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Journal articles on the topic 'Ivanovice'

Author: Grafiati
Published: 28 June 2021
Last updated: 1 February 2022

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1

Šrek, Petr, and Eva Kunzová. "Effect of Long-Term N, P, and K Fertilizer Application on the Grain Yield of Spring Barley Grown in Different Soil and Climate Conditions: Results from Čáslav, Lukavec and Ivanovice 2005-2008." Agriculture (Polnohospodárstvo) 57, no. 1 (May 1, 2011): 12–20. http://dx.doi.org/10.2478/v10207-011-0002-3.

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Effect of Long-Term N, P, and K Fertilizer Application on the Grain Yield of Spring Barley Grown in Different Soil and Climate Conditions: Results from Čáslav, Lukavec and Ivanovice 2005-2008The effect of N, P and K application on the grain yield of spring barley in 2005-2008 within three long-term field experiments (Čáslav, Ivanovice, Lukavec) was evaluated. In these experiments, nitrogen at rates of 50, 77.6, 105 and 132.5 kg N ha-1, phosphorus at rates of 14 and 29.4 kg P ha-1and potassium at 59 and 96.4 kg K ha-1was annually applied to the treat-ments during that period. Four years summarizing shows that the optimal application rate of fertilizers resulting in a grain yield above 6 t ha-1was 105 kg N ha-1, 14 kg P ha-1and 96.4 kg K ha-1in Čáslav and above 7 t ha-1was 78 kg N ha-1, 14 kg P ha-1and 59 kg K ha-1in Ivanovice. The rate of N 132.5 kg ha-1in Lukavec increased the grain yield more than three-fold (from 1.94 to 6.12 t ha-1) and probably was not sufficient to obtain the highest grain yield in this locality. No significant difference was recorded between grain yields in P and K fertilizing treatments in any of the three stations. The key result is that degraded chernozem (in Ivanovice) and greyic phaeozem (in Čáslav) demonstrate a high and long-term stable natural fertility, but yields of spring barley of low productive sandy-loamy Cambisol is strongly affected by high rates of nitrogen application.
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2

Káš, Martin, Gabriela Mühlbachova, and Helena Kusá. "Winter wheat yields under different soil-climatic conditions in a long-term field trial." Plant, Soil and Environment 65, No. 1 (January 18, 2019): 27–34. http://dx.doi.org/10.17221/606/2018-pse.

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The impact of precipitations and air temperatures on winter wheat yields was evaluated in a 34-year long-<br /> term field trial with mineral and organic fertilization established at two experimental sites with different soil-climatic conditions: Ivanovice na Hané with well fertile soils (degraded Chernozem), higher average year temperatures and lower precipitations; Lukavec situated in Bohemian-Moravian highlands with less fertile soils (Cambisol), lower temperatures and higher precipitations. At both sites, a significant positive effect of used fertilizers was noted from the dose of 80 kg N/ha; the best yields were generally obtained at 120 kg N/ha and 160 kg N/ha. The wheat yields at the Ivanovice site were negatively affected by the decrease of precipitations, namely in more fertilized treatments, particularly farmyard manure + mineral nitrogen, from the dose of 80 kg N/ha. A different trend was obtained at the Lukavec site where better winter wheat yields were obtained under lower precipitations. The air temperatures played a positive role at the Lukavec site, but no significant effect of temperature was observed at the Ivanovice site. The less productive areas in highlands can become more interesting for agriculture production with changing climate. However, the soils generally having lower quality and nutrient content can be a limiting factor for obtaining high yields.
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3

Kocourek, F., P. Saska, and M. Řezáč. "Diversity of carabid beetles (Coleoptera: Carabidae) under three different control strategies against European corn borer in maize." Plant Protection Science 49, No. 3 (June 18, 2013): 146–53. http://dx.doi.org/10.17221/78/2012-pps.

