Košík

Záznam bol pridaný do košíka

1.A new scenario-based approach for water quality and environmental impact assessment due to mining activities

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200	1-	$a A new scenario-based approach for water quality and environmental impact assessment due to mining activities $f Mohd Talha Anees, Mohammad Muqtada Ali Khan ... [et al.]
330		$a Water quality assessment and its monitoring are necessary for areas of mining activities. In Malaysia, the mining industry is the backbone of the manufacturing and construction sectors. This study used spatio-temporal water quality modeling along a reach with mining activities during high and low discharges at Sungai (river) Lebir and Sungai Aring, situated in Gua Musang, Kelantan, Peninsular Malaysia. The objective was to assess the spatio-temporal environmental impact of mining activities during the wet and dry seasons. Data were collected at different locations along the reach. Point and non-point sources were near the mining site. Overland flow calculation at the mining site was found with the widely used SCS (Soil Conservation Service) curve number method. Several scenarios were analyzed, such as baseline, worst-case, and with-mitigation. The study revealed that baseline values of all parameters were either in a natural condition or slightly polluted, except for aluminum. All parameters were estimated at a high concentration from the mining site to downstream during the worst case of the wet season. Whereas, during the worst case of the dry season, no significant differences were observed compared to baseline values. In the with-mitigation scenario, parameter concentrations were improved and similar to baseline values. Overall, the scenario selection was helpful in the environmental impact assessment. Furthermore, this study will be significant in pre- and post-mining assessment and environmental clearance.
463	-1	$1 001 umb_un_cat0312967 $1 011* $a 2073-4441 $1 200 1 $a Water $v Vol. 14, no. 13 (2022), pp. [1-7] $1 210 $a Basel $c Multidisciplinary Digital Publishing Institute $d 2022
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606	0-	$3 umb_un_auth*0036163 $a znečistenie $X pollution
606	0-	$3 umb_un_auth*0036153 $a kvalita vody $X water quality
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2.Accuracy assessment of various supervised machine learning algorithms in litho-facies classification from seismic data in the Penobscot field, Scotian Basin

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200	1-	$a Accuracy assessment of various supervised machine learning algorithms in litho-facies classification from seismic data in the Penobscot field, Scotian Basin $f Satya Narayan ... [et al.]
463	-1	$1 001 umb_un_cat0321412 $1 011* $a 2296-6463 $1 200 1 $a Frontiers in Earth Science $v Vol. 11 (2023), pp. [1-14] $1 210 $a Lausanne $c Frontiers Media S.A. $d 2023
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3.Age, sedimentary rate and infill of the Tatra Mts. lakes (Slovakia)

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200	1-	$a Age, sedimentary rate and infill of the Tatra Mts. lakes (Slovakia) $d Vek, rýchlosť sedimentácie a sedimentárna výplň tatranských plies (Slovensko) $f Radovan Pipík, Dušan Starek ... [et al.] $z slo
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4.An alternative approach to estimate river cross-sections using LIDAR-based digital elevation model

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200	1-	$a An alternative approach to estimate river cross-sections using LIDAR-based digital elevation model $f Mohd Talha Anees ... [et al.]
330		$a Topographic LIDAR can be used to estimate elevation values for dry areas down to the river water level during the extraction of river cross-sections (XS). However, LIDAR cannot accurately predict the submerged topography, which causes uncertainty in river XS area estimation. This uncertainty affects the channel water level and flood inundation depth estimation in in situ sparse data. Therefore, an alternative approach is presented to estimate unknown submerged topography (UST) using topographic LIDAR. The one dimension/two dimension Hydrologic Engineering Center River Analysis System (1D/2D HEC-RAS) model is used to simulate the estimated river XS with the help of in situ river water level and flow data which is later validated using in situ data. The results show that the proposed approach accurately estimates water level (error >0.5 m), channel flow areas, and floodplain water depths. Notably, the extent of the estimated floodplain overflow by UST models was in 94% agreement with the real XS.
463	-1	$1 001 umb_un_cat0312751 $1 011* $a 0262-6667 $1 011 $a 2150-3435 $1 200 1 $a Hydrological sciences journal $v Roč. 67, č. 6 (2022), s. 996-1010 $1 210 $a London $c Taylor & Francis Group $d 2022
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701	-1	$3 umb_un_auth*0294420 $a Johar $b Zubaidi $4 070 $9 5
701	-1	$3 umb_un_auth*0294421 $a Omar $b Fatehah Mohd $4 070 $9 5
701	-1	$3 umb_un_auth*0294422 $a Kadir $b Mohd Omar Abdul $4 070 $9 5
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5.Analýza ročného tréningového cyklu v behu na 800 m u dievčat dorasteneckého veku a úrovne výkonnosti

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200	1-	$a Analýza ročného tréningového cyklu v behu na 800 m u dievčat dorasteneckého veku a úrovne výkonnosti $e bakalárska práca $f Michal Ivančo $g školiteľ: Miroslava Rošková
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6.Analýza využitia a metód práce s časopismi pre deti v primárnom vzdelávaní

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200	1-	$a Analýza využitia a metód práce s časopismi pre deti v primárnom vzdelávaní $e diplomová práca $f Henrietta Eibnerová $g školiteľ: Zuzana Kováčová Švecová
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7.Biostratigraphy of the late Campanian - Maastrichtian of the Duwi Basin, Red Sea, Egypt

