مشخصات پژوهش

صفحه نخست /Soil-landscape relationships ...
عنوان Soil-landscape relationships in a small catchment area in western Iran
نوع پژوهش مقاله ارائه شده کنفرانسی
کلیدواژه‌ها Soil-Landscape, micromorphology, Iran
چکیده Soil landscape relationship was studied in an agricultural research station named Kharkeh, approximately 80 km of Sanandaj in Kordestan province of Iran. Ten pedons were dug in different geomorphic surfaces including; summit, shoulder, backslope, footslope, toeslope, and alluvial valley bottoms. The digital elevation model of the region was developed by Surfer and Illwis. Soils include four orders (Mollisols, Entisols, Inceptisols and Vertisols). Samples were taken from different horizons for laboratory analysis. Undisturbed samples were also prepared for micromorphological studies. The soils were grouped in three categories according to the landscape stability and dominant geomorphic processes; group 1: soils formed on steep hillslope positions, group 2: soils formed on the stable summit landscape positions; and group 3: soils formed on alluvial valley bottoms (upper-, mid- and lower section) which is considered as a catena. Topography is the main soil forming factor in groups 1 and 2, while drainage conditions as influenced by the presence of ground water table and vegetation also important factors of soil formation in group 3. Group one soils lack any evidence of horizon development and only show an ochric epipedon. Unstable geomorphic positions and the periodic erosion and deposition have prevented from the development of soils. The soils formed on the summit positions show higher degree of development and are the most developed soils of the study area with regard to the pedogenic processes occurred in the soil. They include one subgroup of Typic Calcixerepts. The Calcification is the dominant pedogenic process. The more stable landscape and denser vegetative growth have accelerated the process of dissolution– precipitation and recrystallisation of calcite. In group 3 soils, surface and ground water flows have created the suitable environment for vegetative growth and OC accumulation. All soils in this landform contain high OC in their surface horizons and are m
پژوهشگران فرهاد خرمالی (نفر اول)، کمال نبی اللهی (نفر دوم)