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Geology, Ecology, and Landscapes Volume 3, 2019 - Issue 2
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Review Articles

Assessment of soil properties from catchment areas of Ravi and Beas rivers: a review

Vinod KumarDepartment of Botany, DAV University, Jalandhar, Punjab, India;Department of Botanical & Environmental Sciences, Guru Nanak Dev University, Amritsar, Punjab, IndiaCorrespondence[email protected]
,
Anket SharmaDepartment of Botanical & Environmental Sciences, Guru Nanak Dev University, Amritsar, Punjab, IndiaORCID Iconhttp://orcid.org/0000-0002-5251-9045
ORCID Icon,
Parminder KaurDepartment of Botanical & Environmental Sciences, Guru Nanak Dev University, Amritsar, Punjab, India
,
Rakesh KumarDepartment of Botany, DAV University, Jalandhar, Punjab, India
,
Ali KeshavarziLaboratory of Remote Sensing and GIS, Department of Soil Science, University of Tehran, Karaj, Iran
,
Renu BhardwajDepartment of Botanical & Environmental Sciences, Guru Nanak Dev University, Amritsar, Punjab, India
&
Ashwani Kumar ThukralDepartment of Botanical & Environmental Sciences, Guru Nanak Dev University, Amritsar, Punjab, India
 show all
Pages 149-157 | Received 03 Apr 2018, Accepted 16 Sep 2018, Published online: 24 Sep 2018

References

  • Ahmad, J. U., & Goni, M. A. (2010). Heavy metal contamination in water, soil, and vegetables of the industrial areas in Dhaka, Bangladesh. Environmental Monitoring and Assessment, 166(1–4), 347–357.
  • Ahmed, F., Fakhruddin, A. N. M., Imam, M. T., Khan, N., Khan, T. A., Rahman, M. M., & Abdullah, A. T. M. (2016). Spatial distribution and source identification of heavy metal pollution in roadside surface soil: A study of Dhaka Aricha highway, Bangladesh. Ecological Processes, 5(1), 2.
  • Aminiyan, M. M., Baalousha, M., Mousavi, R., Aminiyan, F. M., Hosseini, H., & Heydariyan, A. (2018). The ecological risk, source identification, and pollution assessment of heavy metals in road dust: A case study in Rafsanjan, SE Iran. Environmental Science and Pollution Research, 25(14), 13382–13395.
  • Attia, O. E. A., Khadra, A. M. A., Nawwar, A. H., & Radwan, G. E. (2012). Impacts of human activities on the sedimentological and geochemical characteristics of Mabahiss Bay, North Hurghada, Red Sea, Egypt. Arabian Journal of Geosciences, 5(3), 481–499.
  • Awashthi, S. K. (Ed.). (2000). Prevention of food adulteration Act No. 37 of 1954. Central and state rules as amended for 1999. New Delhi: Ashoka Law House.
  • Badr, N. B., El-Fiky, A. A., Mostafa, A. R., & Al-Mur, B. A. (2009). Metal pollution records in core sediments of some Red Sea coastal areas, Kingdom of Saudi Arabia. Environmental Monitoring and Assessment, 155(1), 509–526.
  • Behera, S. K., Mathur, R. K., Shukla, A. K., Suresh, K., & Prakash, C. (2018). Spatial variability of soil properties and delineation of soil management zones of oil palm plantations grown in a hot and humid tropical region of southern India. Catena, 165, 251–259.
  • Bhatti, S. S., Bhat, S. A., Kumar, V., Kaur, M., Minakshi, S., & Nagpal, A. K. (2017). Ecological risk assessment of metals in roadside agricultural soils: A modified approach. Human and Ecological Risk Assessment: an International Journal, 24(1), 186–201.
  • Bhatti, S. S., Kumar, V., Kumar, A., Gouzos, J., Kirby, J., Singh, J., & Nagpal, A. K. (2018). Potential ecological risks of metal (loid) s in riverine floodplain soils. Ecotoxicology and Environmental Safety, 164, 722–731.
