evaluation of bioavailability, mobility and speciation of heavy metals in dredged sediments of anzali wetland

نویسندگان

پروین برنجکار

کارشناس ارشد مهندسی عمران- مهندسی محیط زیست، دانشگاه علم و صنعت ایران محسن سعیدی

دانشیار گروه مهندسی عمران، دانشگاه علم و صنعت ایران

چکیده

introduction a large volume of sediments are dredged from water bodies such as ports, waterways and wetlands and deposited on land. sediments are typically polluted by contaminants such as heavy metals. metals in sediments are in soluble, carbonate bound, fe-mn oxide, sulfide/organic matter bound and residual fractions. the metal solubility and mobility are mainly controlled by organic matter content, clay minerals, ph and redox potential. in exposure to air, metals release from loosely bound fractions and become available. one impact of dredging and on-land deposition of sediments is metal release enhancing their bioavailability and mobility. after sediments are deposited, plants start to grow; thus, metals can be up-taken by plants and become further available to the food chain. in case of human contact, there is a potential for direct accessibility of metals. besides, long term leachability of metals can contaminate surface and ground water. according to former investigations, the mobility, availability and toxicity of metals cannot be assessed based on their total contents, and those are usually controlled by the chemical forms of metals. the metal speciation can be determined by sequential extraction procedures, and various single extraction methods can be used to evaluate their bioavailability and mobility. other authors have studied metal leachability, bioavailability, bioaccessibility and speciation using various methods. study area the anzali international wetland was registered in the ramsar convention in 1975. it covers an area of 193 km2, located at the southwest coast of the caspian sea, in guilan, iran. due to the excessive discharge of different contaminants such as heavy metals, most of which are carried by rivers, into the wetland, bed sediments have become a sink for metals. the pasikhan river is one of the most polluted rivers leading into the south east zone of anzali wetland. a sediment trap in placed on the entry of the river, and sediments are being dredged and deposited in places adjacent to the trap; exposing to air, heavy metals might release from soluble and bioavailable phases. material and methods sampling was carried out after dredged sediments were deposited in the area for four months. ph of sediments, the solid density, grain-size distributions, moisture content, atterberg limits, mineralogical composition, major elements and total metal contents were determined. a sequential extraction procedure was applied for metal speciation. the detailed scheme for 1 g sample is as follows:     table 1 sequential extraction procedure step fraction reagent experimental conditions f1 exchangeable 10 ml of 1 moll-1 mgcl2 room temp, 1h, shaking f2 carbonate 10 ml of 1 moll-1 naoac room temp, 5h, shaking f3 fe-mn oxide 20 ml of 0.04 moll-1 nh2oh·hcl in 25% (v/v) hoac 96 °c, 6h agitation f4 organic matter 3 ml hno3 0.02 moll-1 + 5 ml 30% w/v, h2o2 3 ml of 30% w/v, h2o2 5 ml  nh4ac  3.2 moll-1 in 20% (v/v)  hoac 85 °c, 2h agitation 85 °c, 3h agitation room temp, diluted, 30mins shaking f5 residual digestion method 3050b   the phytoavailability, bioaccessibility and mobility of metals were assessed using cacl2 and edta, sbet and tclp, respectively. due to frequent precipitations in the area, splp test was conducted to simulate the amount of metals which can be washed and re-enter to the wetland. table 2 leaching tests applied to assess dredged sediment samples test reagent contact time cacl2 0.01 moll-1 cacl2, l/s= 10:1 3h, room temp edta 0.05 moll-1 edta, l/s= 10:1 1h, room temp sbet 0.4 moll-1 glycine, l/s= 100:1 1h, 37 °c tclp acoh, l/s= 20:1 18h splp h2so4/hno3 (60:40), l/s= 20:1 18h to determine release risk of metals, modified risk assessment code (mrac) based on metal fractionations was applied. to evaluate the metal bioavailability