Диссертация (1154473), страница 25
Текст из файла (страница 25)
– 1995. – P. 977-980.234. Strasser, R. J. Analysis of the chlorophyll a fluorescence transient / R. J. Strasser,M. Tsimilli-Michael, A. Srivastava // Chlorophyll a fluorescence. – SpringerNetherlands. – 2004. – P. 321-362.235. Strasser, R. J. Simultaneous in vivo recording of prompt and delayed fluorescenceand 820 nm reflection changes during drying and after rehydration of the resurrectionplant Haberlea rhodopensis / R.
J. Strasser, M. Tsimilli-Michael, S. Qiang,V. Goltsev //Biochim. Biophys. Acta. – 2010. – V.1797. – P. 1313–1326.236. Sun, J. Toxicity of silver nanoparticles to Arabidopsis: Inhibition of rootgravitropism by interfering with auxin pathway/ J. Sun, L. Wang, S. Li, L.
Yin, J.Huang, C. Chen // Environmental toxicology and chemistry. – 2017. – V. 36. – №. 10. –P. 2773-2780.237. Tang, Y. The influence of humic acid on the toxicity of nano‐ZnO and Zn2+ to theAnabaena sp / Y. Tang, S. Li, Y. Lu, Q. Li, S. Yu // Environmental toxicology. – 2015.– V. 30. – №. 8. – P.
895-903.238. Thomas, V. In vitro studies on the effect of particle size on macrophage responsesto nanodiamond wear debris / V. Thomas, B. A. Halloran, N. Ambalavanan, S. A.Catledge, Y. K. Vohra // Acta biomaterialia. – 2012. – V. 8. – №. 5. – P. 1939-1947.239. Tisler, J. Fluorescence and spin properties of defects in single digit nanodiamonds/ J. Tisler, G. Balasubramanian, B. Naydenov, R. Kolesov, B.
Grotz, R. Reuter, M.Borsch // ACS nano. – 2009. – V. 3. – №. 7. – P. 1959-1965.240. Trevisan, S. Humic substances affect Arabidopsis physiology by altering theexpression of genes involved in primary metabolism, growth and development / S.Trevisan, A. Botton, S. Vaccaro, A. Vezzaro, S. Quaggiotti, S. Nardi // Environmentaland Experimental Botany.
– 2011. – V. 74. – P. 45-55.241. Trevisan, S. Humic substances induce lateral root formation and expression of the155early auxin‐responsive IAA19 gene and DR5 synthetic element in Arabidopsis / S.Trevisan, D. Pizzeghello, B. Ruperti, O. Francioso, A. Sassi, K. Palme, S. Nardi // PlantBiology. – 2010. – V. 12. – №.
4. – P. 604-614242. Turkmen, O. Calcium and humic acid affect seed germination, growth, andnutrient content of tomato (Lycopersicon esculentum L.) seedlings under saline soilconditions / O. Turkmen, A. Dursun, M. Turan, C. Erdinc // Acta AgriculturaeScandinavica, Section B-Soil and Plant Science. – 2004. – V. 54. – №. 3. – P. 168-174.243. Turner, S. Determination of size, morphology, and nitrogen impurity location intreated detonation nanodiamond by transmission electron microscopy / S. Turner, O. I.Lebedev, O. Shenderova, I. I. Vlasov, J.
Verbeeck, G. Van Tendeloo // Advancedfunctional materials. – 2009. – V. 19. – №. 13. – P. 2116-2124.244. Vaijayanthimala, V. The biocompatibility of fluorescent nanodiamonds and theirmechanism of cellular uptake / V. Vaijayanthimala, Y. K. Tzeng, H. C. Chang, C. Li //Nanotechnology.
– 2009. – V. 20. – №. 42. – P. 425103.245. Vajpayee, P. Chromium-induced physiologic changes in Vallisneria spiralis L.and its role in phytoremediation of tannery effluent / P. Vajpayee, U. N. Rai, M. B. Ali,R. D. Tripathi, V. Yadav, S. Sinha, S. N. Singh // Bulletin of EnvironmentalContamination and toxicology. – 2001. – V. 67. – №. 2. – P. 246-256.246.
Van Kooten, O. The use of chlorophyll fluorescence Nomenclature in plant stressphysiology / O. Van Kooten, J.F.H. Snel // Photosynthesis Research. – 1990. – V. 25. –P. 147– 150.247. Varanini, Z. Humic substances and plant nutrition / Z. Varanini, R. Pinton //Progress in botany.