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We compared three control strategies against European corn borer (Ostrinia nubilalis Hubner) in maize with respect to carabid beetles, beneficial epigeal arthropods. The impact of the focal treatment (insect resistant Bt maize MON 810) was compared with conventionally farmed and Trichogramma-treated plots at two sites (Prague-Ruzyně and Ivanovice na Han&eacute;) in the Czech Republic, replicated in three cropping seasons (2002&ndash;2004). The sampled assemblages were species-poor. The species were unevenly distributed in terms of their catch size &ndash; the communities were dominated by 7 (Ruzyně) or 3 (Ivanovice) species. No differences were found in species richness or species composition between treatments, seasons or sites, suggesting no effect of planting transgenic insect resistant Bt maize MON 810 on the assemblages of carabid beetles in the study fields. &nbsp;
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4

Svoboda, Pavel, Gabriela Kurešová, Ivana Raimanová, Eva Kunzová, and Jan Haberle. "The Effect of Different Fertilization Treatments on Wheat Root Depth and Length Density Distribution in a Long-Term Experiment." Agronomy 10, no. 9 (September 9, 2020): 1355. http://dx.doi.org/10.3390/agronomy10091355.

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The purpose of this study was to determine the effect of sixty years of contrasting fertilization treatments on the roots of winter wheat (Triticum aestivum L.) at sites with different soil and climate conditions. The depth and length density distribution of the wheat roots were determined between 2014 and 2016 in a crop rotation experiment established in 1955 at three sites: Lukavec, Čáslav, and Ivanovice (Czech Republic). Three fertilization treatments were examined: Zero fertilization (N0), organic (ORG) fertilization, and mineral (MIN) fertilization. The fertilization, site, and year all had a significant effect on the total root length (TRL). The average TRL per square meter reached 30.2, 37.0, and 46.1 km with the N0, ORG, and MIN treatments at Lukavec, respectively, which was the site with the lightest soil and the coldest climate. At Čáslav and Ivanovice (warmer sites with silt and loamy soils), the average TRL per square meter reached 41.2, 42.4, and 47.7 km at Čáslav and 49.2, 55.3, and 62.9 km at Ivanovice with the N0, MIN, and ORG treatments, respectively. The effect of fertilization on the effective root depth (EfRD), the depth at which the root length density dropped below 2.0 cm cm−3, was significant, while the maximum root depth (RMD) was only marginally affected. With the sites and years averaged, the MIN-treated plants showed a greater EfRD (102.2 cm) in comparison to the N0 (81.8 cm) and ORG (93.5 cm) treatments. The N0 treatment showed no signs of an adaptive reaction to the root system, with potential improvement for nutrient acquisition, while optimal fertilization contributed to the potential for resource depletion from the soil profile.
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5

Svoboda, Emil. "Economic crisis in company’s management and possibilities of their solving." Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis 61, no. 7 (2013): 2821–26. http://dx.doi.org/10.11118/actaun201361072821.

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The scientific paper shows results formulated in researches MSM 6215648904 Brno, 2012) and EP focused in analysis of managerial, financial and economic risks and methods of their solving in strategical decision making of business TOP management in a new entrepreneurial environment with influences caused by integration processes, development of information technology and factors of globalization. There is analyzed the situation in Bioveta, Ltd. Ivanovice na Hané in detail.
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6

Kubešová, K., J. Balík, O. Sedlář, and L. Peklová. "The impact of nitrogen fertilizer injection on kernel yield and yield formation of maize." Plant, Soil and Environment 60, No. 1 (January 22, 2014): 1–7. http://dx.doi.org/10.17221/208/2013-pse.

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In field experiments over three vegetation periods (2010&ndash;2012) we studied impact of the CULTAN (controlled uptake long term ammonium nutrition) method on yield and yield parameters of kernel maize. The field experiments were conducted at three sites with different soil-climatic conditions. CULTAN treatments were fertilized once with the total amount of nitrogen using an injection machine (at the canopy height of 20 cm) and compared to conventional fertilization with calcium ammonium nitrate application at pre-sowing preparations. In all treatments the amount of nitrogen was the same, 140 kg N/ha. In 2010 at Humpolec site, CULTAN urea ammonium nitrate + inhibitor of nitrification treatment gave by 20.5% higher number of ears compared to CULTAN urea ammonium nitrate treatment. In 2011 at Ivanovice all CULTAN treatments reached statistically significantly higher number of kernels per ear. The higher 1000 kernel weight at CULTAN treatments was observed in 2012 at the Ivanovice site; a statistically significant difference between conventional and CULTAN urea ammonium nitrate + inhibitor of nitrification treatment was observed. Fertilization of maize with nitrogen using the CULTAN method under the conditions of the Czech Republic provides the same yield certainty as the conventional surface application and the CULTAN method of fertilization increases the yield certainty at delayed sowing. Harvest index was statistically significantly influenced by year, fertilization treatment and site.
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7

