Your search keyword '"Lake Ercek"' showing total 11 results

1. Selection of multifilament trammel nets with different mesh width in Lake Erçek.

Author

Çevik, Seda İlmen and Akkuş, Mustafa

Subjects

FISHING nets, COOKING stocks, FISHERY management, WATERSHEDS, SUSTAINABILITY, SIZE of fishes

Abstract

Copyright of Ege Journal of Fisheries & Aquatic Sciences (EgeJFAS) / Su Ürünleri Dergisi is the property of Ege Journal of Fisheries & Aquatic Sciences (EgeJFAS) / Su Urunleri Dergisi and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

2. Analysis of Risk Factors in Fishing Activities in Lake Erçek (Van, Turkey) for Occupational Health and Safety.

Author

Cengiz, Özgür

Subjects

*INDUSTRIAL hygiene, *FACTOR analysis, *RISK assessment, *OCCUPATIONAL training, *LAKES

Abstract

Fishing activities have always been a dangerous profession and numerous factors have a direct or indirect impact on the health, safety, and working conditions of fishermen. The present study aims in order to reveal the risk factors affecting the occupational health and safety of smallscale fishermen in Lake Erçek (Van, Turkey). Data were obtained from fishermen by survey between March 2022 and May 2022 and evaluated using the" L type matrix" method. "Having no training in occupational health and safety (OHS)" and "Fatigue from irregular and long working hours" are the important risk factors that affect the working conditions of fishermen. This study will make a significant contribution to the work efficiency of the fishermen and the planning to be made in the following processes, by making a risk analysis in terms of occupational health and safety before the possible increase in the number of fishermen in Lake Erçek (Van, Turkey). [ABSTRACT FROM AUTHOR]

Published

2022

3. Holocene Palynology and Pollen-Based Palaeoclimate Reconstruction of Lake Erçek (Eastern Anatolia); Short-Term Climatic Fluctuations and their Relation with Global Palaeoclimatic Change; Results of Cores E1 and E10.

Author

Kamar, Güldem

Subjects

PALYNOLOGY, ECOLOGICAL regime shifts, CLIMATE change mitigation, SEDIMENTS, PALEOCLIMATOLOGY

Abstract

Copyright of Türkiye Jeoloji Bülteni is the property of TMMOB JEOLOJI MUHENDISLERI ODASI and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

4. Erçek Gölü su kolonunun mevsimsel sıcaklık dinamiği, Doğu Anadolu/Türkiye.

Author

MEYDAN, Ayşegül Feray and AKKOL, Suna

Subjects

*BODIES of water, *WATERSHEDS, *WATER temperature, *TEMPERATURE measurements, *LAKES

Abstract

Lake Erçek is located in eastern Turkey which has a key point where different climatic systems intersect and after Lake Van it is the second largest closed basin lake in the basin. Previous studies in the water column are not sufficient to explain changes in the water column's temperature throughout the year. With this study's scope, temperature measurements were carried out in the water coloumn vertically from the lake's deepest point for 12 months between 2016-2017 with CTD device. In this study, the lake water temperature change was investigated and it was revealed that the lake water column showed thermal stratification between May and November, and the water body mixed in winter. All data showed that Lake Erçek is included in the "Holomictic Lake" class. [ABSTRACT FROM AUTHOR]

Published

2020

5. Structural patterns of the Lake Erçek Basin, eastern Anatolia (Turkey): evidence from single-channel seismic interpretation.

