with invasion footholds, created by small patches of invasive, autochthonous plants and different land cover patterns (asphalt, concrete, buildings) forming heterogeneous areas, we based our studies on field-verified polygons, which allowed the selection of randomized pixels for the training and validation of iterative classifications. The results confirmed that the optimal solution is the use of multitemporal Sentinel-2 images and the RF classifier, as this combination gave F1-score accuracy of 0.92–0.95 for polygons dominated by goldenrod and 0.85–0.89 for heterogeneous areas where goldenrod was in the minority (mix class; smaller share of goldenrod in canopy than autochthonous plants). The mean decrease in the accuracy analysis (MDA), indicating an informativeness of individual spectral bands, showed that Sentinel-2 bands coastal aerosol, NIR, green, SWIR, and red were comparably important, while in the case of PlanetScope data, the NIR and red were definitely the most important, and remaining bands were less informative, and yellow (B5) did not contribute significant information even during the flowering period, when the plant was covered with intensely yellow perianth, and red-edge, coastal aerosol, or green II were much more important. The maximum RF classification values of Sentinel-2 and PlanetScope images for goldenrod are similar (F1-score > 0.9), but the medians are lower for PlanetScope data, especially with the SVM algorithm. [ABSTRACT FROM AUTHOR]

Published

2024

13. Spatial scale matters for predicting plant invasions along roads.

Author

Kotowska, Dorota, Skórka, Piotr, Pärt, Tomas, Auffret, Alistair G., and Żmihorski, Michał

Subjects

*PLANT invasions, *INTRODUCED species, *BIOLOGICAL invasions, *INTRODUCED plants, *INVASIVE plants, *SOCIAL impact

Abstract

Biological invasions threaten global biodiversity and can have severe economic and social impacts. The complexity of this problem challenges effective management of invasive alien species as the contribution of many factors involved in the invasion processes across different spatial scales is not well understood.Here, we identify the most important determinants associated with the occurrence of two invasive alien plants, the North American goldenrods (Solidago canadensis and S. gigantea), commonly found in agricultural landscapes of Europe. We used Google Street View images to perform a remote, large‐scale inventory of goldenrods along 1347 roadside transects across Poland. Using open access geospatial data and machine learning techniques, we investigated the relative role of nearly 50 variables potentially affecting the distribution of studied species at five spatial scales (from within 0.25 to 5 km of the studied locations).We found that the occurrence of goldenrods along roadsides was simultaneously associated with multiple drivers among which those related to human impacts, climate, soil properties and landscape structure were the most important, while local characteristics, such as road parameters or the presence of other alien plants were less influential. However, the relative contribution of different variables in predicting goldenrod distribution changed across spatial scales.Synthesis: Mechanisms underlying plant invasions are highly complex and a number of factors can jointly influence the outcomes of this process. However, since different invasion drivers operate at different spatial scales, some important associations may be overlooked when focusing on a single spatial context. Although associations were consistent in direction (positive or negative) across scales, their relative influence on goldenrod occurrence often changed. Socio‐economic factors were largely important at local scales, while the effect of landscape factors broadly increased with increasing spatial scale. We highlight that using multi‐scale approaches involving a wide range of variables may enable setting priorities for the management of invasive alien plants. [ABSTRACT FROM AUTHOR]

Published

2024

14. Disparate Effects of Two Clerodane Diterpenes of Giant Goldenrod (Solidago gigantea Ait.) on Bacillus spizizenii.

Author

Bozsó, Zoltán, Lapat, Virág, Ott, Péter G., and Móricz, Ágnes M.

Subjects

*CLERODANES, *BACILLUS (Bacteria), *PHYTOPATHOGENIC microorganisms, *METABOLITES, *GOLDENRODS, *HOMEOSTASIS

Abstract

New substances with antimicrobial properties are needed to successfully treat emerging human, animal, or plant pathogens. Seven clerodane diterpenes, previously isolated from giant goldenrod (Solidago gigantea) root, were tested against Gram-positive Bacillus subtilis, Bacillus spizizenii and Rhodococcus fascians by measuring minimal bactericidal concentration (MBC), minimal inhibitory concentration (MIC) and half-maximal inhibitory concentration (IC50). Two of them, Sg3a (a dialdehyde) and Sg6 (solidagoic acid B), were proved to be the most effective and were selected for further study. Bacillus spizizenii was incubated with the two diterpenes for shorter (1 h) or longer (5 h) periods and then subjected to genome-wide transcriptional analyses. Only a limited number of common genes (28 genes) were differentially regulated after each treatment, and these were mainly related to the restoration of cell membrane integrity and to membrane-related transports. Changes in gene activity indicated that, among other things, K+ and Na+ homeostasis, pH and membrane electron transport processes may have been affected. Activated export systems can be involved in the removal of harmful molecules from the bacterial cells. Inhibition of bacterial chemotaxis and flagellar assembly, as well as activation of genes for the biosynthesis of secondary metabolites, were observed as a general response. Depending on the diterpenes and the duration of the treatments, down-regulation of the protein synthesis-related, oxidative phosphorylation, signal transduction and transcription factor genes was found. In other cases, up-regulation of the genes of oxidation–reduction processes, sporulation and cell wall modification could be detected. Comparison of the effect of diterpenes with the changes induced by different environmental and nutritional conditions revealed several overlapping processes with stress responses. For example, the Sg6 treatment seems to have caused a starvation-like condition. In summary, there were both common and diterpene-specific changes in the transcriptome, and these changes were also dependent on the length of treatments. The results also indicated that Sg6 exerted its effect more slowly than Sg3a, but ultimately its effect was greater. [ABSTRACT FROM AUTHOR]

Published

2024

15. Evaluating the Antioxidant and Antidiabetic Properties of Medicago sativa and Solidago virgaurea Polyphenolic-Rich Extracts.

Author

Paun, Gabriela, Neagu, Elena, Alecu, Andreia, Albu, Camelia, Seciu-Grama, Ana-Maria, and Radu, Gabriel Lucian

Subjects

*GOLDENRODS, *HYPOGLYCEMIC agents, *SOLVENT extraction, *EXTRACTS, *ANTIOXIDANTS

Abstract

The present study evaluated the antioxidant and antidiabetic properties of Medicago sativa and Solidago virgaurea extracts enriched in polyphenolic compounds. The extracts were obtained by accelerated solvent extraction (ASE) and laser irradiation. Then, microfiltration was used for purification, followed by nanofiltration used to concentrate the two extracts. The obtained extracts were analyzed to determine their antioxidant activity using DPPH radical scavenging and reducing power methods. The antidiabetic properties have been investigated in vitro on a murine insulinoma cell line (β-TC-6) by the inhibition of α-amylase and α-glucosidase. M. sativa obtained by laser irradiation and concentrated by nanofiltration showed the highest DPPH• scavenging (EC50 = 105.2 ± 1.1 µg/mL) and reducing power activities (EC50 = 40.98 ± 0.2 µg/mL). M. sativa extracts had higher inhibition on α-amylase (IC50 = 23.9 ± 1.2 µg/mL for concentrated extract obtained after ASE, and 26.8 ± 1.1), while S. virgaurea had the highest α-glucosidase inhibition (9.3 ± 0.9 µg/mL for concentrated extract obtained after ASE, and 8.6 ± 0.7 µg/mL for concentrated extract obtained after laser extraction). The obtained results after evaluating in vitro the antidiabetic activity showed that the treatment with M. sativa and S. virgaurea polyphenolic-rich extracts stimulated the insulin secretion of β-TC-6 cells, both under normal conditions and under hyperglycemic conditions as well. This paper argues that M. sativa and S. virgaurea polyphenolic-rich extracts could be excellent natural sources with promising antidiabetic potential. [ABSTRACT FROM AUTHOR]

Published

2024

16. PRELIMINARY DATA ABOUT THE INVASIVE ABILITY OF Solidago canadensis L. AND ITS ESTABLISHMENT IN CROPS IN OUR COUNTRY.

Author

GEORGESCU, Mihaela Ioana, CÎŞLARIU, Alina Georgiana, GÎDEA, Mihai, and SĂVULESCU, Elena

Subjects

SPECIES distribution, NATURE reserves, GOLDENRODS, INFLORESCENCES, CROPS

Abstract

The two species of Solidago, S. canadensis and S. gigantea, which were introduced in our country, as well as other parts of Europe, as ornamental plants, have become invasive in natural areas and, more recently, in crops. Several physical, biochemical, or biological characteristics support its ability to intrude into natural environments and crops. The vigorous monopodial growth of the stem until the inflorescence is induced enables species to attain a height of 2 meters, supported by extensive sclerenchyma rows found within the stem's internal structure. Using our observations and available S. canadensis occurrence data from the literature, we created an updated chorology map illustrating the species distribution in Romania. Subsequently, we used the R software, with the SSDM package, to generate the potential distribution map of S. canadensis in Romania based on these data. In creating the potential distribution map of S. canadensis, we considered various environmental variables corresponding to the species' ecological preferences, such as climatic, pedological, anthropogenic factors, and water regimes. The model performed well, effectively highlighting the environmental factors influencing the species' dispersion in Romania and the areas potentially affected by the spread of S. canadensis. [ABSTRACT FROM AUTHOR]

Published

2024

17. Allelopathic effect of aqueous extract from selected invasive plants on germination and growth of Tartary buckwheat.

Author

Anžlovar, Aurora Maria and Anžlovar, Sabina

Subjects

INVASIVE plants, PLANT growth, BUCKWHEAT, ALLELOPATHIC agents, JAPANESE knotweed, GOLDENRODS

Abstract

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Published

2024

18. Comparative Analysis of Root Phenolic Profiles and Antioxidant Activity of Five Native and Invasive Solidago L. Species.