Hlisnikovský, Lukáš, Ladislav Menšík, and Eva Kunzová. "The Development of Winter Wheat Yield and Quality under Different Fertilizer Regimes and Soil-Climatic Conditions in the Czech Republic." Agronomy 10, no. 8 (August 7, 2020): 1160. http://dx.doi.org/10.3390/agronomy10081160.

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Farmers must adapt to the changes brought about by the changing climate and market requirements. These adaptations are associated with fertilization—the availability of organic manures and mineral fertilizers and crop rotations. What is the effect of organic manures on wheat and soil? Is it necessary to apply mineral phosphorus P and potassium (K) fertilizers to the wheat? These questions are frequently asked in workshops in different growing areas. To provide a relevant answer on this issue, we evaluated how farmyard manure (FYM), mineral nitrogen (N) applied without phosphorus (P) and potassium (K) fertilizers, and application of NPK affected grain yield, grain quality, and soil properties under different soil-climate conditions (Ivanovice—Chernozem, Caslav—Phaeozem, Lukavec—Cambisol) between 2015 and 2018. The FYM significantly increased grain yield even after three years since being applied and incorporated into the soil in all localities, but its application didnot affect grain quality. In the soil, the FYM significantly increased total nitrogen Nt, P, and K content in all localities and oxidable carbon Cox content in two localities. Mineral nitrogen significantly affected grain yield and quality and increased concentrations of soil N and C, but decreased pH in Caslav. Application of mineral P and K wasnot connected with a positive effect on grain yield and quality, but increased the concentration of these elements in the soil, preventing depletion of these elements from the soil. Maximal yields were recorded when 70–98 kg N ha−1 was applied in Ivanovice, 55–72 kg N ha−1 in Caslav, and 155 kg N ha−1 in Lukavec.
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8

Ondreičková, Katarína, and Ján Kraic. "Impact of Genetically Modified Stacked Maize NK603 × MON810 on the Genetic Diversity of Rhizobacterial Communities." Agriculture (Polnohospodárstvo) 61, no. 4 (December 1, 2015): 139–48. http://dx.doi.org/10.1515/agri-2015-0019.

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Abstract Field trials with the genetic modified (GM) maize stacked hybrid NK603 × MON810 performed in two different locations in the Czech Republic were used for evaluation of genetic diversity of rhizosphere bacterial communities using the terminal restriction fragment length polymorphism. Statistically significant differences in the number of terminal restriction fragments (i.e. bacterial richness) between GM and non-GM maize were not detected. Diversity indices (Gini-Simpson and Shannon’s) revealed higher bacterial diversity in non-GM sample from location Ivanovice na Hané and in the GM maize from location Probluz, but statistical significant differences between GM and non-GM samples were not detected. Additionally, using principal component analysis and cluster analysis, no substantial variation in the composition of bacterial communities between GM and conventional maize were observed but the differences among individual collection sites were recorded.
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9

Hlisnikovský, Lukáš, Kateřina Křížová, Ladislav Menšík, and Eva Kunzová. "How Mineral Fertilization and Soil–Climate Conditions Affect Spring Barley Grain Yield and Soil Chemical Properties." Agronomy 11, no. 9 (September 14, 2021): 1843. http://dx.doi.org/10.3390/agronomy11091843.