Author

Toker, Mustafa and Tur, Hüseyin

Subjects

*STRUCTURAL geology, *SEISMOLOGY, *SEISMIC waves, *PLATE tectonics, *GEOLOGY

Abstract

This study presents an analysis of the single-channel high-resolution shallow seismic reflection data from Lake Erçek, eastern Anatolia, to provide key information on the deformational elements, on the fault patterns and on the overall tectonic structure of the Lake Erçek Basin. High-resolution seismic data reveal major structural and deformational features, including N-S trending normal faults and W-E trending reverse faults bounding the Lake Erçek Basin, basement highs and folded structures along the marginal sections of the lake. The N-S trending normal faults asymmetrically control the steep western margin and the gentle eastern deltaic section, while the W-E trending reverse faults appear at the northern and southern margins. The N-S trending normal faults, half-graben structure, and the gradual thickening of sediments in the Erçek Basin toward the fault scarps strongly suggest an extensional tectonic regime resulting from an N-S compression. The Erçek Basin is an extension-controlled depocenter; it is a relatively undeformed and flat-lying deep Basin, forming a typical example of the half-graben structure. The N-S trending normal faults appear to be currently active and control the lake center and the E-delta section, resulting in subsidence in the lake floor. In the N- and S-margins of the lake, there is evidence of folding, faulting and accompanying block uplifting, suggesting a significant N-S compressional regime that results in the reverse faulting and basement highs along the marginal sections. The folding and faulting caused strong uplift of the basement blocks in the N- and S- margins, subsequently exposing the shelf and slope areas. The exposed areas are evident in the erosional unconformity of the surface of the basement highs and thinned sediments. The tilted basement strata and subsequent erosion over the basement block highs suggest prominent structural inversion, probably long before the formation of the lake. New high-resolution seismic data reveal the fault patterns and structural lineaments of the Lake Erçek and provide strong evidence for an ongoing extension and subsidence. The present study provides new structural insights that will support future tectonic and sedimentary studies and the development of strategies related to active earthquake faults and major seismic events in the region of Lake Erçek. [ABSTRACT FROM AUTHOR]

Published

2018

6. Shallow seismic characteristics and distribution of gas in lacustrine sediments at Lake Erçek, Eastern Anatolia, Turkey, from high-resolution seismic data

Author

Toker, Mustafa and Tur, Hüseyin

Published

2021

7. Source mechanisms and faulting analysis of the aftershocks in the Lake Erçek area (Eastern Anatolia, Turkey) during the 2011 Van event (Mw 7.1): Implications for the regional stress field and ongoing deformation processes.

Author

Toker, M., Pınar, A., and Tur, H.

Subjects

*EARTHQUAKE aftershocks, *GEOLOGIC faults, *ROCK deformation, *SEISMOLOGY, *STRAINS & stresses (Mechanics)

Abstract

In this study, we analysed the source mechanisms and faulting pattern of the aftershocks in the Lake Erçek area, Eastern Anatolia, during the 2011 Van event ( Mw 7.1). The fault plane solutions of the aftershocks were used to derive a stress tensor acting around Lake Erçek. The estimated seismological parameters (focal mechanism solutions, stress tensor, and fault focal analyses) were integrated with field surveys and high resolution seismic reflection data so as to better understand the main faulting patterns and deformational features which are the causatives of the observed geomorphological features within and around Lake Erçek. The focal parameters of the 56 aftershocks with magnitude range 3.5 ≤ Mw ≤ 5.5 were obtained using the regional broadband seismic data from the network of Kandilli Observatory and Earthquake Research Institute (KOERI) through the Centroid Moment Tensor (CMT) inversion of locally observed broadband-waves. The implications for the lateral variation of the stress field in the lake area were based on information derived from integration of seismicity and stress tensor inversion results. The major outcomes of our analyses were as follows: (a) The maximum principal stress axis is close to horizontal and aligned in NNW-SSE direction, the minimum compressional stress axis is close to vertical and aligned in an ENE-WSW direction, the intermediate stress axis is close to horizontal and is parallel to the strike of the ruptured fault plane, while the stress ratio is ( R = 0.6); (b) the lake basin is mostly deformed by dip-slip faults (dips ≥ 45–60°) in and along its margins where the various folds, basement highs with eroded surfaces and several low-angle normal faults are evident; (c) the majority of the aftershocks have reverse-thrust mechanism with some strike-slip components in the Lake Erçek area (N- and S-margins). Strike-slip and normal faulting events are also evident (E- and W-margins, respectively); (d) the normal and reverse mechanisms with some strike-slip component are mostly confined in the upper crust (0–15 km), compatible with NS-striking normal and WE-striking reverse faults in the marginal sections of the lake; (e) the WE-striking reverse faulting in the N- and S-margins seems to have the seismic potential to generate destructive earthquakes in the lake area; (f) the tectonic implications of the regional stress field and ongoing deformation processes in the lake are defined and supported by field observations and seismic reflection data. The result of these analyses reveals N-S compression/W-E extension in the lake and also the collisional/compressional regime taking place in a region of Lakes Van and Erçek. [ABSTRACT FROM AUTHOR]

