@article{MTMT:33687456, title = {Genetic structuring and invasion status of the perennial Ambrosia psilostachya (Asteraceae) in Europe}, url = {https://m2.mtmt.hu/api/publication/33687456}, author = {Karrer, Gerhard and Hall, Rea Maria and Le Corre, Valérie and Kropf, Matthias}, doi = {10.1038/s41598-023-30377-6}, journal-iso = {SCI REP}, journal = {SCIENTIFIC REPORTS}, volume = {13}, unique-id = {33687456}, issn = {2045-2322}, abstract = {The perennial western ragweed ( Ambrosia psilostachya DC.) arrived from North America to Europe in the late nineteenth century and behaves invasive in its non-native range. Due to its efficient vegetative propagation via root suckers, A. psilostachya got naturalized in major parts of Europe forming extensive populations in Mediterranean coastal areas. The invasion history, the spreading process, the relationships among the populations as well as population structuring is not yet explored. This paper aims to give first insights into the population genetics of A. psilostachya in its non-native European range based on 60 sampled populations and 15 Simple Sequence Repeats (SSR). By AMOVA analysis we detected 10.4% of genetic variation occurring among (pre-defined) regions. These regions represent important harbors for trading goods from America to Europe that might have served as source for founder populations. Bayesian Clustering revealed that spatial distribution of genetic variation of populations is best explained by six groups, mainly corresponding to regions around important harbors. As northern populations show high degrees of clonality and lowest levels of within-population genetic diversity (mean H o = 0.40 ± 0.09), they could preserve the initial genetic variation levels by long-lived clonal genets. In Mediterranean populations A. psilostachya expanded to millions of shoots. Some of those were obviously spread by sea current along the coast to new sites, where they initiated populations characterized by a lower genetic diversity. For the future, the invasion history in Europe might get clearer after consideration of North American source populations of western ragweed.}, year = {2023}, eissn = {2045-2322} } @article{MTMT:33145353, title = {Geographical dispersion of ragweed leaf beetle ( Ophraella communa ) based on climatic and biological characters in the Palearctic habitats}, url = {https://m2.mtmt.hu/api/publication/33145353}, author = {Keszthelyi, Sándor and Kazinczi, Gabriella and Somfalvi-Tóth, Katalin}, doi = {10.1111/afe.12541}, journal-iso = {AGR FOREST ENTOMOL}, journal = {AGRICULTURAL AND FOREST ENTOMOLOGY}, volume = {25}, unique-id = {33145353}, issn = {1461-9555}, keywords = {Ambrosia artemisiifolia; anemochor dispersal; ECMWVF; generation number; mass appearance; ragweed leaf beetle}, year = {2023}, eissn = {1461-9563}, pages = {165-185}, orcid-numbers = {Keszthelyi, Sándor/0000-0001-7966-1001; Kazinczi, Gabriella/0000-0002-8081-7824; Somfalvi-Tóth, Katalin/0000-0001-7404-6704} } @article{MTMT:33924075, title = {Closely related invasive species may be controlled by the same demographic life stages}, url = {https://m2.mtmt.hu/api/publication/33924075}, author = {Molofsky, Jane and Thom, Dominik and Keller, Stephen R. and Milbrath, Lindsey R.}, doi = {10.3897/neobiota.82.95127}, journal-iso = {NEOBIOTA}, journal = {NEOBIOTA}, volume = {82}, unique-id = {33924075}, issn = {1619-0033}, abstract = {Invasive species that are closely related to each other may have similar population dynamics and, there-fore, be controlled by targeting similar life stages. We studied two invasive knapweed species, spotted knapweed (Centaurea stoebe subsp. micranthos) and the hybrid meadow knapweed complex (Centaurea x moncktonii) in New York, USA, to determine their individual population growth rates (lambda) across several sites over three years. Both knapweed species had growth rates