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Search Results for Onanis arvensis
319 articles found.
The first 100 results are shown.
1.
Trp-574-Leu mutation in wild mustard ( arvensis L.) as a result of als inhibiting herbicide applications.
Sin B, Kadıoglu İ.
PeerJ. 2021; 9(): e11385
2.
Complete chloroplast genome sequence of .
Wang Z, Song H, Jiang D.
Mitochondrial DNA. Part B, Resources. 2021; 6(7): 1814-1815
3.
Salicylic acid-mediated alleviation of soil boron toxicity in Mentha arvensis and Cymbopogon flexuosus: Growth, antioxidant responses, essential oil contents and components.
Choudhary S, Zehra A, Mukarram M, Wani KI, Naeem M, Khan MMA, Aftab T.
Chemosphere. 2021; 276(): 130153
4.
Ethnopharmacological basis for folkloric claims of Anagallis arvensis Linn. (Scarlet Pimpernel) as prokinetic, spasmolytic and hypotensive in province of Punjab, Pakistan.
Saqib F, Janbaz KH.
Journal of ethnopharmacology. 2021; 267(): 113634
5.
Chloroplast genome features of Moricandia arvensis (Brassicaceae), a C3-C4 intermediate photosynthetic species.
Zhu B, Hu L, Qian F, Gao Z, Gan C, Liu Z, Du X, Wang H.
PloS one. 2021; 16(7): e0254109
6.
Symptomatology, (Co)occurrence and Differential Diagnostic PCR Identification of ' Phytoplasma solani' and ' Phytoplasma convolvuli' in Field Bindweed.
Jović J, Marinković S, Jakovljević M, Krstić O, Cvrković T, Mitrović M, Toševski I.
Pathogens (Basel, Switzerland). 2021; 10(2):
7.
Insecticidal Activity of 25 Essential Oils on the Stored Product Pest, .
Demeter S, Lebbe O, Hecq F, Nicolis SC, Kenne Kemene T, Martin H, Fauconnier ML, Hance T.
Foods (Basel, Switzerland). 2021; 10(2):
8.
Haplotyping the Potato Psyllid (Hemiptera: Triozidae) and the Associated Pathogenic Bacterium 'Candidatus Liberibacter solanacearum' in Non-crop Alternative Hosts in Southern Idaho.
Dahan J, Wenninger EJ, Thornton M, Corral CAR, Olsen N, Karasev AV.
Environmental entomology. 2021; ():
9.
Investigation of phytochemical composition and enzyme inhibitory potential of L.
Saleem H, Zengin G, Locatelli M, Abidin SAZ, Ahemad N.
Natural product research. 2021; (): 1-6
10.
Intraspecific variations of the cytoplasmic male sterility genes and in Brassica maurorum and Moricandia arvensis, and the specificity of the mRNA processing.
Yamagishi H, Hashimoto A, Fukunaga A, Bang SW, Terachi T.
Genome. 2021; ():
11.
Phytochemical Composition and In Vitro Antimicrobial Activity of Essential Oils from the Family against and Biofilms.
Iseppi R, Tardugno R, Brighenti V, Benvenuti S, Sabia C, Pellati F, Messi P.
Antibiotics (Basel, Switzerland). 2020; 9(9):
12.
Phytosynthesis of colloidal nanosilver from Mentha longifolia and Mentha arvensis: Comparative morphological and optical characterization.
Javed B, Mashwani ZU.
Microscopy research and technique. 2020; 83(11): 1299-1307
13.
Enzyme-assisted Extraction of Bioactive Phytochemicals from Japanese Peppermint (Mentha arvensis L. cv. 'Hokuto').
Shimotori Y, Watanabe T, Kohari Y, Chiou TY, Ohtsu N, Nagata Y, Murata M.
Journal of oleo science. 2020; 69(6): 635-642
14.
Variations of glaucine, quercetin and kaempferol contents in against AlO, NiO, and TiO nanoparticles.
Modarresi M, Chahardoli A, Karimi N, Chahardoli S.
Heliyon. 2020; 6(6): e04265
15.
Characterization of the complete plastome sequence of perennial sowthistle, (Asteraceae).
Abdalla Masana S, Kim SH, Kim SC.
