Выполнен анализ развития осушительных мелиораций и современного состояния осушаемых земель Нечерноземной зоны РФ. Показано, что в современных условиях продуктивность осушаемых земель значительно ниже природно-ресурсного потенциала. Для оценки возможного увеличения продуктивности сельскохозяйственных угодий Нечерноземной зоны Российской Федерации выполнены расчеты продукционного потенциала для всех субъектов Нечерноземной зоны, которые показали, что при проведении агрохимических мероприятий и комплексных мелиораций продуктивность земель может повыситься в 2-5 раз по сравнению с фактической урожайностью.The analysis of the drainage development as well as the current conditions of the drained lands in the non-Chernozem zone of the Russian Federation is carried out. Th results show that the productivity of drained lands is significantly lower as compared to their natural resource potential in the modern conditions. To estimate the possible increase in the productivity of agricultural land in the non-Chernozem zone of the Russian Federation, calculations of the production potential for all subjects of the non-Chernozem zone were performed, which showed that land productivity can be increased by 2-5 times as compared to the actual yield as the result of both agrochemical measures and comprehensive land reclamation application.
This paper is dedicated to the study of the pollutants coming from agricultural lands located within the catchment into the Yakhroma river, a third-order tributary of the Upper Volga. The area of the river catchment is 1437 km2. It is located in the north-eastern part of the Moscow region, which geographically belongs to the Klinsko-Dmitrov ridge (the upper part of the basin) and the Upper Volga Lowland. The slopes and floodplain included in the reclaimed lands (more than 9 th ha) are lined with cities, rural settlements, numerous kitchen gardens, and agricultural lands. Water quality, river profile from the source to the mouth, and sources of pollution within the reclaimed lands of the Yakhroma floodplain were studied from 2004 to the present. A geospatial intelligence system (GIS) was developed for the catchment area. Land areas are allocated according to the conditions of surface runoff formation, taking into account soil types and slopes. The studies of the river water quality, tributaries, and drainage network in the reclaimed lands showed biogenic pollution caused by insufficiently treated wastewater discharged from cities and agricultural land, especially within the reclaimed massif. The calculations of the removal of nitrogen, phosphorus, and potassium from surface and drainage waters revealed that the main role in the pollution of both surface and drainage waters is played by nitrogen and potassium compounds, and to a lesser extent by phosphorus compounds. For nitrogen, removal from surface runoff was 27.36 t/year; for phosphorus it was 6.06 t/year; for potassium it was 242.28 t/year; with drainage runoff, the removal of nitrogen was 98.88 t/year; the removal of phosphorus was 0.38 t/year; the removal of potassium was 37.04 t/year. To reduce the inflow of surface diffuse runoff and to purify collector and drainage waters from nitrogen and phosphorus compounds, including the creation of bioplateaus and biosorption structures, it was proposed to use a set of protective measures, which will significantly reduce the biogenic load on the river flow.
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