Author

Radušienė, Jolita, Karpavičienė, Birutė, Vilkickytė, Gabrielė, Marksa, Mindaugas, and Raudonė, Lina

Subjects

PLANT extracts, PLANT phenols, GOLDENRODS, PHENOLIC acids, COMPARATIVE studies, NATIVE species, INTRODUCED species

Abstract

The high environmental importance of invasive goldenrod has prompted research to find potential benefits that can be derived from these species. This study aimed to identify differences in root phenolic profiles among five Solidago species, thus providing valuable information on their potential applications and the botanical origin of the raw material. The roots of native S. virgaurea L., two alien species S. gigantea Aiton and S. canadensis L. and their hybrids S. ×niederederi Khek and S. ×snarskisii Gudž. & Žaln. were sampled from mixed-species stands in Lithuania. A complex of twelve phenolic acids and their derivatives was identified and quantified in methanol–water root extracts using the HPLC-PDA and LC/MS systems. The radical-scavenging capacities of the extracts were assessed by ABTS. The chemical content of the roots of S. virgaurea, S. gigantea and S. ×niederederi were statistically similar, while the roots of S. canadensis and S. ×snarskisii contained lower amounts of compounds than the other species. The PCA score-plot models of the phenolic profiles only partially confirmed the identification of S. ×niederederi and S. ×snarskisii as crosses between native and alien species. The findings from the phenolic profiles and the observed radical-scavenging activity of root extracts of Solidago species provide valuable insights into their potential applications in various fields. [ABSTRACT FROM AUTHOR]

Published

2024

19. Persistence of Root Exudates of Sorghum bicolor and Solidago canadensis : Impacts on Invasive and Native Species.

Author

Afzal, Muhammad Rahil, Naz, Misbah, Ullah, Raza, and Du, Daolin

Subjects

PLANT exudates, INTRODUCED species, GOLDENRODS, COMPETITION (Biology), ALLELOPATHIC agents, SORGHUM

Abstract

Root exudates of the invasive Solidago canadensis and the cereal crop Sorghum bicolor (L.) Moench cv. 'Hybridsorgo' were tested for allelopathic interactions against native and invasive plant species in a controlled environment. After the surface was sterilized, the seeds of two invasive species (Bromus sterilis and Veronica persica) and two native species (Youngia japonica and Rumex acetosa) were germinated and transplanted into the soil (1:1 mixture of coco peat and sand) that had been conditioned for one month by the cultivation of Solidago canadensis and Sorghum bicolor, both in combination or as unplanted controls. After an additional eight weeks of growth, morphometric measurements of the shoot and root, including foliar characteristics and above- and below-ground biomass accumulation, were performed. The results revealed significant inhibitory effects of root exudates released by Sorghum bicolor and Solidago canadensis on native species' productivity and physiology. The invasive species exhibited variable growth responses, with Veronica persica showing reduced shoot and root expansion, but Bromus sterilis revealed increased shoot and root biomass allocation and nutrition under the exudate treatments. Exudates from Solidago canadensis and Sorghum bicolor together showed synergistic negative effects on native species, while they promoted growth and nutrition in Veronica persica. Taken together, the differential species responses indicate that the tested native species were more sensitive to the allelopathic compounds than the invasive species, which is in line with the theory of novel weapons. The legacy effects of root exudates of both Sorghum bicolor and Solidago canadensis could promote invasive establishment through imposing allelochemical interference competition against native plant species. Understanding the specific allelopathic mechanisms may help with the development of integrated strategies for managing invasive species. [ABSTRACT FROM AUTHOR]

Published

2024

20. 1078. Solidago nemoralis Aiton: Compositae.

Author

Hind, Nicholas and Lambkin, Deborah

Subjects

*GOLDENRODS, *SUBSPECIES, *SPECIES, *PESTS, *ASTERACEAE

Abstract

Solidago nemoralis Aiton (Compositae: Astereae: Solidagininae) is illustrated and described, and its extensive synonymy provided (covering both proposed subspecies), together with full type citations and location of known types and relevant commentary. The position of the somewhat daunting genus Solidago L., and its position within the tribe Astereae is discussed. Solidago nemoralis is placed with a small cluster of species (with just S. decemflora and S. nana) in its own subgenus and subsection, Solidago subgen. Nemorales (Mack.) Semple & J. B. Beck subsect. Nemorales (Mack.) G. L. Nesom. Cultivation, propagation, pests and diseases and availability of S. nemoralis are commented on. Differences between S. nemoralis, a predominantly diploid species with a few tetraploid populations, and S. decemflora, a tetraploid species throughout its range, are noted, and the two maintained as distinct species. [ABSTRACT FROM AUTHOR]

Published

2023

21. The co-phytotoxicity of two Asteraceae invasive plants Solidago canadensis L. and Bidens pilosa L. with different invasion degrees.

Author

Xu, Zhelun, Zhong, Shanshan, Li, Yue, Li, Chuang, Liu, Jun, Xu, Zhongyi, Zhu, Mawei, Wang, Congyan, and Du, Daolin

Subjects

GOLDENRODS, ASTERACEAE, NUMBERS of species, PLANT performance, PHYTOTOXICITY, HYDROPONICS

Abstract

The phytotoxicity of invasive plants (IPS) has been identified as one of the main factors influencing their invasion success. The invasion of IPS can occur to varying degrees in the habitats. Two IPS can invade one habitat. This study aimed to evaluate the mono- and co-phytotoxicity of two Asteraceae IPS Solidago canadensis L. and Bidens pilosa L. with different invasion degrees (including light invasion (relative abundance <50%) and heavy invasion (relative abundance ≥50%)) on the horticultural Asteraceae species Lactuca sativa L., through a hydroponic experiment conducted on 9 cm Petri dishes. Leaf extracts of the two IPS can cause significant mono- and co-phytotoxicity. The mono- and co-phytotoxicity of the two IPS were concentration-dependent. The mono-phytotoxicity of S. canadensis was significantly increased with increasing invasion degree, but the opposite was true for the mono-phytotoxicity of B. pilosa. Leaf extracts of B. pilosa with light invasion caused stronger phytotoxicity than those of S. canadensis with light invasion. There may be an antagonistic effect for the co-phytotoxicity caused by mixed leaf extracts of the two IPS compared with those of either S. canadensis or B. pilosa. The phytotoxicity of the two IPS on the growth performance of neighboring plants may play a more important role in their mono-invasion than in their co-invasion. The phytotoxicity appeared to affect the growth performance of S. canadensis individuals more significantly when the invasion was heavy, while the growth performance of B. pilosa individuals seemed to be more influenced by phytotoxicity when the invasion was light. Consequently, the concentration of leaf extracts of IPS, the invasion degree of IPS, the species identity of IPS, and the species number of IPS modulated the mono- and co-phytotoxicity of the two IPS. [ABSTRACT FROM AUTHOR]

Published

2023

22. Nitrogen Deposition Enhanced the Effect of Solidago Canadensis Invasion on Soil Microbial Metabolic Limitation and Carbon Use Efficiency.