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Barley is one of the most important cereals growing in the Czech Republic. In this paper, we have evaluated how different fertilizer treatments (Control, N1 – 30 kg ha−1 N, N2 – 60 kg ha−1 N, NPK1 – 30, 60, 80 kg ha−1, respectively, NPK2 – 60, 60, 80, and NPK3 – 90, 60, 80) affected spring barley grain yield under different soil–climate conditions (Caslav–degraded Chernozem, Ivanovice–Chernozem, Lukavec–Cambisol) between the years 2013 and 2016. The agronomic efficiency (AE) and the effect of the fertilizer treatments (Control, N2, NPK2) on soil properties (pH, P, K, Ca, Mg, Cox, Nt) were also evaluated. The spring barley grain yield was significantly affected by the fertilizer treatment and soil–climate conditions. Two different models (quadratic and linear-plateau) provided the maximum and reasonable doses of N, according to the soil–climate conditions. Application of mineral P and K slightly increased the AE. The regular application of mineral P and K fertilizers led to an increase in the P and K concentration in the soil, which maintains soil fertility and prevents soil depletion.
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10

Řezáč, M., S. Pekár, and F. Kocourek. "Effect of Bt-maize on epigeic spiders (Araneae) and harvestmen (Opiliones)." Plant Protection Science 42, No. 1 (February 7, 2010): 1–8. http://dx.doi.org/10.17221/2689-pps.

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The effect of two strategies, used to control <i>Ostrinia nubialis</i>, on the abundance and diversity of epigeic spiders and harvestmen in maize was monitored. The two strategies were (1) transgenic insect-resistant maize, and (2) biological control by <i>Trichogramma</i> wasps on an isogenic maize hybrid. They were compared with a conventional system (isogenic maize hybrid), which was taken as the control. The investigation was performed at two localities (Ivanovice na Hané and Prague) in the Czech Republic from 2002 to 2004. Spiders (Araneae) and harvestmen (Opiliones) were collected by means of pitfall traps. We found that the annual abundance and diversity of arachnids on plots with the two strategies were not significantly different from a conventional system. The overall abundance of spiders decreased over three years in all systems. There was no difference in the family and guild (hunters versus web-builders) composition between strategies and the conventional system. A displacement of linyphiid spiders with lycosids on all plots over time was observed. This change is attributed to the existence of a sparse weed cover of maize fields as a result of consecutive monocultural planting.
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11

Pernicová, Alena, Blanka Procházková, Pavel Hledík, and Tomáš Filipský. "Effects of Different Soil Tillage Intensity on Yields of Spring Barley." Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis 62, no. 5 (2014): 1071–78. http://dx.doi.org/10.11118/actaun201462051071.

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Within the period 1990–2012, effects of different soil tillage intensity on yields of spring barley were studied in a field experiment in the sugar-beet producing region (Ivanovice na Hané, Czech Republic). The forecrop of the spring barley was always sugar beet; following in three different crop rotations, after maize for silage, winter wheat and spring barley. Four variants of tillage were evaluated: Variant 1 – ploughing to the depth of 0.22 m; Variant 2 – shallow ploughing to the depth of 0.15 m; Variant 3 – no tillage; Variant 4 – shallow loosening soil to the depth of 0.10 m.Effect of different tillage on yields of spring barley was statistically insignificant. In all three crop rotations, the highest and the lowest average yields were obtained in Variant 2 (ploughing to the depth of 0.15 m) and Variant 1 (ploughing to the depth of 0.22 m), respectively. Average yields in variants of soil tillage were these: variant 1 – 6.42 t.ha−1; variant 2 – 6.57 t.ha−1, variant 3 – 6.53 t.ha−1, variant 4 – 6.50 t.ha−1. The obtained results indicate that in these pedo-climatic conditions reduction of intensity soil tillage represented a very suitable alternative in case of growing spring barley after sugar beet as compared with the conventional method of tillage by ploughing to the depth of 0.22 m.
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12

Riedlová, Kateřina, and Věra Kubicová. "Villas in the "Underground"." Advanced Engineering Forum 12 (November 2014): 55–60. http://dx.doi.org/10.4028/www.scientific.net/aef.12.55.