and bioaccessibility, a new bioavailability/bioaccessibility index (brai) is used based on edta and sbet results. results and discussion sediments were classified as ml. quartz was the dominant mineral observed in the xrd analysis which accorded with xrf. concentrations of most metals exceeded those of earth’s crust, global average, shijan zone of wetland and the caspian sea. thus, these fine-grained sediments contained a high amount of metals. the sequential extraction showed that the highest percentages of metal associations with exchangeable, carbonate bound, fe-mn oxide, organic matter and residual fractions were related to pb and cd, mn, zn, cu and cr, respectively. using the sum of metal extractions in exchangeable and carbonate fractions, the mrac value was equal to 44.09 indicating high potential adverse impact. the actual bioavailability of metals evaluated by cacl2 was low due to low concentrations of extracted metals (fig. 1), and the concentrations of pb and cd, which were mainly associated with exchangeable fraction, were higher than those of other metals. edta extracts the potential bioavailable fraction of metals. compared to other studied metals, high amounts of cu, mn, pb and cd were extracted by edta (fig. 1); cu and mn were mainly associated with organic matter and carbonate bound fractions, respectively.  based on results obtained from edta extraction, the calculated brai value of 2.4 showed medium risk of bioavailability. the concentrations of metals extracted by sbet method were high (fig. 1). the highest concentrations were reported for pb and cd, almost all fractions of which were extracted. based on sbet results, the calculated brai value was equal to 7.14 indicating very high risk of bioaccessibility. the release of pb, cd and mn by tclp method was higher than release of other metals (fig. 1). pb, cd and cr concentrations were below the usepa regulatory limits indicating that sediments were not toxic and beneficial use of them is viable. the contents of pb and cd in the splp leachate were high compared to other metals with low concentrations (fig. 1). metal concentrations in splp leachate were commonly lower than drinking water standards.   figure 1. metal extraction by bioavailability/bioaccessibility and mobility tests. in all extractions, the highest metal contents were reported for pb and cd and the lowest for cr. the bioavailability of metals was in the decreasing order of cd ~ pb > cu > mn > zn > fe > ni > cr. metal extractability of methods was in the order of sbet > tclp > edta > splp > cacl2 for pb, ni, cd and sbet > edta > tclp > splp > cacl2 for the rest. the potential bioavailability of metals was higher than their actual bioavailability while the bioaccessibility of them was the highest. the concentrations of metals extracted by sbet were higher than those of tclp, which was due to acidic ph and higher temperature in sbet. although tclp and splp methods are very similar, metal concentrations in tclp were higher than splp. tclp represents metal leaching under landfill conditions while splp simulates their release owing to precipitation which is an easier condition. conclusion in this study, bioavailability, mobility and speciation of heavy metals in dredged sediments of anzali wetland are assessed. the metal speciation and the mrac index showed high potential adverse impacts. brai index using bioavailability and bioaccessibility test results represented medium and very high risks. metal concentrations in tclp test were lower than usepa limits and in splp test were occasionally higher than standards. results showed that metals in sediments of anzali wetland can be up-taken by plants. moreover, metals can leach to the underlying soil and contaminate ground water. they can also be washed due to the precipitation and re-enter to the wetland. on the other hand, sediments are not toxic and can be used for beneficial purposes. it can be concluded that unless properly managed, to deposit sediments can cause adverse effects on the environment and terrestrial organisms of anzali wetland.