Published

2017

8. ERYTHROCYTE FRAGILITY IN PEARL MULLET (ALBURNUS TARICHI GULDENSTADT, 1814) DURING MIGRATION FROM HIGHLY ALKALINE WATER TO FRESHWATER.

Author

Arihan, Okan, Kaptaner, Burak, and Kankaya, Ertugrul

Abstract

Pearl mullet (Alburnus tarichi Güldenstädt, 1814) is an endemic fish species living in the Lake Van basin. Lakes Van and Erçek are soda lakes which have alkaline and brackish properties. Pearl mullet migrate to freshwater streams surrounding these lakes for spawning and return back to the lake environment after reproduction. Migration takes places from the lakes into freshwater streams and the fish are exposed to 2 different environmental conditions. The aim of this study was to assess erythrocyte osmotic fragility, a test providing information about the membrane stability of erythrocytes and the physiological strength of erythrocytes against physicochemical stress, during spawning migration. For this purpose, blood samples were collected into EDTA containing tubes from fish sampled from Lake Erçek and a freshwater environment pouring into the lake (Memedik Stream). Erythrocyte osmotic fragility was performed on the collected blood samples. The results indicated a significant increase in erythrocyte osmotic fragility at 0.4 and 0.5% NaCl concentrations for freshwater stream samples. It can be concluded that the increased erythrocyte osmotic fragility in the freshwater environment was causally related to physicochemical changes. Further research can be conducted on physiological mechanisms that cause this observed change in erythrocyte fragility which is an indicator of membrane stability. [ABSTRACT FROM AUTHOR]

Published

2017

9. Shallow seismic characteristics and distribution of gas in lacustrine sediments at Lake Erçek, Eastern Anatolia, Turkey, from high-resolution seismic data

Author

Mustafa Toker and Hüseyin Tur

Subjects

Orange Basin, Free gas, High resolution, Soil Science, Lithospheric Structure, Enhanced reflections, Van Turkey, Sedimentary depositional environment, Shelf, Environmental Chemistry, Turbidity, Petrology, Seismic chimneys, Earth-Surface Processes, Water Science and Technology, Global and Planetary Change, Geology, Collision Zone, Pollution, Acoustic gas masking, Gas-charged sediments, Overpressure, Lake Ercek, Pockmarks, Spatial-Distribution, Charged Sediments, Mw 7.1, Reflection (physics), Layering, Acoustic impedance, Marmara Sea