Author

Yi Tang, Xinyu Li, Yunliang Song, Alabbosh, Khulood Fahad, Kexin Li, Jiabao Lou, Hameed, Rashida, Iqbal, Babar, Guanlin Li, and Daolin Du

Subjects

*MICROBIAL invasiveness, *GOLDENRODS, *SOIL microbiology, *CARBON cycle, *MICROBIAL metabolism

Abstract

Solidago canadensis, considered one of the most destructive invasive species of the 21st century, has inflicted severe ecological damage globally. Nevertheless, the precise mechanisms through which nitrogen deposition impacts the metabolism of soil microorganisms across various vegetation communities remain largely unexplored. Consequently, this study sought to elucidate patterns of change in microbial metabolic constraints and carbon use efficiency across six distinct vegetation communities, aiming to uncover the carbon cycling process within soil ecosystems. Our findings reveal that multi-vegetation communities exhibit greater resilience to the incursion of Solidago canadensis than their single-vegetation counterparts, demonstrating weaker microbial carbon constraints and higher carbon use efficiency. Furthermore, a positive correlation was determined between microbial carbon use efficiency and carbon constraints. Driven by soil nutrients, nitrogen deposition synergistically interacts with Solidago canadensis, thereby influencing soil microbial carbon use efficiency. Thus, our experiment provides an initial perspective on the variations in metabolic limitations and carbon use efficiency amongst soil microbes across different vegetation communities. Such insights hold potential implications for future research focused on the feedback and responses of carbon cycles within varied vegetation community ecosystems to invasions in the context of increasing nitrogen deposition. [ABSTRACT FROM AUTHOR]

Published

2023

23. Tissue-Specific Transcriptomes in the Secondary Cell Wall Provide an Understanding of Stem Growth Enhancement in Solidago canadensis during Invasion.

Author

Zhang, Yu, Tian, Zhongsai, Shi, Jiaqi, Yu, Ruoyu, Zhang, Shuxin, and Qiang, Sheng

Subjects

*VASCULAR system of plants, *GENE expression profiling, *GOLDENRODS, *TRANSCRIPTOMES, *GENE regulatory networks, *XYLEM, *PLANT cell walls

Abstract

Simple Summary: Secondary cell wall (SCW) deposition during plant vascular system development has major impacts on resource delivery and mechanical support provision in plants, which play a key role in the successful invasion of alien plants. However, few studies have focused on the transcriptional regulators of secondary wall biosynthesis during the invasion of Solidago canadensis. In this study, we screened two typical native (US01) and invasive (CN25) Solidago canadensis populations with different stem morphologies and compared their transcriptomes in both the phloem and xylem of the stem. In total, 66,648 and 19,510 differential expression genes (DEGs) were identified in the phloem and xylem. Bioinformatics analysis indicated that secondary cell wall (SCW) biosynthetic processes were dramatically affected in vascular tissues; the invasive population is dedicated to cellulose production and reducing lignin. These characteristics are likely to improve the strength and extensibility of the SCW and ultimately improve S. canadensis stem growth. Our study presents a novel insight into this mechanism that explains the success of plant invasion: SCW-related gene transcription mediates the tissue-specific development of vascular tissue, which contributes to an enhancement in aboveground vegetative growth during the successful invasion of S. canadensis. Invasive plants generally present a significant enhancement in aboveground vegetative growth, which is mainly caused by variation in secondary cell wall (SCW) deposition and vascular tissue development. However, the coordination of the transcriptional regulators of SCW biosynthesis is complex, and a comprehensive regulation map has not yet been clarified at a transcriptional level to explain the invasive mechanism of S. canadensis. Here, RNA sequencing was performed in the phloem and xylem of two typical native (US01) and invasive (CN25) S. canadensis populations with different stem morphologies. A total of 296.14 million high-quality clean reads were generated; 438,605 transcripts and 156,968 unigenes were assembled; and 66,648 and 19,510 differential expression genes (DEGs) were identified in the phloem and xylem, respectively. Bioinformatics analysis indicated that the SCW transcriptional network was dramatically altered during the successful invasion of S.canadensis. Based on a comprehensive analysis of SCW deposition gene expression profiles, we revealed that the invasive population is dedicated to synthesizing cellulose and reducing lignification, leading to an SCW with high cellulose content and low lignin content. A hypothesis thus has been proposed to explain the enhanced stem growth of S. canadensis through the modification of the SCW composition. [ABSTRACT FROM AUTHOR]

Published

2023

24. Impact of Solidago virgaurea Extract on Biofilm Formation for ESBL- Pseudomonas aeruginosa : An In Vitro Model Study.

Author

Abdulkareem, Ali Hazim, Alalwani, Anmar Kamil, Ahmed, Mohammed Mukhles, Al-Meani, Safaa Abed Latef, Al-Janaby, Mohammed Salih, Al-Qaysi, Al-Moghira Khairi, Edan, Ali Ibrahim, and Lahij, Hasan Falah

Subjects

*CEFTAZIDIME, *BETA lactamases, *PSEUDOMONAS aeruginosa, *MICROBIAL sensitivity tests, *BIOFILMS, *PALMITIC acid, *GOLDENRODS

Abstract

The increasing disparity between antimicrobial resistance (AMR) and the development of new antimicrobials continues to pose a significant global health concern. However, plant extracts have shown promise in combating this issue either through their inherent antimicrobial activity or by serving as potential reservoirs of effective antimicrobial compounds. These compounds have the ability to target pathogenic biofilms and inhibit the production of extended-spectrum β -lactamases (ESBLs). However, there is limited research available on the antibacterial properties of goldenrod extract. Thus, the objective of this study was to investigate the impact of S. virgaurea (SV) extract on the viability and ability to form biofilms of ESBL-Pseudomonas aeruginosa (P. aeruginosa). A cross-sectional study was conducted from August 2022 to March 2023. The broth microdilution method was employed to determine the minimum inhibitory concentration (MIC) of the (SV) extract. Subsequently, the minimum bactericidal concentration (MBC) was determined based on the MIC values obtained. The antibiotic susceptibility of bacteria was evaluated using the Kirby disk diffusion assay and an Antimicrobial Susceptibility Testing (AST) card in conjunction with the Vitek-2 compact system. Biofilm formation was evaluated using Congo red and a 96-well Elisa plate, while the presence of extended-spectrum β-lactamases (ESBLs) was estimated by measuring the reduction of nitrocefin at a wavelength of 390 nm. In addition, treatment of biofilm and ESBL activity with SV extract using 96-well Elisa plate and nitrocefin hydrolyzing, respectively. The resistance rates of P. aeruginosa isolates to the tested antibiotics were as follows: Levofloxacin 33%, Ciprofloxacin 40%, Amikacin 49%, Meropenem 50%, Cefepime 70%, Ceftazidime 75%, Cefotaxime 85%, Piperacillin-Tazobactam 90%, Amoxiclav 97%, Ampicillin 99%, Ceftriaxone 100%. The prevalence of MDR-P. aeruginosa, XDR-P. aeruginosa, PDR-P. aeruginosa and non-MDR-PA were 40% (n = 40), 7% (n = 7), 3% (n = 3) and 50% (n = 50), respectively. From the GC–MS results, it was observed that the presence of Octadecane, Clioquinol, Glycerol tricaprylate, hexadecanoic acid, cis-13-octadecenoic acid, oleic acid and Propanamide were the major components in the Solidago extract. In the determination of plant crude extracts, the values ranged between 0.25 and 64 mg/mL against bacteria. The resulting activity of the extract showed a significant statistical relationship at a p-value ≤ 0.01 against ESBL production and biofilm formation in P. aeruginosa. The S. virgaurea extract exhibited effectiveness in inhibiting biofilm formation and combating P. aeruginosa strains that produce extended-spectrum β-lactamases (ESBLs). [ABSTRACT FROM AUTHOR]

Published

2023

25. CHEMICAL COMPOSITION AND ANTIOXIDANT ACTIVITY OF FLOWERS AND LEAVES OF Solidago vigaurea L. GROWING IN BULGARIA.

Author

STANKOV, S., FIDAN, H., PETKOVA, N., DINCHEVA, I., DOGAN, H., BAS, H., KOLEVA, Y., and STOYANOVA, A.