that were greater than 1 (spotted knapweed lambda ranged from 1.005-1.440; meadow knapweed lambda ranged from 1.541-2.408), but there was high vari-ability between years and sites. One study population of meadow knapweed was composed primarily of individuals of black knapweed ancestry (C. nigra), a species that, while introduced, is not invasive. For this population, the projected dynamics were stable (lambda approximately 1). Elasticity analysis showed that the flowering-to-flowering stage contributed the most to population growth rate for six of seven sites and three additional transitions were also influential for four of seven sites of spotted and meadow knapweed: the seedling-to-vegetative stage, vegetative-to-flowering stage and flowering-to-seedling stage. We simulated how increasing vital rates would affect population growth and found that both spotted and meadow knap-weed followed the same pattern. The vital rate of established seedlings maturing to flowering plants had the greatest effect on population growth, followed by the survival of new and established seedlings. In all cases, the responses were non-linear, with small initial changes having a large effect. Increases in the vital rates of later stages also tended to have a positive effect on growth rate, but the effects were more mod-est. Although the sensitivity analysis indicated that early vital rates had the largest effect on population growth, targeting these stages is not practical for management. Rather, reducing older life stage survival or delaying maturation of vegetative individuals would be more effective. The similarity between the popula-tion dynamics and how each life stage contributes to population growth provides support that protocols developed for one species should be effective for the other species with the caveat that any biological control agent should be directly tested on the target species before being utilised.}, keywords = {Biological invasions; ELASTICITY ANALYSIS; population growth rate; Biocontrol agents; population demography; Centaurea ? moncktonii; Centaurea nigra; Centaurea stoebe subsp; micranthos; knapweed}, year = {2023}, eissn = {1314-2488}, pages = {189-207}, orcid-numbers = {Molofsky, Jane/0000-0001-7927-516X} } @article{MTMT:33735708, title = {When a plant invader meets its old enemy abroad: what can be learnt from accidental introductions of biological control agents}, url = {https://m2.mtmt.hu/api/publication/33735708}, author = {Müller-Schärer, H. and Sun, Y. and Schaffner, U.}, doi = {10.1002/ps.7390}, journal-iso = {PEST MANAG SCI}, journal = {PEST MANAGEMENT SCIENCE}, unique-id = {33735708}, issn = {1526-498X}, year = {2023}, eissn = {1526-4998} } @article{MTMT:32717661, title = {Ground-truthing predictions of a demographic model driven by land surface temperatures with a weed biocontrol cage experiment}, url = {https://m2.mtmt.hu/api/publication/32717661}, author = {Augustinus, B.A. and Blum, M. and Citterio, S. and Gentili, R. and Helman, D. and Nestel, D. and Schaffner, U. and Müller-Schärer, H. and Lensky, I.M.}, doi = {10.1016/j.ecolmodel.2022.109897}, journal-iso = {ECOL MODEL}, journal = {ECOLOGICAL MODELLING}, volume = {466}, unique-id = {32717661}, issn = {0304-3800}, year = {2022}, eissn = {1872-7026} } @article{MTMT:32929014, title = {Effects of clonal integration on allelopathy of invasive plant Wedelia trilobata under heterogeneous light conditions}, url = {https://m2.mtmt.hu/api/publication/32929014}, author = {Pu, Lei and Cheng, Lang and Li, Ai and Liang, Sha and Wei, Qing and Wu, Shulan and He, Linxuan and Xu, Xiangning and Lei, Ningfei and Chen, Jinsong}, doi = {10.1093/jpe/rtab028}, journal-iso = {J PLANT ECOL-UK}, journal = {JOURNAL OF PLANT ECOLOGY}, volume = {15}, unique-id = {32929014}, issn = {1752-9921}, abstract = {Plant invasion is one of the most serious threats to ecosystems