Mitochondrial DNA. Part B, Resources. 2020; 5(3): 2652-2654
16.
Identification and functional characterization of Buglossoides arvensis microsomal fatty acid desaturation pathway genes involved in polyunsaturated fatty acid synthesis in seeds.
P P, R V S.
Journal of biotechnology. 2020; 308(): 130-140
17.
Plant growth regulators improve growth, photosynthesis, mineral nutrient and antioxidant system under cadmium stress in menthol mint ( L.).
Zaid A, Mohammad F, Fariduddin Q.
Physiology and molecular biology of plants : an international journal of functional plant biology. 2020; 26(1): 25-39
18.
One ring to rule them all: an ecosystem engineer fungus fosters plant and microbial diversity in a Mediterranean grassland.
Zotti M, De Filippis F, Cesarano G, Ercolini D, Tesei G, Allegrezza M, Giannino F, Mazzoleni S, Bonanomi G.
The New phytologist. 2020; 227(3): 884-898
19.
In vitro acaricidal activity of Cymbopogon citratus, Cymbopogon nardus and Mentha arvensis against Rhipicephalus microplus (Acari: Ixodidae).
da Silva LC, de Souza Perinotto WM, Sá FA, de Souza MAA, de Oliveira Barbosa Bitencourt R, Sanavria A, Santos HA, Marie-Magdeleine C, da Costa Angelo I.
Experimental parasitology. 2020; 216(): 107937
20.
Synergistic Effects of Physicochemical Parameters on Bio-Fabrication of Mint Silver Nanoparticles: Structural Evaluation and Action Against HCT116 Colon Cancer Cells.
Javed B, Mashwani ZU.
International journal of nanomedicine. 2020; 15(): 3621-3637
21.
CALLUS INDUCTION OF L. AND ITS ANTIPLASMODIAL ACTIVITY.
Wahyuni DK, Purnobasuki H, Kuncoro EP, Ekasari W.
African journal of infectious diseases. 2020; 14(1): 1-7
22.
Therapeutic propensities, phytochemical composition, and toxicological evaluation of Anagallis arvensis (L.): A wild edible medicinal food plant.
Saleem H, Zengin G, Ahmad I, Htar TT, Naidu R, Mahomoodally MF, Ahemad N.
Food research international (Ottawa, Ont.). 2020; 137(): 109651
23.
Synthesis of ZnO-NPs Using a Leaf Extract and Proving its Efficiency as an Inhibitor of Carbon Steel Corrosion.
Al-Senani GM.
Materials (Basel, Switzerland). 2020; 13(4):
24.
The role of lateral and vertical herkogamy in the divergence of the blue- and red-flowered lineages of Lysimachia arvensis.
Jiménez-López FJ, Ortiz PL, Talavera M, Pannell JR, Arista M.
Annals of botany. 2020; 125(7): 1127-1135
25.
Relationships between , Its Herbaceous Hosts and Bois Noir Epidemiology in Northern Italian Vineyards.
Mori N, Cargnus E, Martini M, Pavan F.
Insects. 2020; 11(9):
26.
Larvicidal and Repellent Activity of L. Essential Oil against .
Manh HD, Tuyet OT.
Insects. 2020; 11(3):
27.
Inoculation With the Plant-Growth-Promoting Rhizobacterium LBUM677 Impacts the Rhizosphere Microbiome of Three Oilseed Crops.
Jiménez JA, Novinscak A, Filion M.
Frontiers in microbiology. 2020; 11(): 569366
28.
Effects of engineered aluminum and nickel oxide nanoparticles on the growth and antioxidant defense systems of Nigella arvensis L.
Chahardoli A, Karimi N, Ma X, Qalekhani F.
Scientific reports. 2020; 10(1): 3847
29.
Testicular Caspase-3 and β-Catenin Regulators Predicted via Comparative Metabolomics and Docking Studies.
Hifnawy MS, Aboseada MA, Hassan HM, AboulMagd AM, Tohamy AF, Abdel-Kawi SH, Rateb ME, El Naggar EMB, Liu M, Quinn RJ, Alhadrami HA, Abdelmohsen UR.
Metabolites. 2020; 10(1):
30.
Phosphate-solubilizing sp. enhances growth, phosphorus uptake and oil yield of L.