برای دانلود باید عضویت طلایی داشته باشید

برای دانلود متن کامل این مقاله و بیش از 32 میلیون مقاله دیگر ابتدا ثبت نام کنید

اگر عضو سایت هستید لطفا وارد حساب کاربری خود شوید

منابع مشابه

Investigation of Heavy Metal Contamination in the Surface Sediments of Anzali wetland in North of Iran

Over the last few decades, Anzali wetland has been at risk of pollutants, especially from heavy metals. The present research analyzes some physical and chemical properties and heavy metals concentration in 27 points in nine stations of Anzali wetland. The samples of each station have been mixed, acidic digested, and analyzed by inductively coupled plasma mass spectrometry (ICP-MS). The mean con...

متن کامل

Investigation of Heavy Metal Contamination in the Surface Sediments of Anzali wetland in North of Iran

Over the last few decades, Anzali wetland has been at risk of pollutants, especially from heavy metals. The present research analyzes some physical and chemical properties and heavy metals concentration in 27 points in nine stations of Anzali wetland. The samples of each station have been mixed, acidic digested, and analyzed by inductively coupled plasma mass spectrometry (ICP-MS). The mean con...

متن کامل

Evaluation of Heavy Metal Pollution in Anzali Wetland, Guilan, Iran

Background: Evaluation of heavy metals as toxic pollutants in environment has a significant importance in environmental pollution studies. surficial sediments of water resources have a high potential in releasing heavy metals to the upper water environment, hence sediment analysis presents guidelines to the authorities for monitoring the environmental systems. Methods: In this study, total an...

متن کامل

Investigation on anthropogenic and natural share of heavy metals in surface sediments of Shadegan wetland

Accumulation of trace metals in sediment can cause severe ecological impacts. The present study determines the elemental concentrations and chemical partitioning of heavy metals in surface sediment of Shadegan wetland. Shadegan wetland is one of the most important wetlands in southwest of Iran and it is in Ramsar-listed wetlands. For this purpose, 7 sampling stations were selected for sediment ...

متن کامل

Pollution Assessment some of Heavy Metals in Water and Surface Sediments of Nasseri Wetland (Khorramshahr)

Background and Aim:This research was conducted of determining and comparing the heavy metals of zinc, iron, manganese, copper, nickel and vanadium in summer in waters and sediments of Naseri wetland in Khuzestan province, 2017. Material and Methods:Sampling of water and sediments from three areas of north, central and southern Naseri wetland was carried out in summer. In order to measure heavy...

متن کامل

منابع من

با ذخیره ی این منبع در منابع من، دسترسی به آن را برای استفاده های بعدی آسان تر کنید