worldwide. When invasive plants with the ability of clonal growth invading or colonizing in new habitat, their interconnected ramets may suffer from heterogeneous light. Effects of clonal integration on allelopathy of invasive plants are poorly understood under heterogeneous light conditions. To investigate the effects of clonal integration on allelopathy of invasive plant Wedelia trilobata under heterogeneous light conditions, a pot experiment was conducted by using its clonal fragments with two successive ramets. The older ramets were exposed to full light, whereas the younger ones were subjected to 20% full light. The younger ramets of each clonal fragment were adjacently grown with a target plant (one tomato seedling) in a pot. Stolon between two successive ramets was either severed or retained intact. In addition, two tomato seedlings (one as target plant) were adjacently grown in a pot as contrast. Compared with severing stolon, biomass accumulation, foliar chlorophyll and nitrogen contents, chlorophyll fluorescence parameters and net photosynthetic rates of the target plants as well as their root length and activity, were significantly decreased when stolon between interconnected ramets of W. trilobata retained intact. Under heterogeneous light conditions, transportation or sharing of carbohydrate between two successive ramets enhanced allelopathy of the young ramets subjected to 20% full light treatment. It is suggested that clonal integration may be important for invasion or colonization of invasive plants with ability of clonal growth under heterogeneous light conditions.}, keywords = {ALLELOPATHY; HETEROGENEOUS ENVIRONMENT; clonal integration; Invasive mechanism; stoloniferous plant}, year = {2022}, eissn = {1752-993X}, pages = {663-671} } @article{MTMT:32775314, title = {Fighting neobiota with neobiota: Consider it more often and do it more rigorously}, url = {https://m2.mtmt.hu/api/publication/32775314}, author = {Sun, Y. and Müller-Schärer, H. and Schaffner, U.}, doi = {10.1016/j.biocon.2022.109506}, journal-iso = {BIOL CONSERV}, journal = {BIOLOGICAL CONSERVATION}, volume = {268}, unique-id = {32775314}, issn = {0006-3207}, keywords = {Ambrosia artemisiifolia; Invasive trees; Sustainable management; Importation or classical biological weed control; Invasive non-native plants}, year = {2022}, eissn = {1873-2917} } @article{MTMT:32924427, title = {Climate warming can reduce biocontrol efficacy and promote plant invasion due to both genetic and transient metabolomic changes}, url = {https://m2.mtmt.hu/api/publication/32924427}, author = {Sun, Yan and Zuest, Tobias and Silvestro, Daniele and Erb, Matthias and Bossdorf, Oliver and Mateo, Pierre and Robert, Christelle and Mueller-Schaerer, Heinz}, doi = {10.1111/ele.14000}, journal-iso = {ECOL LETT}, journal = {ECOLOGY LETTERS}, volume = {25}, unique-id = {32924427}, issn = {1461-023X}, abstract = {Climate change may affect plant-herbivore interactions and their associated ecosystem functions. In an experimental evolution approach, we subjected replicated populations of the invasive Ambrosia artemisiifolia to a combination of simulated warming and herbivory by a potential biocontrol beetle. We tracked genomic and metabolomic changes across generations in field populations and assessed plant offspring phenotypes in a common environment. Using an integrated Bayesian model, we show that increased offspring biomass in response to warming arose through changes in the genetic composition of populations. In contrast, increased resistance to herbivory arose through a shift in plant metabolomic profiles without genetic changes, most likely by transgenerational induction of defences. Importantly, while increased resistance was costly at ambient temperatures, warming removed this constraint and favoured both vigorous and better defended plants under biocontrol. Climate warming may thus decrease biocontrol efficiency and promote Ambrosia invasion, with potentially serious economic and health consequences.