Relationship between geological structure and helium isotopes in deep ground-water from the Osaka Basin: Application to deep groundwater hydrology

Rice irrigation systems in Kazakhstan are located on river terraces and levees of the Syr Darya, Ile, and Karatal rivers’ basins. The geological structure and lithological composition of soils in the aeration zone is characterized by a wide variety, differing in soil fertility, mechanical composition, water and physical properties, water availability and salinity. Alluvial-meadow and takyr soils consist of light and heavy loam, sandy loam, and clay [1,2,3]. Melioration errors of the rice irrigation systems, built in the period from 60s to 80s of the last century, can be described by the fact that the Kubanskaya rice sowing map was built on all soils of river terraces and river banks, with the same parameters of irrigation and drainage, with the share of rice 57.5% and 63% [4]. At the rice irrigation systems, where the geological structure and lithological composition of the aeration zone soils correspond to the irrigation and drainage parameters of the Kubanskaya rice sowing map, the soil fertility and ameliorative status of irrigated land has remained high for many decades. The salt content in the 100 cm soil layer is 0.3-0.4%; in the autumn-winter period ground water is at a depth of 2.0-2.5 m, its mineralization is 5-7 g/l. During the rice irrigation period, ground water does not connect with the water of rice paddies, and the filtration of water from rice paddies is permitted and comprises 12 – 17 mm/day. Rice is grown without flow and discharge of water from rice paddies, the irrigation rate is 21,400 m3/ha, and the yield is 5.2 t/ha. At the rice irrigation systems, where the geological structure and lithological composition of the soil in the aeration zone does not correspond to the irrigation and drainage parameters of the Kubanskaya rice sowing map, the land is saline. During the rice irrigation period, the ground water connects with the water on the rice paddies. On these paddies, due to the convective diffusion of salts from the soil and from ground water, water salinity increases and reaches the critical threshold of toxicity of 2.5 g/l [5]. It is necessary to discharge water to reduce the salinity of water on the rice paddies, which is followed by flooding of water from the irrigation channel. The irrigation rate is 23,500 m3/ha, and the yield is 4.7 t/ha.

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FIELD-BASED ENGNEERNG GEOLOGCAL INVESTIGATION FOR THE CONSTRUCTION OF TEN-STORY RESIDENTIAL BUILDINGS ON NEZAVISIMOSTI STREET IN CHERNIHIV

TECHNICAL SCIENCES AND TECHNOLOG IES ◽

10.25140/2411-5363-2020-4(22)-222-229 ◽

2020 ◽

pp. 222-229

Author(s):

Volodymyr Ivanyshyn ◽

◽

Viktor Buhay ◽

Mykola Korzachenko ◽

◽

...

Keyword(s):

Ground Water ◽

Construction Projects ◽

Residential Buildings ◽

Geological Structure ◽

Quaternary Sediments ◽

Soil Thickness ◽

The North ◽

Hydrogeological Conditions ◽

Geological Conditions ◽

Lithological Composition

Urgency of the research. The building construction should not begin without engineering geologicalinvestigation (research) on the areas, allocated for the construction of buildings and structures. In this regard, such researches are always relevant.Target setting.Almost the whole territory of Chernihiv and Chernihiv region is covered with the quaternary sediments, which have different thicknesses and lithological composition, and it is considered a negative factor in the construction of various construction projects. Because of that, each construction site (area) needs to study its geological and hydrogeological conditions in details.Actual scientific researches and issues analysis.Recent open access publications have been reviewed.Uninvestigated parts of general matters defining. Picture of distribution, thickness and lithology of Quaternary sediments is a general complex insufficiently solved problem for Chernihiv region.The research objective.Study of the geological structure and the hydrogeological conditions in the area for the construc-tion of three ten-story residential buildings on Nezalezhnosti Street in Chernihiv.The statement of basic materials. According to the geomorphology, the studied area is located on the Chernihiv-Go-rodnyansky Moraine-outwash plain coast near the water-divide part of the Stryzhen and the Belous rivers. According to tec-tonic zoning, it belongs to the axial zone of the north-western part of the Dnieper-Donetsk depression. In the geological sec-tions, based on the results of processing materials in drilling and cone penetrometer test, 11 engineering and geological elements (EGE) were identified. The geologic cross-sectio n up to a depth of 20 m is composed of modern technological, upper-and middle-quaternary sediments. The hydrogeological conditions of the area are determined by the ground water of a non-pressure type that is located at a depth of 3-3.5 m in general; moreover, the area belongs to Category II in terms of the complexity of engineering and geological conditions. Conclusions. Based on the surveys performed, it was found that the soil thickness on the area is heterogeneous, that is confirmed by the allocation of 11 engineering and geological elements in it. EGE 2,3-6 soils are subsidence under additional loads. The ground water is non-aggressive to all grades of concrete, cement, and reinforced concrete structures.

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Geochemical Study on Ground Water (II):The Relationship between the Character of the Ground Water and the Geological Structure of the Nobi Plain

The Journal of the Geological Society of Japan ◽

10.5575/geosoc.67.427 ◽

1961 ◽

Vol 67 (791) ◽

pp. 427-439 ◽

Cited By ~ 3

Author(s):

Ryuichi SUGISAKI ◽

Ken SHIBATA

Keyword(s):

Ground Water ◽

Geological Structure ◽

Geochemical Study ◽

The Relationship

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Variasi Ketebalan Arang Cangkang Biji Karet dengan Metode Filtrasi Downflow Dalam Penurunan Parameter Fe Air Tanah Dalam

Jurnal Daur Lingkungan ◽

10.33087/daurling.v2i1.18 ◽

2019 ◽

Vol 2 (1) ◽

pp. 11

Author(s):

Andri Rhomadon Ritonga ◽

Marhadi Marhadi

Keyword(s):

Surface Water ◽

Ground Water ◽

Processing Time ◽

Service Area ◽

Area Coverage ◽

Deep Groundwater ◽

Filtration Method ◽

Rubber Seed ◽

Sources Of Pollution ◽

Aeration Process

Water resources generally cover surface and ground water. Surface water will be more easily polluted than ground water, because surface water is more easily contaminated with sources of pollution so that people use water sourced from deep ground water. In Jambi city particular the Kenali Asam Atas area, is included in a residential area with a moderate density of approximately ± 6,903 Ha. PDAM service area coverage is still 2%, from the service area coverage of 10965 SR. The purpose of this study was to reduce Fe and pH parameters in deep groundwater using downflow and aeration filtration methods on variations in thickness of rubber seed shell charcoal by filtration method and variation of processing time in the aeration process using bubble aerator. The results of the downflow filtration method using variations in the thickness of 15 cm and 30 cm rubber seed shell charcoal for Fe parameters of 0.302 mg / l and pH of 5.08, while in the aeration treatment process using a variation of processing time of 30 minutes and 60 minutes for Fe parameters amounting to 0.354 mg / l and pH of 5.23.

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