Prakash J, Arora NK.
3 Biotech. 2019; 9(4): 126
31.
Molecular basis of natural tolerance to glyphosate in Convolvulus arvensis.
Huang Z, Liu Y, Zhang C, Jiang C, Huang H, Wei S.
Scientific reports. 2019; 9(1): 8133
32.
Glycosidic Acids with Unusual Aglycone Units from Convolvulus arvensis.
Fan BY, He Y, Lu Y, Yang M, Zhu Q, Chen GT, Li JL.
Journal of natural products. 2019; 82(6): 1593-1598
33.
Using multiple microscopic techniques for the comparative systematic of Spergula fallax and Spergula arvensis (Caryophyllaceae).
Ullah F, Zaman W, Papini A, Zafar M, Shah SN, Ahmad M, Saqib S, Gul S, Sohail A.
Microscopy research and technique. 2019; 82(4): 352-360
34.
Physiological responses of hydroponically-grown Japanese mint under nutrient deficiency.
Janpen C, Kanthawang N, Inkham C, Tsan FY, Sommano SR.
PeerJ. 2019; 7(): e7751
35.
Physico-chemical Characterization, Profiling of Total Lipids and Triacylglycerol Molecular Species of Omega-3 Fatty Acid Rich B. arvensis Seed Oil from India.
Prasad P, Savyasachi S, Reddy LPA, Sreedhar RV.
Journal of oleo science. 2019; 68(3): 209-223
36.
Phytocontact dermatitis due to : Report of three cases.
An I, Ucmak D, Esen M, Gevher OD.
Northern clinics of Istanbul. 2019; 6(1): 81-84
37.
Phytochemical analysis of Ononis arvensis L. by liquid chromatography coupled with mass spectrometry.
Gampe N, Darcsi A, Nagyné Nedves A, Boldizsár I, Kursinszki L, Béni S.
Journal of mass spectrometry : JMS. 2019; 54(2): 121-133
38.
The use of strip-seeding for management of two late-season invasive plants.
Silva AD, Roche LM, Gornish ES.
Heliyon. 2019; 5(5): e01772
39.
PCR-based identification of point mutation mediating acetolactate synthase-inhibiting herbicide resistance in weed wild mustard (Sinapis arvensis).
Khaledi R, Fayaz F, Kahrizi D, Talebi R.
Molecular biology reports. 2019; 46(5): 5113-5121
40.
Calendula arvensis L. as an anti-cancer agent against breast cancer cell lines.
Abutaha N, Nasr FA, Mohammed AZ, Semlali A, Al-Mekhlafi FA, Wadaan MA.
Molecular biology reports. 2019; 46(2): 2187-2196
41.
Anti-Fatigue Activity of Aqueous Extracts of L. in Exercise Trained Mice.
Yuan T, Wu D, Sun K, Tan X, Wang J, Zhao T, Ren B, Zhao B, Liu Z, Liu X.
Molecules (Basel, Switzerland). 2019; 24(6):
42.
Is wind energy increasing the impact of socio-ecological change on Mediterranean mountain ecosystems? Insights from a modelling study relating wind power boost options with a declining species.
Ferreira D, Freixo C, Cabral JA, Santos M.
Journal of environmental management. 2019; 238(): 283-295
43.
Organelle genome composition and candidate gene identification for Nsa cytoplasmic male sterility in Brassica napus.
Sang SF, Mei DS, Liu J, Zaman QU, Zhang HY, Hao MY, Fu L, Wang H, Cheng HT, Hu Q.
BMC genomics. 2019; 20(1): 813
44.
Cytotoxicity of Anchusa arvensis Against HepG-2 Cell Lines: Mechanistic and Computational Approaches.
Hussain S, Ullah F, Sadiq A, Ayaz M, Shah AA, Ali Shah SA, Shah SM, Nadhman A, Ullah F, Wadood A, El-Shazly M.
Current topics in medicinal chemistry. 2019; 19(30): 2805-2813
45.
Biochar-mediated sequestration of Pb and Cd leads to enhanced productivity in Mentha arvensis.
Nigam N, Khare P, Yadav V, Mishra D, Jain S, Karak T, Panja S, Tandon S.
