Вестник МГТУ. 2018, том 21, № 2.

Рыжик И. В. и др. Физиологическое состояние Fucus vesiculosus L ... References 1. Baker K. H., Herson D. S. Bioremediation. New York : McGraw-Hill, 1994. 375 p. 2. Atlas R. M. Bioremediation of petroleum pollutants // International Biodeterioration & Biodegradation. 1995. V. 35, N 1-3. P. 317-327. 3. Alexander M. Biodegradation and bioremediation. 2nd Edition. Academic Press, 1999. 453 p. 4. Choi H. M., Cloud R. M. Natural sorbents in oil spill cleanup // Environmental Science & Technology. 1992. V. 26, N 4. P. 772-776. DOI: 10.1021/es00028a016. 5. Thomson B. M. [et al.]. Removal of metals and radionuclides using apatite and other natural sorbents // Journal of Environmental Engineering. 2003. V. 129, N 6. P. 492-499. DOI: https://doi.org/10.1061/ (ASCE)0733-9372(2003)129:6(492). 6. Hlihor R. M., Gavrilescu M. Removal of some environmentally relevant heavy metals using low-cost natural sorbents // Environmental Engineering and Management Journal. 2009. V. 8, N. 2. P. 353-372. 7. Sposob ochistki morskih pribrezhnyh vod ot plenochnyh i dispergirovannyh v poverhnostnom sloe vody nefteproduktov [A method for purification of marine coastal waters from film oil and oil products dispersed in the surface layer] : pat. 2375315 Ros. Federatsiya / Voskoboynikov G. M., Korobkov V. A., Makarov M. V. N 2007106573/13 ; zayavl. 21.02.07 ; opubl. 10.12.2009, Byul. N 34. 8. Voskoboynikov G. M., Makarov M. V., Ryzhik I. V. Teoreticheskie osnovy i perspektivy ispolzovaniya plantatsii-biofiltra dlya ochistki morskoy akvatorii ot neftyanogo zagryazneniya [Theoretical bases and prospects of using the plantation-biofilter for cleaning the marine area from oil pollution] // Kompleksnye issledovaniya bolshih morskih ekosistem Rossii = Integrated investigations of the Russian large marine ecosystems. Apatity : KNTs RAN, 2011. P. 202-234. 9. Voskoboynikov G. M., Ilinskiy V. V., Lopushanskaya E. M., Makarov M. V., Pugovkin D. V., Ryzhik I. V. [i dr.]. Sanitarnaya vodoroslevaya plantatsiya dlya ochistki pribrezhnyh akvatoriy ot nefteproduktov: ot teorii k praktike [Sanitary algal plantation for cleaning coastal areas from oil products: from theory to practice] // Voprosy sovremennoy algologii. Spetsialnyi vypusk. Doklady Sabininskih chteniy (2012-2016). M. : Pero, 2017. P. 160-186. 10. Voskoboynikov G. M., Zubova E. Yu., Makarov M. V., Pugovkin D. V., Ryzhik I. V. Sanitarnaya vodoroslevaya plantatsiya (SVP): varianty [Sanitary algal plantation (SAP): variations] // Bioraznoobrazie i ustoychivoe razvitie : materialy III mezhdunar. nauch.-prakt. konf., Simferopol, 15-19 sent. 2014 g. Simferopol : Krymskiy nauchnyi tsentr, 2014. P. 66. 11. Zolotuhina E. Yu., Tropin I. V., Kononenko R. V. Raspredelenie tyazhelyh metallov v tallomah buroy vodorosli Laminaria sacharina (Ag.) Kjellm [Distribution of heavy metals in thalli of brown alga Laminaria sacharina (Ag.) Kjellm] // Vestnik Moskovskogo universiteta. Ser. 16: Biologiya. 1992. N 1. P. 72-76. 12. Stepanyan O. V. Morfo-funktsionalnye perestroyki u vodorosley-makrofitov Barentseva morya pod vozdeystviem nefti i nefteproduktov [Morpho-functional rearrangements in algae-macrophytes of the Barents Sea under the influence of oil and oil products]: dis. ... kand. biol. nauk : 25.00.28. Murmansk, 2003. 146 p. 13. Usyagina I. S., Voskoboynikov G. M., Makarov M. V., Ilin G. V., Salahov D. O. Biosorbtsiya radionuklidov vodoroslyami-makrofitami iz morskoy vody (na primere Fucus vesiculosus ) [Biosorption of radionuclides by macrophyte algae from sea water (by the example of Fucus vesiculosus )] // Materialy nauchnyh meropriyatiy, priurochennyh k 15-letiyu Yuzhnogo nauchnogo tsentra RAN: Mezhdunar. nauch. foruma "Dostizheniya akademicheskoy nauki na Yuge Rossii", Mezhdunar. molodezhnoy nauch. konf. "Okeanologiya v XXI v.: sovremennye fakty, modeli, metody i sredstva" pamyati chlena-korrespondenta RAN D. G. Matishova, Vseros. nauch. konf. "Akvakultura: mirovoy opyt i rossiyskie razrabotki", g. Rostov-na-Donu, 13-16 dekabrya 2017 g. Rostov n/D : YuNTs RAN, 2017. P. 290-293. 14. Makarov M. V., Ryzhik I. V., Voskoboynikov G. M. Vybor ob'ektov dlya sanitarnoy akvakultury, ili Fucus vesiculosus vs Terminator: shansy na vyzhivanie [Selection of objects for sanitary aquaculture or Fucus vesiculosus vs Terminator: chances of survival] // Materialy nauchnyh meropriyatiy, priurochennyih k 15-letiyu Yuzhnogo nauchnogo tsentra RAN: Mezhdunar. nauch. foruma "Dostizheniya akademicheskoy nauki na Yuge Rossii"; Mezhdunar. molodezhnoy nauch. konf. "Okeanologiya v XXI v.: sovremennye fakty, modeli, metody i sredstva" pamyati chlena-korrespondenta RAN D. G. Matishova; Vseros. nauch. konferentsii "Akvakultura: mirovoy opyt i rossiyskie razrabotki" g. Rostov-na-Donu, 13-16 dekabrya 2017 g. Rostov n/D : YuNTs RAN, 2017. P. 406-408. 15. Ustroystvo dlya biologicheskoy ochistki morskih vod ot tehnogennyh zagryazneniy (varianty) [Device for biological treatment of sea water from technogenic pollution (options)] : pat. na poleznuyu model 136037 Ros. Federatsiya / Voskoboynikov G. M., Makarov M. V. N 2013137328/10 ; zayavl. 08.08.2013 ; opubl. 27.12.2013, Byul. N 36. 16. Schagerl M., Mostl M. Drought stress, rain and recovery o f the intertidal seaweed Fucus spiralis // Marine Biology. 2011. V. 158, Iss. 11. P. 2471-2479. DOI: https://doi.org/10.1007/s00227-011-1748-x. 258