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بازسازی محیطهای رسوبی هولوسن دریاچة مهارلو با شواهد رسوبشناسی و کانیشناسی
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نویسنده
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لک راضیه ,رضاییان لنگرودی سعید ,رضاییان لنگرودی سعید
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منبع
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كواترنري ايران - 1394 - دوره : 1 - شماره : 1 - صفحه:83 -97
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چکیده
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رسوبات و کانیهای تشکیلشده در دریاچههای شور تابع تغییرات فصلی و نوسان تراز آباند. لذا، با مطالعة آنها، بهویژه کانیهای تبخیری در گذشته، میتوان زیرمحیطهای رسوبی را بازسازی کرد. این پژوهش با هدف بازسازی و تعیین زیرمحیطهای رسوبی هولوسن دریاچة مهارلو انجام گرفته است. در این پژوهش، سیزده مغزه به طول بیشینة 170 سانتیمتر با دستگاه مغزهگیر وزنی از بستر دریاچه بهصورت سالم و دستنخورده تهیه شد. مغزهها بهصورت طولی نصف و زیرمحیطهای رسوبی محیطهای پلایایی در طول مغزه تعیین و تعداد 85 نمونه از رخسارههای رسوبی مختلف مغزهها تهیه و آنالیز دانهبندی و کانیشناسی شد. اجزای رسوبی نیز با میکروسکوپ بینوکولار و الکترونی بررسی شد. نتایج حاکی از آن است که رسوبات تشکیلدهندة دریاچه از سه نوع تخریبی، کربناته و تبخیری است. کانیهای موجود در رسوبات شامل کانیهای تخریبی کوارتز، فلدسپات، کانیهای رسی، کلسیت و دولومیت است. رسوبات کربناته شامل کربناتهای کلسیت، دولومیت، آراگونیت، منیزیت، ناترون و کانیهای تبخیری شامل ژیپس، هالیت، بیشوفیت، گلوبریت، پلیهالیت و باسانیت است. کانیهای رسی شامل پلیگورسکیت، فلوگوپیت و سودویت است. رسوبات بیوشیمیایی را پلت آرتیمیا تشکیل میدهد که غالباً آراگونیتی است. تیپ رسوبات کف دریاچه غالباً سیلت رسی ماسهدار است. زیرمحیطهای رسوبی بازسازیشده برای هولوسن دریاچة مهارلو شامل پهنة گلی، پهنة گلی- نمکی، پهنة نمکی و دریاچة موقت است.
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کلیدواژه
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بازسازی محیط رسوبی ,تبخیری ,دریاچة مهارلو، مغزه ,هولوسن
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آدرس
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سازمان زمین شناسی و اکتشافات معدنی کشور, پژوهشکده علوم زمین, ایران, دانشگاه خوارزمی, ایران. شرکت مهندسان مشاور کاوشگران, ایران, دانشگاه خوارزمی, ایران. شرکت مهندسان مشاور کاوشگران, ایران
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Authors
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Lak Razyeh ,Rezaeian Langeroudi Saeed ,Rezaeian Langeroudi Saeed
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Abstract
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Abstract:1 IntroductionPlaya is considered as a dry inland with negative water balance which is dry negative water balance which is dry in more than ¾ of a year and its capillary margins are so close to the surface that evaporation resulting from these margins leads to water discharge and evaporates formation. Paleophysical and paleochemical changes of a playa make significant changes in type of sediments which can be applied to determine paleosedimentary environments and their effective sedimentary processes. Sediments and minerals of salty Lakes are changed by seasonal and temporal variations of sea level, so by studying sediments and minerals especially evaporate minerals in the past, sedimentary environments can be reconstructed. The present study is aimed to reconstruct and determine Holocene sub environments in Maharlou Lake as a playa sedimentary environment which is exactly related to input – output balance of water. Maharlou is a salty ephemeral Lake. It is located between 29° 17´ 00 and 29° 23´ 30´´ northern latitudes and 52° 41´ 00´´ and 52° 49´ 00´´ eastern longitude. The Lake have maximum area equals to 28 km2, is situated in 18 km from southeastern of Shiraz Town. The greatest length of the Lake is nearly 35 km and the Lake maximum width is about 15 km and average width of the Lake is 7 km. The Lake's height from sea level is 1455m. There is no permanent river in catchment basin of Maharlou Lake and basin's flooding is entered in the Lake by several flood plains and seasonal (monsoon) rivers.2 Materials and methodsIn the present study, 13 undisturbed cores (sub surface) were taken from different parts of the Lake up to 170 cm under Lake Floor by gravity corer. At first, the cores were described completely based on field evidences. Regarding to texture structure, color and type of sediment, the sub environments were distinguished 85 sles were prepared from the obtained cores. Granulometric analysis, mineralogy by XRD, studying sedimentary components by binocular microscope (Nikon) and Scanning electron Microscope (SEM) were performed.3 Results and discussionThe results from macroscopic and microscopic characteristics, granulometric analysis and mineralogy of cores