Your search keyword '"Centaurea solstitialis"' showing total 463 results

1. Plant G × Microbial E: Plant Genotype Interaction with Soil Bacterial Community Shapes Rhizosphere Composition During Invasion.

Author

Berlow, Mae, Mesa, Miles, Creek, Mikayla, Duarte, Jesse G., Carpenter, Elizabeth, Phinizy, Brandon, Andonian, Krikor, and Dlugosch, Katrina M.

Subjects

*GENETIC variation, *RHIZOBACTERIA, *MICROBIAL communities, *BACTERIAL communities, *PHENOTYPES

Abstract

It is increasingly recognized that different genetic variants of hosts can uniquely shape their microbiomes. Invasive species often evolve in their introduced ranges, but little is known about the potential for their microbial associations to change during invasion as a result. We asked whether host genotype (G), microbial environment (E), or their interaction (G × E) affected the composition and diversity of host-associated microbiomes in Centaurea solstitialis (yellow starthistle), a Eurasian plant that is known to have evolved novel genotypes and phenotypes and to have altered microbial interactions, in its severe invasion of CA, USA. We conducted an experiment in which native and invading plant genotypes were inoculated with native and invaded range soil microbial communities. We used amplicon sequencing to characterize rhizosphere bacteria in both the experiment and the field soils from which they were derived. We found that native and invading plant genotypes accumulated different microbial associations at the family level in each soil community, often counter to differences in family abundance between soil communities. Root associations with potentially beneficial Streptomycetaceae were particularly interesting, as these were more abundant in the invaded range field soil and accumulated on invading genotypes. We also found that bacterial diversity is higher in invaded soils, but that invading genotypes accumulated a lower diversity of bacteria and unique microbial composition in experimental inoculations, relative to native genotypes. Thus variation in microbial associations of invaders was driven by the interaction of plant G and microbial E, and rhizosphere microbial communities appear to change in composition in response to host evolution during invasion. [ABSTRACT FROM AUTHOR]

Published

2024

2. Topical Application of Synthetic Hormones Terminated Reproductive Diapause of a Univoltine Weed Biological Control Agent.

Author

Park, Ikju and Smith, Lincoln

Subjects

20-hydroxyecdysone (20E), Centaurea solstitialis, Ceratapion basicorne, methoprene, yellow starthistle

Abstract

Classical biological control is an important method for controlling invasive alien weeds. Univoltine insects can be highly effective biological control agents of annual weeds because they are well synchronized with their host plant. However, having only one generation per year makes it difficult and slow to multiply them in the laboratory for initial field releases. If it were possible to terminate reproductive diapause early, then we could rear multiple generations per year, which would greatly increase annual production. We used a recently approved biocontrol agent, Ceratapion basicorne (a univoltine weevil), for yellow starthistle (Centaurea solstitialis) as a model system to study the use of two insect hormones, 20-hydroxyecdysone (20E) and methoprene, to terminate reproductive diapause. Methoprene (1 μg applied topically) terminated reproductive diapause of female weevils, whereas doses of 0.0, 0.01 and 0.1 μg did not. The combination of methoprene and 20E had a stronger effect and induced an increase in eggs (1.51 ± 0.16 eggs/day, mean ± SE) compared with a methoprene only group (1.00 ± 0.13 eggs/day), and a control group (0.21 ± 0.04 eggs/day). Thus, topical application of these hormones should enable us to rear the weevil out of its normal season and produce more than one generation per year, which will increase productivity of mass-rearing it for field release. Once released in the field, the insect would continue as a univoltine agent that is well-synchronized with its host plant.

Published

2021

3. Estimation of climate-induced increased risk of Centaurea solstitialis L. invasion in China: An integrated study based on biomod2

Author

Tao Jia, Yuhan Qi, Haoxiang Zhao, Xiaoqing Xian, Jianyu Li, Hongkun Huang, Wentao Yu, and Wan-xue Liu

Subjects

Centaurea solstitialis, climate change, ensemble model, invasive alien plants, potential geographical distribution, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

IntroductionInvasive alien plants (IAPs) are major hazards to biodiversity, human health, and the agricultural economy. As one of the most aggressive species of IAPs, the distribution area of Centaurea solstitialis L. has increased exponentially in the past two years since its invasion into Xinjiang, China, in July 2014. Predicting the potential geographic distributions (PGDs) of C. solstitialis in China can provide theoretical support for preventing the continued spread of this weed.MethodsIn this study, based on 5,969 valid occurrence records of C. solstitialis and 33 environmental variables, we constructed an ensemble model to predict suitable habitats for C. solstitialis under climate change scenarios.ResultsOur results showed that the mean true skill statistic (TSS) values, area under the receiver operating characteristic (ROC) curve (AUC), and Cohen’s Kappa (KAPPA) for the ensemble model were 0.954, 0.996, and 0.943, respectively. The ensemble model yielded more precise predictions than those of the single model. Temperature seasonality (Bio4), minimum temperature of the coldest month (Bio6), precipitation of the driest month (Bio14), and human influence index (HII) have significantly disrupted the PGDs of C. solstitialis in China. The total (high) suitability habitat area of C. solstitialis in China was 275.91 × 104 (67.78 × 104) km2, accounting for 71.26 (7.06)% of China. The PGDs of C. solstitialis in China under the current climate were mainly in East China (Shandong, Jiangsu, Shanghai, Zhejiang, and Anhui), Central China (Henan, southwestern Shanxi, southern Shaanxi, southern Gansu, Hubei, Hunan, Jiangxi, Chongqing, and Guizhou), and South China (southern Tibet, eastern Sichuan, Yunnan, Guangxi, Guangdong, Fujian, and Taiwan). Under future climate scenarios, the total suitability habitat area for C. solstitialis will expand, whereas the high suitability habitat area will decrease.DiscussionThe main manifestation is that the shift of southeast China into a moderate suitability habitat, and the total suitability habitats will be extended to northwest China. More focus needs to be placed on preventing further spread of C. solstitialis in northwest China.

Published

2023

4. Antioxidant Properties, Total Phenolic Content and LC-MS/MS Analysis of Mentha Pulegium, Lepidium Draba and Centaurea Solstitialis.

Author

NECİP, Adem and DURGUN, Mustafa

Subjects

*CENTAUREA, *MINTS (Plants), *PHENOLIC acids, *ACETONE, *PLANT phenols, *LEPIDIUM, *CONTENT analysis, *GALLIC acid

Abstract

The Mentha pulegium, Lepidiıum draba and Centaurea solstitialis have traditionally been used in different cultures for the treatment of various diseases. We investigated the total phenolic content analysis, chemical compositions and antioxidant activities of different solvent extracts such as acetone, methanol and n-hexane obtained from the aerial parts of Mentha pulegium, Lepidiıum draba and Centaurea. The amount of total phenolic substance was determined as gallic acid equivalent determine. Also, the LC-MS/MS technique was used to determine the phenolic profiles of each extract. Finally, antioxidant activities of three extracts were determined by DPPH and ABTS methods. The highest total phenolic content for acetone, n-hexane and methanol extracts was found as 99 507, 46 305, and 18 227 µg GAE mL-1 in Centaurea solstitialis plant, respectively. While the major component rosmarinic acid amount in the acetone extract of Mentha pulegium was 128 195 µg analyte g-1 extract, this amount was determined as 780 383 µg analyte g-1 extract in the methanolic extract. The highest DPPH radical scavenging activity was found in the acetone and methanolic extracts of Mentha pulegium as 77% and 79%, respectively. ABTS radical scavenging activity was also found to be 98% and 94% for Mentha pulegium in acetone and methanol extracts, respectively. The antioxidant capacity of the extracts is related to the total amount of phenolic substances. [ABSTRACT FROM AUTHOR]

Published

2022

5. Chromosome-scale Reference Genome and RAD-based Genetic Map of Yellow Starthistle (Centaurea solstitialis) Reveal Putative Structural Variation and QTL Associated With Invader Traits.

Author

Reatini B, Pelosi JA, Cang FA, Jiang Q, McKibben MTW, Barker MS, Rieseberg LH, and Dlugosch KM

Subjects

Chromosome Mapping, Chromosomes, Plant genetics, Genomic Structural Variation, Quantitative Trait Loci, Centaurea genetics, Genome, Plant, Introduced Species

Abstract

Invasive species offer outstanding opportunities to identify the genomic sources of variation that contribute to rapid adaptation, as well as the genetic mechanisms facilitating invasions. The Eurasian plant yellow starthistle (Centaurea solstitialis) is highly invasive in North and South American grasslands and known to have evolved increased growth and reproduction during invasion. Here, we develop new genomic resources for C. solstitialis and map the genetic basis of invasiveness traits. We present a chromosome-scale (1N = 8) reference genome using PacBio CLR and Dovetail Omni-C technologies, and functional gene annotation using RNAseq. We find repeat structure typical of the family Asteraceae, with over 25% of gene content derived from ancestral whole-genome duplications (paleologs). Using an F2 mapping population derived from a cross between native and invading parents, with a restriction site-associated DNA (RAD)-based genetic map, we validate the assembly and identify 13 quantitative trait loci underpinning size traits that have evolved during invasion. We find evidence that large effects of quantitative trait loci may be associated with structural variants between native and invading genotypes, including a variant with an overdominant and pleiotropic effect on key invader traits. We also find evidence of significant paleolog enrichment under two quantitative trait loci. Our results add to growing evidence of the importance of structural variants in evolution, and to understanding of the rapid evolution of invaders., (© The Author(s) 2024. Published by Oxford University Press on behalf of Society for Molecular Biology and Evolution.)

Published

2024

6. Evolution of increased competitive ability may explain dominance of introduced species in ruderal communities.

Author

Hierro, José L., Eren, Özkan, Čuda, Jan, and Meyerson, Laura A.