  • Bodin, N., Gom-Kâ, R., Kâ, S., Thiaw, O. T., De Morais, L. T., Le Loc’h, F., & Chiffoleau, J. F. (2013). Assessment of trace metal contamination in mangrove ecosystems from Senegal, West Africa. Chemosphere, 90(2), 150–157.
  • Briki, M., Ji, H., Li, C., Ding, H., & Gao, Y. (2015). Characterization, distribution, and risk assessment of heavy metals in agricultural soil and products around mining and smelting areas of Hezhang, China. Environmental Monitoring and Assessment, 187(12), 767.
  • Burges, A., Alkorta, I., Epelde, L., & Garbisu, C. (2018). From phytoremediation of soil contaminants to phytomanagement of ecosystem services in metal contaminated sites. International Journal of Phytoremediation, 20, 384–397.
  • Cai, L., Xu, Z., Bao, P., He, M., Dou, L., Chen, L., & Zhu, Y. G. (2015). Multivariate and geostatistical analyses of the spatial distribution and source of arsenic and heavy metals in the agricultural soils in Shunde, Southeast China. Journal of Geochemical Exploration, 148, 189–195.
  • Cao, L., Song, J., Li, X., Yuan, H., Li, N., Duan, L., & Wang, Q. (2015). Geochemical characteristics of soil C, N, P, and their stoichiometrical significance in the coastal wetlands of Laizhou Bay, Bohai Sea. CLEAN–Soil, Air, Water, 43(2), 260–270.
  • Domínguez, M. T., Alegre, J. M., Madejón, P., Madejón, E., Burgos, P., Cabrera, F., & Murillo, J. M. (2016). River banks and channels as hotspots of soil pollution after large-scale remediation of a river basin. Geoderma, 261, 133–140.
  • Duodu, G. O., Goonetilleke, A., & Ayoko, G. A. (2016). Comparison of pollution indices for the assessment of heavy metal in Brisbane River sediment. Environmental Pollution, 219, 1077–1091.
  • European Union (2002) heavy metals in wastes, European commission on environmet. Retreived from <http://ec.europa.eu/environment/waste/studies/pdf/heavymetalsreport.pdf. .
  • Ewers, U. (1991). Standards, guidelines and legislative regulations concerning metals and their compounds. In E. Merian (Ed.), Metals and their compounds in environment: Occurrence, analysis and biological relevance (pp. 458–468). Weinheim: VCH.
  • Facchinelli, A., Sacchi, E., & Mallen, L. (2001). Multivariate statistical and GIS-based approach to identify heavy metal sources in soils. Environmental Pollution, 114(3), 313–324.
  • Fernandes, L., Nayak, G. N., & Ilangovan, D. (2012). Geochemical assessment of metal concentrations in mangrove sediments along Mumbai coast, India. World Academy of Science, Engineering and Technology, 61, 258–263.
  • Goovaerts, P. (1998). Geostatistical tools for characterizing the spatial variability of microbiological and physico-chemical soil properties. Biology and Fertility of Soils, 27(4), 315–334.
  • Hakanson, L. (1980). An Ecological Risk Index for Aquatic Pollution Control. Water Research, 14(8), 975-1001. doi:10.1016/0043-1354(80)90143-8
  • Hani, A., & Pazira, E. (2011). Heavy metals assessment and identification of their sources in agricultural soils of Southern Tehran, Iran. Environmental Monitoring and Assessment, 176(1–4), 677–691.
  • Jara-Marini, M. E., Soto-Jiménez, M. F., & Páez-Osuna, F. (2008). Bulk and bioavailable heavy metals (Cd, Cu, Pb, and Zn) in surface sediments from Mazatlán Harbor (SE Gulf of California). Bulletin of Environmental Contamination and Toxicology, 80(2), 150–153.
