1. Flint, V.E., Smirnova, O.V., Zaugol’nova, L.B., et al., Sokhranenie i vosstanovlenie bioraznoobraziya (Conservation and Restoration of Biodiversity), Moscow: Izd. nauchnogo i metodologicheskogo tsentra, 2002.

2. Skvortsov, B.V., Wild and Cultivated Soybean of East Asia, Vestn. Man’chzhurii, 1927, no. 9, pp. 35–43.

3. Dymina, G.D., Gorovoi, P.G., Deineko, E.V., et al., Study of the Geographic Distribution, Ecological Features and Genetic Diversity of Wild Soybean (Glycine soja Siebold et Zucc.) Populations in the Southern Part of the Russian Far East as an Element of Biosafety Research on Herbicide(Phosphinotricyn)-Resistant Genetically Modified Soybeans, in Sovremennye napravleniya bor’by s sornyakami s ispol’zovaniem novykh klassov gerbitsidov i transgennykh rastenii, ustoichivykh k gerbitsidam (Modern Approaches to Weed Control Using New Classes of Herbicides and Herbicide-Resistant Transgenic Plants), ser. Geneticheskaya inzheneriya i ekologiya (Genetic Engineering and Ecology), Moscow, 2001, vol. 2, pp. 148–160.

4. Nedoluzhko, A.V., and Dorokhov, D.B., Study of the Biosafety of Genetically Modified Soybean in the Center of Its Origin and Diversity in the Far East of the Russian Federation, Tsitol. Genet., 2007, no. 3, pp. 72–85.

5. Ala, A.Ya., and Til’ba, V.A., Soya: geneticheskie metody selektsii G. max (L.) Merr. × G. soja (Soybean: Genetic Methods of Breeding G. max (L.) Merr. × G. soja), Blagoveshchensk: PKI “Zeya”, 2005.