Subjects

*INTRODUCED species, *PLANT competition, *BIOLOGICAL invasions, *INTRODUCED plants, *PLANT defenses, *PLANT species

Abstract

The evolution of increased competitive ability (EICA) hypothesis encapsulates the importance of evolution and ecology for biological invasions. According to this proposition, leaving specialist herbivores at home frees introduced plant species from investing limited resources in defense to instead use those resources for growth, selecting for individuals with reduced defense, enhanced growth, and, consequently, increased competitive ability. We took a multispecies approach, including ancestral and non‐native populations of seven weeds, as well as seven coexisting local weeds, to explore all three predictions (i.e., lower defense, greater growth, and better ability to compete in non‐native than ancestral populations), the generality as an invasion mechanism for a given system, and community‐level consequences of EICA. We assessed plant defenses by conducting herbivory trials with a generalist herbivore. Therefore, finding that non‐native populations are better defended than ancestral populations would lend support to the shifting defense (SD) hypothesis, an extension of EICA that incorporates the observation that introduced species escape specialists, but encounter generalists. We also manipulated water additions to evaluate how resource availability influences competition in the context of EICA and plant plasticity in our semiarid system. We found that non‐native populations of one study species, Centaurea solstitialis, were better defended, grew faster, and exerted stronger suppression on locals than ancestral populations, offering support to EICA through the SD hypothesis. The other species also displayed variation in trait attributes between ancestral and non‐native populations, but they did not fully comply with the three predictions of EICA. Notably, differences between those populations generally favored the non‐natives. Moreover, non‐native populations were, overall, superior at suppressing locals relative to ancestral populations under low water conditions. There were no differences in plasticity among all three groups. These results suggest that evolutionary change between ancestral and non‐native populations is widespread and could have facilitated invasion in our system. Additionally, although trading growth for shifted defense does not seem to be the main operational path for evolutionary change, it may explain the dominance of some introduced species in ruderal communities. Because introduced species dominate communities in disturbed environments around the world, our results are likely generalizable to other systems. [ABSTRACT FROM AUTHOR]

Published

2022

7. Trait variation, trade‐offs, and attributes may contribute to colonization and range expansion of a globally distributed weed.

Author

Eren, Özkan and Hierro, José L.

Subjects

*INTRODUCED plants, *ALTITUDES, *CENTAUREA, *WEEDS, *BIOLOGICAL invasions, *SEEDS

Abstract

Premise: Trait variation, trade‐offs, and attributes can facilitate colonization and range expansion. We explored how those trait features compare between ancestral and nonnative populations of the globally distributed weed Centaurea solstitialis. Methods: We measured traits related to survival, size, reproduction, and dispersal in field sampling following major environmental gradients; that of elevation in Anatolia (ancestral range) and that of precipitation in Argentina (nonnative range). We also estimated abundance. Results: We found that overall variation in traits in ancestral populations was similar to that in nonnative populations. Only one trait—seed mass—displayed greater variation in ancestral than nonnative populations; coincidentally, seed mass has been shown to track global range expansion of C. solstitialis. Traits displayed several associations, among which seed mass and number were positively related in both ranges. Many traits varied with elevation in the ancestral range, whereas none varied with precipitation in the nonnative one. Interestingly, most traits varying with elevation within the ancestral range also displayed differences in attributes between ancestral and nonnative ranges. Unexpectedly, ancestral plants were more fecund than nonnative plants, but density was greater in the nonnative than ancestral range, indicating that C. solstitialis survives at larger proportions in the nonnative than ancestral range. Conclusions: Our results suggest that maintaining levels of trait variation in nonnative populations comparable to those in ancestral populations, avoiding trait trade‐offs, and developing differences in trait attributes between ranges can play a major role in the success of many weeds in novel environments. [ABSTRACT FROM AUTHOR]

Published

2021

8. Utilizing of bio-adsorbent in zero waste concept: adsorption study of crystal violet onto the centaurea solstitialis and verbascum thapsus plants.

Author

YALVAÇ, Mutlu, ARSLAN, Hüdaverdi, SALEH, Mohammed, GÜN, Melis, and HEKİM, Muhammed Şahin

Subjects

*GENTIAN violet, *CENTAUREA, *ADSORPTION (Chemistry), *PLANT capacity, *EMISSION control, *SORBENTS

Abstract

Adsorption is one of the most widely used methods for dye removal from water. At the end of the adsorption process, the dyed adsorbents emerging as a second-order waste which is the main disadvantage of this process. In this study, the removal of a synthetic dye Crystal Violet (CV) from the synthetic wastewater by using Centaurea solstitialis (CS) and Verbascum Thapsus (VT) plants was studied by adsorption. At the end of the adsorption process, the reusing potential of the dyed plant was explored by measuring the dyed plant calorific values. Experimental design and modeling were performed using the surface response method (RSM). The regression coefficients for developed models were 0.86 for the CS plant and 0.95 for the VT plant. Adsorption process for CS and VT plants were fitted by Dubinin-Radushkevich isotherm, and Temkin isotherm, respectively. The two plants were pseudo-second-order, endothermic, and found to be chemically. CS plant had a capacity of 84.03 mg.g-1 with a contact time of 85 min. The capacity of the VT plant reached 109.89 mg.g-1 at a contact time of 55 min. The calorific values results show increases in the calorific values for the two plants after the adsorption process. The CS plant increased from 4003.774 to 4458.059 Kcal.Kg-1. Whereas the VT plant increased from 3206.028 to 4120.330 Kcal.Kg-¹. These values indicate the using possibility of the two plants as solid fuel by burning the dyed plants in emission controlled industrial facilities by applying the zero-waste concept. [ABSTRACT FROM AUTHOR]

Published

2021

9. Assessment of Antioxidant and Cytotoxic Activities and Identification of Phenolic Compounds of Centaurea solstitialis and Urospermum picroides from Turkey

Author

Mehlika Alper, Cennet Özay, Hatice Güneş, and Ramazan Mammadov

Subjects

Centaurea solstitialis, Urospermum picroides, Antioxidant activity, Cytotoxic activity, HPLC, Biotechnology, TP248.13-248.65

Abstract

HIGHLIGHTS The phenolic composition, antioxidant activity and cytotoxic potential of the extracts of C. solstitialis and U. picroides were investigated. Caffeic acid was found as the most abundant phenolic compound in the extracts. Both species showed promising antioxidant activity towards different assays. The highest cytotoxic potential was observed in the extract of C. solstitialis.

Published

2021

10. Effects of belowground resource use comlementarity on invasion of constructed grassland plant communities

Author

Brown, Cynthia S. and Rice, Kevin J.

Subjects

Life Sciences, Developmental Biology, Ecology, Plant Sciences, Freshwater & Marine Ecology, Niche overlap, Resource partitioning, Functional diversity, Species richness, Functional group, Bromus tectorum, Centaurea solstitialis, Yellow starthistle, Soft chess

Abstract

At two field sites that differed in fertility, we investigated how species richness, functional group diversity, and species composition of constructed plant communities influenced invasion. Grassland communities were constructed to be either functionally diverse or functionally simple based on belowground resource use patterns of constituent species. Communities were also constructed with different numbers of species (two or five) to examine interactions between species richness, functional diversity and invasion resistance. We hypothesized that communities with more complementary belowground resource use (i.e., more species rich and more functionally diverse communities) would be less easily invaded than communities with greater degrees of belowground resource use overlap. Two contrasting invasive species were introduced: an early-season, shallow rooting annual grass, Bromus hordeaceus (soft chess), and a late-season, deep rooting annual forb, Centaurea solstitialis (yellow starthistle). Invader responses to species richness and functional diversity treatments differed between sites. In general, the more similar the patterns of belowground resource use between residents of the plant community and the invader, the poorer the invader’s performance. Complementarity or overlap of resource use among species in the constructed communities appeared to affect invader success less than complementarity or overlap of resource use between the invader and the species present in the community.

Published

2010

11. Extraction and characterization of cellulosic fiber from Centaurea solstitialis for composites.

Author

Keskin, O. Yasin, Dalmis, Ramazan, Balci Kilic, Gonca, Seki, Yasemin, and Koktas, Serhan

Subjects

CENTAUREA, CELLULOSE fibers, FOURIER transform infrared spectroscopy, NATURAL fibers, X-ray photoelectron spectroscopy, YOUNG'S modulus, THERMAL resistance

Abstract

With increasing ecological awareness, researchers around the world seek to make composites reinforced with more eco-friendly natural fibers. In this study, Centaurea solstitialis (yellow star thistle) fibers were characterized as a potential natural fiber reinforcement for green composites. Generally, Centaurea solstitialis plants are undesirable because of their detrimental effect on other plants. In this respect, they are generally considered economically worthless in terms of the economical aspect. From this point of view, characterizing Centaurea solstitialis and using them as a natural fiber reinforcement material can be more appropriate in terms of waste management. To characterize the Centaurea solstitialis fibers, Scanning Electron Microscopy, Fourier Transform Infrared Spectroscopy, Thermogravimetric Analysis, X-ray Photoelectron Spectroscopy, X-Ray Diffraction Analysis, single fiber tensile test, determinations of density and chemical composition were performed. Centaurea solstitialis fibers have 11.2% hemicellulose and 57.20% cellulose content. The crystallinity index and density of fibers were determined as 71.43% and 1.37 g/cm3, respectively. Also, fibers exhibited relatively high tensile strength with 111.85 ± 24.97 MPa and Young's modulus with 3.41 ± 0.62 GPa. The thermal resistance temperature of Centaurea solstitialis fibers was found as 273 °C. It is suggested that Centaurea solstitialis fiber is a suitable reinforcement candidate for composites with low density, low cost, abundancy and relatively high tensile strength. [ABSTRACT FROM AUTHOR]

Published

2020

12. Plant invasion depresses native species richness, but control of invasive species does little to restore it.

Author

Adams, Sheherezade N., Jennings, Scott, and Warnock, Nils

Subjects

*PLANT invasions, *SPECIES diversity, *INTRODUCED species, *INTRODUCED plants, *NATIVE plants, *PLANT species diversity, *GROUND cover plants

Abstract

Invasive plants are associated with the decline of native plant richness, but the impact of removal of invasives on native plant richness is often unknown. We investigated whether the presence of the introduced plant Centaurea solstitialis (Asteraceae) was correlated with reduced native plant richness; whether rain in late spring, when C.solstitialis is virtually the only plant actively growing, increased its cover; and whether native species richness increased following the control of C.solstitialis. From 2011 to 2017 in a grassland in Sonoma County, California, USA, we treated 20 1-m2 plots in C.solstitialis-invaded patches with chemical and mechanical removal. We monitored cover of all plants in those plots, plus 20 invaded untreated and 20 uninvaded plots, for a total of 60 plots in two blocks. Native plant richness was lower in invaded than in non-invaded plots. More late spring rainfall resulted in greater C.solstitialis cover in the following year. Native species richness in the six years after initial removal was slightly higher in removal plots than in untreated control plots. Centaurea solstitialis removal alone results in modest benefits for native plant species richness. Managing this invasive requires more resources in years with more late spring rainfall. [ABSTRACT FROM AUTHOR]

Published

2020

13. Effect of the invasive exotic herb Centaurea solstitialis on plant communities of a semiarid ecosystem.

Author

Becerra, Pablo I., Cavieres, Lohengrin, and Bustamante, Ramiro O.

