Grain Size Variations and Its Environmental Implications A Case Study DR PURANDARA BEKAL SCIENTIST, NATIONAL INSTITUTE OF HYDROLOGY HARD ROCK REGIONAL CENTER HANUMAN NAGAR BELGAUM, KARNATAKA
Particle Transport and Movement Transport of sediment involves 2 steps: Erosion and entrainment of sediment from the bed Downcurrent movement Followed by: Settle out and deposition
Sedimentary Environments Sedimentary environment physical, biological and chemical setting with a set of processes that operate there It is a geomorphic unit in which deposition takes place Parameters operating within environment lead to deposit of particular size and geometry Processes operate at rate and intensity that generate characteristic ti textures t and structures
Facies Concept Depositional environments generate sedimentary facies Interpret conditions of the environment from the deposits and their organization within the environments Hopefully there are unique characteristics preserved in the deposit to provide clues to formational conditions
Sediment Deposition Utilize lessons from fluid dynamics to understand when sediment deposited and in what type of packages Utilize sediment depositional patterns to help answer questions When did sediment move Flow conditions causing movement Reading conditions of deposition (since that is actually what is preserved)
Study Area
Water way through estuary to Periyar river
Environmental Issues of the Lake System
Yellowstone River
The present study is an attempt to understand the distribution pattern of sediments in RIVERS : (i) Pamba (including Manimala and Achankovil) (ii) Muvattupuzha (iii) Minachil LAKE: Vembanad Lake/Estuary : Pre-monsoon & Post-monsoon Adjoining Shelf: Azhikode in the North to Purakkad in the south : Monthly Variation of sediment concentration Beach : Central Kerala Coast
Sampling Locations
Formation of MUD BANKS Mud banks are natural smooth water anchorages formed at particular locations along the Kerala coast during the southwest monsoon season. It extends outwards up to a distance of 3-4 km from the shore. These are semicircular in shape, with their northern and southern edges defined by two crescentic lines of breakers running outwards to the sea. The formation of mud banks play a major role in moulding the socio-economic set up of the coastal people by providing a stable fishing ground during the monsoon season. Mud banks affect the coastal processes by damping the waves in the following ways. (i) traps the littoral material transported from the updrift side thereby preventing its downcoast movement (ii) causes refraction of waves on its sides, (iii) protects the beach in particular from erosion.
Locations of formation of Mud banks of Central Kerala Coast
Methodology Sediment samples were collected using van Veen grab from the selected rivers, lake, beach and adjoining shelf including Mud banks Sediment samples were subjected to combined sieving and pipette analysis given by Krumbein and Pettijohn(1938). From the grain size analyses the various grain size parameters were determined by employing the formulae of Folk and Ward (1957). The CM diagram were drawn to understand d the relationship between the transportation and sedimentation pattern of the lake sediments. X-RAY DIFFRACTOMETRY CHEMICAL ANALYSIS X-RAY FLUORASCENSE ORGANIC MATTER EL-Wakeel & Riley
RIVER SEDIMENT CHARCTERISTICS Based on River distance versus sediment size graphs it is noted that sediments showed a decrease in size with distance. This indicates the abrasion and progressive sorting. The arte of abrasion depended on the resistance of minerals. Progressive sorting also indicates progressive decline in the competency of the river. However, in the downstream, wide fluctuations are observed due to mixing of sediments from different environments. Sudden change in grain size in major rivers at some of the locations. Field observations indicated that this change is due to removal of sand by local people? Sediments in the upstream and downstream are poorly sorted as compared to the intermediate stretch. High energy condition and proximity it of the source area are responsible for the coarseness of the sediments. CM pattern of the river sediment denoted a transportation mechanism as graded and bottom suspension
Grain Size Analysis Vembanad Lake Textural analysis of the bed sediments showed that phi mean size of the lake sediments vary between 2.5 and 10.55 during the study period. The average value is 8.21 in the pre-monsoon & 6.4 during the post-monsoon season. Majority of the sediments are very poorly sorted both during the pre-monsoon and post-monsoon seasons. The standard deviation varies between 1.39 phi and 4.54 phi The value of skewness varies between -0.38 to 0.48. From the above results it is found that the sediments From the above results it is found that the sediments are coarser during post-monsoon and finer during premonsoon season.
