A work on creation and test of an introgressive forms for advance biotechnology on environmental adaptability of wheat variety are expedient. The purpose of research - complex test of 12 introgressive forms of winter wheat, F6-F7, studying of their physiological and biochemical, genetic, morphological and productive properties under the environmental factors. Methodology - field and laboratory analyses of breeding material on drought resistance, winter and frost resistance, using the NDVI method for biomass, definition of free proline, biometric indicators, including developments of root system on the WinRHIZO device. Analysis of structure of an yield and general productivity, statistical data processing were applied. Introgressive forms of winter wheat have been received by introduction of a germplasm of wild relatives in a genome of cultivars. Experiments were made on the stands of the Kazakh Research Institute of Agriculture and Plant Growing in 2014-2015. It is shown that resistance to different abiotic stresses decreases among: Wild relatives > introgressive forms > wheat cultivars. Genotypes which exceed average values on stability to each or group of abiotic factors are allocated. Adaptability sources against productivity are determined. It is established to 100% of re-wintering of the introgressive forms. Genotypes with high viability after a low-temperature stress are defined that is confirmed by increase in level of free proline: Eritrospermum 350 x T.kiharae, Steklovidnaya 24 x T.timopheevii (introgressive forms); Ae.cylindrical, T.kiharae (wild); Eritrospermum 350, Progress (wheat cultivars). On biomass accumulation in different growth phases were in the lead Eritrospermum 350 x T.kiharae, Progress x T.timopheevii. Genotypes are determined by the content of free proline in seedlings for the breeding progresson to drought tolerance: Eritrospermum 350 x T.kiharae, (Bezostaya1 x T.militinae) x T.militinae (introgressive forms); T.kiharae, Ae.cylinrica (wild); Eritrospermum 350, Steklovidnaya 24 (wheat varieties). Variability ranges on the power of root growth for wild, cultivars and introgressive forms are established. The detailed analysis of structure of root system the introgressive forms of wheat is submitted and perspective genotypes are revealed. Drought tolerance genotypes against wheat productivity are allocated. The received results on search of diagnostic indicators for the characteristic of resistance to environment prospects of an integrated approach for advance of biotechnology on adaptability of winter wheat are also established. [ABSTRACT FROM AUTHOR]