Subjects

*CENTAUREA, *PLANT communities, *BIOLOGICAL invasions, *ECOSYSTEMS, *INTRODUCED species, *SPECIES diversity

Abstract

The effects of many invasive species on invaded communities are still scarcely known. Centaurea solstitialis is an invasive Eurasian herb, widely distributed around the world, but its effects on recipient communities are not well known. To evaluate the effect of C. solstitialis invasion on richness and cover of native and exotic resident species in naturally established communities. We repeated a field experiment in three old-fields of central Chile where C. solstitialis was not present. The experiment simulated the invasion of C. solstitialis by adding 600 seeds per plots of 1 × 1 m in size and compared the richness and cover of all naturally growing species in plots with and without C. solstitialis. For exotics, initial species richness (average ca.18% and 20% per site), and cover (average ca. 20% and 34% per site) were significantly reduced by C. solstitialis in two out of the three sites. The abundances of four out of 17 exotic resident species were negatively affected by C. solstitialis. Native species were not affected by C. solstitialis. C. solstitialis can outcompete resident species of communities where it invades, but local ecological factors influence its effects producing different impacts among species and localities. [ABSTRACT FROM AUTHOR]

Published

2020

14. Antioxidant Properties, Total Phenolic Content and LC-MS/MS Analysis of Mentha Pulegium, Lepidium Draba and Centaurea Solstitialis

Author

Adem NECİP and Mustafa DURGUN

Subjects

Engineering, Chemical, Mentha pulegium, Lepidium draba, Centaurea solstitialis, antioxidant, LC-MS/MS, total phenolic, Mühendislik, Kimya

Abstract

The Mentha pulegium, Lepidiıum draba and Centaurea solstitialis have traditionally been used in different cultures for the treatment of various diseases. We investigated the total phenolic content analysis, chemical compositions and antioxidant activities of different solvent extracts such as acetone, methanol and n-hexane obtained from the aerial parts of Mentha pulegium, Lepidiıum draba and Centaurea. The amount of total phenolic substance was determined as gallic acid equivalent determine. Also, the LC-MS/MS technique was used to determine the phenolic profiles of each extract. Finally, antioxidant activities of three extracts were determined by DPPH and ABTS methods. The highest total phenolic content for acetone, n-hexane and methanol extracts was found as 99 507, 46 305, and 18 227 μg GAE mL-1 in Centaurea solstitialis plant, respectively. While the major component rosmarinic acid amount in the acetone extract of Mentha pulegium was 128 195 μg analyte g-1 extract, this amount was determined as 780 383 μg analyte g-1 extract in the methanolic extract. The highest DPPH radical scavenging activity was found in the acetone and methanolic extracts of Mentha pulegium as 77% and 79%, respectively. ABTS radical scavenging activity was also found to be 98% and 94% for Mentha pulegium in acetone and methanol extracts, respectively. The antioxidant capacity of the extracts is related to the total amount of phenolic substances.

Published

2022

15. Yellow starthistle continues its spread in California

Author

Pitcairn, Michael J., Schoenig, Steve, Yacoub, Rosie, and Gendron, John

Subjects

Plant Sciences, yellow starthistle, Centaurea solstitialis, noxious weeds, invasive species, county survey

Abstract

Yellow starthistle is an exotic invasive weed that is estimated to infest over 14 million acres in California and is considered the most common exotic weed statewide. We reviewed several previous studies and conducted a township survey to provide an up-to-date analysis of the weed’s rapid spread throughout the state. A county-by-county comparison between 1985 and 2002 showed increases in yellow starthistle in all regions of the state except for northeast California and the southeast desert region. Currently, most infestations occur in Northern California, but future invasions and spread will likely occur in the coastal counties of Southern California.

Published

2006

16. Topical Application of Synthetic Hormones Terminated Reproductive Diapause of a Univoltine Weed Biological Control Agent

Author

Ikju Park and Lincoln Smith

Subjects

20-hydroxyecdysone (20E), methoprene, Ceratapion basicorne, Centaurea solstitialis, yellow starthistle, Science

Abstract

Classical biological control is an important method for controlling invasive alien weeds. Univoltine insects can be highly effective biological control agents of annual weeds because they are well synchronized with their host plant. However, having only one generation per year makes it difficult and slow to multiply them in the laboratory for initial field releases. If it were possible to terminate reproductive diapause early, then we could rear multiple generations per year, which would greatly increase annual production. We used a recently approved biocontrol agent, Ceratapion basicorne (a univoltine weevil), for yellow starthistle (Centaurea solstitialis) as a model system to study the use of two insect hormones, 20-hydroxyecdysone (20E) and methoprene, to terminate reproductive diapause. Methoprene (1 μg applied topically) terminated reproductive diapause of female weevils, whereas doses of 0.0, 0.01 and 0.1 μg did not. The combination of methoprene and 20E had a stronger effect and induced an increase in eggs (1.51 ± 0.16 eggs/day, mean ± SE) compared with a methoprene only group (1.00 ± 0.13 eggs/day), and a control group (0.21 ± 0.04 eggs/day). Thus, topical application of these hormones should enable us to rear the weevil out of its normal season and produce more than one generation per year, which will increase productivity of mass-rearing it for field release. Once released in the field, the insect would continue as a univoltine agent that is well-synchronized with its host plant.

Published

2021

17. Isolation, Identification and Quantification of Compounds with gastroprotective activity present in Centaurea solstitialis

Author

Ricardo Enrique Toso and Mario Skliar

Subjects

centaurea solstitialis, motilidad gástrica, Veterinary medicine, SF600-1100

Abstract

Centaurea solstitialis es una planta con propiedades antiulcerosas. Teniendo como objetivo lograr el aislamiento, identificación y cuantificación de compuestos bioactivos responsables de la actividad gastroprotectora, se llevaron a cabo estudios fitoquímicos bioguiados en busca de flavonoides relacionados con esta actividad farmacológica. Una fracción metanólica obtenida a partir de capítulos desecados de la planta, fue extraída con acetato de etilo previa hidrólisis con ácido clorhídrico. La fracción acetato de etilo fue cromatografiada en capa delgada sobre placas de sílica gel y las bandas, que comigraron con estándares auténticos de quercetina (Rf = 0,80) y canferol (Rf = 0,89), se purificaron por HPLC, obteniéndose el aislamiento de los dos flavonoides. Los compuestos fueron recuperados e identificados por espectrometría de masas. Ensayos cuantitativos permitieron determinar que los capítulos de la planta contienen 0,63 y 1,47 mg de quercetina y canferol por gramo de materia seca respectivamente

Published

2017

18. Cytoprotective effect of Centaurea solstitiulis extracts on gastric lesions induced by stress in rats

Author

Ricardo Enrique Toso and Mario Skliar

Subjects

centaurea solstitialis, flavonoides, sesquiterpeno lactonas, Veterinary medicine, SF600-1100

Abstract

Residuos de extractos acuosos, metanólicos y clorofórmicos de flores de Centaurea solstitialis L. Compositae, comúnmente llamada Abrepuño, fueron resuspendidos con una mezcla de excipientes, Tween 80 (T80) y Carboximetilcelulosa (CMC) y administrados por medio de sonda gástrica a ratas Wistar hembras con e1 objeto de estudiar las propiedades citoprotectoras de la planta sobre las úlceras provocadas por estrés por inmersión en agua. El ensayo se llevó a cabo administrando a un grupo de cinco ratas T80 + CMC como testigo. Otros cuatro grupos, de igual número de animales, fueron tratados con residuos acuoso( a), metanólico (b), metanólico-clorofórmico( 1:1) (c) y clorofórmico (d), todos ellos resuspendidose n una mezclad e T80 + CMC. En los grupos a, c y dla prevención de úlceras fue de un 1000/om, ientras que en el grupo b se logró un78o6 (p 0,05). Los extractos metanólicos y cloroformicos, que contienen flavonoides y sesquiterpenol actonas respectivamente,serían los responsables de los efectos citoprotectores evidenciados por estos resultados

Published

2017

19. Long‐term propagule pressure overwhelms initial community determination of invader success

Author

Amanda N. Carr, David U. Hooper, and Jeffrey S. Dukes

Subjects

Centaurea solstitialis, community assembly, complementarity, dispersal modeling, disturbance, invasion paradox, Ecology, QH540-549.5

Abstract

Abstract The role of plant diversity in reducing invasions has generated decades of debate. Diverse communities might be more resistant to invasion because the communities contain resident species that are functionally similar to the invader (limiting similarity), or multiple species use the range of available resources more effectively (complementarity) than single species. However, the correlation of native and exotic diversity often reverses, becoming positive, with increasing spatial and temporal scale, in a phenomenon called the invasion paradox. We addressed two groups of hypotheses related to this paradox, broadly that (1) functional diversity and identity resist invasion initially, via complementarity or limiting similarity; and (2) disturbance and propagule pressure weaken the effects of functional diversity and identity on invader success through time. Using long‐term data from experimental serpentine grassland assemblages in California, we examined how the abundance of a high impact invader, yellow starthistle (Centaurea solstitialis), related to functional diversity, functional dissimilarity, pocket gopher disturbance, and propagule pressure. We also conducted a single‐season experiment in which we seeded disturbed and undisturbed areas and quantified invader success the following year. Neither diversity, nor dissimilarity, nor disturbance significantly impacted the success of C. solstitialis during the years of this study. Instead, propagule pressure was the single most important predictor of C. solstitialis abundance. We consolidated these findings into a novel conceptual model of invader success to illustrate how propagule input may outweigh community resistance through time, and what implications these dynamics have for the invasion paradox.