  • Kamani, H., Mirzaei, N., Ghaderpoori, M., Bazrafshan, E., Rezaei, S., & Mahvi, A. H. (2017). Concentration and ecological risk of heavy metal in street dusts of Eslamshahr, Iran. Human and Ecological Risk Assessment: an International Journal, 1–10. doi:10.1080/10807039.2017.1403282
  • Kamani, H., Mirzaei, N., Ghaderpoori, M., Bazrafshan, E., Rezaei, S., & Mahvi, A. H. (2018). Concentration and ecological risk of heavy metal in street dusts of Eslamshahr, Iran. Human and Ecological Risk Assessment: an International Journal, 24, 1–10.
  • Keesstra, S., Nunes, J., Novara, A.…,Cerdà, A. (2018). The superior effect of nature based solutions in land management for enhancing ecosystem services. The Science of the Total Environment, 610, 997–1009.
  • Kumar, V., Sharma, A., Bhardwaj, R., & Thukral, A. K. (2016a). Monitoring and characterization of soils from River Bed of Beas, India, using Multivariate and remote sensing techniques. British Journal of Applied Science and Technology, 12(2), 1–12.
  • Kumar, V., Sharma, A., Chawla, A., Bhardwaj, R., & Thukral, A. K. (2016c). Water quality assessment of river Beas, India, using multivariate and remote sensing techniques. Environmental Monitoring and Assessment, 188(3), 137.
  • Kumar, V., Sharma, A., Dhunna, G., Chawla, A., Bhardwaj, R., & Thukral, A. K. (2017a). A tabulated review on distribution of heavy metals in various plants. Environmental Science and Pollution Research, 24, 2210–2260.
  • Kumar, V., Sharma, A., Kaur, R., Thukral, A. K., Bhardwaj, R., & Ahmad, P. (2017b). Differential distribution of amino acids in plants. Amino Acids, 1–49. doi:10.1007/s00726-017-2401-x
  • Kumar, V., Sharma, A., Minakshi, B., . R., & Thukral, A. K. (2018). Temporal distribution, source apportionment, and pollution assessment of metals in the sediments of Beas river, India. Human and Ecological Risk Assessment: an International Journal, 1–20.
  • Kumar, V., Sharma, A., & Thukrala, A. K. (2016b). Assessment of soil enzyme activities based on soil samples from the Beas river bed, India using multivariate techniques. Malaysian Journal of Soil Science, 20, 135–145.
  • Li, J., Pu, L., Liao, Q., Zhu, M., Dai, X., Xu, Y., & Jin, Y. (2015). How anthropogenic activities affect soil heavy metal concentration on a broad scale: A geochemistry survey in Yangtze River Delta, Eastern China. Environmental Earth Sciences, 73(4), 1823–1835.
  • Li, P., Qian, H., Howard, K. W. F., Wu, J., & Lyu, X. (2014). Anthropogenic pollution and variability of manganese in alluvial sediments of the Yellow River, Ningxia, northwest China. Environmental Monitoring and Assessment, 186(3), 1385–1398.
  • Li, P., Wu, J., Qian, H., & Zhou, W. (2016). Distribution, enrichment and sources of trace metals in the topsoil in the vicinity of a steel wire plant along the Silk Road economic belt, northwest China. Environment Earth Sciences, 75(10), 909.
  • Liang, J., Feng, C., Zeng, G., Gao, X., Zhong, M., Li, X., … Fang, Y. (2017). Spatial distribution and source identification of heavy metals in surface soils in a typical coal mine city, Lianyuan, China. Environmental Pollution, 225, 681–690.
  • Liu, S., Shi, X., Liu, Y., Zhu, Z., Yang, G., Zhu, A., & Gao, J. (2011). Concentration distribution and assessment of heavy metals in sediments of mud area from inner continental shelf of the East China Sea. Environmental Earth Sciences, 64(2), 567–579.