– Springer Berlin Heidelberg, 1995. – P. 97-117.248. Vasconcelos, A. C. Enzymatic antioxidant responses to biostimulants in maizeand soybean subjected to drought / A. C. Vasconcelos, X. Zhang, E. H. Ervin, J. D. C.Kiehl // Scientia Agricola. – 2009. – V. 66. – №. 3. – P. 395-402.249. Van Oosten, M. J. The role of biostimulants and bioeffectors as alleviators ofabiotic stress in crop plants / M. J. Van Oosten, O.
Pepe, S. De Pascale, S. Silletti, A.Maggio // Chemical and Biological Technologies in Agriculture. – 2017. – V. 4. – №. 1.156– P. 5.250. Vaughan, D. Influence of humic substances on biochemical processes in plants /D. Vaughan, R.E. Malcom, B.G. Ord // In: Soil organic matter and biological activity –D. Vaughan, R.E. Malcom (Eds.) – Martinus Nijhoff/Junk W Publishers, Dordrecht,1985 – P. 77-108.251. Vignati, D. A. L.Temporal decrease of trivalent chromium concentration in astandardized algal culture medium: experimental results and implications for toxicityevaluation / D.
A. L. Vignati, M. L. Beye, J. Dominik, A. O. Klingemann, M. Filella, A.Bobrowski, B. J. Ferrari // Bulletin of environmental contamination and toxicology. –2008. – V. 80. – №. 4. – P. 305-310.252. Volkov, D. S. Elemental analysis of nanodiamonds by inductively-coupledplasma atomic emission spectroscopy / D. S. Volkov, M. A. Proskurnin, M.
V. Korobov// Carbon. – 2014. – V. 74. – P. 1-13.253. Volkov, D. S. Quantification of nanodiamonds in aqueous solutions byspectrophotometry and thermal lens spectrometry / D. S. Volkov, P. I. Semenyuk, M. V.Korobov, M. A. Proskurnin // Journal of analytical chemistry. – 2012. – V. 67. – №. 10.– P. 842-850.254.
Voznyakovskii, A. P. Environmental issues related to preparation of detonationnanodiamonds. Surface and functionalization / A. P. Voznyakovskii, F. A. Shumilov, A.K. Ibatullina, I. V. Shugalei // Russian Journal of General Chemistry. – 2012. – V. 82. –№. 13. – P. 2253-2255.255. Vul, A. Y. Absorption and scattering of light in nanodiamond hydrosols / A.
Y.Vul, E. D. Eydelman, L. V. Sharonova, A. E. Aleksenskiy, S. V. Konyakhin // Diamondand Related Materials. – 2011. – V. 20. – №. 3. – P. 279-284.256. Walker, W. M. Effect of lead and cadmium upon the boron, copper, manganese,and zinc concentration of young corn plants / W. M. Walker, J. E. Miller, J. J. Hassett //Communications in Soil Science and Plant Analysis. – 1977. – V. 8. – №.
1. – P. 57-66.257. Walters, C. Aggregation and dissolution of silver nanoparticles in a laboratorybased freshwater microcosm under simulated environmental conditions / C. Walters, E.157Pool, V. Somerset // Toxicological and Environmental Chemistry. – 2013. – V. 95. – №.10. – P. 1690-1701.258. Wang, F. Nanodiamond decorated liposomes as highly biocompatible deliveryvehicles and a comparison with carbon nanotubes and graphene oxide / F.
Wang, J. Liu// Nanoscale. – 2013. – V. 5. – №. 24. – P. 12375-12382.259. Wang, P. Characterizing the uptake, accumulation and toxicity of silver sulfidenanoparticles in plants / P. Wang, E. Lombi, S. Sun, K. G. Scheckel, A. Malysheva, B.A. McKenna, P. M. Kopittke // Environmental Science: Nano. – 2017. – V. 4. – №. 2. –P. 448-460.260. Wang,Z.Humicsubstancesalleviatetheaquatictoxicityofpolyvinylpyrrolidone‐coated silver nanoparticles to organisms of different trophic levels/ Z.Wang, J. T. Quik, L. Song, E.
J. Van Den Brandhof, M. Wouterse, W. J.Peijnenburg // Environmental toxicology and chemistry. – 2015. – V. 34. – №. 6. – P.1239-1245.261. Wee, T. L. Preparation and characterization of green fluorescent nanodiamondsfor biological applications / T. L. Wee, Y. W. Mau, C. Y. Fang, H. L. Hsu, C. C. Han,H. C. Chang // Diamond and Related Materials. – 2009. – V. 18. – №. 2.