Abstract

The high-resolution analysis of single-channel, seismic reflection data from Lake Ercek (Eastern Anatolia) revealed a wide range of shallow gas anomalies consisting of enhanced reflections, seismic chimneys, acoustic blanking/acoustic turbidity, strong reflectors, and pockmarks, including both surface and buried pockmarks. The enhanced reflections are represented by the higher amplitude reflection patterns resulting from high acoustic impedance variations. They are mostly clustered in the NW-corner of the lake. Seismic chimneys are represented by vertical and thinned columnar disturbances of amplitude blanking and mostly occurred in deep basinal and faulted sections in the West and East of the lake. Some seismic chimneys, occurring together with pockmarks, represent vertical vent activations. Acoustic gas masking was represented by chaotic and diffuse seismic reflection patterns, including acoustic blanking and acoustic turbidity. As diffuse acoustic turbidity indicates gas-charged sediments, columnar disturbances showing acoustic blanking indicate degassing of the sediments. These features extend from SE to NW, coinciding with the deep basin morphology of the lake. A very local strong reflector was identified in the W-section of the lake, simulating the lake floor. This reflector is due to extended enhanced reflections, suggesting shallow free gas. Pockmarks observed in the lake are structurally classified into the two distinct types; surface (active) pockmarks found in the SE-part of the lake and buried (passive) pockmarks found in the NW. The former enlarge through deeper gas reservoir feedback, as the layering is impermeable, while the latter have resulted from a cessation of the reservoir feedback mechanism and/or permeable layering. In the lake, shallow gas distribution is controlled by faults, that provide the faulting-driven depositional control and earthquakes, that provide the seismicity-driven overpressure control. The shallow gas is then vertically-horizontally distributed and shaped by asymmetric depositional-stratigraphic factors. This study of Lake Ercek presents complementary information about a possible tectono-thermal origin of observed shallow gas. Yuzuncu Yil University, Scientific Research Projects-Coordination Unit (SRP-CU), Van, Turkey; Yuzuncu Yil UniversityYuzuncu Yil University [2015-MIM-B119]; University of Oulu (Oulu, Finland) The authors would like to thank Yuzuncu Yil University, Scientific Research Projects-Coordination Unit (SRP-CU), Van, Turkey for supporting the Lake Ercek Seismic Survey project, 2015 (Toker, 2015) and the research vessel scientific crew during the survey. This research was undertaken as part of a multidisciplinary LESS-2015 project of Istanbul University Cerrahpasa (IU), Department of Geophysical Engineering, Istanbul and Yuzuncu Yil University (YYU), Division of Earth Physics, Van (Turkey). The LESS-2015 project was supported by Research Fund of the Yuzuncu Yil University (under Scientific Research Project Number: 2015-MIM-B119), and was partly supported by the University of Oulu (Oulu, Finland) post-doctoral research grant. The authors offer their greatest thanks to the editors and the two anonymous reviewers for their constructive comments and suggestions, which helped to improve the manuscript. The maps in this paper were generated using public domain generics.

Published

2021

10. ERÇEK GÖLÜ HAVZASININ JEOMORFOLOJİSİ VE GÖLÜN OLUŞUMU.

Author

Duman, Neşe and Çıçek, İhsan

Subjects

GEOMORPHOLOGY, GEOLOGICAL basins, LAKE sediments, ALTITUDES, PLEISTOCENE stratigraphic geology

Abstract

Copyright of Journal of International Social Research is the property of Journal of International Social Research and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2012

11. Comparative Analysis of Otolith Features of Tarek (Alburnus tarichi (Güldenstädt, 1814)) from Different Lakes across Van Basin (Van, Erçek, Nazik, Aygır) (Turkey)

Author

Semra Saygın, Melek Özpiçak, Mahmut Elp, Nazmi Polat, Ataman Altuğ Atıcı, and Neşe Akçanal Ödün

Subjects

lake erçek, aygır gölü, van gölü, erçek gölü, Aquaculture. Fisheries. Angling, SH1-691, lake van, alburnus tarichi, lake aygır, nazik gölü, lake nazik

Abstract

IIn the present study, a comparison of the otolith morphology of Alburnus tarichi, collected from different localities throughout Van Basin was carried on. A total of 351 specimens of A.tarichi collected by trammel nets from four different localities (Van, Erçek, Nazik, Aygır) during the period April-May 2015 were examined. Fork length and body weight of the specimens ranged between 9.9-24.6 cm and 8.4-176.5 g, respectively. Lagenar otoliths were removed discriminating as left and right. Otolith length (OL), otolith breadth (OB) and otolith weight (OW) were collected. Comparisons of right-left otolith measurements were tested by paired t test. Comparisons of otolith breadth, length and weight of A. tarichi among all localities were tested by ANOVA. There were no significant difference in terms of otolith length and weight between right and left otoliths but there were statistically significant difference in terms of otolith breadth between the specimens collected in Lake Van and Lake Erçek. There were no differences between right and left otolith measurements in Lake Nazik and Lake Aygır. Comparing all localities together, otolith length, breadth and weight were different from each other for four localities. The power model was applied to estimate the relationships between the otolith measurements and fish length.

Published

2017