  • Lu, A., Wang, J., Qin, X., Wang, K., Han, P., & Zhang, S. (2012). Multivariate and geostatistical analyses of the spatial distribution and origin of heavy metals in the agricultural soils in Shunyi, Beijing, China. Science of the Total Environment, 425, 66–74.
  • Ma, L., & Gui, H. (2017). Anthropogenic impacts on heavy metal concentrations in surface soils from the typical polluted area of Bengbu, Anhui province, Eastern China. Human and Ecological Risk Assessment: an International Journal, 23(7), 1763–1774.
  • Madkour, H. A. (2013). Impacts of human activities and natural inputs on heavy metal contents of many coral reef environments along the Egyptian Red Sea coast. Arabian Journal of Geosciences, 6(6), 1739–1752.
  • Mamut, A., Eziz, M., Mohammad, A., Anayit, M., & Rixit, A. (2017). Contamination and risk assessment of heavy metals in farmland soils of Baghrash County, Xinjiang, Northwest China. Sciences in Cold and Arid Regions, 9(5), 467–475.
  • Masoodi, A., Majdzadeh Tabatabai, M. R., Noorzad, A., & Samadi, A. (2017). Effects of soil physico-chemical properties on stream bank erosion induced by seepage in northeastern Iran. Hydrological Sciences Journal, 62(16), 2597–2613.
  • Micó, C., Recatalá, L., Peris, M., & Sánchez, J. (2006). Assessing heavy metal sources in agricultural soils of an European Mediterranean area by multivariate analysis. Chemosphere, 65(5), 863–872.
  • Moghtaderi, T., Mahmoudi, S., Shakeri, A., & Masihabadi, M. H. (2018). Heavy metals contamination and human health risk assessment in soils of an industrial area, Bandar Abbas–South Central Iran. Human and Ecological Risk Assessment: an International Journal, 1–16. doi:10.1080/10807039.2017.1405723
  • Moza, U. (2014). River Ravi ecology and fishery. New Delhi: Indian Council of Agricultural Research.
  • Moza, U., & Mishra, D. N. (2007). River Beas ecology and fishery. India: Central Inland Fisheries Research Institute (Indian Council of Agricultural Research) West Bengal.
  • Nazzal, Y., Howari, F. M., Jafri, M. K., Naeem, M., & Ghrefat, H. (2016). Risk assessment through evaluation of potentially toxic metals in the surface soils of the Qassim area. Central Saudi Arabia Ital Journal Geosci, 135(2), 210–216.
  • Nouri, M., & Haddioui, A. E. M. (2016). Assessment of metals contamination and ecological risk in Ait Ammar abandoned iron mine soil, Morocco. Ekológia (Bratislava), 35(1), 32–49.
  • Patel, P., Raju, N. J., Reddy, B. S. R., Suresh, U., Sankar, D. B., & Reddy, T. V. K. (2018). Heavy metal contamination in river water and sediments of the Swarnamukhi River Basin, India: Risk assessment and environmental implications. Environmental Geochemistry and Health, 40(2), 609–623.
  • Pérez-Rodríguez, R., Marques, M. J., & Bienes, R. (2007). Spatial variability of the soil erodibility parameters and their relation with the soil map at subgroup level. Science Of The Total Environment, 378(1–2), 166-173. doi:10.1016/j.scitotenv.2007.01.044
  • Romic, M., & Romic, D. (2003). Heavy metals distribution in agricultural topsoils in urban area. Environmental Geology, 43(7), 795–805.
  • Singh, S., & Kumar, M. (2006). Heavy metal load of soil, water and vegetables in peri-urban Delhi. Environmental Monitoring and Assessment, 120(1), 79–91.
  • Suárez, P. A., Vega, M., Pardo, R., Orfeo, O., Cuesta, J. L. G., & Ronco, A. (2016). Hydrochemical and sedimentological dynamics in a subtropical plain river: Assessment by multivariate statistical analysis. Environmental Earth Sciences, 75(12), 1004.