Published

2019

20. The Anticancer and Anti-inflammatory Effects of Centaurea solstitialis Extract on Human Cancer Cell Lines.

Author

ALPER, Mehlika and GÜNES, Hatice

Subjects

*CANCER cells, *CELL lines, *VASCULAR endothelial growth factors, *CENTAUREA, *CELL cycle, *TUMOR necrosis factors

Abstract

Objectives: Natural products originating from plants have been used for many years in the treatment of various diseases, including cancer. Centaurea solstitialis subsp. solstitialis is used in Turkish folk medicine. This study was the first to determine the in vitro biological effects of ethanolic extract from the flowering parts of C. solstitialis L. subsp. solstitialis collected from Mugla Province. Materials and Methods: The cytotoxic effect was evaluated against Daudi, A549, and HeLa cancer cells and one normal BEAS-2B cell line using the MTT (3-(4,5-dimethylthiazol-2-yl)-2,5- dipenyltetrazolium bromide) assay. Flow cytometric analysis and the caspase-3 activity assay were performed to detect apoptotic cell death. Angiogenic factor [vascular endothelial growth factor (VEGF)] secretion and the release of interleukin (IL)-1a, IL-6, and tumor necrosis factor (TNF)-a by cells treated with the extract were measured using enzyme-linked immunosorbent assay. Results: The extract exhibited cytotoxic effects against all the cancer cell lines used but HeLa and Daudi were the most sensitive cells, with IC50 values of 63.18 µg/mL and 69.27 µg/mL, respectively. Selective cytotoxicity was observed between the HeLa and normal BEAS-2B cell lines. The extract arrested the cell cycle at the S and G2 phases. In addition, apoptotic cell death was detected in HeLa and A549 cells. Moreover, the plant extract caused a significant decrease in VEGF secretion in A549 cells and a fluctuation in IL-1a, IL-6, and TNF-a secretion in A549 and Daudi cells. Conclusion: These observations suggest that the flowering parts of C. solstitialis may be a potential source in the development of natural drugs for the treatment of cancer and modulation of cytokine secretion. [ABSTRACT FROM AUTHOR]

Published

2019

21. Long-term propagule pressure overwhelms initial community determination of invader success.

Author

CARR, AMANDA N., HOOPER, DAVID U., and DUKES, JEFFREY S.

Subjects

BIOLOGICAL invasions, PLANT diversity, PRESSURE, CONCEPTUAL models, COMMUNITIES, CENTAUREA

Abstract

The role of plant diversity in reducing invasions has generated decades of debate. Diverse communities might be more resistant to invasion because the communities contain resident species that are functionally similar to the invader (limiting similarity), or multiple species use the range of available resources more effectively (complementarity) than single species. However, the correlation of native and exotic diversity often reverses, becoming positive, with increasing spatial and temporal scale, in a phenomenon called the invasion paradox. We addressed two groups of hypotheses related to this paradox, broadly that (1) functional diversity and identity resist invasion initially, via complementarity or limiting similarity; and (2) disturbance and propagule pressure weaken the effects of functional diversity and identity on invader success through time. Using long-term data from experimental serpentine grassland assemblages in California, we examined how the abundance of a high impact invader, yellow starthistle (Centaurea solstitialis), related to functional diversity, functional dissimilarity, pocket gopher disturbance, and propagule pressure. We also conducted a single-season experiment in which we seeded disturbed and undisturbed areas and quantified invader success the following year. Neither diversity, nor dissimilarity, nor disturbance significantly impacted the success of C. solstitialis during the years of this study. Instead, propagule pressurewas the singlemost important predictor of C. solstitialis abundance. We consolidated these findings into a novel conceptual model of invader success to illustrate how propagule input may outweigh community resistance through time, andwhat implications these dynamics have for the invasion paradox. [ABSTRACT FROM AUTHOR]

Published

2019

22. Percent infestation and seed consumption of Centaurea solstitialis L. (Asteracea: Cardueae) by Eustenopus villosus and Larinus curtus (Coleoptera: Curculionidae) in Washington, USA.

Author

Woodley, Steven E., Zamora, Benjamin A., and Coffey, Todd

Subjects

*CENTAUREA, *BIOLOGICAL control of insects, *ASTERACEAE, *CURCULIONIDAE, *BEETLES, *SEEDS

Abstract

• E. villosus and L. curtus infestation levels differ among macroclimate regions. • E. villosus and L. curtus seed consumption differ among macroclimate regions. • Winter conditions of a continental climate influence L. curtus and E. villosus. A 2-year field study (2014–2015) was conducted to determine the levels of Eustenopus villosus (Boheman) and Larinus curtus (Hochhut) infestation and seed consumption of the invasive plant Centaurea solstitialis L. (Asteraceae: Cardueae) in the steppe of southeastern Washington, USA, a marine-modified continental macroclimate. Mature terminal C. solstitialis flowerheads were collected and dissected to determine abundance of each weevil species and level of seed consumption by both species. Data were analyzed by year to assess climatic influences on insect prevalence and feeding activity. Results showed that E. villosus infested 34.2% of the flowerheads in 2014 and 29.9% in 2015. Larinus curtus infested 10.9% in 2014 and 13.7% in 2015. In 2014, 5.8% of the flowerheads were infested by at least one E. villosus and one L. curtus in the same flowerhead and 9.7% in 2015. Eustenopus villosus consumed a higher percentage of total seed production per flowerhead of C. solstitialis than L. curtus (71.4% and 59.8, respectively). Infestation levels of E. villosus and L. curtus in southeastern Washington are lower than in the Mediterranean macroclimates in California and northern Greece. Mean seed consumption was also lower in southeastern Washington compared to northern Greece, with no data specific to California. Lower levels of infestation and seed consumption in southeastern Washington suggests the efficacy of the insect biological controls may be less in more continental macroclimates than in climates with Mediterranean influences. [ABSTRACT FROM AUTHOR]

Published

2019

23. Expansion history and environmental suitability shape effective population size in a plant invasion.

Author

Braasch, Joseph, Barker, Brittany S., and Dlugosch, Katrina M.

Subjects

*PLANT invasions, *PLANT populations, *PLANT size, *BIOLOGICAL invasions, *CENSUS, *GENETIC drift

Abstract

The margins of an expanding range are predicted to be challenging environments for adaptation. Marginal populations should often experience low effective population sizes (Ne) where genetic drift is high due to demographic expansion and/or census population size is low due to unfavourable environmental conditions. Nevertheless, invasive species demonstrate increasing evidence of rapid evolution and potential adaptation to novel environments encountered during colonization, calling into question whether significant reductions in Ne are realized during range expansions in nature. Here we report one of the first empirical tests of the joint effects of expansion dynamics and environment on effective population size variation during invasive range expansion. We estimate contemporary values of Ne using rates of linkage disequilibrium among genome‐wide markers within introduced populations of the highly invasive plant Centaurea solstitialis (yellow starthistle) in North America (California, USA), and within native Eurasian populations. As predicted, we find that Ne within the invaded range is positively correlated with both expansion history (time since founding) and habitat quality (abiotic climate). History and climate had independent additive effects with similar effect sizes, indicating an important role for both factors in this invasion. These results support theoretical expectations for the population genetics of range expansion, though whether these processes can ultimately arrest the spread of an invasive species remains an unanswered question. [ABSTRACT FROM AUTHOR]

Published

2019

24. Evidence for evolution of increased competitive ability for invasive Centaurea solstitialis, but not for naturalized C. calcitrapa.

Author

Montesinos, Daniel, Graebner, Ryan C., and Callaway, Ragan M.

Abstract

Congeneric species with the same native and non-native ranges, but exhibiting different invasiveness, provide opportunities to assess the relative importance of factors contributing to successful invasions. For example, comparing the competitive ability of such congeners against other species from the native and non-native regions of invasive species can provide insight into the role of evolutionary experience with different competitors. We selected two congeneric Centaurea species with overlapping native and non-native ranges but with strikingly different invasive success, Centaurea solstitialis and C. calcitrapa, and conducted experiments with populations from each region using a suite of different native grass species from each region. When grown with Spanish grass species, competitive responses were 32% stronger for C. calcitrapa and 30% stronger for C. solstitialis, than when in competition with grasses native to California. Centaurea solstitialis from California had 66% higher competitive effects on grasses, all species considered together, than Spanish C. solstitialis; whereas the competitive effects of C. calcitrapa on grasses were not significantly different between C. calcitrapa ranges. Our results are consistent with the prediction that the evolution of increased competitive ability (EICA) might contribute to the devastating success of C. solstitialis in California, and that its absence might contribute to the modest naturalization of the non-invasive C. calcitrapa. Escape from the strong competitive effects and responses of grasses from Spain may also contribute to invasive success in California. Our results suggest that studies of EICA should be based on competitive tests, since biomass alone is not always a good predictor of competitive ability. [ABSTRACT FROM AUTHOR]

Published

2019

25. Site conditions determine a key native plant's contribution to invasion resistance in grasslands.

Author

Hulvey, Kristin B. and Teller, Brittany J.

Subjects

*GRASSLAND plants, *MICROBIAL communities, *HAYFIELD tarweed, *SPECIES diversity, ENVIRONMENTAL aspects, GRASSLAND environmental conditions

Abstract

Abstract: Many plant invasion studies in grasslands suggest that resident plants that share functional traits with invaders can reduce invasion by competing for limiting resources. However, since invasion studies often occur in highly controlled plots or microcosms, it is unclear how heterogeneous site conditions alter competitive interactions under realistic scenarios. To explore how landscape heterogeneity affects biotic resistance provided by competitive resident plants, we conducted a field‐based experiment across four sites in California grasslands. Plots contained naturally occurring populations of native Hemizonia congesta, but differed in other characteristics, including litter cover, annual grass cover, soil moisture, and species richness. We invaded plots with the functionally similar nonnative Centaurea solstitalis (yellow starthistle) and, at one site, supplemented one‐half of the established plots with water to test the effects of increasing a limiting resource. As in simplified plots and microcosms, increasing H. congesta abundance reduced starthistle biomass by competing for limited soil moisture, but only in plots with high starthistle germination. We conclude that higher abundances of native H. congesta can reduce starthistle invasion in heterogeneous grasslands, but competition is also affected by both abiotic (soil moisture) and biotic (starthistle germination number) conditions that vary across sites. [ABSTRACT FROM AUTHOR]

Published

2018

26. Seeding plants for long-term multiple ecosystem service goals.

Author

Eastburn, D.J., Roche, Leslie M., Doran, Morgan P., Blake, Philip R., Bouril, Chip S., Gamble, George, and Gornish, Elise S.