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The political changes of 1948 brought, among other things, a significant shift in the housing policy. Focus was no longer on living in detached family houses or urban villas so popular prior to 1948. On the other hand, we can also find architecturally great villa like family houses designed by professional architects. However, construction of these houses was not far from being illegal since everything was done secretly without the slightest possibility of being presented within the professional circles or the public. The investors recruited mainly from social and cultural groups of famous people with original ideas, were not acceptable to the ruling party. Let us name a few: the villa of the famous film director Věra Chytilová in Trója, Prague (1975), Emil Přikryl`s villa; or three villas from the 1950s: Miroslav Zikmund`s (1954), Jiří Hanzelka`s (1956) and Zdeněk Liška`s (1959), designed by Zdeněk Plesník in Zlín. The most remarkable realization of family houses, so different from other contemporary designs, was the one by Ivan Ruller in Brno. Thanks to the used materials, Ruller`s houses have the capacity to age in a natural in way, without losing any of the powerful touches of modernity. In 1968, Ruller`s type of villa was designed for example for Petráček, the director of Chemoprojekt. Its construction was inspired largely by the trend in architecture “new brutalism”. Some of other Ruller`s villas can be found in Ivanovice (1976) and Mokrá Hora (1979). Architect Josef Němec`s own villa (1976) as well as Růžena Žertová`s atrium family house (1981) are just other examples of high-quality houses from and around Brno.
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13

Ginzburg, Vitalii L. "About Sergei Ivanovich Vavilov." Uspekhi Fizicheskih Nauk 171, no. 10 (2001): 1077. http://dx.doi.org/10.3367/ufnr.0171.200110f.1077.

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14

Starodubov, Vladimir I. "Anniversary of RAS Academician Ivan Ivanovich Dedov." Annals of the Russian academy of medical sciences 76, no. 1 (April 12, 2021): 125–27. http://dx.doi.org/10.15690/vramn1547.

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The Hero of Labor of the Russian Federation Ivan Ivanovich Dedov turned 80 on February 12! The Department of Medical Sciences of the Russian Academy of Sciences congratulates RAS Academician Ivan Ivanovich Dedov!
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15

Tapia Saavedra, Iván. "Lo mítico y su relación con lo fantástico en la obra de J. L. Borges." LA PALABRA, no. 22 (September 10, 2013): 67. http://dx.doi.org/10.19053/01218530.2018.

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En el presente trabajo intentaré dar una lectura del cuento borgeano “Las Ruinas Circulares” a partir de los planteamientos teóricos de Víctor Ivanovici desarrollados sobre lo fantástico, particularmente desde el componente mítico que el autor propone. Con este objetivo, en un primer momento examinaré dos definiciones teóricas principales sobre esta categoría estética, vale decir, la de Tzvetan Todorov y la de Víctor Ivanovici. Posteriormente introduciré los elementos antropológicos que alimentan la propuesta ivanoviciana a través de autores como: Bronislaw Malinowski, Claude Levi–Strauss y Mircea Eliade. En un tercer momento contrastaré la definición teórica de Ivanovici, sustentado en los aportes antropológicos acerca del mito, con la lectura del cuento escogido, corroborando en él los elementos que propone el autor como esenciales para la categorización de lo fantástico. Palabras clave: Borges, Ivanovici, Malinowski, Levi–Strauss, Eliade, mito, cultura, fantástico.
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16

Shkarenkov, Leonid Konstantinovich. "Nikolai Ivanovich Bukharin." Soviet Studies in History 28, no. 4 (April 1990): 40–73. http://dx.doi.org/10.2753/rsh1061-1983280440.

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17

Pavlov, N. V., and M. L. Fedorov. "Nikolai Ivanovich Bukharin." Soviet Studies in History 28, no. 4 (April 1990): 74–97. http://dx.doi.org/10.2753/rsh1061-1983280474.

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Pavlov, N. V., and M. L. Fedorov. "Nikolai Ivanovich Bukharin." Soviet Review 31, no. 4 (July 1990): 53–79. http://dx.doi.org/10.2753/rss1061-1428310453.

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Noskov, Boris A. "Anatoly Ivanovich Rusanov." Advances in Colloid and Interface Science 110, no. 1-2 (June 2004): 1–3. http://dx.doi.org/10.1016/s0001-8686(03)00102-7.

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20

SECHER, O. "Nikolai Ivanovich Pirogoff." Anaesthesia 41, no. 8 (August 1986): 829–37. http://dx.doi.org/10.1111/j.1365-2044.1986.tb13126.x.

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21

Shcherbakov, Ivan A., F. V. Bunkin, Evgenii M. Dianov, Vitalii I. Konov, Vyacheslav V. Osiko, Tasoltan T. Basiev, Vyacheslav P. Makarov, et al. "Sergei Ivanovich Yakovlenko." Quantum Electronics 37, no. 2 (February 28, 2007): 204. http://dx.doi.org/10.1070/qe2007v037n02abeh013537.