}, keywords = {GROWTH; EVOLUTION; GENOMICS; climate change; metabolomics; Herbivory; Ambrosia artemisiifolia; Experimental evolution; resource availability; biological control; TRADE-OFFS; Biological invasions; Common ragweed; Common ragweed; OPHRAELLA-COMMUNA; hierarchical Bayesian model; Leaf beetle; AMBROSIA-ARTEMISIIFOLIA}, year = {2022}, eissn = {1461-0248}, pages = {1387-1400}, orcid-numbers = {Sun, Yan/0000-0002-6439-266X; Erb, Matthias/0000-0002-4446-9834; Bossdorf, Oliver/0000-0001-7504-6511} } @article{MTMT:32546461, title = {Seed viability of common ragweed (Ambrosia artemisiifolia L.) is affected by seed origin and age, but also by testing method and laboratory}, url = {https://m2.mtmt.hu/api/publication/32546461}, author = {Hall, Rea Maria and Urban, Bernhard and Skalova, Hana and Moravcová, Lenka and Sölter, Ulrike and Starfinger, Uwe and Kazinczi, Gabriella and van Valkenburg, Johan and Fenesi, Annamária and Konstantinovic, Bojan and Uludag, Ahmet and Lommen, Suzanne and Karrer, Gerhard}, doi = {10.3897/neobiota.70.66915}, journal-iso = {NEOBIOTA}, journal = {NEOBIOTA}, volume = {70}, unique-id = {32546461}, issn = {1619-0033}, keywords = {Common ragweed; Germination rate; viability testing; seed age; seed origin; 2,3,5-triphenyltetrazolium chloride (TTC); crush test}, year = {2021}, eissn = {1314-2488}, pages = {193-221}, orcid-numbers = {Hall, Rea Maria/0000-0001-5823-2507; Urban, Bernhard/0000-0002-8783-546X; Starfinger, Uwe/0000-0001-5769-1445; Kazinczi, Gabriella/0000-0002-8081-7824; Fenesi, Annamária/0000-0001-6596-9857; Karrer, Gerhard/0000-0001-5172-2319} } @article{MTMT:31911925, title = {Detection of Target-Site Herbicide Resistance in the Common Ragweed: Nucleotide Polymorphism Genotyping by Targeted Amplicon Sequencing}, url = {https://m2.mtmt.hu/api/publication/31911925}, author = {Kutasy, Barbara Júlia and Farkas, Zoltán and Kolics, Balázs and Decsi, Kincső and Hegedűs, Géza and Kovács, Judit and Taller, János and Tóth, Zoltán and Kálmán, Nikoletta and Kazinczi, Gabriella and Virág, Eszter Andrea}, doi = {10.3390/d13030118}, journal-iso = {DIVERSITY-BASEL}, journal = {DIVERSITY (BASEL)}, volume = {13}, unique-id = {31911925}, abstract = {Background: The spread of herbicide-resistance Ambrosia artemisiifolia threatens not only the production of agricultural crops, but also the composition of weed communities. The reduction of their spread would positively affect the biodiversity and beneficial weed communities in the arable habitats. Detection of resistant populations would help to reduce herbicide exposure which may contribute to the development of sustainable agroecosystems. Methods: This study focuses on the application of target-site resistance (TSR) diagnostic of A. artemisiifolia caused by different herbicides. We used targeted amplicon sequencing (TAS) on Illumina Miseq platform to detect amino acid changes in herbicide target enzymes of resistant and wild-type plants. Results: 16 mutation points of four enzymes targeted by four herbicide groups, such as Photosystem II (PSII), Acetohydroxyacid synthase (AHAS), 5-enolpyruvylshikimate 3-phosphate synthase (EPSPS) and protoporphyrinogen IX oxidase (PPO) inhibitors have been identified in common ragweed populations, so far. All the 16 mutation points were analyzed and identified. Out of these, two mutations were detected in resistant biotypes. Conclusions: The applied next-generation sequencing-targeted amplicon sequencing (NGS-TAS) method on A. artemisiifolia resistant and wild-type populations enable TSR detection of large sample numbers in a single reaction. The NGS-TAS provides information about the evolved herbicide resistance that supports the integrated weed control through the reduction of herbicide exposure which may preserve ecological properties in agroecosystems.