Subjects

*GOLDENRODS, *FLOWERING of plants, *FLOWERS, *ESSENTIAL oils, *CARYOPHYLLENE

Abstract

Goldenrod (Solidago vigaurea L) is a perennial plant of the family Asteraceae. In Bulgaria, it is used in traditional medicine to treat various diseases. The aim of the present study was to determine the chemical composition and antioxidant activity of the plant's flowers and leaves to expand its scope of application. The data showed that the flowers were higher in essential oil (0.30%), cellulose (19.75%), chlorophyll a (42.22 μg/g), chlorophyll b (221.35 μg/g), total carotenoids (16.39 μg/g), total phenolics (88.33 mg GAE/g) and flavonoids (5.79 mg QE/g). Higher protein content (17.31%), as well as higher ash content (10.10%), was found in the leaves. The content of minerals was also determined in the leaves, with the highest content of macroelements being K (19068.67 ppm), microelements of Mn (62.60 ppm), and toxic elements - of Sr (515.86 ppm). The IC50 value (μg/ml) for the flowers was nearly 2.5 times higher than the leaves, indicating that the flowers had more pronounced antioxidant activity. The main essential oil constituents in flower samples were: epi-cyclocolorenone (24.00%), α-pinene (9.81%), p-cymen-7-ol (6.42%), ledol (5.84%), caryophyllene oxide (5.70%), p-cymene (4.36%), α-gurjunene (5.06%), γ-gurjunene (3.63%), and germacrene D (3.10%). The main essential oil compounds in leave samples were: epi-cyclocolorenone (52.57%), p-cymen-7-ol (5.91%), ledol (5.28%), spathulenol (4.74%), caryophyllene oxide (3.77%), and α-gurjunene (3.02%). [ABSTRACT FROM AUTHOR]

Published

2023

26. Print Quality of Coated Paper from Invasive Alien Plant Goldenrod.

Author

Sarjanović, Anja, Možina, Klemen, and Gregor-Svetec, Diana

Subjects

INTRODUCED plants, GOLDENRODS, NATURAL resources management, INTRODUCED species, RECYCLED paper, INVASIVE plants

Abstract

When designing products with a shorter lifespan, such as packaging and graphic products, sustainability and circular economy are particularly important. The use of an alternative fiber source for papermaking, such as collected biomass from invasive alien plant species (IAPS), is a good example of sustainable natural resource management, where IAPS are seen as a potential source of various new products. The aim of the present study was to analyze the printability of paper made from the IAPS Goldenrod. CMYK prints were made using inkjet digital technology, and their print quality was determined. IAPS Goldenrod paper, with its natural brownish color, low gloss, high voluminosity, high surface roughness and porosity, shows inferior print quality compared to recycled office paper. In order to improve the printability of this paper, surface coating using three different wet film depositions was applied. The results indicate that the smallest coat weight used suppresses the color and inferior properties of IAPS Goldenrod paper efficiently, resulting in similar printability for both the analyzed papers. Only a small difference in print quality between coated IAPS Goldenrod and recycled paper was determined, suggesting that low-value, non-demanding graphic products and packaging could be made from the coated IAPS Goldenrod paper. [ABSTRACT FROM AUTHOR]

Published

2023

27. Gold and green forests: Crafted life stories about Canadian goldenrod and elm trees.

Author

Arvidsson, Anna-Karin

Subjects

INTRODUCED species, GOLDENRODS, FOOD transportation, COLLECTIVE memory, GOLD

Abstract

Sweden's fauna and flora are constantly changing. Humans have not only deliberately promoted and introduced new species in horticulture, agriculture and forestry, they have also acted as a vector for the introduction of alien species through, for example, transportation and food. When these species spread rapidly and affect biodiversity, they are deemed 'invasive alien species'. This artistic research project explores and articulates how humans, as part of a system where nature and culture meet, affect complex functioning ecosystems through the movement of species. The starting point is the iconic elm tree and how its cultural and natural ecosystems have been wiped out in large parts of Europe by the invasive fungus Ophistoma novo ulmi. With the extinction of the elm come ecological and cultural losses. Those losses are examined and interpreted in this work, in a dialogue with nature and with people. At the same time, another species is explored, the Canadian goldenrod, which, unlike the elm, is expanding rapidly. With these explorations, life stories about the elm will be created not only for our collective memory, but also for speculation about what happens when a new and invasive alien species, such as the Canadian goldenrod, spreads. The form of my narrative is based in materials, crafts and objects. It is primarily the objects and the process that are the carriers of the stories. As a ceramicist, I use clay as a sketching material, binder and a tool for documentation. These species, the elm and the goldenrod, constitute the materiality that are part of the exploration and creation. [ABSTRACT FROM AUTHOR]

Published

2023

28. Distribution of N and recently fixed C among a common mycorrhizal network linking an invasive plant, Solidago canadensis, and a native plant, Kummerowia striata.

Author

Awaydul, Awagul, Xiao, Jing, Chen, Xin, Koide, Roger, Yuan, Yongge, and Cheng, Lei

Subjects

*INVASIVE plants, *NATIVE plants, *GOLDENRODS, *PLANT species, *INTRODUCED species, *PLANT invasions

Abstract

The invasive plant species, Solidago canadensis, often shares a common mycorrhizal network (CMN) with native plant species in southeast China. We ask whether the transfer of carbon (C) and nitrogen (N) among the invasive S. canadensis, the native Kummerowia striata and their CMN could contribute to the invasiveness of S. canadensis.We conducted a microcosm experiment in which a CMN was established on S. canadensis and K. striata. We used 13CO2 pulse‐labelling to quantify the relative contribution of recently fixed C from the two host species to the CMN. We also calculated the relative N distribution to each host species from the CMN.We found that 89% of the recently fixed C in the CMN originated from S. canadensis, while 11% originated from K. striata. We also found that the CMN distributed 77% of the N it absorbed to S. canadensis and 23% to K. striata.Our results suggest that the unequal distribution of N from a CMN to the invasive and native plant species is related to the unequal contribution of C from the plant species. This mechanism could contribute to invasion of native communities by alien species when there is a stoichiometric exchange of limiting nutrients for C, and when alien species contribute more C to the CMN than natives. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2023

29. Genome‐material costs and functional trade‐offs in the autopolyploid Solidago gigantea (giant goldenrod) series.

Author

Walczyk, Angela M. and Hersch‐Green, Erika I.

Subjects

*METABOLISM, *GENOME size, *WATER efficiency, *PHOTOSYNTHETIC rates, *GOLDENRODS

Abstract

Premise: Increased genome‐material costs of N and P atoms inherent to organisms with larger genomes have been proposed to limit growth under nutrient scarcities and to promote growth under nutrient enrichments. Such responsiveness may reflect a nutrient‐dependent diploid versus polyploid advantage that could have vast ecological and evolutionary implications, but direct evidence that material costs increase with ploidy level and/or influence cytotype‐dependent growth, metabolic, and/or resource‐use trade‐offs is limited. Methods: We grew diploid, autotetraploid, and autohexaploid Solidago gigantea plants with one of four ambient or enriched N:P ratios and measured traits related to material costs, primary and secondary metabolism, and resource‐use. Results: Relative to diploids, polyploids invested more N and P into cells, and tetraploids grew more with N enrichments, suggesting that material costs increase with ploidy level. Polyploids also generally exhibited strategies that could minimize material‐cost constraints over both long (reduced monoploid genome size) and short (more extreme transcriptome downsizing, reduced photosynthesis rates and terpene concentrations, enhanced N‐use efficiencies) evolutionary time periods. Furthermore, polyploids had lower transpiration rates but higher water‐use efficiencies than diploids, both of which were more pronounced under nutrient‐limiting conditions. Conclusions: N and P material costs increase with ploidy level, but material‐cost constraints might be lessened by resource allocation/investment mechanisms that can also alter ecological dynamics and selection. Our results enhance mechanistic understanding of how global increases in nutrients might provide a release from material‐cost constraints in polyploids that could impact ploidy (or genome‐size)‐specific performances, cytogeographic patterning, and multispecies community structuring. [ABSTRACT FROM AUTHOR]

Published

2023

30. Allelopathic Effects of Caffeic Acid and Its Derivatives on Seed Germination and Growth Competitiveness of Native Plants (Lantana indica) and Invasive Plants (Solidago canadensis).

