2016 1(36) 911.2:581.9 . , , . , . . XX . , . ( ) , , . , . , . . . 1979 2011 . , : ( , ), . , , , . : . , , . A.N. Barmin, M.V. Valov, M.M. Iolin, N.S. Shuvaev VOLGA RIVER DELTOID VISUAL ENVIRONMENT NATURAL-ANTHROPOGENIC CONVERSION Anthropogenic influence environment has ratched up sharply from the middle of XX century that become reason of person’s living conditions detoriation in many cases and visual environment bio-productivity reduction. Resulting from it there is a necessity factor to organize and conduct monitoring for influencing factor (first of all anthropogenic) on visual environment and ecosystem state, forecast of its future state, correspondence analysis forecast and environment real state. It is necessary to conduct monitoring for the lower Volga soil and vegetation cover as the main power unit and ecosystem state display. Without phytoconosis monitoring it’s impossible to make clear ecological economic decisions, when constant amendment of natural resources bottom land distinctive features is needed, usage and ecosystem protection real system interconnection. The main tendencies of delta river Volga vegetation cover during 1979 till 2011 are shown in this work. The lead environmental factors changes are kept under review during monitoring, which defines the main Volga river delta visual environment vegetation cover hydrologic regime changes and water situation , some climate characteristics(average annual air temperature, average temperature amount and precipitation amount for foliated season, also vegetation cover unique differentiation feature depending on deltoid ground features and processes associated with it. K e y w o r d s: river Volga delta, phytocoenosis dynamic, productivity growth, hydrologic regime. Visual environment functioning. ., ., ., ., 2016 78 2016 1(36) . , . , . , , , . , , , [13]. , , , [12]. . , , , , , , , , ( ) [6]. , , [13]. , , , , , [13]. 1979 . . , . 15 2 2 , : , . , , . 50 50 126 , , . [1; 3–5; 7–9; 14]. . , - , . , , , , [13]. . , , , [4]. [11]. , , 79 . , 2016 1(36) . 80- . XX . ( ( ) .1) [2]. 1 . ,° > 10° , 3 > 10° 3 , 1972–1981 1982–1991 1992–2001 2002–2011 232 264 268 245 92 109 117 98 10,0 10,2 10,3 10,8 3601 3714 3612 3886 126 147 165 149 . (2002-2011) 1982-1991 . 1992-2001 7% ., . [2; 16]. [4]. , , , : , [15]. 1982, 1996, 2006, 2011 . , [5; 7]. «Flora Europaea» [17]. 2 1.2 [3]. 3 , 1982 2006 . , . 1982 2006 . 11 , 2011 . « , Crypsis schoenoides, » , . Bolboschoenus maritimus . 2). 2 2 , Typha angustifolia Bolboschoenus maritimus Phragmites australis Typha angustifolia 1982 . 2011 . 68,5 % , 1982 13.6 19.2 5.0 720.9 1996 590.3 48.0 62.5 964.2 2006 613.0 75.8 1467.6 2946.0 Phragmites australis, [4]. , , angustifolia 2011 404.6 3.3 624.3 1502.5 ( Phragmites australis) , [14]. 80 , , , , Typha 2016 1(36) , . 2 : 1,3–1,8 1,9–2,4 [5]. , 1,3–1,8 , , , 1,9–2,4 . 60 ; [3]. : Euphorbia uralensis, Lythrum virgatum, Senecio jacobaea, officinalis. ( repens, Dodartia orientalis. 1,9–2,4 ) , , Euphorbia palustris, Stachys palustris. , 1,9–2,4 , 1,3–1,8 , lthaea officinalis, Asparagus Phragmites australis. Glycyrrhiza glabra, Acroptilon , 40 . Hierochloe repens, Lythrum virgatum, , , , (1,3–2,4 ) ( . 1. 1982 . 1). , 2 2006 . 1996 .). 2011 . Elytrigia repens. Typha angustifolia . . Typha angustifolia ). 1996 . ( ( 68,4 81 , 1982 . 74% 2 , Typha angustifolia 37 . 2006 1996 .), 2011 7,6% Elytrigia repens ( . 2). 2016 1(36) . 2. Elytrigia repens 1.3 – 1.8 ) ( 2011 . 1982 . Glycyrrhiza glabra, , 2006 . ( 6,8% 2006 . 8,6 Bolboschoenus maritimus, Eleocharis palustris 1982 . Bolboschoenus maritimus Phragmites australis – 389,4 ( . 3). . 3. 22 . 1982 . 1,3–1,8 . 2011 . Glycyrrhiza glabra ), . Phragmites australis. 2006 . 7,3 , Eleocharis palustris – 16,2 Phragmites australis 1,3–1,8 ) 2011 . 10, 2,3 , , 1,3–1,8 Typha angustifolia, Phragmites australis ) 2011 . (6,9% . 2,2 1,9–2,4 [5]. , , 2006 . (1,6% )( 82 . 4). , 2016 1(36) . 4. ( Phragmites australis 1,9–2,4 ) Bolboschoenus maritimus, Elytrigia repens Glycyrrhiza glabra 1982 2006 . 2006 . 1982 . Bolboschoenus maritimus 8,6 , Elytrigia repens – 72,4 , Glycyrrhiza glabra – 467,5 ( . 5). . 5. 2011 . 16 Glycyrrhiza glabra 1,9–2,4 ) 2006 . , 7 Bolboschoenus maritimus Elytrigia repens – 20% ( . 6). . 6. 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URL: http://rbgweb2.rbge.org.uk/FE/fe.html ( : 15.12.2015). 11.01.2016 About the authors Alexander N. Barmin , Doctor of Geographical Sciences, Professor, , Astrakhan State University, Department of Ecology, , Nature, Land and Life Safety; 1, Shaumyan Sq; Astrakhan, 414000, Russia; e-mail: abarmin60@mail.ru , , ; , 414000, , e-mail: abarmin60@mail.ru . , 1; , , , , 414000, , e-mail: m.v.valov@mail.ru , . , 1; , 1; Mikhail M. Iolin , Candidate of Geographical Sciences, Assistant , Professor, Astrakhan State University, Department of , Ecology, Nature, Land and Life Safety; 1, Shaumyan Sq; Astrakhan, 414000, Russia; e-mail: miolin76@mail.ru , 1; Nikolai S. Shuvaev , Candidate of Geographical Sciences, Assistant , Professor, Astrakhan State University, Department of , Ecology, Nature, Land and Life Safety; 1, Shaumyan Sq; Astrakhan, 414000, Russia; e-mail: shuvns@rambler.ru , , ; , 414000, , e-mail: miolin76@mail.ru . , , ; , 414000, , e-mail: shuvns@rambler.ru . Mikhail V. Valov Postgraduate Student, Astrakhan State University, , Department of Ecology, Nature, Land and Life Safety; 1, Shaumyan Sq; Astrakhan, 414000, Russia; e-mail: m.v.valov@mail.ru : ., ., ., . . // . 2016. 1(36). . 78–86. Please cite this article in English as: Barmin A.N., Valov M.V., Iolin M.M., Shuvaev N.S. Volga river deltoid visual environment naturalanthropogenic conversion // Geographicheskiy Vestnik. 2016. 1(36). P.78–86. 86