}, keywords = {Ambrosia artemisiifolia; ALS; psbA; EPSPS; AHAS; targeted amplicon sequencing; target-site herbicide resistance}, year = {2021}, eissn = {1424-2818}, orcid-numbers = {Kutasy, Barbara Júlia/0000-0002-4790-5865; Kolics, Balázs/0000-0002-5687-3199; Tóth, Zoltán/0000-0003-4369-9774; Kálmán, Nikoletta/0000-0001-6827-9894; Kazinczi, Gabriella/0000-0002-8081-7824} } @article{MTMT:31144533, title = {Predicting impact of a biocontrol agent: integrating distribution modeling with climate-dependent vital rates}, url = {https://m2.mtmt.hu/api/publication/31144533}, author = {Augustinus, B. and Sun, Y. and Beuchat, C. and Schaffner, U. and Müller-Schärer, H.}, doi = {10.1002/eap.2003}, journal-iso = {ECOL APPL}, journal = {ECOLOGICAL APPLICATIONS}, volume = {30}, unique-id = {31144533}, issn = {1051-0761}, year = {2020}, eissn = {1939-5582} } @article{MTMT:31596212, title = {Assessing the risks of non-target feeding by the accidentally introduced ragweed leaf beetle, Ophraella communa, to native European plant species}, url = {https://m2.mtmt.hu/api/publication/31596212}, author = {Augustinus, B.A. and Gentili, R. and Horvath, D. and Naderi, R. and Sun, Y. and Tournet, A.-M.T.E. and Schaffner, U. and Müller-Schärer, H.}, doi = {10.1016/j.biocontrol.2020.104356}, journal-iso = {BIOL CONTROL}, journal = {BIOLOGICAL CONTROL}, volume = {150}, unique-id = {31596212}, issn = {1049-9644}, year = {2020}, eissn = {1090-2112} } @article{MTMT:31380301, title = {In-season leaf damage by a biocontrol agent explains reproductive output of an invasive plant species}, url = {https://m2.mtmt.hu/api/publication/31380301}, author = {Augustinus, Benno A. and Lommen, Suzanne T. E. and Fogliatto, Silvia and Vidotto, Francesco and Smith, Tessa and Horvath, David and Bonini, Maira and Gentili, Rodolfo F. and Citterio, Sandra and Mueller-Schaerer, Heinz and Schaffner, Urs}, doi = {10.3897/neobiota.55.46874}, journal-iso = {NEOBIOTA}, journal = {NEOBIOTA}, volume = {55}, unique-id = {31380301}, issn = {1619-0033}, keywords = {Herbivory; Ambrosia artemisiifolia; Biological invasions; Common ragweed; Classical biological control; Ophraella communa}, year = {2020}, eissn = {1314-2488}, pages = {117-146}, orcid-numbers = {Gentili, Rodolfo F./0000-0002-9332-7963} } @article{MTMT:31768625, title = {Genome Assembly of the Ragweed Leaf Beetle: A Step Forward to Better Predict Rapid Evolution of a Weed Biocontrol Agent to Environmental Novelties}, url = {https://m2.mtmt.hu/api/publication/31768625}, author = {Bouchemousse, Sarah and Falquet, Laurent and Mueller-Scharer, Heinz}, doi = {10.1093/gbe/evaa102}, journal-iso = {GENOME BIOL EVOL}, journal = {GENOME BIOLOGY AND EVOLUTION}, volume = {12}, unique-id = {31768625}, issn = {1759-6653}, abstract = {Rapid evolution of weed biological control agents (BCAs) to new biotic and abiotic conditions is poorly understood and so far only little considered both in pre-release and post-release studies, despite potential major negative or positive implications for risks of nontargeted attacks or for colonizing yet unsuitable habitats, respectively. Provision of genetic resources, such as assembled and annotated genomes, is essential to assess potential adaptive processes by identifying underlying genetic mechanisms. Here, we provide the first sequenced genome of a phytophagous insect used as a BCA, that is, the leaf beetle Ophraella communa, a promising BCA of common ragweed, recently and accidentally introduced into Europe. A total 33.98Gb of raw DNA sequences, representing similar to 43-fold coverage, were obtained using the PacBio SMRT-Cell sequencing approach. Among the five different assemblers tested, the SMARTdenovo assembly displaying the best scores was then corrected with Illumina short reads. A final genome of 774Mb