Author

Pan, Linxuan, He, Feng, Liang, Qiuju, Bo, Yanwen, Lin, Xin, Javed, Qaiser, Ullah, Muhammad Saif, and Sun, Jianfan

Subjects

CAFFEIC acid, NATIVE plants, ACID derivatives, GOLDENRODS, GERMINATION, PLANT competition, INVASIVE plants

Abstract

Allelopathy has garnered considerable attention, but the effects of different allelochemicals on invasive plants remain unclear. This study addressed the knowledge gap surrounding allelopathy and its impact on native and invasive plant species. We focused on the impact of caffeic acid and its derivatives on the growth and competitiveness of the native Lantana indica and the invasive plant Solidago canadensis. We selected three allelochemicals, caffeic acid, methyl caffeic acid, and ethyl caffeic acid, for evaluation at two concentrations (0.1 mM and 1.0 mM). Three planting methods were employed: (1) a single species of S. canadensis, (2) a single species of L. indica, and (3) a combination of S. canadensis and L. indica. In addition, a control group was also included. Results revealed that high concentrations (1 mM) of methyl caffeate (MC) and ethyl caffeate (EC) significantly reduced seed germination rate, seed germination index, and seed germination speed index of L. indica compared to a low concentration (0.1 mM). Plant height, stem diameter, biomass, and root length in the control group (CK) of S. canadensis were significantly higher than those in the treated groups. However, with increasing allelochemical concentration, L. indica's relative competitiveness gradually decreased. These findings provide insights into the concentration-dependent effects of allelopathic compounds on the growth of L. indica and S. canadensis. By analyzing how these allelochemicals influence the growth and competitiveness of native and invasive plants, the study sheds light on the dynamics of allelochemical interactions between these species. This knowledge can be pivotal for understanding plant competition dynamics in ecosystems and could inform strategies to control invasive species or promote native plant growth. [ABSTRACT FROM AUTHOR]

Published

2023

31. Directional and stabilizing selection shaped morphological, reproductive, and physiological traits of the invader Solidago canadensis.

Author

Du, Leshan, Oduor, Ayub M. O., Zuo, Wei, Liu, Haiyan, and Li, Jun‐Min

Subjects

*NATURAL selection, *GOLDENRODS, *GENETIC variation, *INVASIVE plants, *PHENOTYPIC plasticity

Abstract

Trait evolution in invasive plant species is important because it can impact demographic parameters key to invasion success. Invasive plant species often show phenotypic clines along geographic and climatic gradients. However, the relative contributions of natural selection and neutral evolutionary processes to phenotypic trait variation among populations of invasive plants remain unclear. A common method to assess whether a trait has been shaped by natural selection or neutral evolutionary processes is to compare the geographical pattern for the trait of interest to the divergence in neutral genetic loci (i.e., QST–FST comparisons). Subsequently, a redundancy analysis (RDA) can facilitate identification of putative agents of natural selection on the trait. Here, we employed both a QST–FST comparisons approach and RDA to infer whether natural selection shaped traits of invasive populations of Solidago canadensis in China and identify the potential environmental drivers of natural selection. We addressed two questions: (1) Did natural selection drive phenotypic trait variation among S. canadensis populations? (2) Did climatic, latitudinal, longitudinal, and altitudinal gradients drive patterns of genetic variation among S. canadensis populations? We found significant directional selection for several morphological and reproductive traits (i.e., QST > FST) and stabilizing selection for physiological traits (i.e., QST < FST). The RDA showed that stem biomass of S. canadensis was strongly positively correlated with longitude, while leaf width ratio and specific leaf area were significantly positively correlated with the mean diurnal range. Stem biomass had a strong negative correlation with annual precipitation. Moreover, height of S. canadensis individuals was strongly positively correlated with altitude and precipitation of the wettest quarter. A longitudinal shift in precipitation seasonality likely selected for larger stem biomass in S. canadensis. Overall, these results suggest that longitudinal and altitudinal clines in climate exerted strong selection pressures that shaped the phenotypic traits of S. canadensis. [ABSTRACT FROM AUTHOR]

Published

2023

32. New insights into natural rubber biosynthesis from rubber‐deficient lettuce mutants expressing goldenrod or guayule cis‐prenyltransferase.

Author

Kwon, Moonhyuk, Hodgins, Connor L., Salama, Eman M., Dias, Kayla R., Parikh, Aalap, Mackey, Ashlyn V., Catenza, Karizza F., Vederas, John C., and Ro, Dae‐Kyun

Subjects

*LETTUCE, *GOLDENRODS, *RUBBER, *BIOSYNTHESIS, *GENETIC models

Abstract

Summary: Lettuce produces natural rubber (NR) with an average Mw of > 1 million Da in laticifers, similar to NR from rubber trees. As lettuce is an annual, self‐pollinating, and easily transformable plant, it is an excellent model for molecular genetic studies of NR biosynthesis.CRISPR/Cas9 mutagenesis was optimized using lettuce hairy roots, and NR‐deficient lettuce was generated via bi‐allelic mutations in cis‐prenyltransferase (CPT). This is the first null mutant of NR deficiency in plants. In the CPT mutant, orthologous CPT counterparts from guayule (Parthenium argentatum) and goldenrod (Solidago canadensis) were expressed under a laticifer‐specific promoter to examine how the average Mw of NR is affected.No developmental defects were observed in the NR‐deficient mutants. The lettuce mutants expressing guayule and goldenrod CPT produced 1.8 and 14.5 times longer NR, respectively, than the plants of their origin.This suggests that, although goldenrod cannot synthesize a sufficiently lengthy NR, goldenrod CPT has the catalytic competence to produce high‐quality NR in the cellular context of lettuce laticifers. Thus, CPT alone does not determine the length of NR. Other factors, such as substrate concentration, additional proteins, and/or the nature of protein complexes including CPT‐binding proteins, influence CPT activity in determining NR length. [ABSTRACT FROM AUTHOR]

Published

2023

33. STUDIES IN THE VASCULAR FLORA OF THE SOUTHEASTERN UNITED STATES. IX.

Author

Weakley, Alan S., Kees, John C., Sorrie, Bruce A., Ward, Scott G., Poindexter, Derick B., Brock, Mason, Estes, L. Dwayne, Bridges, Edwin L., Orzell, Steve L., Levin, Geoffrey A., Schoonover McClelland, R. Kevan, Schmidt, Ryan J., and Namestnik, Scott A.

Subjects

*BOTANY, *FERULA, *COASTAL plains, *EUPHORBIA, *NEPETA, *GOLDENRODS, *VASCULAR plants

Abstract

As part of ongoing work on the Flora of the Southeastern United States (Weakley & Southeastern Flora Team 2022a) and related projects, as well as for general floristic, conservation, and scientific work in eastern North America, it is essential to document taxonomic and nomenclatural changes and significant distribution records. Here we describe three new species (in Rhynchospora, Sabulina, and Solidago), describe a new section (in Trichostema), make new combinations to treat taxa at appropriate ranks in appropriate genera and with appropriate nomenclatural application based on types (in Lycopodioides, Moeroris, Morella, Nellica, Tamala, and Trichostema), and propose the lumping of two species, resulting in a change in name and nativity status (in Sisyrinchium). These new combinations (rank changes, or generic transfers to apply newly accepted generic concepts to taxa that do not have corresponding available names at the appropriate rank) are needed to accurately reflect current taxonomic understanding of the regional flora. In the course of doing so, we discuss and address various nomenclatural issues, including typifications, and clarify characters and identification of difficult groups (providing new keys) in the regional flora. We also report significant new distribution and naturalization records in many genera, in New Jersey (taxa in the genera Anthriscus, Calibrachoa, Chaenomeles, Dichanthelium, Diplotaxis, Ditrichia, Dysphania, Erigeron, Eucommia, Eupatorium, Lepidium, Malus, Montia, Nepeta, Persicaria, Picea, Psammophiliella, Pulmonaria, Quercus, Silphium, Verbascum, Verbena, Vicia), in the Coastal Plain of Alabama and Mississippi (taxa in the genera Baptisia, Clematis, Coreopsis, Galium, Matelea, Mirabilis, Poterium, Rhynchospora, Silphium, and Symphyotrichum), in southern Indiana (taxa in the genera Andropogon, Brunnichia, Echinacea, Landoltia, Montia, Persicaria, and Solidago), and in North Carolina, Virginia, and likely other states (Euphorbia). [ABSTRACT FROM AUTHOR]

Published

2023

34. The Effect of Modifying Canadian Goldenrod (Solidago canadensis) Biomass with Ammonia and Epichlorohydrin on the Sorption Efficiency of Anionic Dyes from Water Solutions.

Author

Paczyńska, Karolina, Jóźwiak, Tomasz, and Filipkowska, Urszula

Subjects

*SORPTION, *EPICHLOROHYDRIN, *GOLDENRODS, *BIOMASS, *PH effect, *AMINATION

Abstract

This study examined the effect of modifying Canadian goldenrod (Solidago canadensis) biomass on its sorption capacity of Reactive Black 5 (RB5) and Reactive Yellow 84 anionic dyes. The scope of the research included the characteristics of sorbents (FTIR, elementary analysis, pHPZC), the effect of pH on dye sorption efficiency, sorption kinetics, and the maximum sorption capacity (describing the data with Langmuir 1 and 2 and Freundlich models). FTIR analyses showed the appearance of amine functional groups in the materials modified with ammonia water, which is indicative of the sorbent amination process. The amination efficiency was higher in the case of materials pre-activated with epichlorohydrin, which was confirmed by elemental analysis and pHPZC values. The sorption efficiency of RB5 and RY84 on the tested sorbents was the highest in the pH range of 2–3. The sorption capacity of the goldenrod biomass pre-activated with epichlorohydrin and then aminated with ammonia water was 71.30 mg/g and 59.29 mg/g in the case of RB5 and RY84, respectively, and was higher by 2970% and 2510%, respectively, compared to the unmodified biomass. Amination of biomass pre-activated with epichlorohydrin can increase its sorption capacity, even by several dozen times. [ABSTRACT FROM AUTHOR]

Published

2023

35. Goldenrod herbariomics: Hybrid‐sequence capture reveals the phylogeny of Solidago.

Author

Semple, John C., McMinn‐Sauder, Harper, Stover, Melissa, Lemmon, Alan R., Lemmon, Emily Moriarty, and Beck, James B.