  • Sungur, A., Soylak, M., Yilmaz, E., Yilmaz, S., & Ozcan, H. (2015). Characterization of heavy metal fractions in agricultural soils by sequential extraction procedure: The relationship between soil properties and heavy metal fractions. Soil and Sediment Contamination: an International Journal, 24(1), 1–15.
  • Thapa, G. B., & Yila, O. M. (2012). Farmers’ land management practices and status of agricultural land in the Jos Plateau, Nigeria. Land Degradation & Development, 23(3), 263–277.
  • Tian, K., Huang, B., Xing, Z., & Hu, W. (2017). Geochemical baseline establishment and ecological risk evaluation of heavy metals in greenhouse soils from Dongtai, China. Ecological Indicators, 72, 510–520.
  • Trasar-Cepeda, C., Leirós, M. C., & Gil-Sotres, F. (2008). Hydrolytic enzyme activities in agricultural and forest soils. Some implications for their use as indicators of soil quality. Soil Biology and Biochemistry, 40(9), 2146–2155.
  • Tutic, A., Novakovic, S., Lutovac, M., Biocanin, R., Ketin, S., & Omerovic, N. (2015). The heavy metals in agrosystems and impact on health and quality of life. Open Access Macedonian Journal of Medical Sciences, 3(2), 345–355.
  • Venkatramanan, S., Ramkumar, T., Anithamary, I., & Vasudevan, S. (2014). Heavy metal distribution in surface sediments of the Tirumalairajan river estuary and the surrounding coastal area, east coast of India. Arabian Journal of Geosciences, 7(1), 123–130.
  • Wang, G., Liu, H. Q., Gong, Y., Wei, Y., Miao, A. J., Yang, L. Y., & Zhong, H. (2017). Risk assessment of metals in urban soils from a typical industrial city, Suzhou, Eastern China. International Journal of Environmental Research and Public Health, 14(9), 1025.
  • Wang, Y. Q., & Shao, M. A. (2013). Spatial variability of soil physical properties in a region of the Loess Plateau of PR China subject to wind and water erosion. Land Degradation and Development, 24(3), 296–304.
  • Xia, P., Meng, X. W., Yin, P., Cao, Z., & Wang, X. (2011). Eighty-year sedimentary record of heavy metal inputs in the intertidal sediments from the Nanliu River estuary, Beibu Gulf of South China Sea. Environmental Pollution, 159, 92–99.
  • Zhang, H., & Shan, B. Q. (2008). Historical records of heavy metal accumulation in sediments and the relationship with agricultural intensification in the Yangtze-Huaihe region, China. The Science of the Total Environment, 399, 113–120.
  • Zhang, X., Wei, S., Sun, Q., Wadood, S. A., & Guo, B. (2018). Source identification and spatial distribution of arsenic and heavy metals in agricultural soil around Hunan industrial estate by positive matrix factorization model, principle components analysis and geo statistical analysis. Ecotoxicology and Environmental Safety, 159, 354–362.
  • Zhang, Y., Wu, F., Zhang, X., & Cao, N. (2017). Pollution characteristics and ecological risk assessment of heavy metals in three land-use types on the southern Loess Plateau, China. Environmental Monitoring and Assessment, 189(9), 470.
  • Zhao, G., Mu, X., Wen, Z., Wang, F., & Gao, P. (2013). Soil erosion, conservation, and eco‐environment changes in the Loess Plateau of China. Land Degradation & Development, 24(5), 499–510.
  • Zhao, Z., Ball, J., & Hazelton, P. (2018). Application of statistical inference for analysis of heavy metal variability in roadside soil. Water, Air, and Soil Pollution, 229(1), 23.
  • Ziadat, F. M., & Taimeh, A. Y. (2013). Effect of rainfall intensity, slope, land use and antecedent soil moisture on soil erosion in an arid environment. Land Degradation and Development, 24(6), 582–590.

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