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Общее количество найденных документов : 63
Показаны документы с 1 по 20
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1.
| Москвитин А.С. Влияние азотных удобрений, сульфата цинка и гербицидов на урожайность и качество зерна яровой пшеницы в условиях Алтайского Приобья. - 2005
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2.
| Москвитин А.С. Влияние азотных удобрений, сульфата цинка и гербицидов на урожайность и качество зерна яровой пшеницы в условиях Алтайского Приобья. - 2005
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3.
| Прошкина Е.А. Влияние сульфата цинка на почвенные водоросли. - 1997
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4.
| Прошкина Е.А. Влияние сульфата цинка на почвенные водоросли. - 1997
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5.
| Мельникова К.В. Профилактика и лечение цинкодефицита у коров. - 2012
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6.
| Main olfactory system mediates social buffering of conditioned fear responses in male rats // Eur. J. Neurosci., 2009. Vol. 29, N 4.-С.777-785
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7.
| Soleimani R. Cumulative and residual effects of zinc sulfate on grain yield, zinc, iron, and copper concentration in corn and wheat // J. Plant Nutr., 2012. Vol. 35, N 1.-С.85-92
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8.
| Oral zinc sulphate supplementation for six months in SCA2 patients: A randomized, double-blind, placebo-controlled trial // Neurochem. Res., 2011. Vol. 36, N 10.-С.1793-1800
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9.
| Study on the effectiveness of topical application of antiseptics in the therapy of digital dermatitis in diary cattle // Acta vet., 2009. Vol. 59, N 4.-С.437-446
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10.
| Hummadi Y.M.Al-Mulla The mechanism behind the antileishmanial effect of zinc sulphate I.: An in-vitro study // Ann. Trop. Med. and Parasitol., 2005. Vol. 99, N 1.-С.27-36
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11.
| Vankhede G.N. Effects of CuSo[4] and ZnSO[4] on branchial Na,K-ATPase activity of the fish, Channa punctatus // J. Ecobiol., 2003. Vol. 15, N 4.-С.287-293
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12.
| Vankhede G.N. Effects of CuSo[4] and ZnSO[4] on branchial Na,K-ATPase activity of the fish, Channa punctatus // J. Ecobiol., 2003. Vol. 15, N 4.-С.287-293
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13.
| Al-Mulla Hummadi Y.M. The mechanism behind the antileishmanial effect of zinc sulphate II: Effects on the enzymes of the parasites // Ann. Trop. Med. and Parasitol., 2005. Vol. 99, N 2.-С.131-139
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14.
| Evaluation of zinc for broiler chicks // Int. Hatchery Pract., 2007. Vol. 21, N 7.-С.13
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15.
| Schlegel P. Bioavailability of zinc glycinate in comparison with zinc sulphate in the presence of dietary phytate in an animal model with {65}Zn labelled rats // J. Anim. Physiol. and Anim. Nutr., 2006. Vol. 90, N 5-6.-С.216-222
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16.
| Al-Mulla Hummadi Y.M. The mechanism behind the antileishmanial effect of zinc sulphate II: Effects on the enzymes of the parasites // Ann. Trop. Med. and Parasitol., 2005. Vol. 99, N 2.-С.131-139
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17.
| Shih Zinc sulfate inhibited inflammation of Der p2-induced airway smooth muscle cells by suppressing ERK1/2 and NF-kB phosphorylation // Inflammation, 2013. Vol. 36, N 3.-С.616-624
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18.
| Biochemical changes produced as a result of zinc sulphate and copper sulphate in the muscle of freshwater crab, Barytelphusa guerini // Uttar Pradesh. J. Zool, 1990. Vol. 10, N 1.-С.19-22
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19.
| Schlund Intra-nasal zinc sulphate irrigation in pigeons: effects on olfactory capabilities and homing // J. Exp. Biol, 1992. Vol. 164.-С.171-187
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20.
| Hofer Myron A. Trigeminal and olfactory pathways mediating isolation distress and companion comfort responses in rat pups // Behav. Neurosci., 1991. Vol. 105, N 5.-С.699-706
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