Subjects

*GOLDENRODS, *PHYLOGENY, *BOTANICAL specimens, *ASTERACEAE, *SPECIES diversity

Abstract

Premise: The phylogenetic relationships among the ca. 138 species of goldenrods (Solidago; Asteraceae) have been difficult to infer due to species richness, and shallow interspecific genetic divergences. This study aims to overcome these obstacles by combining extensive sampling of goldenrod herbarium specimens with the use of a custom Solidago hybrid‐sequence capture probe set. Methods: A set of tissues from herbarium samples comprising ca. 90% of Solidago species was assembled and DNA was extracted. A custom hybrid‐sequence capture probe set was designed, and data from 854 nuclear regions were obtained and analyzed from 209 specimens. Maximum likelihood and coalescent approaches were used to estimate the genus phylogeny for 157 diploid samples. Results: Although DNAs from older specimens were both more fragmented and produced fewer sequencing reads, there was no relationship between specimen age and our ability to obtain sufficient data at the target loci. The Solidago phylogeny was generally well‐supported, with 88/155 (57%) nodes receiving ≥95% bootstrap support. Solidago was supported as monophyletic, with Chrysoma pauciflosculosa identified as sister. A clade comprising Solidago ericameriodes, Solidago odora, and Solidago chapmanii was identified as the earliest diverging Solidago lineage. The previously segregated genera Brintonia and Oligoneuron were identified as placed well within Solidago. These and other phylogenetic results were used to establish four subgenera and fifteen sections within the genus. Conclusions: The combination of expansive herbarium sampling and hybrid‐sequence capture data allowed us to quickly and rigorously establish the evolutionary relationships within this difficult, species‐rich group. [ABSTRACT FROM AUTHOR]

Published

2023

36. DISTRIBUTION AND INVASIVENESS OF FOUR NON-NATIVE SPECIES OF PLANTS IN ECOSYSTEMS IN THE CHOROKHI DELTA (SW GEORGIA).

Author

MIKELADZE, IRAKLI, MANVELIDZE, ZURAB, TSISKARIDZE, DAVID, and SHAINIDZE, GOGITA

Subjects

INVASIVE plants, DELTAS, AMBROSIA artemisiifolia, GOLDENRODS, VERBENA

Abstract

Chorokhi Delta is known for its high diversity and many habitats, which however are being threatened by invasive plants. Here, the effects of four invasive species of plants, namely Ambrosia artemisiifolia, Sicyos angulatus, Solidago canadensis and Verbena brasiliensis were studied. These species were recorded in the coastal area of the Black Sea and in particular in Georgia for the first time in the first half of the last century and S. angulatus is a very recent arrival. Currently, these species constitute a significant threat to biodiversity at local, national and global levels. These invasive species were monitored from 2021 to 2022. During this period, sites with high densities of the invasive species were identified. For each species, 5 transects were randomly set, and along each of them, 10 plots (1 × 1 m) were surveyed. The density, frequency, coverage and average height of the invasive plants were measured in each plot. These measurements were recorded twice per year for two years (2021-2022). All this information will be used to develop management plans aimed at preventing their further spread or control their abundance. The results indicate that Ambrosia artemisiifolia is the most invasive and widely distributed. Verbena brasiliensis and Sicyos angulatus are also highly competitive species that can seriously affect semi-natural habitats in the Chorokhi Delta and in agricultural land located close to the Delta. Unlike these species, Solidago canadensis is not widely distributed in the area studied. However, its ability to survive in a wide range of habitats and clonal growth indicate that it is potentially a highly dangerous invasive species, which in the future is expected to expand its range and severely affect the semi-natural ecosystems and agricultural land in the Chorokhi Delta. The results of the present study demonstrate the high adaptability of the species studied and their potential for spreading further in the near future. [ABSTRACT FROM AUTHOR]

Published

2023

37. Effects of extracts from various parts of invasive Solidago species on the germination and growth of native grassland plant species.

Author

Perera, Peliyagodage Chathura Dineth, Chmielowiec, Cezary, Szymura, Tomasz H., and Szymura, Magdalena

Subjects

GRASSLAND plants, PLANT species, NATIVE plants, INTRODUCED species, GERMINATION, RYEGRASSES, INFLORESCENCES

Abstract

Allelopathy is an important factor influencing whether an invasive plant species can become successfully established in a new range through disrupting the germination and growth of native plant species. Goldenrods (Solidago species) are one of the most widespread invasive taxa in Central Europe of North American origin. Owing to their high environmental impact and wide distribution range, invasive Solidago species should be controlled in Europe, and the areas invaded by them should be restored. Numerous studies have reported the allelopathic effects of Solidago gigantea and Solidago canadensis, but the results are inconsistent regarding differences in the allelopathic effects of particular plant parts and in the sensitivity to Solidago allelopathic effects among native species as well as between the two invasive species themselves. In this study, we aimed to analyse the effect of water extracts from S. canadensis and S. gigantea parts (roots, rhizomes, stems, leaves, and inflorescences) on the germination and initial growth of seedlings of 13 grassland species that typically grow in Central Europe. The tested grassland species differed in susceptibility to Solidago allelopathy, with the most resistant species being Schedonorus pratensis, Lolium perenne, Trifolium pratense, Daucus carota and Leucanthemum vulgare. The inhibitory effect of 10% water extracts from leaves and flowers were stronger than those from rhizomes, roots, and stems without leaves, regardless of the Solidago species. Our study results imply that reducing the allelopathic effect of Solidago during habitat restoration requires removal of the aboveground parts, including fallen leaves. The allelopathic effects of roots and rhizomes seem to be of secondary importance. [ABSTRACT FROM AUTHOR]

Published

2023

38. Hawn State Park.

Author

MOHLENBROCK, ROBERT H.

Subjects

*PARKS, *WILD flowers, *RED oak, *NATURAL history, *HYDRANGEAS, *GOLDENRODS

Abstract

DEPARTMENTS The ancient Ozark Mountains extend from Arkansas, Oklahoma, a small part of southeastern Kansas, through Missouri to the St. Francois Mountains about twenty miles from the historic city of Ste. Genevieve, Missouri. The canopy consists of gnarly post oak, blackjack oak, black oak, black hickory, shortleaf pine, farkleberry, and gum bumelia. Dominant trees are shortleaf pine, white oak, black oak, scarlet oak, post oak, northern red oak, blackjack oak, and black hickory. [Extracted from the article]

Published

2023

39. LOCAL STUFE WE LOVE.

Subjects

DISH towels, THANKSGIVING Day, AUTUMN, GOLDENRODS, BOTANY

Published

2024

40. The effect of site conditions and type of ramet clusters on sexual and asexual ramets of Solidago x niederederi (Asteraceae).

Author

Pliszko, Artur, Kostrakiewicz-Gierałt, Kinga, and Makuch-Pietraś, Iwona

Subjects

*GOLDENRODS, *INTRODUCED plants, *SOIL mineralogy, *MINERALS, *NATIVE plants, *INVASIVE plants

Abstract

Spontaneous hybrids between alien and native plant species are alien taxa and they threaten native biodiversity due to their high competitive ability or introgression. Thus, we tested the effect of soil conditions, elevation and type of ramet clusters (clonal clumps of shoots) on sexual and asexual ramets of Solidago xniederederi, a hybrid between the invasive alien S. canadensis and the native S. virgaurea. We also tested the relationships between the size of sexual ramets and habitat conditions in the hybrid and its parental species, based on ten sites in NE and S Poland, respectively. The hybrid and its parental species occurred on mineral soils with a wide range of textures (sand, loamy sand, sandy loam, silty loam and loam) and pH (from strongly acidic to slightly alkaline). Sexual ramet clusters dominated in S. xniederederi populations, while the total number of ramets was highest in mixed ramet clusters. The cluster x site interaction had a significant effect on the length and biomass of sexual ramets in hybrid populations. Moreover, we found a significant effect of the taxon x site interaction in the case of biomass of sexual ramets and synflorescences (capitula arranged in panicles). Based on the biomass of sexual shoots and synflorescences, the competitive abilities of the hybrid may be more or less similar to S. canadensis or S. virgaurea albeit depending on site conditions. [ABSTRACT FROM AUTHOR]

Published

2023

41. Antimicrobial Diterpenes from Rough Goldenrod (Solidago rugosa Mill.).

Author

Baglyas, Márton, Ott, Péter G., Schwarczinger, Ildikó, Nagy, Judit Kolozsváriné, Darcsi, András, Bakonyi, József, and Móricz, Ágnes M.