Subjects

*ECOSYSTEMS, *SUSTAINABILITY, *URBAN growth, *SAVANNAS, *GRASSLAND restoration, *JOINTED goatgrass, *YELLOW starthistle

Abstract

The historical management of agroecological systems, such as California's rangelands, have received criticism for a singular focus on agricultural production goals, while society has shifting expectations to the supply of multiple ecosystem services from these working landscapes. The sustainability and the multiple benefits derived from these complex social-ecological systems is increasingly threatened by weed invasion, extreme disturbance, urban development, and the impacts of a rapidly changing and increasingly variable climate. California's grasslands, oak savannas, and oak woodlands are among the most invaded ecosystems in the world. Weed eradication efforts are rarely combined with seeding on these landscapes despite support for the inclusion of the practice in a weed management program. Depending on seed mix choice, cost and long-term uncertainty, especially for native seed, is an impediment to adoption by land managers. We investigated four seeding mixes (forage annual, native perennial, exotic perennial, and exotic-native perennial) to evaluate how these treatments resist reinvasion and support the delivery of simultaneous multiple ecosystem services (invasion resistance, native richness, nitrogen fixing plants, pollinator food sources, plant community diversity, forage quality, and productivity). We found the increase of exotic and native perennial cover will drive resistance to an invading weedy summer flowering forb Centaurea solstitialis but provides a mixed response to resisting invasive annual grasses. The resistance to invasion is coupled with little tradeoff in forage productivity and quality and gains in plant diversity and native cover. [ABSTRACT FROM AUTHOR]

Published

2018

27. Invasive Plants: Their Role in Species Extinctions and Economic Losses to Agriculture in the USA

Author

Pimentel, David, Drake, James A., editor, and Inderjit, editor

Published

2009

28. Competition does not come at the expense of colonization in seed morphs with increased size and dispersal.

Author

Miguel, M. Florencia, Lortie, Christopher J., Callaway, Ragan M., and Hierro, José L.

Abstract

PREMISE OF THE STUDY: Seed-level trade-off s of heterocarpic species remain poorly understood. We propose that seedlings emerging from seeds with a permanent pappus (dispersing seeds) are stronger competitors than those emerging from seeds without a pappus (nondispersing seeds) because dispersing seeds are larger and germinate faster than nondispersing seeds in Centaurea solstitialis . METHODS: We conducted a competition experiment with both seed morphs, in which we recorded emergence rate and proportion, estimated seed dispersal by wind (anemochory) and by mammals (exozoochory), and measured size and abundance of seed morphs. KEY RESULTS: We found that seedlings from pappus seeds had greater competitive abilities than those from non-pappus seeds. Similarly, pappus seedlings emerged at much faster rates and larger proportions than non-pappus seedlings. Pappus seeds were larger, were more numerous, and displayed improved exozoochory compared to non-pappus seeds. Anemochory was poor for both seed morphs. CONCLUSIONS: We found support for our hypothesis, raising in turn the possibility that competition and colonization are positively associated in seed morphs of heterocarpic species with enhanced exozoochory of larger seeds. These findings are not consistent with those from heterocarpic species with enhanced anemochory of smaller seeds or slower-germinating seeds. Our results additionally suggest that pappus and non-pappus seeds of C. solstitialis display a task-division strategy in which pappus morphs colonize and preempt unoccupied sites through improved dispersal and fast and large emergence of seedlings with increased competitive abilities, whereas non-pappus morphs promote site persistence through delayed germination and dormancy. This strategy may contribute to the success of C. solstitialis in highly variable environments. [ABSTRACT FROM AUTHOR]

Published

2017

29. Environmental Variables Influence the Association of Eustenopus villosus and Larinus curtus (Coleoptera:Curculionidae) Adults With Different Growth Stages of the Invasive Thistle Centaurea solstitialis (Asteraceae:Cardueae) in Washington State.

Author

Woodley, S. E., Zamora, B. A., and Coffey, T.

Subjects

YELLOW starthistle, SOIL temperature, SOIL moisture, PHENOLOGY, CURCULIONIDAE

Abstract

A 2-yr (2014-2015) field study in eastern Washington State quantified the effect of environmental factors on the overwintered Eustenopus villosus (Boheman) and Larinus curtus (Hochhut) adults in relation to phenology of Centaurea solstitialis L. (Asteraceae: Cardueae), the feeding and breeding host for these two weevil biocontrol agents. We recorded in the study area: ambient and soil temperatures, soil moisture, percent cover and developmental stage of C. solstitialis, and presence of adults of each weevil species. Sampling took place from early May to mid-August. Weevil activity for both species in both years was segregated into three phases: 1 - a pre-appearance phase in which neither species was detected, 2 - appearance and increase in frequency, and 3 - decrease in frequency. Eustenopus villosus increase in frequency was most strongly associated with warming temperatures both years. Larinus curtus increase in frequency in 2014 was most associated with increasing C. solstitialis cover and in 2015 with warming temperatures and drying soils. In both years, both weevil species' decline in frequency was likely due to the advancing C. solstitialis phenology. This pattern indicates that the appearance and increase in frequency of the overwintered E. villosus and L. curtus adults was likely a function of warming temperatures. Both species' decline in frequency was likely a function of the weevils completing their life cycle in synchrony with the phenological advancement of C. solstitialis and decline of abundant breeding and foraging sites (buds and flowers). [ABSTRACT FROM AUTHOR]

Published

2017

30. Separating sources of density-dependent and density-independent establishment limitation in invading species.

Author

Spotswood, Erica N., Mariotte, Pierre, Farrer, Emily C., Nichols, Liana, Suding, Katharine N., and Phillips, Ryan

Subjects

*INVASIVE plants, *PLANT spacing, *PLANT species diversity, *BROMEGRASSES, *CARDUUS, *YELLOW starthistle, *SOIL moisture

Abstract

Successful colonization by invasive species depends on both the ability to disperse seeds to a site and an ability to establish once seeds have arrived. While seed and establishment limitation are known to jointly influence colonization, decomposing establishment limitation into density-dependent and density-independent components has remained challenging., Here, we couple theoretical models of recruitment with a multispecies invasion experiment conducted within a natural gradient of soil moisture and productivity to assess how variation in establishment limitation shapes outcomes for invasion., Recruitment was affected by both density-dependent and density-independent sources of establishment limitation in three of four species. Soil moisture stress and productivity both increased density-independent mortality in one species, whereas density-dependent mortality increased in locations with favourable soil moisture., Synthesis. Successful establishment of invading species can be limited by both density-dependent and density-independent mechanisms. In particular, the strength of density-independent limitation may depend on natural gradients in abiotic factors. The varying strengths of establishment limitation suggest that patterns of invasion are likely to be uneven both in space and in time. Understanding how intraspecific competitive constraints and density-independent limitation vary with abiotic gradients can assist with predicting when invasions are likely to occur, information that can be harnessed in the development of better methods for control. [ABSTRACT FROM AUTHOR]

Published

2017

31. Performance of one-class classifiers for invasive species mapping using airborne imaging spectroscopy.

Author

Skowronek, Sandra, Asner, Gregory P., and Feilhauer, Hannes

Subjects

REMOTE sensing, PLANT species, FLOWERING of plants, HYPERSPECTRAL imaging systems, PHALARIS, CENTAUREA

Abstract

Most remote sensing approaches for mapping invasive plant species focus on species in a prominent phenological stage, such as during flowering, and do not systematically evaluate the performance for mapping lower cover fractions. In this study, we used airborne imaging spectroscopy (also known as hyperspectral imaging) to detect the invasive grass Phalaris aquatica and the invasive herb Centaurea solstitialis in a pre-flowering stage in the Jasper Ridge Biological Preserve, California, and compared the performance of three different one-class classifiers: Maxent, biased support vector machines and boosted regression trees. We collected presence data for C. solstitialis and P. aquatica to calibrate each approach and additional presence-absence data to validate model performance on 3 m × 3 m plots. The imaging spectroscopy data were acquired using the Carnegie Airborne Observatory Visible-to-Shortwave Infrared (VSWIR) imaging spectrometer (400–2500 nm range) with a pixel size of 1 m × 1 m. The resulting overall accuracies were 72–74% for C. solstitialis , and 83–88% for P. aquatica . For both species, the overall performance was slightly better for Maxent and BRT than for biased SVM. The detection rates for low cover plots were considerably higher for C. solstitialis than for P. aquatica . The models relied on different areas of the reflectance spectrum, but still produced the same general pattern of predicted species occurrences. We conclude that the different one-class classifiers allow for the detection and monitoring of target species with similar success rates. [ABSTRACT FROM AUTHOR]

Published

2017

32. Effects of mustard oil on germination and growth of yellow starthistle (Centaurea solstitialis L.)

Author

Uygur, Sibel

Published

2011

33. Plant invasion depresses native species richness, but control of invasive species does little to restore it

Author

Scott Jennings, Sheherezade N. Adams, and Nils Warnock

Subjects

0106 biological sciences, Ecology, biology, fungi, food and beverages, Introduced species, Plant Science, Native plant, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Invasive species, Centaurea solstitialis, Species richness, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany

Abstract

Invasive plants are associated with the decline of native plant richness, but the impact of removal of invasives on native plant richness is often unknown. We investigated whether the presence of t...

Published

2020

34. Effect of the invasive exotic herb Centaurea solstitialis on plant communities of a semiarid ecosystem

Author

Lohengrin A. Cavieres, Ramiro O. Bustamante, and Pablo I. Becerra

Subjects

0106 biological sciences, food.ingredient, Ecology, biology, Plant community, Plant Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Invasive species, Centaurea solstitialis, food, Herb, Ecosystem, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany

Abstract

The effects of many invasive species on invaded communities are still scarcely known. Centaurea solstitialis is an invasive Eurasian herb, widely distributed around the world, but its effects on re...