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22

Lichterman, Boleslav. "Vladimir Ivanovich Kulakov." BMJ 334, no. 7605 (June 7, 2007): 1226. http://dx.doi.org/10.1136/bmj.39224.617106.be.

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Lichterman, Boleslav. "Valery Ivanovich Shumakov." BMJ 336, no. 7647 (April 3, 2008): 778. http://dx.doi.org/10.1136/bmj.39521.777083.be.

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24

Bimberg, Dieter, Sergey Ivanov, and Viktor Vekselberg. "Zhores Ivanovich Alferov." Physics Today 72, no. 10 (October 1, 2019): 72. http://dx.doi.org/10.1063/pt.3.4325.

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Shafarevich, I. R. "Yuri Ivanovich Manin." Duke Mathematical Journal 54, no. 1 (1987): ii—iii. http://dx.doi.org/10.1215/s0012-7094-87-05401-9.

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Efetov, Konstantin B., David E. Khmelnitskii, Yuri N. Ovchinnikov, and Paul B. Wiegmann. "Anatoly Ivanovich Larkin." Physics Today 59, no. 4 (April 2006): 88–89. http://dx.doi.org/10.1063/1.2207057.

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Bagayev, Sergey N., Victor N. Zadkov, Tony F. Heinz, and Erich P. Ippen. "Nikolai Ivanovich Koroteev." Physics Today 52, no. 5 (May 1999): 89–90. http://dx.doi.org/10.1063/1.882674.

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SI «SISJ NAMS Ukraine», Staff of. "Nikolay Ivanovich Khvisiuk." ORTHOPAEDICS, TRAUMATOLOGY and PROSTHETICS, no. 1 (September 22, 2009): 114. http://dx.doi.org/10.15674/0030-598720091114-116.

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Zadkov, Victor N., Andrey Yu Chikishev, and Bruce S. Hudson. "Nikolai Ivanovich Koroteev." Biospectroscopy 5, no. 3 (1999): 129–30. http://dx.doi.org/10.1002/(sici)1520-6343(1999)5:3<129::aid-bspy1>3.0.co;2-q.

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30

Karl, Hans-Volker. "Nikolaj Ivanoviĉ Vavilov." Biologie in unserer Zeit 38, no. 6 (December 2008): 416. http://dx.doi.org/10.1002/biuz.200890104.

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Zheltikov, Aleksei, and Wolfgang Kiefer. "Nikolai Ivanovich Koroteev." Journal of Raman Spectroscopy 31, no. 8-9 (2000): 641–44. http://dx.doi.org/10.1002/1097-4555(200008/09)31:8/9<641::aid-jrs633>3.0.co;2-h.

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32

Derevianko, A. P., A. V. Baulo, V. V. Bobrov, V. I. Boiko, N. I. Drozdov, Y. F. Kiryushin, A. I. Kurbatov, et al. "VIACHESLAV IVANOVICH MOLODIN." Archaeology, Ethnology and Anthropology of Eurasia 35, no. 3 (September 2008): 157–59. http://dx.doi.org/10.1016/j.aeae.2008.11.014.

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Alexandrov, V. A., L. D. Beklemishev, V. M. Buchstaber, A. Yu Vesnin, A. A. Gaifullin, N. P. Dolbilin, N. Yu Erokhovets, et al. "Mikhail Ivanovich Shtogrin." Russian Mathematical Surveys 74, no. 6 (December 2019): 1159–62. http://dx.doi.org/10.1070/rm9924.

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34

Besov, O. V., A. M. Il’in, V. A. Il’in, L. D. Kudryavtsev, E. Mitidieri, S. M. Nikol’skii, L. V. Ovsyannikov, A. Tesei, and L. Véron. "Stanislav Ivanovich Pohozaev." Proceedings of the Steklov Institute of Mathematics 260, no. 1 (April 2008): 1–2. http://dx.doi.org/10.1134/s008154380801001x.