Subjects

*DITERPENES, *GOLDENRODS, *INTRODUCED plants, *PLANT extracts, *BACILLUS (Bacteria)

Abstract

Solidago rugosa is one of the goldenrod species native to North America but has sporadically naturalized as an alien plant in Europe. The investigation of the root and leaf ethanol extracts of the plant using a bioassay-guided process with an anti-Bacillus assay resulted in the isolation of two antimicrobial components. Structure elucidation was performed based on high-resolution tandem mass spectrometric and one- and two-dimensional NMR spectroscopic analyses that revealed (–)-hardwickiic acid (Compound 1) and (–)-abietic acid (Compound 2). The isolates were evaluated for their antimicrobial properties against several plant pathogenic bacterial and fungal strains. Both compounds demonstrated an antibacterial effect, especially against Gram-positive bacterial strains (Bacillus spizizenii, Clavibacter michiganensis subsp. michiganensis, and Curtobacterium flaccumfaciens pv. flaccumfaciens) with half maximal inhibitory concentration (IC50) between 1 and 5.1 µg/mL (5–20 times higher than that of the positive control gentamicin). In the used concentrations, minimal bactericidal concentration (MBC) was reached only against the non-pathogen B. spizizenii. Besides their activity against Fusarium avenaceum, the highest antifungal activity was observed for Compound 1 against Bipolaris sorokiniana with an IC50 of 3.8 µg/mL. [ABSTRACT FROM AUTHOR]

Published

2023

42. Multiple Introductions and Distinct Genetic Groups of Canada Goldenrod (Solidago canadensis) in China Revealed by Genomic Single-Nucleotide Polymorphisms.

Author

Lin, Hanyang, Chen, Luxi, and Li, Junmin

Subjects

SINGLE nucleotide polymorphisms, CANADIAN history, GOLDENRODS, PRINCIPAL components analysis, GENETIC variation, INVASIVE plants

Abstract

Despite numerous studies reported in the context of ecology, the introduction history of the infamous invasive plant Canada goldenrod (Solidago canadensis L.) remains elusive. In the present study, we explored the sources and the number of introduction events of this species from its native areas into China. Using the genotyping-by-sequencing approach, we identified 34,035 selectively neutral single-nucleotide polymorphism (SNP) markers to infer the evolutionary trajectories of 77 S. canadensis individuals. Both the principal component analysis and the ADMIXTURE analysis revealed two genetic groups that are sympatric to each other in China and suggested the absence of genetic admixtures. The phylogenetic analysis indicated three feasible introduction routes and multiple introduction events of Canada goldenrod into China. Specifically, the one from the USA directly into China, the other from the USA into China through Japan, and the third from the USA into China through Europe. Based on the site frequency spectrum of these identified SNPs, we inferred strong bottleneck events for both genetic groups, and that the multiple introductions did not rescue the decline of genetic diversity. To conclude, multiple introduction events, genetic bottlenecks, and potential human-mediated spread characterize the introduction history of Canada goldenrod in China. The present study harnesses the power of SNP data in deciphering the evolutionary trajectory of invasive plants and paves the way for future studies concerning the invasion mechanism of Canada goldenrod. [ABSTRACT FROM AUTHOR]

Published

2023

43. Conditionality of soil microbial mediation of Solidago plant phenotype: indicator taxa within complex microbiomes influence some, but not all Solidago traits.

Author

Beals, Kendall K., Lebeis, Sarah L., Bailey, Joseph K., and Schweitzer, Jennifer A.

Subjects

*PLANT indicators, *GOLDENRODS, *SOILS, *SOIL inoculation, *PLANT communities

Abstract

Purpose: While distinct soil microbiomes and individual soil microbial taxa can alter particular plant traits under highly controlled conditions, little is known about the role of particular microbial taxa and microbial functions within complex soil microbial communities for mediating plant phenotypes or if the strength of microbial mediation of plant phenotype varies among plant species or plant phenotypic traits. Examining how the plant phenotype spectrum is influenced by the taxonomic and functional composition of complex soil microbial communities allows for a more accurate understanding of the biotic environmental drivers of plant phenotype. Methods: Using rhizosphere soil collected from field sites, we conducted a microbiome transfer glasshouse experiment to test the hypothesis that the taxonomic and functional composition of different soil microbiomes would differentially shift growth, physiological or reproductive phenotypes of three Solidago species. Results: We found that soil microbiome inoculations influenced Solidago growth traits more than physiological and reproductive traits. We found that root growth of one of the Solidago species was negatively correlated with 77% of the indicator bacterial and fungal taxa from one of the soil microbiome treatments. Conclusions: Soil microbial mediation of plant phenotype varies by plant traits, is not universal across plant species, and can be associated with a small number of microbial taxa. This study illustrates that specific microbial taxa within a soil microbiome are associated with shifts in plant phenotype by pinpointing important individual microbial taxa from complex field soil microbial communities. [ABSTRACT FROM AUTHOR]

Published

2023

44. Carbon dioxide emission and its impacting factor from goldenrod (Solidago canadensis) and bulrush (Typha angustifolia) decomposition during the winter period.

Author

Simon, Szabina, Simon-Gáspár, Brigitta, and Anda, Angela

Subjects

CARBON emissions, ATMOSPHERIC carbon dioxide, TYPHA, FOREST litter, GOLDENRODS, WATER quality

Abstract

Leaf litter decomposition in solution is an important part of the carbon cycle. When leaf litter is deposited in water, the decomposition process takes place, releasing carbon dioxide into the atmosphere. In Hungary, the goldenrod and bulrush are spreading over increasing areas along lakes and rivers, including the shores of Lake Balaton. The primary role of the Kis-Balaton wetland is to retain inorganic nutrients, thereby improving the water quality of Lake Balaton. As the water movement in this area is not very intensive and the water retention time is long, carbon dioxide emissions of parts of decomposing plants can be higher in this area. We set up a microcosm experiment in a climate chamber to determine the carbon dioxide emissions from the decomposition of goldenrod and bulrush leaves and stems in winter when information about the process is limited. Due to short investigation time, the difference in the impact of temperatures on decomposition of the studied plants was restricted to leaves only. In the study, significant difference was obtained for the plant species and the plant parts. The carbon dioxide increments ranged from 46.7 (p<0.001) to 54.5% (p<0.001) in every plant treatment related to control one. Changes in water temperature are reflected in carbon dioxide release with a minor time delay. The results showed that the decomposition of plant parts in water during winter contributes to the increase of carbon dioxide emissions from shallow water bodies, such as the Kis-Balaton wetland. [ABSTRACT FROM AUTHOR]

Published

2023

45. Allelopathic Activity of Canadian Goldenrod (Solidago canadensis L.) Extracts on Seed Germination and Growth of Lettuce (Lactuca sativa L.) and Garden Pepper Cress (Lepidium sativum L.).