were combined and stratigraphical column was plotted. Based on sub environments determination, sea level of the Lake has been relatively plotted. In other words, from sub environment of temporal Lake, salt pan, muddy salt pan and mud flat, the sea level of the Lake is reduced. Considering sedimentation rate from 0.13 to 0.3 mm in a year, the study of sediments under the Maharlou floor, up to the depth of 170 cm, are included about the last 5000 years (Lak, 2007) Indicating three origins for the sediments: clastic, chemical and evaporative origins. The sediments of central part of the Lake are nearly all chemical type (evaporative and carbonated) and marginal sediments of the Lake are clastic – chemical type. The results from XRD indicate that the minerals in Holocene sediments of Maharlou Lake include: quartz, feldspar, calcite, dolomite, aragonite, magnesite, natron, gypsum, basanite, polyhalite, glauberite and clay minerals. Clastic or detrital sediments are consisted of clastic calcareous fragments (calcite and dolomite), gypsum, quartz, feldspar, muscovite and illite. The percent of clastic carbonated sediments is more than the others. Illite is the most common clay mineral in the Lake .In some horizons (layers), there are also phlogopite and polygorskite. Illite is occurred in the outcrops of the Lake’s vicinities. Polygorskite and phlogopite isn’t occurred in the vicinities and have intra basinally formed. They are formed because of high concentration of Mg ion in the basin. The highest value of clastic sediments occurs in margins of the Lake especially southeastern and northwestern parts. Towards the center of the Lake, the presentation of clastic sediments is reduced and reaches to 2 3 percent of total sediments. In wet periods, the Lake extent is increased and sedimentary sub environment of ephemeral Lake is developed and clastic sediments will be dominated due to high charging (input) of water. Chemical sediments of Maharlou Lake include carbonated and evaporative minerals. Carbonated minerals are deposited in carbonated zone at the beginning of brine evaporation. They are consisted of aragonite, calcite, dolomite, Magnesite, Natron. Evaporative minerals are gypsum, halite, basanite, glauberite, polyhalite, bischofite. In Maharlou Lake, in addition to magnesite, there is basanite in horizons related to dry periods. Biochemical sediments of Maharlou Lake include fecal pellets related to one of the shrimps called Artemia which is occurred in ephemeral Lake. These pellets are often aragonitic. In general, Maharlou Lake has no sub environment of permanent Lake and the extension of alluvial fan, sand flat, mud flat and saline mud flat is small like a narrow strip. Mud flat includes silty clay containing sedimentary structures such as mud cracks and sand dunes. In this area, there are gypsum, glauberite and halite. The sediments of muddy salty pan are clay silt that has no sedimentary structure and their color is brown red or black. Aggregation of euhedral crystals of gypsum, glauberite and halite are occurred as replacement. In some parts, sandy dues and layers are observed. There is halite chevron form and fluid inclusions and vertical solution pipes and mixture of mud and salt. In salt pan, there are poor bedding halite and halite mixed with mud (rarely occurred with bedding) and transparent halite. Solution pipes indicate sub environment of ephemeral Lake. Alternative cycles of evaporative clastic (more often evaporative) are occurred in the area.4 ConclusionThe study of sub surface sediments of Maharlou Lake, from recent to nearly 5000 years ago, indicates three types of sediments in the Lake: clastic, carbonated (chemical and biochemical) and evaporative sediments. The sediments of central part are nearly all evaporative and carbonated and marginal sediments of the Lake are clastic chemical. The sediments contain some minerals such as clastic minerals, quartz, feldspar, clay minerals, calcite and dolomite. Carbonated sediments include intra basinal carbonated minerals like calcite, dolomite aragonite, maganesite, natron, and evaporative minerals such as gypsum, halite, bischofite, glauberite, polyhalite and basanite. Intra basinal clay minerals are polygorskite, phlogopite and sodoeite. Biochemical sediments include Artemia pellet which is mostly aragonitic. The type of sub surface sediments is usually sandy clay silt. The Holocene reconstructed sedimentary sub environments of Maharlou Lake are made of mud flat, saline mud flat, salt pan and ephemeral Lake.
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Keywords
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Lake ,Holocene ,environment reconstruction ,Evaporite ,core
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