عنوان ژورنال:
محیط شناسی

جلد ۴۱، شماره ۳، صفحات ۶۶۵-۶۷۹

کلمات کلیدی
introduction a large volume of sediments are dredged from water bodies such as ports waterways and wetlands and deposited on land. sediments are typically polluted by contaminants such as heavy metals. metals in sediments are in soluble carbonate bound fe mn oxide sulfide/organic matter bound and residual fractions. the metal solubility and mobility are mainly controlled by organic matter content clay minerals ph and redox potential. in exposure to air metals release from loosely bound fractions and become available. one impact of dredging and on land deposition of sediments is metal release enhancing their bioavailability and mobility. after sediments are deposited plants start to grow; thus metals can be up taken by plants and become further available to the food chain. in case of human contact there is a potential for direct accessibility of metals. besides long term leachability of metals can contaminate surface and ground water. according to former investigations the mobility availability and toxicity of metals cannot be assessed based on their total contents and those are usually controlled by the chemical forms of metals. the metal speciation can be determined by sequential extraction procedures and various single extraction methods can be used to evaluate their bioavailability and mobility. other authors have studied metal leachability bioavailability bioaccessibility and speciation using various methods. study area the anzali international wetland was registered in the ramsar convention in 1975. it covers an area of 193 km2 located at the southwest coast of the caspian sea in guilan iran. due to the excessive discharge of different contaminants such as heavy metals most of which are carried by rivers into the wetland bed sediments have become a sink for metals. the pasikhan river is one of the most polluted rivers leading into the south east zone of anzali wetland. a sediment trap in placed on the entry of the river and sediments are being dredged and deposited in places adjacent to the trap; exposing to air heavy metals might release from soluble and bioavailable phases. material and methods sampling was carried out after dredged sediments were deposited in the area for four months. ph of sediments the solid density grain size distributions moisture content atterberg limits mineralogical composition major elements and total metal contents were determined. a sequential extraction procedure was applied for metal speciation. the detailed scheme for 1 g sample is as follows:     table 1 sequential extraction procedure step fraction reagent experimental conditions f1 exchangeable 10 ml of 1 moll 1 mgcl2 room temp 1h shaking f2 carbonate 10 ml of 1 moll 1 naoac room temp 5h shaking f3 fe mn oxide 20 ml of 0.04 moll 1 nh2oh·hcl in 25% (v/v) hoac 96 °c 6h agitation f4 organic matter 3 ml hno3 0.02 moll 1 + 5 ml 30% w/v h2o2 3 ml of 30% w/v h2o2 5 ml  nh4ac  3.2 moll 1 in 20% (v/v)  hoac 85 °c 2h agitation 85 °c 3h agitation room temp diluted 30mins shaking f5 residual digestion method 3050b   the phytoavailability bioaccessibility and mobility of metals were assessed using cacl2 and edta sbet and tclp respectively. due to frequent precipitations in the area splp test was conducted to simulate the amount of metals which can be washed and re enter to the wetland. table 2 leaching tests applied to assess dredged sediment samples test reagent contact time cacl2 0.01 moll 1 cacl2 l/s= 10:1 3h room temp edta 0.05 moll 1 edta l/s= 10:1 1h room temp sbet 0.4 moll 1 glycine l/s= 100:1 1h 37 °c tclp acoh l/s= 20:1 18h splp h2so4/hno3 (60:40) l/s= 20:1 18h to determine release risk of metals modified risk assessment code (mrac) based on metal fractionations was applied. to evaluate the metal bioavailability and bioaccessibility a new bioavailability/bioaccessibility index (brai) is used based on edta and sbet results. results and discussion sediments were classified as ml. quartz was the dominant mineral observed in the xrd analysis which accorded with xrf. concentrations of most metals exceeded those of earth’s crust global average shijan zone of wetland and the caspian sea. thus these fine grained sediments contained a high amount of metals. the sequential extraction showed that the highest percentages of metal associations with exchangeable carbonate bound fe mn oxide organic matter and residual fractions were related to pb and cd mn zn cu and cr respectively. using the sum of metal extractions in exchangeable and carbonate fractions the mrac value was equal to 44.09 indicating high potential adverse impact. the actual bioavailability of metals evaluated by cacl2 was low due to low concentrations of extracted metals (fig. 1) and the concentrations of pb and cd which were mainly associated with exchangeable fraction were higher than those of other metals. edta extracts the potential bioavailable fraction of metals. compared to other studied metals high amounts of cu mn pb and cd were extracted by edta (fig. 1); cu and mn were mainly associated with organic matter and carbonate bound fractions respectively.  based on results obtained from edta extraction the calculated brai value of 2.4 showed medium risk of bioavailability. the concentrations of metals extracted by sbet method were high (fig. 1). the highest concentrations were reported for pb and cd almost all fractions of which were extracted. based on sbet results the calculated brai value was equal to 7.14 indicating very high risk of bioaccessibility. the release of pb cd and mn by tclp method was higher than release of other metals (fig. 1). pb cd and cr concentrations were below the usepa regulatory limits indicating that sediments were not toxic and beneficial use of them is viable. the contents of pb and cd in the splp leachate were high compared to other metals with low concentrations (fig. 1). metal concentrations in splp leachate were commonly lower than drinking water standards.   figure 1. metal extraction by bioavailability/bioaccessibility and mobility tests. in all extractions the highest metal contents were reported for pb and cd and the lowest for cr. the bioavailability of metals was in the decreasing order of cd ~ pb > cu > mn > zn > fe > ni > cr. metal extractability of methods was in the order of sbet > tclp > edta > splp > cacl2 for pb ni cd and sbet > edta > tclp > splp > cacl2 for the rest. the potential bioavailability of metals was higher than their actual bioavailability while the bioaccessibility of them was the highest. the concentrations of metals extracted by sbet were higher than those of tclp which was due to acidic ph and higher temperature in sbet. although tclp and splp methods are very similar metal concentrations in tclp were higher than splp. tclp represents metal leaching under landfill conditions while splp simulates their release owing to precipitation which is an easier condition. conclusion in this study bioavailability mobility and speciation of heavy metals in dredged sediments of anzali wetland are assessed. the metal speciation and the mrac index showed high potential adverse impacts. brai index using bioavailability and bioaccessibility test results represented medium and very high risks. metal concentrations in tclp test were lower than usepa limits and in splp test were occasionally higher than standards. results showed that metals in sediments of anzali wetland can be up taken by plants. moreover metals can leach to the underlying soil and contaminate ground water. they can also be washed due to the precipitation and re enter to the wetland. on the other hand sediments are not toxic and can be used for beneficial purposes. it can be concluded that unless properly managed to deposit sediments can cause adverse effects on the environment and terrestrial organisms of anzali wetland.

میزبانی شده توسط پلتفرم ابری doprax.com

copyright © 2015-2023