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200	1-	$a Biostratigraphy of the late Campanian - Maastrichtian of the Duwi Basin, Red Sea, Egypt $f Orabi H. Orabi ... [et al.]
330		$a During the Late Campanian, sea-level fluctuation occurred in the form of two chert bands and the topmost conglomeratic phosphate beds (CF8a zone). A great transgression event occurred associated with the global warming (CF8b zone) trend indicated by large double-keeled foraminifera as Globotruncana aegyptiaca Nakkady of oligotrophic conditions. Through the event of CF6/CF5 zones, a gradual increase in the relative abundance of Gublerina rajagopalani Govindan and Planoheterohelix planata (Cushman) and other heterohelicids have been shown to tolerate and thrive in a wide range of environmental conditions as in high-stress environments. Sea-level fall at the CF6 zone and the overlying CF5 boundary marked a warming climate for the Middle Maastrichtian Event. In the latest CF4 records, the beginning of the decrease in planktic/benthic ratio, globotruncanids, rugoglobigerinids, and heterohelicids indicating a fall in sea level coincided with the CF4/CF3 and the development of dark grey shales in a regressive regime. The observed low abundance of planktic specimens may be due to the presence of pyrite with black shale interval suggesting low oxygen condition. The latest zones CF3, CF2, and CF1 are generally characterized by heterohelicids blooms specially Planoheterohelix globulosa (Ehrenberg), and a gradual decrease in diversity associated with the warming phase before the K/Pg boundary event, implying high biotic stress to even absent of Guembelitria cretacea species through CF3–CF1 zones. Pseudotextularia elegans (Rzehak) occurs in the zones CF4 and CF2 warming of phases 1 and 2 of Deccan Trap Volcanic. The absence of P. elegans (Rzehak) in the zone (CF3) is postulated due to a tectonic cause (maximum cooling of Deccan Trap Volcanic) whereas its absence in the zone (CF1) was due to regression of phase 2.
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856		$u https://www.degruyter.com/document/doi/10.1515/geo-2022-0444/html $a Link na plný text
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8.Border cities and territorial development

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200	1-	$a Border cities and territorial development $g edited by Eduardo Medeiros
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9.Cestovný ruch na území Národného parku Nízke Tatry - základné predpoklady

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200	1-	$a Cestovný ruch na území Národného parku Nízke Tatry - základné predpoklady $f Vladimír Čech, Bohuslava Gregorová
330		$a The Low Tatras National Park was established in 1978 as the third national park in Slovakia. Due to its area, together with the protection zone, it represents the largest large-scale protected area in Slovakia.The aim of the paper is to briefly characterize the basic assumptions and the degree of development of tourism in the Low Tatras National Park as well as to analyze its physico-geographical structure.
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10.Contribution of advanced edge-detection methods of potential field data in the tectono-structural study of the southwestern part of Cameroon

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017	70	$a 10.3389/feart.2022.970614 $2 DOI
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100		$a 20221108d2022 m y slo 03 ba
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200	1-	$a Contribution of advanced edge-detection methods of potential field data in the tectono-structural study of the southwestern part of Cameroon $f Alain Rodrigue Nzeuga ... [et al.]
330		$a The southwest part of Cameroon is composed of a range of geological structures and sedimentary basins, whose geological history dates from the Cretaceous, and their establishment would have originated from the opening of the South Atlantic. Among these structures, the most important is the Cameroon Volcanic Line, generally denoted CVL, followed by the southern part of the Central African Shear Zone (CASZ) called the Foumban Shear Zone (FSZ), the Ntem Complex, the Benue Trough, the northern margin of the Congo Craton, and many others. The major structures identified in this part are formed as a result of geodynamic activity between the Oligocene and the recent period, to which we can add the volcanism that exists along with the continental limit. The XGM201e_2159 model is used to highlight the geological structures of Southwestern Cameroon. First, we separated the regional and residual anomalies from Bouguer gravity data. Then, we used a combination of filters to enhance the signature of the residual anomalies in Southwest Cameroon. These filters identified various geological structures in the area. Finally, we applied the enhanced horizontal gradient amplitude (EHGA) and multi-scale horizontal derivative of the vertical derivative (MSHDVD) methods to reveal the geological contacts, allowing us to establish the corresponding structural map of the region. In addition, the results obtained in this study are the first to precisely define the circumferential demarcation of the continental and oceanic expansions of Mount Cameroon, while clearly illustrating the Bao, Bomana, Tiko, and Ekona faults that extend to the Bakassi Peninsula and the Douala outlet. Furthermore, they highlight the strike–slip faults in the summit vicinity. The structural map shows that most of the geological boundaries identified in the area are trending in the NE–SW, NNE–SSW, ENE–WSW, N–S, and NW–SE directions.
463	-1	$1 001 umb_un_cat0314613 $1 011* $a 2296-6463 $1 200 1 $a Frontiers in Earth Science $v Vol. 10 (2022), pp. 1-15 $1 210 $a Lausanne $c Frontiers Media S.A. $d 2022
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856		$u https://www.frontiersin.org/articles/10.3389/feart.2022.970614/full $a Link na plný text
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