Published

2020

35. Inhibitory effect of aqueous extracts of Centaurea solstitialis subsp. schouwii on seed germination and growth of Sulla coronaria

Author

Zoubeir Béjaoui, Mejda Abassi, Chadlia Hachani, and Mohammed S. Lamhamedi

Subjects

0106 biological sciences, Ecology, biology, Biodiversity, food and beverages, 04 agricultural and veterinary sciences, Plant Science, biology.organism_classification, 01 natural sciences, Centaurea solstitialis, Germination, Botany, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Inhibitory effect, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany

Abstract

Biodiversity has been confronted with anthropogenic threats and several natural threats such as biological invasions. The success of these invasions involves phytotoxic products released by invasive plants that can exhibit allelopathic effects on target species. Thus, aqueous extracts from different parts of the Mediterranean yellow star-thistle [Centaurea solstitialis subsp. schouwii (DC.) Gugler], were tested for their allelopathic effects on seed germination and seedling growth of Sulla coronaria (L.). Bioassays were conducted in vitro to test the effects of the aqueous extracts of shoot, basal and root parts of C. solstitialis subsp. schouwii at two different concentrations (50 g·L−1 and 10 g·L−1). The concentrations of total polyphenols, flavonoids, and tannins of the extracts were also evaluated. Our results showed inhibitory effects on the germination and seedling growth of S. coronaria seedlings, particularly with the extract form the basal part, reaching 84%. This study confirms the linear relationships between the allelopathic effects of C. solstitialis subsp. schouwii and the polyphenol and flavonoid contents. However, further experiments are needed under field conditions to confirm the results obtained under laboratory conditions.

Published

2020

36. Bridging the Research-Implementation Gap in Weed Management on California Rangelands

Author

Leslie M. Roche, Yue M. Li, and Elise S. Gornish

Subjects

0106 biological sciences, Ecology, biology, Agroforestry, 04 agricultural and veterinary sciences, Management, Monitoring, Policy and Law, Weed control, biology.organism_classification, 01 natural sciences, Treatment efficacy, Centaurea solstitialis, 010601 ecology, Adaptive management, Geography, Ecoregion, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Animal Science and Zoology, Rangeland, Temporal scales, Weed, Nature and Landscape Conservation

Abstract

Substantial gaps exist between weed management researchers and practitioners with respect to prompt exchange of knowledge between the two groups, hindering the implementation of effective management to solve weed problems. We conducted a survey between 2016 and 2018 among weed management practitioners (n = 259) across diverse ecoregions on California rangelands and collected essential information from practitioners for bridging the research-implementation gap. The information included management costs, high-priority weeds, and spatial scales and temporal changes in weed management. The management cost had a mean of $5.12 ha−1yr−1 with a large variance implying the uncertainty of this information. The percentage of annual budget dedicated to weed management explained about 30% of the variation in this cost. Moreover, this annual per-unit area cost decreased with increasing management area. The average size of rangeland managed by survey respondents was 1 256 ha. The top three high-priority weeds statewide were yellow starthistle (Centaurea solstitialis), medusahead (Taeniatherum caput-medusae), and all thistles combined. Medusahead and some thistle species remained on the top list in each ecoregion. Respondents overwhelmingly (80.9%) noted changes in weed problems in the past 5−10 yr, specifically citing greater weed pressure and changes in weed species. A significantly higher proportion of respondents from agencies and private businesses reported changes in weed problems than those from universities and nongovernmental organizations (NGOs), further underscoring the gap between practitioners and researchers. A majority of the respondents (75.3%) indicated the record-setting California drought had a negative effect on weed management, reducing treatment efficacy and favoring weeds over desirable species. Overall, our findings illustrate increasing challenges in weed management on California rangeland. These challenges call for adaptive management-research programs to increase cost-effectiveness of weed management and to swiftly and effectively respond to dynamic weed problems on large spatial and long temporal scales.

Published

2020

37. Nuevos hábitats, nuevas amenazas: Centaurea x kleinii (C. moncktonii x C. solstitialis), nueva especie híbrida entre dos malas hierbas invasoras

Author

C. T. Roché and A. Susanna

Subjects

centaurea moncktonii, centaurea solstitialis, hibridación, invasoras, oregón, hibridació, invasores, oregon, Biology (General), QH301-705.5, Botany, QK1-989

Abstract

La alteración antrópica del hábitat da paso a la cohabitación de especies importadas que nunca coexistirían en su ámbito natural. Centaurea solstitialis y Centaurea moncktonii son dos especies invasoras cuyas distribuciones en Eurasia apenas se solapan. Después de su introducción en Norteamérica, la expansión invasiva condujo a distribuciones superpuestas. Aunque los requerimientos ambientales de las dos especies son distintos, la proximidad de hábitats diversos (dentro del alcance de los polinizadores) ha dado lugar a varios casos de hibridación natural entre ambas. El cruce resultante entre dos especies lejanamente emparentadas es una planta perenne estéril. Muchos de los caracteres del híbrido son intermedios entre sus especies parentales, pero morfológicamente es más parecida a Centaurea moncktonii (probablemente la especie materna y a su vez ya de origen híbrido). La nueva especie podría convertirse en una mala hierba invasora gracias a su reproducción vegetativa. La que suponemos especie materna, a la cual el híbrido se acerca morfológicamente y puede que fisiológicamente, es una mala hierba rastrera bien conocida de las praderas alpinas en toda Europa. [ct] L’alteració antròpica de l’hàbitat dóna pas a la cohabitació d’espècies importades que mai coexistirien en el seu àmbit natural. Centaurea solstitialis i Centaurea moncktonii són dues espècies invasores les distribucions de les quals a Euràsia gairebé no se solapen. Després de la seva introducció a Amèrica del Nord, l’expansió invasiva va portar a distribucions superposades. Malgrat que els requeriments ambientals de les dues espècies són diferents, la proximitat d’hàbitats diversos (dins de l’abast dels pol·linitzadors) ha donat lloc a diversos casos d’hibridació natural entre ambdues. L’ encreuament resultant entre dues espècies, llunyanament emparentades, és una planta perenne estèril. Molts dels caràcters de l’híbrid són intermitjos entre les seves espècies parentals, però morfològicament és més semblant a Centaurea moncktonii (probablement l’espècie materna, i al seu torn també d’origen híbrid). La nova espècie podria convertir-se en una mala herba invasora gràcies a la seva reproducció vegetativa. La que suposem espècie materna, a la qual l’híbrid s’acosta morfològicament i potser fisiològicament, és una mala herba prostrada ben coneguda de les pastures alpines a tota Europa.

Published

2010

38. Reduced mycorrhizal responsiveness leads to increased competitive tolerance in an invasive exotic plant.

Author

Waller, Lauren P., Callaway, Ragan M., Klironomos, John N., Ortega, Yvette K., Maron, John L., and Shefferson, Richard

Subjects

*VESICULAR-arbuscular mycorrhizas, *INTRODUCED plants, *SOIL biology, *YELLOW starthistle, *PLANT growth

Abstract

Arbuscular mycorrhizal ( AM) fungi can exert a powerful influence on the outcome of plant-plant competition. Since some exotic plants interact differently with soil biota such as AM fungi in their new range, range-based shifts in AM responsiveness could shift competitive interactions between exotic and resident plants, although this remains poorly studied., We explored whether genotypes of the annual exotic Centaurea solstitialis (yellow starthistle), collected from populations across the native and non-native ranges, differed in responsiveness to AM fungi in the introduced range and whether range-based differences in mycorrhizal responsiveness affected how strongly C. solstitialis tolerated competition with the North American native bunchgrass, Stipa pulchra., Grown alone, C. solstitialis from both ranges derived only weak benefits from AM fungi. However, association with AM fungi was costly to plants when grown in competition with S. pulchra. The magnitude of the suppressive effect of AM fungi was greater for genotypes from native versus introduced populations., Synthesis. Many exotic invasive species are known to associate weakly with AM fungi, which may be beneficial in disturbed habitats where competition for resources is low. Our results indicate that reduced mycorrhizal associations may also benefit invaders in a competitive environment. Centaurea solstitialis were more strongly suppressed by established S. pulchra plants in the presence versus absence of AM fungi, but exotic genotypes were less suppressed than native genotypes. This suggests that AM fungi may contribute to invasion resistance in established native communities, but range-based shifts in the way exotic genotypes respond to AM fungal partners may counter such biotic resistance. [ABSTRACT FROM AUTHOR]

Published

2016

39. Modeling the relative importance of ecological factors in exotic invasion: The origin of competitors matters, but disturbance in the non-native range tips the balance.

Author

Xiao, Sa, Callaway, Ragan M., Graebner, Ryan, Hierro, Jose L., and Montesinos, Daniel

Subjects

*YELLOW starthistle, *BIOGEOGRAPHY, *INTRODUCED plants, *ECOLOGICAL disturbances, *CENTAUREA, *EMPIRICAL research

Abstract

Successful exotic plant invasions are likely to be caused by multiple, non-mutually exclusive mechanisms, and it is exceptionally difficult to weight the relative importance of these mechanisms identified in different experiments. To this end we used individual-based models to explore how integrating empirical results from experiments might help to elucidate the relative importance of seed origin, biogeographic differences in competitive outcomes, and disturbance in exotic plant invasion. We integrated results from (1) competition experiments between Centaurea solstitialis derived from populations in the non-native range (California), the native range (Spain), and co-occurring native species from both ranges, (2) seed production by Centaurea plants from the different ranges grown in a common-garden environment, and (3) responses to disturbance experiments with plants from different native and non-native ranges. Californian C. solstitialis reached slightly higher abundances than its Spanish counterparts in every scenario, mainly due to higher seed production of Californians than their Spanish conspecifics, indicating the potential importance of evolutionary changes in the non-native range. In the absence of disturbance, grass species native to Europe showed stronger competitive effects on C. solstitialis than grass species native to North America, suggesting that release from competition in the native range may have some explanatory power for successful C. solstitialis invasion. However, the intensity of competition depended on the disturbance regime used in models. When intense disturbance was incorporated into the model, C. solstitialis was favored, with plants from Californian seed sources reaching higher densities than plants from Spanish seed sources. Our results are consistent with the idea that disproportional positive responses to disturbance in California, relative to those in the invader's native range of Spain, may be an important factor in the dominance of C. solstitialis in its non-native ranges. It is not clear why disturbance would have more beneficial effects on the invader in its non-native range, but the powerful effects of disturbance appear to interact in subtle ways with biogeographic differences in evolutionary trends, competitive intensities, life histories, and reproductive rates. [ABSTRACT FROM AUTHOR]

Published

2016

40. Yellow starthistle continues its spread in California

Author

Michael J. Pitcairn, Steve Schoenig, Rosie Yacoub, and John Gendron

Subjects

California, Centaurea solstitialis, introduced plants, invasive species, weeds, Agriculture

Abstract

Yellow starthistle is an exotic invasive weed that is estimated to infest over 14 million acres in California and is considered the most common exotic weed statewide. We reviewed several previous studies and conducted a township survey to provide an up-to-date analysis of the weed's rapid spread throughout the state. A county-by-county comparison between 1985 and 2002 showed increases in yellow starthistle in all regions of the state except for northeast California and the southeast desert region. Currently, most infestations occur in Northern California, but future invasions and spread will likely occur in the coastal counties of Southern California.

