100 IPNI Interpretive Summaries
Eastern Europe/Central Asia <strong>and</strong> Middle East <strong>Group</strong> Southern <strong>and</strong> Eastern Russia: Dr. Vladimir Nosov Nutrient Omission Plots in Spring Wheat in Russia: Omsk Oblast <strong>and</strong> Republic of Bashkortostan Project Leaders: N.A. Voronkova, Siberian Research <strong>Institute</strong> of Agriculture, Omsk Oblast, Russia. E-mail: dj_rita@mail.ru <strong>and</strong> R.R. Gaifullin, Bashkir State Agrarian University, Republic of Bashkortostan, Russia. E-mail: gayfullin@bk.ru Project Cooperators: I.F. Khramtsov <strong>and</strong> F.Ya. Bagautdinov The following fertilizer treatments were applied in the Republic of Bashkortostan (N-P 2 O 5 -K 2 O in kg/ ha): 1) control, 2) 10-10-10, 3) 150-25-28, 4) 150-25-0, 5) 150-0-28, 6) 6-25-28. Spring wheat was the third crop after fallow in this location (after winter rye <strong>and</strong> buckwheat). The highest grain yield of 3.49 t/ha was obtained with recommended application of N, P, <strong>and</strong> K (treatment 3). N, P, <strong>and</strong> K fertilizer use increased grain yield by 0.52 (18%), 0.28 (9%), <strong>and</strong> 1.09 (45%) t/ha, respectively. Initial soil properties indicate low nitrate level in the soil. It was assumed that favorable conditions (temperature, rainfall) for N mineralization from soil organic matter occurred during 2011 growing season resulting in the moderate efficiency of N application. Somewhat low response to P fertilizer was likely because of “increased” content of P extracted by a routine soil test (0.5 M acetic acid [CH 3 COOH]) <strong>and</strong> also high content of Olsen P according to soil test interpretation classes proposed by researchers in Russia. This leached chernozem in the Republic of Bashkortostan had an “increased” content of K extracted by a routine soil test (0.5 M CH 3 COOH) but a low content of exchangeable K. Thus, K fertilizer application was very effective in increasing yield. The fertilizer scheme in Omsk Oblast was as follows: 1) control, 2) 10 kg N, 3) 96-82-30 kg N-P 2 O 5 -K 2 O, 4) 96-82 kg N-P 2 O 5 , 5) 96-30 N-K 2 O, 6) 82-30 P 2 O 5 -K 2 O. The third spring wheat after fallow was grown in this location. The highest yield of grain of 3.09 t/ha was again obtained with the recommended application of N, P, <strong>and</strong> K (treatment 3). Nitrogen, P, <strong>and</strong> K fertilizer use increased grain yield by 0.98 (46%), 0.04 (1%), <strong>and</strong> 0.06 (2%) t/ha, respectively. The effect of P <strong>and</strong> K applications was not significant. This leached chernozem in Omsk Oblast had a medium content of P extracted by a routine soil test (0.5 M CH 3 COOH) but an “increased” content of Olsen P. The latter may explain why P fertilizer application to spring wheat was not effective at increasing crop yield at this experimental site. K fertilizer use was also not effective at increasing yield because of the very high content of K extracted by a routine soil test (0.5 M CH 3 COOH) <strong>and</strong> also a very high content of exchangeable K. IPNI-32 v IPNI Interpretive Summaries 101