Ecotoxicology and environmental safety. 2019; 172(): 411-422
46.
Biogenic Nanoparticle‒Chitosan Conjugates with Antimicrobial, Antibiofilm, and Anticancer Potentialities: Development and Characterization.
Bilal M, Zhao Y, Rasheed T, Ahmed I, Hassan STS, Nawaz MZ, Iqbal HMN.
International journal of environmental research and public health. 2019; 16(4):
47.
In Silico, Cytotoxic and Antioxidant Potential of Novel Ester, 3-hydroxyoctyl -5-docosenoate Isolated from (L.) M.Bieb. Against HepG-2 Cancer Cells.
Hussain S, Ullah F, Ayaz M, Ali Shah SA, Ali Shah AU, Shah SM, Wadood A, Aman W, Ullah R, Shahat AA, Nasr FA.
Drug design, development and therapy. 2019; 13(): 4195-4205
48.
Persistence of Pseudomonas fluorescens LBUM677 in the rhizosphere of corn gromwell (Buglossoides arvensis) under field conditions and its impact on seed oil and stearidonic acid bioaccumulation.
Novinscak A, Filion M.
Journal of applied microbiology. 2019; 127(1): 208-218
49.
The consumption pattern of 28 species of carabid beetles (Carabidae) to a weed seed, Viola arvensis.
Deroulers P, Bretagnolle V.
Bulletin of entomological research. 2019; 109(2): 229-235
50.
Autumn growth of three perennial weeds at high latitude benefits from climate change.
Tørresen KS, Fykse H, Rafoss T, Gerowitt B.
Global change biology. 2019; ():
51.
Investigation of damage to Escherichia coli, Listeria monocytogenes and Salmonella Enteritidis exposed to Mentha arvensis L. and M. piperita L. essential oils in pineapple and mango juice by flow cytometry.
de Sousa Guedes JP, de Souza EL.
Food microbiology. 2018; 76(): 564-571
52.
Characterization of microsatellite markers for (Brassicaceae) and related species.
Cuenot Y, Gómez JM, González-Megias A, Pannell JR, Torices R.
Applications in plant sciences. 2018; 6(8): e01172
53.
Antibacterial effects of 18 medicinal plants used by the Khyang tribe in Bangladesh.
Hossan MS, Jindal H, Maisha S, Samudi Raju C, Devi Sekaran S, Nissapatorn V, Kaharudin F, Su Yi L, Khoo TJ, Rahmatullah M, Wiart C.
Pharmaceutical biology. 2018; 56(1): 201-208
54.
Dietary Buglossoides arvensis Oil as a Potential Candidate to Substitute Fish Oil in Rainbow Trout Diets.
Fickler A, Staats S, Hasler M, Rimbach G, Schulz C.
Lipids. 2018; 53(8): 809-823
55.
Green approach for synthesis of gold nanoparticles from Nigella arvensis leaf extract and evaluation of their antibacterial, antioxidant, cytotoxicity and catalytic activities.
Chahardoli A, Karimi N, Sadeghi F, Fattahi A.
Artificial cells, nanomedicine, and biotechnology. 2018; 46(3): 579-588
56.
Investigation of the protective effects of horse mushroom (Agaricus arvensis Schaeff.) against carbon tetrachloride-induced oxidative stress in rats.
Dogan A, Dalar A, Sadullahoglu C, Battal A, Uzun Y, Celik I, Demirel K.
Molecular biology reports. 2018; 45(5): 787-797
57.
Mentha arvensis essential oil suppressed airway changes induced by histamine and ovalbumin in experimental animals.
Sharma S, Rasal VP, Patil PA, Joshi RK.
Natural product research. 2018; 32(4): 468-472
58.
A comparative study of Mentha arvensis L. and Mentha haplocalyx Briq. by HPLC.
Zhao BT, Kim TI, Kim YH, Kang JS, Min BS, Son JK, Woo MH.
Natural product research. 2018; 32(2): 239-242
59.
Effect of Heat Stress on Yield, Monoterpene Content and Antibacterial Activity of Essential Oils of Mentha x piperita var. Mitcham and Mentha arvensis var. piperascens.