Zone I : Starts from the north of the estuarine mouth to the northernmost part of the Vembanad lake where river Periyar, joins the sea. In this zone, the phi mean size of the sediments varies between 6.8 and 9.8 with an average phi mean size of 8.77. Here, both during pre-monsoon and post-monsoon season, there is no marked variation in grain-size parameters. This is attributed to the continuous influx of sediments from the adjoining sea and from the river Periyar which supplies large quantities of sediments from the northern part of the estuary. Zone II: This extends from the estuarine mouth to the Perumbalam area, where the phi mean size of the sediments varies between 6.15 and 10.55 phi. This is mainly a clayey zone with clayey silts and clayey silts. The existence of very fine sediments may be due to the incursion of sediments from the sea during tidal actions and estuarine circulation process. Further, the dredging operations taking place in the area also give rise to the accumulation of finer sediments.
Zone III: The central part of the lake extending from Perumbalam to Thanneermukkam. This is a region of coarser sediments where the phi mean size varies between 2 and 9.9, however, the percentage of finer particles are significantly less in comparison to zone I and zone II. The average phi mean size is 6. Zone IV: Southern part of the lake is chiefly composed of finer sediments of silty clays/clayey y y silts extending from the southern part of the Thanneermukkam in the north to Alleppey in the south region with a grain-size 5.1-7.8 phi. The average phi mean size of the sediment is 6.8. The accumulation of fine sediments in this region is mainly due to the deposition of sediments that are transported and deposited by major rivers like Muvattupuzha, Minachil and Pamba.
Mud bank Sediments are characterized by very fine size Dominated by Silty clays followed clays 100 San d-s ilt-c la y % 80 60 40 20 0 May June July Aug Sept Dec Months Sand % Silt % Clay % Monthly Variation of Sand-Silt-clay per cent during Southwest Monsoon
GRAIN SIZE IMPLICATIONS The Grain-size variation studied in different sedimentary environment indicated an interplay of source and dhydraulic control lin concentrating ti sediments of particular grain size. This is evident from the variation of sediment size while moving from one environment to another. Finest sediments are found in the nearshore area during the monsoon season. Further, moving offshore from the mud bank area showed a an increase in grain-size. i
Clay Mineral Investigations Clay mineral investigations showed that there is a marked variation in the content of Kaolinite while moving from terrestrial environment to Marine condition. It is also noted that the percentage of Montmorillonite showed steady increase from river to Mud bank which is attributed to the increase in suspended sediment concentration The increase of illite towards marine environment is due to the supply of illite from offshore as reported earlier researchers. Gibbsite showed steady decline towards marine environment indicating that the only source of gibbsite is terrestrial origin
Clay Mineral Distribution in the different environment
CHEMICAL ANALYSIS It is important to note that the chemical concentration in sediments depends on the grain size characteristics. In this connection organic matter was estimated using Elwakeel and Riley method. It is found that the organic matter in the rivers sediments are quite negligible in the study area The Vembanad lake showed very high concentration from 3% to 11% Similar results were also obtained for mud bank sediments. It is found that coarser sediments exhibited lower percentage of organic matter and finer sediments higher concentration.
Copper (Cu) Bed Suspended Water Cobalt (ppm) Bed Suspended Water C o n c e n t r a t io n p p m 200 150 100 50 0 May June July Aug Sept Dec Months 25 20 15 10 5 0 C o n c e n t r a tio n p p m 30 May June July Aug Sept Dec Nickel (Ni) Bed Suspended Zinc (Zn) Bed Suspended Water 100 90 80 70 60 50 40 30 20 10 0 M ay June Jul y Aug Sept Decr n c e n t r a t i o n p p m C o 90 80 70 60 50 40 30 20 10 0 May June Jul y Aug Sept Dec
Socio-economic importance of coastal ecosystem A socio-economic survey was conducted by contacting the farmers in the region and they expressed the view that the formation of mud banks is a boon to them because, the waters in the region is enriched with nutrients and therefore, fishes come closer to the coast during this particular season. Since, offshore movement is restricted during the monsoon season, the availability of fishes in the nearshore region helps them to fetch their livelihood. lih However, they also opined that, in the recent years the Vembanad lake is facing threat of pollution due to various industries located in and around the lake. The pollutants entering the lake will finally reach to the open sea and may harm the production fishes due to their pollutant. Therefore, it is essential to take control measures while discharging the industrial wastes to lake.
Recommendations The present study provides information on sediment movement pattern in a coastal environment. The study indicates that as the sediment moves away from the source area, it becomes finer and finer. The study also highlighted the importance of the formation mud banks for which h the major source of sediments are through the river systems, therefore, it is essential to maintain the continuous flow to the lake system. It is also stressed that industrial discharge should be properly treated before discharging into the Vembanad lake. At the outset, the main objective of this study is to highlight the conventional methods by which you can develop a data monitoring system in various parts of the country as well as of the ecologically sensitive lake systems. The methods presented here are quite old techniques, however, these techniques can be used by any college or school level student to develop a data bank. Such data will help the engineers and scientists to go for planning and management of the lake environment.