containing 7,003 scaffolds was obtained. The reliability of the final assembly was then assessed by benchmarking universal single-copy orthologous genes (>96.0% of the 1,658 expected insect genes) and by remapping tests of Illumina short reads (average of 98.6 +/- 0.7% without filtering). The number of protein-coding genes of 75,642, representing 82% of the published antennal transcriptome, and the phylogenetic analyses based on 825 orthologous genes placing O. communa in the monophyletic group of Chrysomelidae, confirm the relevance of our genome assembly. Overall, the genome provides a valuable resource for studying potential risks and benefits of this BCA facing environmental novelties.}, keywords = {CHRYSOMELIDAE; biological control agent; De novo assembly; Ophraella communa; whole-genome sequence; SMRT-cell sequencing}, year = {2020}, pages = {1167-1173} } @article{MTMT:31521469, title = {How to better predict long-term benefits and risks in weed biocontrol: an evolutionary perspective}, url = {https://m2.mtmt.hu/api/publication/31521469}, author = {Mueller-Schaerer, Heinz and Bouchemousse, Sarah and Litto, Maria and McEvoy, Peter B. and Roderick, George K. and Sun, Yan}, journal-iso = {CURR OPIN INSECT SCI}, journal = {CURRENT OPINION IN INSECT SCIENCE}, volume = {38}, unique-id = {31521469}, issn = {2214-5745}, abstract = {Classical biological control (also called importation biological control) of weeds has a remarkable track record for efficiency and safety, but further improvement is still needed, particularly to account for potential evolutionary changes after release. Here, we discuss the increasing yet limited evidence of post-introduction evolution and describe approaches to predict evolutionary change. Recent advances include using experimental evolution studies over several generations that combine-omics tools with behavioral bioassays. This novel approach in weed biocontrol is well suited to explore the potential for rapid evolutionary change in real-time and thus can be used to estimate more accurately potential benefits and risks of agents before their importation. We outline this approach with a chrysomelid beetle used to control invasive common ragweed.}, year = {2020}, eissn = {2214-5753}, pages = {84-91} } @article{MTMT:31380275, title = {How to better predict long-term benefits and risks in weed biocontrol: an evolutionary perspective}, url = {https://m2.mtmt.hu/api/publication/31380275}, author = {Müller‐Schärer, H. and Bouchemousse, S. and Litto, M. and McEvoy, P.B. and Roderick, G.K. and Sun, Y.}, doi = {10.1016/j.cois.2020.02.006}, journal-iso = {CURR OPIN INSECT SCI}, journal = {CURRENT OPINION IN INSECT SCIENCE}, volume = {38}, unique-id = {31380275}, issn = {2214-5745}, year = {2020}, eissn = {2214-5753}, pages = {84-91} } @article{MTMT:31380300, title = {Biological weed control to relieve millions from Ambrosia allergies in Europe}, url = {https://m2.mtmt.hu/api/publication/31380300}, author = {Schaffner, Urs and Steinbach, Sandro and Sun, Yan and Skjoth, Carsten A. and de, Weger Letty A. and Lommen, Suzanne T. and Augustinus, Benno A. and Bonini, Maira and Karrer, Gerhard and Sikoparija, Branko and Thibaudon, Michel and Mueller-Schaerer, Heinz}, doi = {10.1038/s41467-020-15586-1}, journal-iso = {NAT COMMUN}, journal = {NATURE COMMUNICATIONS}, volume = {11}, unique-id = {31380300}, issn = {2041-1723}, year = {2020}, eissn = {2041-1723}, orcid-numbers = {de, Weger Letty A./0000-0002-9067-7407} } @article{MTMT:31730287, title = {Rapid genomic and phenotypic change in response to climate warming in a widespread plant invader}, url = {https://m2.mtmt.hu/api/publication/31730287}, author = {Sun, Yan and Bossdorf, Oliver and Grados, Ramon D. and Liao, ZhiYong and Mueller-Schaerer, Heinz}, doi = {10.1111/gcb.15291}, journal-iso = {GLOBAL CHANGE BIOL}, journal = {GLOBAL CHANGE BIOLOGY}, volume = {26}, unique-id = {31730287}, issn = {1354-1013}, abstract = {Predicting plant distributions under climate change is constrained by our limited understanding of potential rapid adaptive evolution. In an experimental evolution study with the invasive common ragweed (Ambrosia artemisiifoliaL.) we subjected replicated populations of the same initial genetic composition to simulated climate warming. Pooled DNA sequencing of parental and offspring populations showed that warming populations experienced greater genetic divergence from their parents, than control populations. In a common environment, offspring from warming populations showed more convergent phenotypes in seven out of nine plant traits, with later flowering and larger biomass, than plants from control populations. For both traits, we also found a significantly higher ratio of phenotypic to genetic differentiation across generations for warming than for control populations, indicating stronger response to selection under warming conditions. As a measure for evolutionary rate, the phenotypic and sequence divergence between generations were assessed using the Haldane metric. Our approach combining comparisons between generations (allochronic) and between treatments (synchronic) in an experimental evolutionary field study, and linking population genomic data with phenotyping analyses provided a powerful test to detect rapid responses to selection. Our findings demonstrate that ragweed populations can rapidly evolve in response to climate change within a single generation. Short-term evolutionary responses to climate change may aggravate the impact of some plant invaders in the future and should be considered when making predictions about future distributions and impacts of plant invaders.}, keywords = {climate change; Ambrosia artemisiifolia; Experimental evolution; PHENOTYPIC EVOLUTION; Biological invasions; Common ragweed; selection experiment}, year = {2020}, eissn = {1365-2486}, pages = {6511-6522}, orcid-numbers = {Sun, Yan/0000-0002-6439-266X} } @article{MTMT:31521468, title = {Porous flower-like Ni5P4 for non-enzymatic electrochemical detection of glucose}, url = {https://m2.mtmt.hu/api/publication/31521468}, author = {Xin Xiao and Wang Yihui and Han Cheng and Cui Yihao and Xu Yingchen and Tao Yang and Zhang Dongen and Xu Xingyou}, doi = {10.1016/j.matchemphys.2019.122202}, journal-iso = {MATER CHEM PHYS}, journal = {MATERIALS CHEMISTRY AND PHYSICS}, volume = {240}, unique-id = {31521468}, issn = {0254-0584}, abstract = {Porous flower-like Ni5P4 was successfully synthesized and characterized by XRD, SEM, TEM and XPS. The flower-like Ni5P4 modified glassy carbon electrode (Ni5P4 GCE) has significant electrocatalytic activities for glucose oxidation in 0.1 M sodium hydroxide solution. The experimental results show that the flower-like Ni5P4 has a linear detection range for glucose from 0.002 to 5.3 mM, the detection limit is 0.7 mu M (S/N = 3). In addition, this Ni5P4 GCE can be successfully utilized to measure glucose content in human serum, therefore it is expected to be used to determine glucose in actual samples.}, keywords = {GLUCOSE; Porous flower-like Ni5P4; Non-enzymatic electrochemical detection}, year = {2020}, eissn = {1879-3312} } @article{MTMT:30712721, title = {Predicting abundances of invasive ragweed across Europe using a “top-down” approach}, url = {https://m2.mtmt.hu/api/publication/30712721}, author = {Skjøth, Carsten Ambelas and Sun, Yan and Karrer, Gerhard and Sikoparija, Branko and Smith, Matt and Schaffner, Urs and Müller-Schärer, Heinz}, doi = {10.1016/j.scitotenv.2019.05.215}, journal-iso = {SCI TOTAL ENVIRON}, journal = {SCIENCE OF THE TOTAL ENVIRONMENT}, volume = {686}, unique-id = {30712721}, issn = {0048-9697}, year = {2019}, eissn = {1879-1026}, pages = {212-222}, orcid-numbers = {Skjøth, Carsten Ambelas/0000-0001-5992-9568} }