Heydari M, Zanfardino A, Taleei A, Bushehri AAS, Hadian J, Maresca V, Sorbo S, Napoli MD, Varcamonti M, Basile A, Rigano D.
Molecules (Basel, Switzerland). 2018; 23(8):
60.
Cuscuta arvensis Beyr "Dodder": In Vivo Hepatoprotective Effects Against Acetaminophen-Induced Hepatotoxicity in Rats.
Koca-Caliskan U, Yilmaz I, Taslidere A, Yalcin FN, Aka C, Sekeroglu N.
Journal of medicinal food. 2018; 21(6): 625-631
61.
Lyophilized Extract of the Horse Mushroom, Agaricus arvensis (Agaricomycetes), Delays Erythrocyte Hemolysis and Stabilizes Some Blood Parameters in Carbon Tetrachloride-Intoxicated Rats.
Dogan A.
International journal of medicinal mushrooms. 2018; 20(10): 909-918
62.
Molluscicidal impacts of Anagallis arvensis aqueous extract on biological, hormonal, histological and molecular aspects of Biomphalaria alexandrina snails.
Ibrahim AM, Ghoname SI.
Experimental parasitology. 2018; 192(): 36-41
63.
The Anti-Stress Effect of Mentha arvensis in Immobilized Rats.
Tian W, Akanda MR, Islam A, Yang HD, Lee SC, Lee JH, Kim SK, Choi YJ, Im SY, Park BY.
International journal of molecular sciences. 2018; 19(2):
64.
Catalytic potential of bio-synthesized silver nanoparticles using Convolvulus arvensis extract for the degradation of environmental pollutants.
Rasheed T, Bilal M, Li C, Nabeel F, Khalid M, Iqbal HMN.
Journal of photochemistry and photobiology. B, Biology. 2018; 181(): 44-52
65.
Arvensic acids A-D, novel heptasaccharide glycosidic acids as the alkaline hydrolysis products of crude resin glycosides from Convolvulus arvensis.
Fan BY, Lu Y, Yin H, He Y, Li JL, Chen GT.
Fitoterapia. 2018; 131(): 209-214
66.
Membrane proteome profiling of Mentha arvensis leaves in response to Alternaria alternata infection identifies crucial candidates for defense response.
Datta R, Kumar D, Chattopadhyay S.
Plant signaling & behavior. 2018; 13(4): e1178423
67.
Nanoparticles synthesis by Agaricus soil basidiomycetes.
Loshchinina EA, Vetchinkina EP, Kupryashina MA, Kursky VF, Nikitina VE.
Journal of bioscience and bioengineering. 2018; 126(1): 44-52
68.
Enhancing total lipid and stearidonic acid yields in Buglossoides arvensis through PGPR inoculation.
Novinscak A, Filion M.
Journal of applied microbiology. 2018; 125(1): 203-215
69.
First Report of Carrot torrado virus 1 and Carrot thin leaf virus Naturally Infecting Torilis arvensis ssp. arvensis in Greece.
Lotos L, Olmos A, Katis NI, Maliogka VI.
Plant disease. 2018; (): PDIS03180381PDN
70.
Dietary Buglossoides Arvensis Oil Increases Circulating n-3 Polyunsaturated Fatty Acids in a Dose-Dependent Manner and Enhances Lipopolysaccharide-Stimulated Whole Blood Interleukin-10-A Randomized Placebo-Controlled Trial.
Lefort N, LeBlanc R, Surette ME.
Nutrients. 2017; 9(3):
71.
Simulation to aid in interpreting biological relevance and setting of population-level protection goals for risk assessment of pesticides.
Topping CJ, Luttik R.
Regulatory toxicology and pharmacology : RTP. 2017; 89(): 40-49
72.
β-Sitosterol Reduces the Expression of Chemotactic Cytokine Genes in Cystic Fibrosis Bronchial Epithelial Cells.
Lampronti I, Dechecchi MC, Rimessi A, Bezzerri V, Nicolis E, Guerrini A, Tacchini M, Tamanini A, Munari S, D'Aversa E, Santangelo A, Lippi G, Sacchetti G, Pinton P, Gambari R, Agostini M, Cabrini G.
Frontiers in pharmacology. 2017; 8(): 236
73.
