Corrected Digitized Version (Moscow, 2007). Alyabina, “Assessment of the effect of the climatic parameters on the distribution of the Al-Fe-humus horizons in the soils of the Russian Plains,” Eur. Nedanchuk, Candidate’s Dissertation in Biology (Moscow, 2010). Alyabina, “Assessment of mapping of the components of the carbon and nitrogen budgets in the main biomes of Russia,” Izv.
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Shoba, “The soil cover of central Kamchatka (GIS model),” Eur.
#MAPINFO 10 RUS WINDOWS#
Kulaichev, STADIA: Methods and Means of Data Analysis in the Windows Environment (Informatika i komp’yutery, Moscow, 2002). Alyabina, “Sorption functions of soils,” in National Soil Atlas of the Russian Federation, ed. Ananko, “Parameters of soil water regimes,” in National Soil Atlas of the Russian Federation, ed. Ĭlassification and Diagnostic System of Russian Soils (Oikumena, Smolensk, 2004).
![mapinfo 10 rus mapinfo 10 rus](https://images.g2crowd.com/uploads/product/image/social_landscape/social_landscape_8c279bac466618e81ea062684c2ee69a/mapinfo-pro.jpg)
The Map of Soil-Ecological Zoning of the Russian Federation, 1: 2.5 M Scale, Ed. Dokuchaev, “Natural soil zones, agricultural zones, and soils of the Caucasus,” in Selected Works (Izd. Alyabina, “Agroclimatic characterization of the naturalagricultural provinces of the plain territory of Russia,” in National Soil Atlas of the Russian Federation, ed. Theory of the Ecological Functions of Soils (Izd. Tyuryukanov) (“Infosfera”-NIA-Priroda, Moscow, 2011), p. Devoted to 80 Years of the Birth of Prof. Dergacheva, “Soil ecology as a science of the biospheric cycle,” in Biosphere-Soils-Humankind: Sustainability and Development (Mater. Targulian, “Methodological approaches toward the cartographic assessment of climate as a factor of soil formation,” Vestn. Gerasimov, “Elementary pedogenic processes as the basis for the genetic diagnosis of soil,” Pochvovedenie, No. Pogozheva, “Sustainability of soil functioning,” in National Soil Atlas of the Russian Federation, ed. Alyabina, “Behavior of the organic matter of soils,” in National Soil Atlas of the Russian Federation, ed. Biryukov, “Types of humus in the humus-accumulative horizons of soils,” in National Soil Atlas of the Russian Federation, ed. Filenko, “Assessment of the efficiency of using agricultural lands in administrative districts of Krasnodar region,” in Use and Conservation of Natural Resources of Russia. Nedanchuk, “Calculation of quantitative relationships between distribution of soil horizons and climatic parameters,” in Soils of Russia: Modern State and Prospects for Their Use and Study, Proc. Glazovskaya (Reports All-Russia Conf.) (Moscow, 2012), pp. On the Centennial Anniversary of the Birth of M.A. Bogatyrev, “Sequestration of organic carbon and its pools in the soil cover of the geochemical landscapes of Russia,” in Geochemistry of Landscapes and Soil Geography. Alyabina, “Pedodiversity of Russian soil cover: a cartographic assessment,” in The Role of Soils in the Biosphere (Tr. Alyabina, “Texture of surface deposits,” in National Soil Atlas of the Russian Federation, ed. Gugalinskaya, “Soil science and ecology: conceptual and terminological problems in Russian soil science,” Eur. The weakest correlation with the distribution of soil horizons was found for the index characterizing the depth of penetration of temperatures >10☌ into the soils. These characteristics reflect the redistribution of moisture under the influence of temperature factors. The difference between precipitation and potential evaporation, evaporation, and bulk atmospheric moistening of the soils proved to be the most significant climatic parameters affecting the distribution of soil horizons. The results of our study made it possible to estimate the climatic parameters with respect to their impact on the formation of soil horizons. The initial dataset was prepared with the use of digitized maps in the MapInfo program.
![mapinfo 10 rus mapinfo 10 rus](https://s2.studylib.net/store/data/005343231_1-7b44c778235d9b44be592ff937099b9a-768x994.png)
Quantitative characteristics of the relationships between these climatic parameters and the distribution of soil horizons were estimated by the rank correlation method.
![mapinfo 10 rus mapinfo 10 rus](https://i.ytimg.com/vi/tNIDRkLhnnE/maxresdefault.jpg)
Var map = new (document.The influence of 15 parameters of atmospheric and soil climates on the distribution of 12 genetic soil horizons (humus, eluvial, illuvial, and metamorphic) in the soils of Russian plains was studied.
#MAPINFO 10 RUS CODE#
So here is the code below: var locations = [ I'm following this code for Multiple Markers in Google map, my problem is once I put my data in the map their info window are all in the wrong coordinates, they seem scrambled.