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35

Article, Editorial. "Vladimir Ivanovich Vasiljev." Rheumatology Science and Practice 45, no. 4 (January 1, 2007): 110. http://dx.doi.org/10.14412/1995-4484-2007-110.

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36

Boroffka, Nikolaus. "Viktor Ivanovich Sarianidi." Ancient Civilizations from Scythia to Siberia 20, no. 2 (November 24, 2014): 267–70. http://dx.doi.org/10.1163/15700577-12341273.

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37

Berdyshev, V. I., V. V. Vasin, S. V. Matveev, A. A. Makhnev, Yu N. Subbotin, N. N. Subbotina, V. N. Ushakov, M. Yu Khachai, and A. G. Chentsov. "Ivan Ivanovich Eremin." Proceedings of the Steklov Institute of Mathematics 289, S1 (June 26, 2015): 1–8. http://dx.doi.org/10.1134/s0081543815050016.

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KhMAPE, Staff. "Nikolay Ivanovich Khvisyuk." ORTHOPAEDICS, TRAUMATOLOGY and PROSTHETICS, no. 1 (April 9, 2019): 100–101. http://dx.doi.org/10.15674/0030-598720191100-101.

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KMAPS, Department of TVA. "Nikolay Ivanovich Khvisyuk." ORTHOPAEDICS, TRAUMATOLOGY and PROSTHETICS, no. 1 (April 2, 2014): 102. http://dx.doi.org/10.15674/0030-598720141102-104.

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Voloshin, Ilya, and Philip M. Bernini. "Nickolay Ivanovich Pirogoff." Spine 23, no. 19 (October 1998): 2143–46. http://dx.doi.org/10.1097/00007632-199810010-00022.

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Dimitrić, Radoslav. "Anatoly ivanovich maltsev." Mathematical Intelligencer 14, no. 2 (March 1992): 26–31. http://dx.doi.org/10.1007/bf03025210.

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Némethi, András. "Yuri Ivanovich Manin." Acta Mathematica Hungarica 133, no. 1-2 (August 5, 2011): 1–13. http://dx.doi.org/10.1007/s10474-011-0151-x.

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Yakovlev, A. V. "Zenon Ivanovich Borevich." Journal of Mathematical Sciences 95, no. 2 (June 1999): 2049–50. http://dx.doi.org/10.1007/bf02169957.

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Gabasov, R. F., I. V. Gaishun, V. V. Gorokhovik, N. A. Izobov, A. M. Kamachkin, F. M. Kirillova, D. A. Ovsyannikov, and L. A. Petrosyan. "Vladimir Ivanovich Zubov." Differential Equations 36, no. 10 (October 2000): 1433–35. http://dx.doi.org/10.1007/bf02757380.

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Egorov, S. F. "Mikhail Ivanovich Demkov." Russian Education & Society 37, no. 11 (November 1995): 19–29. http://dx.doi.org/10.2753/res1060-9393371119.

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Atabekyan, V. S., L. D. Beklemishev, V. M. Buchstaber, S. S. Goncharov, V. S. Guba, Yu L. Ershov, V. V. Kozlov, et al. "Sergei Ivanovich Adian." Russian Mathematical Surveys 76, no. 1 (February 1, 2021): 177–81. http://dx.doi.org/10.1070/rm9989.

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Koronovskii, Aleksei. "Dmitry Ivanovich Trubetskov." Izvestiya VUZ. Applied Nonlinear Dynamics 29, no. 4 (July 30, 2021): 461–66. http://dx.doi.org/10.18500/0869-6632-2021-29-4-461-466.

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-. "Kiselev Oleg Ivanovich." Epidemiology and Infectious Diseases 20, no. 5 (October 15, 2015): 57–58. http://dx.doi.org/10.17816/eid40968.

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Feinberg, Evgenii L. "Sergei Ivanovich Vavilov and his time." Uspekhi Fizicheskih Nauk 171, no. 10 (2001): 1082. http://dx.doi.org/10.3367/ufnr.0171.200110h.1082.

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Bonch-Bruevich, A. M. "Sergei Ivanovich Vavilov in my life." Uspekhi Fizicheskih Nauk 171, no. 10 (2001): 1087. http://dx.doi.org/10.3367/ufnr.0171.200110i.1087.

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