Effect of Graded Levels of Pudina (Mentha Arvensis) Leaf Powder Supplementation on Certain Serum Biochemical Parameters in Laying Hens
K. Merina Devi, Jyoti Palod, Dev Virat Singh, Chandra Bhan Singh, Aashaq Hussain Dar, Pankaj Kumar Singh, Vidyasagar Singh.
International Journal of Livestock Research. 2017; 7(7): 206-216
74.
Unravelling a stearidonic acid-rich triacylglycerol biosynthetic pathway in the developing seeds of Buglossoides arvensis: A transcriptomic landscape.
Sreedhar RV, Prasad P, Reddy LPA, Rajasekharan R, Srinivasan M.
Scientific reports. 2017; 7(1): 10473
75.
Food Protective Effects of 3-Methylbenzaldehyde Derived from Myosotis arvensis and Its Analogues against Tyrophagus putrescentiae.
Park JH, Lee NH, Yang YC, Lee HS.
Scientific reports. 2017; 7(1): 6608
76.
Histological and antimicrobial study of Ononis arvensis L.
Dénes T, Bartha SG, Kerényi M, Varga E, Balázs VL, Csepregi R, Papp N.
Acta biologica Hungarica. 2017; 68(3): 321-333
77.
Ancylobacter sonchi sp. nov., a novel methylotrophic bacterium frоm roots of Sonchus arvensis L.
Agafonova NV, Kaparullina EN, Trotsenko YA, Doronina NV.
International journal of systematic and evolutionary microbiology. 2017; 67(11): 4552-4558
78.
Susceptibility of herpes simplex virus type 1 to monoterpenes thymol, carvacrol, p-cymene and essential oils of Sinapis arvensis L., Lallemantia royleana Benth. and Pulicaria vulgaris Gaertn.
Sharifi-Rad J, Salehi B, Schnitzler P, Ayatollahi SA, Kobarfard F, Fathi M, Eisazadeh M, Sharifi-Rad M.
Cellular and molecular biology (Noisy-le-Grand, France). 2017; 63(8): 42-47
79.
[Genetic, phenotypic, and phytochemical polymorphism in Eastern European populations of Mentha arvensis L.]
Shelepova OV, Semenova MV, Enina OL, Schanzer IA.
Genetika. 2017; 53(1): 54-62
80.
Chemical composition and antimicrobial activity of the essential oils of some species of Anthemis sect. Anthemis (Asteraceae) from Sicily.
Riccobono L, Maggio A, Bruno M, Spadaro V, Raimondo FM.
Natural product research. 2017; 31(23): 2759-2767
81.
Powdery mildew (Erysiphe cruciferarum) infection on camelina (Camelina sativa) under Mediterranean conditions and the role of wild mustard (Sinapis arvensis) as alternative host of this pathogen
Evangelos Vellios, Anestis Karkanis, Dimitrios Bilalis.
Emirates Journal of Food and Agriculture. 2017; 29(8): 639-642
82.
Anticandidal, antibacterial, cytotoxic and antioxidant activities of Calendula arvensis flowers.
Abudunia AM, Marmouzi I, Faouzi ME, Ramli Y, Taoufik J, El Madani N, Essassi EM, Salama A, Khedid K, Ansar M, Ibrahimi A.
Journal de mycologie medicale. 2017; 27(1): 90-97
83.
Genetic elaborations of glandular and non-glandular trichomes in Mentha arvensis genotypes: assessing genotypic and phenotypic correlations along with gene expressions.
Mishra A, Lal RK, Chanotiya CS, Dhawan SS.
Protoplasma. 2017; 254(2): 1045-1061
84.
Antifungal activity and cytotoxicity of extracts and triterpenoid saponins obtained from the aerial parts of Anagallis arvensis L.
Soberón JR, Sgariglia MA, Pastoriza AC, Soruco EM, Jäger SN, Labadie GR, Sampietro DA, Vattuone MA.
Journal of ethnopharmacology. 2017; 203(): 233-240
85.
Evaluation of the catalytic, antibacterial and anti-biofilm activities of the Convolvulus arvensis extract functionalized silver nanoparticles.
Hamedi S, Shojaosadati SA, Mohammadi A.
Journal of photochemistry and photobiology. B, Biology. 2017; 167(): 36-44
86.