Author

Judžentienė, Asta, Būdienė, Jurga, Labanauskas, Linas, Stancelytė, Donata, and Nedveckytė, Irena

Subjects

GOLDENRODS, ORNAMENTAL plants, GERMINATION, LETTUCE, PEPPERS, LEPIDIUM

Abstract

Native to N. America, Canadian goldenrod (Solidago canadensis L.) was introduced to Europe as an ornamental plant and quickly spread here and in other parts of the world. The rapid spread of the plant is due to several reasons: phenotypic plasticity, broad climatic tolerance, propagation via underground rhizomes and seeds that mature in large numbers, etc. Additionally, the success of Canadian goldenrod's invasion is determined by its allelochemicals that affect seed germination, root formation and whole growth of nearby plants. Allelopathy of various extracts and essential oils (EOs) of S. canadensis on seed germination and growth of lettuce (Lactuca sativa L.) and garden pepper cress (Lepidium sativum L.) was evaluated and compared with other Solidago species (S. virgaurea, S. × niederederi) collected from the same growing locality in Lithuania. Soil characteristics (conductivity, pH and major elements) of the collecting site were determined. Aqueous flower extracts of all studied Solidago species showed the highest inhibitory effect on model plants. Canadian goldenrod leaf water/diethyl ether extract showed highest inhibitory effect in all relative concentrations (1.0; 0.1; 0.01) suppressing growth of L. sativa (from 0 to 2.3 mm compared with 22.7 mm for control samples) and L. sativum (from 0.5 to 16.8 mm compared with 35.3 mm in control). It was noticed that garden pepper cress was more susceptible to Solidago spp. inhibitory effects than lettuce. S. canadensis root EOs comprised mainly of limonene (35.0%) and β-pinene (26.2%) and inflorescence oils containing α-pinene (21.6%), germacrene D (15.1%), limonene (10.2%) and lupenyl acetate (9.8%) exhibited the highest inhibitory effect on lettuce and garden pepper cress growth. Relative germination and vigor index of model plants was conducted. Chemical composition of extracts and EOs was determined by HPLC/DAD/TOF and GC/MS techniques. [ABSTRACT FROM AUTHOR]

Published

2023

46. Effects of extracts from various parts of invasive Solidago species on the germination and growth of native grassland plant species

Author

Peliyagodage Chathura Dineth Perera, Cezary Chmielowiec, Tomasz H. Szymura, and Magdalena Szymura

Subjects

Allelopathy, Grassland restoration, Inhibition, Goldenrods, Land reclamation, Plant invasion, Medicine, Biology (General), QH301-705.5

Abstract

Allelopathy is an important factor influencing whether an invasive plant species can become successfully established in a new range through disrupting the germination and growth of native plant species. Goldenrods (Solidago species) are one of the most widespread invasive taxa in Central Europe of North American origin. Owing to their high environmental impact and wide distribution range, invasive Solidago species should be controlled in Europe, and the areas invaded by them should be restored. Numerous studies have reported the allelopathic effects of Solidago gigantea and Solidago canadensis, but the results are inconsistent regarding differences in the allelopathic effects of particular plant parts and in the sensitivity to Solidago allelopathic effects among native species as well as between the two invasive species themselves. In this study, we aimed to analyse the effect of water extracts from S. canadensis and S. gigantea parts (roots, rhizomes, stems, leaves, and inflorescences) on the germination and initial growth of seedlings of 13 grassland species that typically grow in Central Europe. The tested grassland species differed in susceptibility to Solidago allelopathy, with the most resistant species being Schedonorus pratensis, Lolium perenne, Trifolium pratense, Daucus carota and Leucanthemum vulgare. The inhibitory effect of 10% water extracts from leaves and flowers were stronger than those from rhizomes, roots, and stems without leaves, regardless of the Solidago species. Our study results imply that reducing the allelopathic effect of Solidago during habitat restoration requires removal of the aboveground parts, including fallen leaves. The allelopathic effects of roots and rhizomes seem to be of secondary importance.

Published

2023

47. Dandelions.

Author

d'Entremont, Lara

Subjects

COMMON dandelion, POISONOUS plants, EDIBLE plants, GOLDENRODS, TRUST

Abstract

The article "Dandelions" by Lara d'Entremont explores the author's experience of trying to identify wildflowers with her son, specifically dandelions and buttercups. Through this process, she reflects on the challenges of distinguishing between similar plant species and draws parallels to the complexities of human relationships and trust. The author ultimately emphasizes the importance of wisdom, discernment, and growth in navigating both nature and interpersonal interactions. [Extracted from the article]

Published

2024

48. Cytogeography of Solidago sect. Erectae, sect. Villosicarpae, sect. Squarrosae, and sect. Brintonia (Asteraceae: Astereae)

Author

John C. Semple and Rachel E. Cook

Subjects

biogeography, chromosome numbers, goldenrods, Biology (General), QH301-705.5

Abstract

Chromosome numbers are reported for 67 individuals of 13 species of Solidago sect. Erectae, S. sect. Squarrosae, and S. sect. Villosicarpae from 65 locations in eastern Canada and the eastern United States: S. bicolor, S. erecta, S. hispida, S. jejunifolia, S. pallida, S. puberula, S. pulverulenta, S. rigidiuscula, S. roanensis, S. sciaphila, S. speciosa, S. squarrosa, and S. villosicarpa. Cytogeography maps based on new reports and all 258 previously published reports from 230 locations for the three sections plus S. sect. Brintonia (S. discoidea) are presented for 20 of the 30 species in the four closely related sections. The following are either first documented reports for the taxon or just first counts for a taxon from particular provinces and states: Solidago bicolor, 2n = 18 from Nova Scotia and Prince Edward Island; S. hispida var. hispida, 2n = 18 from New Hampshire, New Brunswick, and Wisconsin; S. jejunifolia, 2n = 18 from Michigan and Minnesota; S. pallida, 2n = 18 from Wyoming; S. puberula, 2n = 18 from Pennsylvania, Prince Edward Island, and Virginia; and first reports for S. sciaphila, 2n = 36 from Iowa, Illinois, and Wisconsin.

Published

2022

49. Effects of Warming, Phosphorous Deposition, and Both Treatments on the Growth and Physiology of Invasive Solidago canadensis and Native Artemisia argyi.

Author

Cui, Miaomiao, Yang, Bin, Ren, Guangqian, Yu, Haochen, Dai, Zhicong, Li, Jian, Ran, Qiong, Stevanato, Piergiorgio, Wan, Justin, and Du, Daolin

Subjects

EFFECT of human beings on climate change, GOLDENRODS, ARTEMISIA, PHYSIOLOGY

Abstract

Anthropogenic climate change and species invasion are two major threats to biodiversity, affecting the survival and distribution of many species around the world. Studying the responses of invasive species under climate change can help better understand the ecological and genetic mechanisms of their invasion. However, the effects of warming and phosphorus deposition on the phenotype of native and invasive plants are unknown. To address the problem, we applied warming (+2.03 °C), phosphorus deposition (4 g m−2 yr−1 NaH2PO4), and warming × phosphorus deposition to Solidago canadensis and Artemisia argyi to measure the direct effects of environmental changes on growth and physiology at the seedling stage. Our results reveal that the physiology parameters of A. argyi and S. canadensis did not change significantly with the external environment. Under phosphorus deposition, S. canadensis had higher plant height, root length, and total biomass compared to A. argyi. Interestingly, warming has an inhibitory effect on the growth of both A. argyi and S. canadensis, but overall, the reduction in total biomass for S. canadensis (78%) is significantly higher than A. argyi (52%). When the two plants are treated with warming combined with phosphorus deposition, the advantage gained by S. canadensis from phosphorus deposition is offset by the negative effects of warming. Therefore, under elevated phosphorus, warming has a negative effect on the invasive S. canadensis and reduces its growth advantage. [ABSTRACT FROM AUTHOR]

Published

2023

50. Substrate moisture and texture affect germination in Houghton's goldenrod (Solidago houghtonii), a federally protected Great Lakes endemic plant.

Author

Weber, Justine B. and Leopold, Donald J.

Subjects

*ENDEMIC plants, *GERMINATION, *GOLDENRODS, *RARE plants, *MOISTURE, *ASTERACEAE

Abstract

Rare plants garner significant conservation attention, but many have knowledge gaps associated with their life histories. This missing information presents a substantial hurdle for applied conservation. Houghton's goldenrod (Solidago houghtonii Torrey & A. Gray [Asteraceae]) is a Great Lakes endemic perennial that is often locally abundant but is limited to a narrow region in Michigan, New York, and Ontario. This species is federally listed in the US as threatened, state listed as threatened in Michigan and endangered in New York, and is a species of special concern in Canada. There may be enough viable S. houghtonii populations to meet the US federal recovery criterion, but more data are needed regarding long-term persistence within and across populations, especially related to successful sexual reproduction--key in most seed plants' long-term persistence. As part of a range-wide study on the species, we performed greenhouse and field experiments to evaluate the effects of substrate moisture and texture on germination success. In both experimental contexts, we found that S. houghtonii germination significantly increased with increased substrate moisture and smoother substrate texture. In addition, a post hoc exploratory analysis on the effects of disturbance on germination showed higher germination in plots with higher disturbance levels, though this trend was not statistically significant. These results add to the limited life history information available for S. houghtonii. Our findings also suggest that substrate texture may be an easily characterized habitat variable that predicts germination for other species because of its relationship to consistent moisture contact for seeds. [ABSTRACT FROM AUTHOR]

Published

2023