Published

2006

41. Trait variation, trade-offs, and attributes may contribute to colonization and range expansion of a globally distributed weed

Author

Jose Luis Hierro and Özkan Eren

Subjects

Range (biology), Ecology, Reproduction, food and beverages, Plant Weeds, Centaurea, Plant Science, Phenotypic trait, Biology, biology.organism_classification, Centaurea solstitialis, Phenotype, Abundance (ecology), Seeds, Genetics, Trait, Biological dispersal, Colonization, Weed, Ecology, Evolution, Behavior and Systematics

Abstract

PREMISE Trait variation, trade-offs, and attributes can facilitate colonization and range expansion. We explored how those trait features compare between ancestral and nonnative populations of the globally distributed weed Centaurea solstitialis. METHODS We measured traits related to survival, size, reproduction, and dispersal in field sampling following major environmental gradients; that of elevation in Anatolia (ancestral range) and that of precipitation in Argentina (nonnative range). We also estimated abundance. RESULTS We found that overall variation in traits in ancestral populations was similar to that in nonnative populations. Only one trait-seed mass-displayed greater variation in ancestral than nonnative populations; coincidentally, seed mass has been shown to track global range expansion of C. solstitialis. Traits displayed several associations, among which seed mass and number were positively related in both ranges. Many traits varied with elevation in the ancestral range, whereas none varied with precipitation in the nonnative one. Interestingly, most traits varying with elevation within the ancestral range also displayed differences in attributes between ancestral and nonnative ranges. Unexpectedly, ancestral plants were more fecund than nonnative plants, but density was greater in the nonnative than ancestral range, indicating that C. solstitialis survives at larger proportions in the nonnative than ancestral range. CONCLUSIONS Our results suggest that maintaining levels of trait variation in nonnative populations comparable to those in ancestral populations, avoiding trait trade-offs, and developing differences in trait attributes between ranges can play a major role in the success of many weeds in novel environments.

Published

2021

42. Topical Application of Synthetic Hormones Terminated Reproductive Diapause of a Univoltine Weed Biological Control Agent

Author

Lincoln Smith and Ikju Park

Subjects

Science, media_common.quotation_subject, Biological pest control, Methoprene, Insect, Diapause, Article, yellow starthistle, Centaurea solstitialis, Toxicology, chemistry.chemical_compound, media_common, biology, Ceratapion basicorne, Weevil, Voltinism, biology.organism_classification, 20-hydroxyecdysone (20E), chemistry, Insect Science, methoprene, Weed

Abstract

Simple Summary Yellow starthistle (Centaurea solstitialis) is an invasive annual plant that has infested multi-million ha in the western United States, causing multi-billion dollars of losses and management costs. The rosette weevil (Ceratapion basicorne) has recently been approved for biological control of this weed. However, this weevil reproduces only once a year, which hinders mass-rearing for release. Here, we tested whether insect hormones can break the reproductive diapause of female weevils. We found that applying two insect hormones, 20E and methoprene, can consistently terminate diapause of female weevils to enable them to lay eggs. Thus, topically applying insect hormones could be used to induce females to lay eggs at any time of year, which would permit rearing more than one generation per year. This could greatly increase the number of weevils produced per year in a mass-rearing program to accelerate the release of rosette weevils to help suppress yellow starthistle in the United States. These insects would revert to having one generation per year after release in synchrony with their host plant. Abstract Classical biological control is an important method for controlling invasive alien weeds. Univoltine insects can be highly effective biological control agents of annual weeds because they are well synchronized with their host plant. However, having only one generation per year makes it difficult and slow to multiply them in the laboratory for initial field releases. If it were possible to terminate reproductive diapause early, then we could rear multiple generations per year, which would greatly increase annual production. We used a recently approved biocontrol agent, Ceratapion basicorne (a univoltine weevil), for yellow starthistle (Centaurea solstitialis) as a model system to study the use of two insect hormones, 20-hydroxyecdysone (20E) and methoprene, to terminate reproductive diapause. Methoprene (1 μg applied topically) terminated reproductive diapause of female weevils, whereas doses of 0.0, 0.01 and 0.1 μg did not. The combination of methoprene and 20E had a stronger effect and induced an increase in eggs (1.51 ± 0.16 eggs/day, mean ± SE) compared with a methoprene only group (1.00 ± 0.13 eggs/day), and a control group (0.21 ± 0.04 eggs/day). Thus, topical application of these hormones should enable us to rear the weevil out of its normal season and produce more than one generation per year, which will increase productivity of mass-rearing it for field release. Once released in the field, the insect would continue as a univoltine agent that is well-synchronized with its host plant.

Published

2021

43. Percent infestation and seed consumption of Centaurea solstitialis L. (Asteracea: Cardueae) by Eustenopus villosus and Larinus curtus (Coleoptera: Curculionidae) in Washington, USA

Author

Steven E. Woodley, Todd Coffey, and Benjamin A. Zamora

Subjects

biology, Weevil, Biological pest control, biology.organism_classification, medicine.disease_cause, Invasive species, Centaurea solstitialis, Agronomy, Insect Science, Curculionidae, parasitic diseases, Infestation, medicine, Eustenopus villosus, Agronomy and Crop Science, Larinus curtus

Abstract

A 2-year field study (2014–2015) was conducted to determine the levels of Eustenopus villosus (Boheman) and Larinus curtus (Hochhut) infestation and seed consumption of the invasive plant Centaurea solstitialis L. (Asteraceae: Cardueae) in the steppe of southeastern Washington, USA, a marine-modified continental macroclimate. Mature terminal C. solstitialis flowerheads were collected and dissected to determine abundance of each weevil species and level of seed consumption by both species. Data were analyzed by year to assess climatic influences on insect prevalence and feeding activity. Results showed that E. villosus infested 34.2% of the flowerheads in 2014 and 29.9% in 2015. Larinus curtus infested 10.9% in 2014 and 13.7% in 2015. In 2014, 5.8% of the flowerheads were infested by at least one E. villosus and one L. curtus in the same flowerhead and 9.7% in 2015. Eustenopus villosus consumed a higher percentage of total seed production per flowerhead of C. solstitialis than L. curtus (71.4% and 59.8, respectively). Infestation levels of E. villosus and L. curtus in southeastern Washington are lower than in the Mediterranean macroclimates in California and northern Greece. Mean seed consumption was also lower in southeastern Washington compared to northern Greece, with no data specific to California. Lower levels of infestation and seed consumption in southeastern Washington suggests the efficacy of the insect biological controls may be less in more continental macroclimates than in climates with Mediterranean influences.

Published

2019

44. Targeted Grazing for Native Forbs in Annual Grasslands

Author

Josh S. Davy and Matthew J. Rinella

Subjects

0106 biological sciences, Ecology, biology, business.industry, Biodiversity, Growing season, 04 agricultural and veterinary sciences, Management, Monitoring, Policy and Law, biology.organism_classification, 01 natural sciences, Centaurea solstitialis, 010601 ecology, Agronomy, Grazing, Hemizonia, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Forb, Animal Science and Zoology, Livestock, business, Nature and Landscape Conservation, Vinegarweed

Abstract

Targeted grazing is a promising strategy for addressing management issues in annual grasslands. We evaluated targeted cattle grazing strategies for tarweed (Hemizonia fitchii A. Gray) and vinegarweed (Trichostema lanceolatum Benth.). These native annual forbs provide biodiversity to annual grass-dominated landscapes, in addition to being important pollinator plants that discourage yellow starthistle (Centaurea solstitialis L.) invasion. However, these forbs can form dense stands that interfere with grazing. Therefore, we sought grazing strategies that promote sparse stands to maintain livestock production while supporting other ecosystem services. Treatments were 1) early grazing when dominant annual grasses were vegetative, 2) late grazing when grasses were senescing, 3) repeated grazing, and 4) a nongrazed control. These treatments were applied in 2011, 2012, and 2013. In 2012, neither tarweed nor vinegarweed were observed regardless of treatment, likely due to low water availability during their major growth period. In 2011 and 2013, grazing grasses repeatedly throughout the growing season increased tarweed to 3 − 5 plants m− 2, compared with

Published

2019

45. Conditions to Terminate Reproductive Diapause of a Univoltine Insect: Ceratapion basicorne (Coleoptera: Apionidae), a Biological Control Agent of Yellow Starthistle

Author

Lincoln Smith and Ikju Park

Subjects

Hibernation, photoperiodism, Ecology, biology, media_common.quotation_subject, Weevil, Photoperiod, Voltinism, Temperature, Insect, Diapause, biology.organism_classification, Diapause, Insect, Centaurea solstitialis, Coleoptera, Animal science, Biological Control Agents, Insect Science, Animals, Weevils, Female, Annual plant, Ecology, Evolution, Behavior and Systematics, media_common

Abstract

Ceratapion basicorne (Illiger) is a recently approved univoltine biological control agent that develops inside the rosette of yellow starthistle (Centaurea solstitialis L.), an invasive annual plant. Adult weevils normally emerge in early summer, and females are thought to be in reproductive diapause until the following spring, when they oviposit in rosettes. The long period of reproductive diapause constrains mass-rearing this weevil because only one generation per year can be produced. Determining the environmental conditions that regulate diapause termination may enable shortening diapause under laboratory conditions to increase production of adults to release. We tested three hibernating conditions (greenhouse [ambient temperature and photoperiod], glass door refrigerator [5°C and ambient photoperiod], and growth chamber [5°C and 24 h dark]) for three durations (4, 8, 11 wk). The highest proportion of females laying eggs came from the growth chamber, with 40% terminating diapause after 4 wk, 80% after 8 wk, and 95% after 11 wk of exposure. Our study demonstrates that duration of cold temperature is an important stimulus to terminate reproductive diapause of C. basicorne, and that exposure to ambient light had no effect at 5°C. However, 47% of females held at ambient greenhouse conditions, without any chilling period, completed diapause within 11 wk. Thus, a cold period can accelerate diapause development, but it is not necessary for its completion. Reducing the winter diapause period from about 6 mo to 11 wk should enable the production of multiple generations per year to increase the number of insects available to release.