Biosynthesis, Characterization, Antimicrobial and Cytotoxic Effects of Silver Nanoparticles Using Seed Extract.
Chahardoli A, Karimi N, Fattahi A.
Iranian journal of pharmaceutical research : IJPR. 2017; 16(3): 1167-1175
87.
Trp574 substitution in the acetolactate synthase of Sinapis arvensis confers cross-resistance to tribenuron and imazamox.
Ntoanidou S, Madesis P, Diamantidis G, Eleftherohorinos I.
Pesticide biochemistry and physiology. 2017; 142(): 9-14
88.
Chemical Variability, Antioxidant and Antifungal Activities of Essential Oils and Hydrosol Extract of Calendula arvensis L. from Western Algeria.
Belabbes R, Dib MEA, Djabou N, Ilias F, Tabti B, Costa J, Muselli A.
Chemistry & biodiversity. 2017; 14(5):
89.
Phoma crystallifera with phytotoxic effects and pathogenic potential against field bindweed (Convolvulus arvensis L.) in Iran.
Razaghi P, Zafari D.
Journal of applied microbiology. 2017; 122(5): 1275-1285
90.
Variation in Phenolic Composition of Knautia arvensis in Correlation with Geographic Area and Plant Organ.
Karalija E, Muratović E, Tarkowski P, Zeljković SĆ.
Natural product communications. 2017; 12(4): 545-548
91.
Diversity and plant growth promoting properties of rhizobia isolated from root nodules of Ononis arvensis.
Wdowiak-Wróbel S, Marek-Kozaczuk M, Kalita M, Karaś M, Wójcik M, Małek W.
Antonie van Leeuwenhoek. 2017; 110(8): 1087-1103
92.
Quantitative HPLC analysis of phenolic acids, flavonoids and ascorbic acid in four different solvent extracts of two wild edible leaves, Sonchus arvensis and Oenanthe linearis of North-Eastern region in India
Tapan Seal.
Journal of Applied Pharmaceutical Science. 2016; 6(2): 157-166
93.
A case of phytodermatitis due to Ranunculus arvensis used as an herbal remedy.
Polat M.
International journal of dermatology. 2016; 55(1): e37-8
94.
Consumption of Buglossoides arvensis seed oil is safe and increases tissue long-chain n-3 fatty acid content more than flax seed oil - results of a phase I randomised clinical trial.
Lefort N, LeBlanc R, Giroux MA, Surette ME.
Journal of nutritional science. 2016; 5(): e2
95.
Aspergillus leaf spot of field bindweed (Convolvulus arvensis L.) caused by Aspergillus niger in China.
Zhang X, Xi H, Lin K, Liu Z, Yu Y, Sun Y, Zhao J.
SpringerPlus. 2016; 5(): 605
96.
The efficacy of Mentha arvensis L. and M. piperita L. essential oils in reducing pathogenic bacteria and maintaining quality characteristics in cashew, guava, mango, and pineapple juices.
de Sousa Guedes JP, da Costa Medeiros JA, de Souza E Silva RS, de Sousa JM, da Conceição ML, de Souza EL.
International journal of food microbiology. 2016; 238(): 183-192
97.
Clonal growth buffers the effect of grazing management on the population growth rate of a perennial grassland herb.
Johansen L, Wehn S, Hovstad KA.
Flora. 2016; 223(): 11-18
98.
Time-invariant differences between plant individuals in interactions with arthropods correlate with intraspecific variation in plant phenology, morphology and floral scent.
Kuppler J, Höfers MK, Wiesmann L, Junker RR.
The New phytologist. 2016; 210(4): 1357-68
99.
Comparative study of biological activities and phytochemical composition of two rose hips and their preserves: Rosa canina L. and Rosa arvensis Huds.
Nađpal JD, Lesjak MM, Šibul FS, Anačkov GT, Četojević-Simin DD, Mimica-Dukić NM, Beara IN.
Food chemistry. 2016; 192(): 907-14
100.
Phytoremediation of lead-contaminated soil by Sinapis arvensis and Rapistrum rugosum.
Saghi A, Rashed Mohassel MH, Parsa M, Hammami H.
International journal of phytoremediation. 2016; 18(4): 387-92

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