– P. 567-573.262. Wehling, J. Bactericidal activity of partially oxidized nanodiamonds / J. Wehling,R. Dringen, R. N. Zare, M. Maas, K. Rezwan // ACS nano. – 2014. – V. 8. – №. 6. – P.6475-6483.263. Wodala, B. Monitoring moderate Cu and Cd toxicity by chlorophyll fluorescenceand P 700 absorbance in pea leaves / B. Wodala, G. Eitel, T. N. Gyula, A. Ordog, F.Horvath // Photosynthetica.
– 2012. – V. 50. – №. 3. – P. 380-386.264. Weng, M. F. Cellular uptake and phototoxicity of surface-modified fluorescentnanodiamonds / M. F. Weng, B. J. Chang, S. Y. Chiang, N. S. Wang, H. Niu //Diamond and Related Materials. – 2012. – V. 22. – P. 96-104.265. Xiu, Z. M. Differential effect of common ligands and molecular oxygen onantimicrobial activity of silver nanoparticles versus silver ions / Z. M.
Xiu, J. Ma, P. J.Alvarez // Environmental science and technology. – 2011. – V. 45. – №. 20. – P. 9003-1589008.266. Yang, H. L. Humic acid induces apoptosis in human premyelocytic leukemia HL60 cells / H. L. Yang, Y. C. Hseu, Y. T. Hseu, F. J. Lu, E. Lin, J. S. Lai // Life sciences.– 2004. – V.
75. – №. 15. – P. 1817-1831.267. Yang, J. H. Direct amination on 3-dimensional pyrolyzed carbon micropatternsurface for DNA detection / J. H. Yang, V. Penmatsa, S. Tajima, H. Kawarada, C.Wang // Materials Letters. – 2009. – V. 63. – №. 30. – P. 2680-2683.268. Yang, S. P. Influence of humic acid on titanium dioxide nanoparticle toxicity todeveloping zebrafish / S.
P. Yang, O. Bar-Ilan, R. E. Peterson, W. Heideman, R. J.Hamers, J. A. Pedersen // Environmental science and technology. – 2013. – V. 47. – №.9. – P. 4718-4725.269. Yang, X. Silver nanoparticle behavior, uptake, and toxicity in Caenorhabditiselegans: effects of natural organic matter / X. Yang, C. Jiang, H. Hsu-Kim, A. R.Badireddy, M.
Dykstra, M. Wiesner, J. N. Meyer // Environmental science andtechnology. – 2014. – V. 48. – №. 6. – P. 3486-3495.270. Yue, Y. Interaction of silver nanoparticles with algae and fish cells: a side by sidecomparison / Y. Yue, X. Li, L. Sigg, M. J. Suter, S. Pillai, R. Behra, K. Schirmer //Journal of nanobiotechnology. – 2017. – V. 15. – №. 1. – P. 16.271. Zhao, C. M. Comparison of acute and chronic toxicity of silver nanoparticles andsilver nitrate to Daphnia magna / C.
M. Zhao, W. X. Wang // Environmental Toxicologyand Chemistry. – 2011. – V. 30. – №. 4. – P. 885-892.272. Zhang, C. Silver nanoparticles in aquatic environments: Physiochemical behaviorand antimicrobial mechanisms / C. Zhang, Z. Hu, B. Deng // Water research. – 2016. –V. 88. – P.
403-427.273. Zhang, Q. Fluorescent PLLA-nanodiamond composites for bone tissueengineering / Q. Zhang, V. N. Mochalin, I. Neitzel, I. Y. Knoke, J. Han, C. A. Klug, Y.Gogotsi // Biomaterials. – 2011. – V. 32. – №. 1. – P. 87-94.274. Zhang, X. A comparative study of cellular uptake and cytotoxicity of multi-159walled carbon nanotubes, graphene oxide, and nanodiamond / X. Zhang, W. Hu, J. Li,L. Tao, Y. Wei // Toxicology Research. – 2012. – V. 1. – №. 1. – P. 62-68.275.
Zhu, X. Toxicity and bioaccumulation of TiO2 nanoparticle aggregates inDaphnia magna / X. Zhu, Y. Chang, Y. Chen // Chemosphere. – 2010. – V. 78. – №. 3.– P. 209-215..