Published

2021

46. Orientation behavior of predaceous ground beetle species in response to volatile emissions identified from yellow starthistle damaged by an invasive slug.

Author

Oster, Marina, Smith, Lincoln, Beck, John, Howard, Abigail, and Field, Christopher

Abstract

We investigated indirect defense in the yellow starthistle ( Centaurea solstitialis)-grey garden slug ( Deroceras reticulatum)-ground beetle ( Pterostichus melanarius and Scaphinotus interruptus) system. In this host plant/herbivore/predator system, the ground beetles are the primary predator of D. reticulatum, the dominant herbivore of the highly invasive weed, C. solstitialis. The aim of our study was to examine the behavioral responses of two species of ground beetle to olfactory stimuli emitted from yellow starthistle damaged by D. reticulatum. The beetle P. melanarius showed a significant preference for the odor of damaged yellow starthistle relative to the odor of intact plants, while S. interruptus did not. Volatiles from D. reticulatum-damaged yellow starthistle were collected and identified as trans- β-farnesene, germacrene D, bicyclogermacrene, and 1,5,9-trimethyl-1,5,9-cyclododecatriene. No quantitative relationship was observed between beetle plant choice or decision time and the level of herbivory. Similarly, there was no relationship between volatile compound relative abundance and level of herbivory, suggesting that our range of leaf damage produces either undetectable semiochemicals or no variation in volatile emission. [ABSTRACT FROM AUTHOR]

Published

2014

47. Using filter-based community assembly models to improve restoration outcomes.

Author

Hulvey, Kristin B., Aigner, Paul A., and Firn, Jennifer

Subjects

*RESTORATION ecology, *GRASSLAND restoration, *INVASIVE plants, *YELLOW starthistle, *COMPETITION (Biology), *PLANT litter, *SOWING, ENVIRONMENTAL protection planning

Abstract

Ecological filter models derived from community assembly theory can inform restoration planning by highlighting management actions most likely to affect community composition. Despite growing interest in these models, many restoration studies solely manipulate a single assembly filter - the biotic filter by altering interspecific competition - while ignoring abiotic and dispersal filters that may also influence restoration success., To examine how manipulating all three assembly filters (biotic, abiotic, dispersal) affected restoration in an annual-type grassland, we seeded native forbs from the same functional group as a target invader to increase biotic resistance to invasion (biotic filter), cut standing biomass and either removed it or returned it to plots as litter to alter light conditions (abiotic filter), and added native forbs at different seeding rates to alter density of establishing native populations (dispersal filter). We measured grassland restoration success by recording native species and invader cover in plots., The addition of native species with phenological and morphological traits similar to the target invader reduced invasion and increased native populations, but only in litter-free plots when high densities of native seed were added., Seeding two species with functional traits similar to the invader was more effective for achieving restoration goals than seeding just one functionally similar species. As such, trait differences among restoration species, even species belonging to the same functional group, may increase biotic resistance to invasion in restored communities., Litter removal altered native-invader interactions. When litter was left on the plots, added natives did not reduce invader cover. However, when litter was removed, added natives led to declines in invader cover., Increasing native seeding rates led to larger native populations and increased invasion resistance., Synthesis and applications. In this study, simultaneously manipulating biotic, abiotic and dispersal filters was necessary to optimize grassland restoration outcomes. In particular, the biotic filter only contributed to successful restoration outcomes under abiotic and dispersal conditions that were created through management actions specifically targeting these two additional filters. Restoration planning based on filter models should incorporate actions that target all three assembly filters, rather than solely focusing on the biotic filter. [ABSTRACT FROM AUTHOR]

Published

2014

48. Extraction and characterization of cellulosic fiber from Centaurea solstitialis for composites

Author

Gonca Balci Kilic, Serhan Köktaş, Yasemin Seki, Ramazan Dalmis, and O. Yasin Keskin

Subjects

Thermogravimetric analysis, Materials science, Polymers and Plastics, biology, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, biology.organism_classification, 01 natural sciences, 0104 chemical sciences, Centaurea solstitialis, Cellulose fiber, Crystallinity, Ultimate tensile strength, Fiber, Composite material, 0210 nano-technology, Natural fiber, Tensile testing

Abstract

With increasing ecological awareness, researchers around the world seek to make composites reinforced with more eco-friendly natural fibers. In this study, Centaurea solstitialis (yellow star thistle) fibers were characterized as a potential natural fiber reinforcement for green composites. Generally, Centaurea solstitialis plants are undesirable because of their detrimental effect on other plants. In this respect, they are generally considered economically worthless in terms of the economical aspect. From this point of view, characterizing Centaurea solstitialis and using them as a natural fiber reinforcement material can be more appropriate in terms of waste management. To characterize the Centaurea solstitialis fibers, Scanning Electron Microscopy, Fourier Transform Infrared Spectroscopy, Thermogravimetric Analysis, X-ray Photoelectron Spectroscopy, X-Ray Diffraction Analysis, single fiber tensile test, determinations of density and chemical composition were performed. Centaurea solstitialis fibers have 11.2% hemicellulose and 57.20% cellulose content. The crystallinity index and density of fibers were determined as 71.43% and 1.37 g/cm3, respectively. Also, fibers exhibited relatively high tensile strength with 111.85 ± 24.97 MPa and Young’s modulus with 3.41 ± 0.62 GPa. The thermal resistance temperature of Centaurea solstitialis fibers was found as 273 °C. It is suggested that Centaurea solstitialis fiber is a suitable reinforcement candidate for composites with low density, low cost, abundancy and relatively high tensile strength.

Published

2020

49. Soil origin corresponds with variation in growth of an invasive Centaurea, but not of non-invasive congeners

Author

Ragan M. Callaway and Daniel Montesinos

Subjects

Biomass (ecology), biology, Range (biology), Ecology, Biogeography, Soil biology, food and beverages, Introduced species, Centaurea, biology.organism_classification, complex mixtures, Centaurea solstitialis, Soil, Spain, Soil water, Biomass, Introduced Species, Ecology, Evolution, Behavior and Systematics, Soil Microbiology

Abstract

Why only a small proportion of exotic species become invasive is an unresolved question. Escape from the negative effects of soil biota in the native range can be important for the success of many invasives, but comparative effects of soil biota on less successful exotic species are poorly understood. Studies of other mechanisms suggest that such comparisons might be fruitful. Seeds of three closely related Centaurea species with overlapping distributions in both their native range of Spain and their nonnative range of California were grown to maturity in pots to obtain an F1 generation of full sibling seeds with reduced maternal effects. Full sibling F1 seeds from both ranges were subsequently grown in pots with inoculations of soil from either the native or nonnative ranges in a fully orthogonal factorial design. We then compared plant biomass among species, regions, and soil sources. Our results indicate that escape from soil pathogens may unleash the highly invasive Centaurea solstitialis, which was suppressed by native Spanish soils but not by soils from California. In contrast, the two non-invasive Centaurea species grew the same on all soils. These results add unprecedented phylogenetically controlled insight into why some species invade and others do not.

Published

2020

50. Characterization of Chemical Compounds and Antioxidant Activity of Centaurea solstitialis sp. schouwii (DC.) Q. et S. (Asteraceae)

Author

Fadila Benayache, Djamel Sarri, Francisco León, Samir Benayache, Paul Mosset, Ignacio Brouard, and Lamia Aliouche

Subjects

Flavonoids, Thesaurus (information retrieval), Total phenolic, biology, Chemistry, 030231 tropical medicine, 010401 analytical chemistry, Asteraceae, biology.organism_classification, 01 natural sciences, Centaurea solstitialis, Hydrocarbons, 0104 chemical sciences, 3. Good health, 03 medical and health sciences, 0302 clinical medicine, Antioxidant activity, Botany, Flavonoid contents, General Pharmacology, Toxicology and Pharmaceutics, Sesquiterpene lactones

Abstract

Background: The antioxidant activity and the total phenolic and flavonoid contents of the derived extracts (chloroform, ethyl acetate and n-butanol) of the 70% hydroalcoholic extract of the aerial parts of Centaurea solstitialis growing in Algeria was assessed. The active extracts were selected for phytochemical investigations. Methods: The antioxidant capabilities of the extracts were assessed using 1, 1-diphenyl-2- picrylhydrazyl radical (DPPH•) scavenging and Cupric Ion Reducing Antioxidant Capacity (CUPRAC) assays. Butylhydroxyanisole (BHA), butylhydroxytoluene (BHT) and α –tocopherol were used as positive controls. The total phenolic content and total flavonoid content of the extracts were determined as gallic acid equivalents and quercetin equivalents, respectively. Chromatographic methods were used to isolate the secondary metabolites and spectrometric and spectroscopic methods were used to determine their chemical structures. Results: The ethyl acetate extract exhibited the highest antioxidant activities followed by the n-butanol extract. The highest phenolic and flavonoid contents were found in the n-butanol extract. Phytochemical study of the ethyl acetate and n-butanol extracts led to the isolation of an undescribed guaianolide named 3-(4-hydroxybenzoyl)-cynaratriol and a known sesquiterpene lactone along with three known flavonoid glycosides. Their structures were established by spectral analyzes mainly high resolution electrospray ionisation mass spectrometry (HR-ESIMS) and 1D and 2D nuclear magnetic resonance experiments. Conclusion: The extracts of aerial parts of C. solstitialis showed significant antioxidant activities. An undescribed sesquiterpene lactone and four known secondary metabolites were isolated from the most active extracts.

Published

2020