At the advent of British rule in 1765, the Sundarbans forests were double their present size (Seidensticker, and Hai, 1983; Khan, 1997). Sundarbans mangroves in Asia including Bangladesh, India, and East Africa previously contained a much fuller range of species (Seidensticker, and Hai, 1983; Khan, 1997). In the Southeast Asian region, species diversity of mangroves was previously much higher (Ellison, 1998, 2000). Although, a particular class of men made a profession of collection of wood, fish, Golpata, Goran, natural beauty, oil, honey, and wax in Sundarbans (Awal, 2007), but it is facing tremendous problems (Awal, 207, 2009, 2014). But, it is now under serious threatened through human destruction, and by ecological pollution (Awal, 2007). The cause of this dieback is still not well understood unknown. The present work has investigated one of the possible factors that might be causing this top-dying, namely the concentrations of various chemical elements present in the sediments, particularly Salinity (Na), Exchangeable K, heavy metals, though other chemical parameters such as the pH, salinity, moisture content of the sediment and nutrient status were also assessed. (Awal, 2007). Na has no relationship with the amount of top-dying of Sundri trees in Sundarbans. However, a serious killer disease (top dying) of H. fomes in Sundarbans is affecting millions of the trees (Awal, 2007). The loss of H. fomes will have a major impact on the Sundarbans mangrove ecosystem, as well as lead to economic losses. A questionnaire survey was conducted among different groups of people inside and outside of Sundarbans to explore local perceptions as to the possible causes of top dying. This confirmed the increase in top-dying prevalence (Awal, 2007). Most of the elements including Salinity of soil and water studied had no significant correlation with the top dying of Heritiera fomes. However, Sn, Exchangeable K, and soil pH were significantly related, and three elements, namely Pb, Zn, Ni, were also close to significance. Sn concentration is negatively associated with top dying. Soil pH varied significantly in the different plots. Exchangeable K was positively associated with the tree diameter whether the top dying was severe or mild.
| Published in | Science Journal of Analytical Chemistry (Volume 2, Issue 4) |
| DOI | 10.11648/j.sjac.20140204.11 |
| Page(s) | 29-40 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2024. Published by Science Publishing Group |
Salinity Intrusion, Chemical Contamination, Causal Factors, Heavy Metal Concentrations, Chemical Contamination, Pollution, Sundarbans, Top-Dying
| [1] | Awal, M.A. (2007). Analysis of possible environmental factors causing top-dying in mangrove forest trees in the Sundarbans in Bangladesh. PhD thesis, University of Bradford. |
| [2] | Awal, M.A., Hale, W.H.G. & Stern, B. (2009). Trace element concentrations in mangrove sediments in the Sundarbans, Bangladesh. Marine Pollution Bulletin, 58(12), 1944-1948. |
| [3] | Awal, M.A. (2014). “Correlation between the chemical composition of the surface sediment and water in the mangrove forest of the Sundarbans, Bangladesh, and the regeneration, growth and dieback of the forest trees and people health”..Journal of Science Innovation; 2014. 2(2): pp.11-21.Science Publishing Group, USA; May 20th, 2014(2):11-21;doi: 10.11648/j/si.20140202.11. |
| [4] | Anonymous, 1972. Ecology. In: Penyata tahunan perhutanan di-Malaysia Barat 1968. Government Printer, Kuala Lumpur.: volume 6.1. |
| [5] | Balmforth, E. B. 1985. Observation on Sundri top dying-descriptive Sampling. In the Sundarbans reserved forest. Draft Working Paper, UNDP/FAO Project BGD/77/017, and Dhaka.32 pp. |
| [6] | Banik, H. 2000. Bangladesh Sundarbans. Hitutumi Book House and Publishers. TalpukurPar, Comilla, (in Bangla), Bangladesh. |
| [7] | Beeftink, W. G. 1965. Dezout vegetative van ZW- Nederland Beschouwd in Europees verband. (Saltmarsh communities of the SW Netherlands in relation to the European halo-phytic vegetation) Meded. Landbouwhogesch. Wageningen, 65(1): 2-166. |
| [8] | Beeftink, W.G. 1966. Vegetation and habitat of the salt marshes and beach plains in the south-western part of the Netherlands. Wentia, 15: 83-108. |
| [9] | BFRI, 1990-95. Annual Research Report. Silviculture Genetics Division. Bangladesh Forest Research Institute (BFRI), Chittagong, Bangladesh. |
| [10] | Bhuyan, A. A. 1994. Draft final report of the soil scientist. FAO / UNDP Project–Integrated Resource development of the Sundarbans Reserved Forest, Khulna, Bangladesh, 124 pp. |
| [11] | Blasco, F. 1975. Mangroves in India. French Institute of Pondicherry. Trav. 14: 1-80. |
| [12] | Chaffey, D. R; Miller, F.R; Sandom, J. H. 1985. A forest inventory of the Sundarbans, Bangladesh, Main report, Project Report No.140, 196 pp; Overseas Development Administration, London, U.K:195-196. |
| [13] | Chapman, V. J. 1960. Salt Deserts of the World. Hill, London, pp. 391-392. |
| [14] | Chapman, V. J. 1977. Ecosystem of the World, Wet Coastal Ecosystems, Vol-1, Oxford-New York, Elsevier Scientific Publishing Co, 1977: 79-80. |
| [15] | Chowdhury, A.M. 1984. Integrated Development of the Sundarbans, Bangladesh: Silvicultural Aspects of the Sundarbans. FAO Report No / TCP/ BGD/ 2309 (Mf), W / R003. |
| [16] | Chowdhury, M. I. 1984. Morphological, hydrological and ecological aspects of the Sundarbans. FAO report N0. FO: TCP/BGD/2309(Mf) W /R0027, 32 P. |
| [17] | Christensen, B. 1984. Integrated development of the Sundarbans, Bangladesh: Ecological aspects of the Sundarbans. Reported prepared for the Government of Bangladesh. FAO report no. FO: TCP/ BGD/2309(MF) W/ R0030. |
| [18] | Curtis, S.J. 1933. Working Plan for the forests of the Sundarbans Division, for the period from 1st April 1931 to 31st March, 1951, Vol.1, 175 p. Bengal government press, Calcutta, India. |
| [19] | Daiber, F.C. 1974. Salt marsh plants and future coastal salt marshes in relation to animals. In: R.J. Reimold and W.H. Queen (Editors), Ecology of Halophytes. Academic Press, New York, N.Y:475-510. |
| [20] | Davis, J. H. 1940. Ecology and geologic role of mangroves in Florida. Carengie Institution, Washington, Publication, No. 517: 303-412. |
| [21] | Davis, L.V. and Gray, I.E. 1966. Zonal and Seasonal distribution of insects in North Carolina salt marshes. Ecological Monographs, 30(3) 275-295. |
| [22] | Government of Bangladesh, (1993). Forestry Master Plan: Executive Summary. Asian Development Bank, UNDP/FAOBGD/88/025, Forest Department, Government of Bangladesh, Dhaka.31p. |
| [23] | Gupta, G. N; Prasad, D. S; Manivachakam, P. 1986. Salt tolerance of some tree species at seedling stage. Indian Forester, 112(2): 101-113. |
| [24] | Hassan, M. M. 1988. Soil and Salinity of the Sundarbans in relation to top dying, regeneration and survival of Sundri. UPR of Bangladesh Forest Research Institute, Chittagong: 9. |
| [25] | Hassan, M. M.; Mazumder, A. H.; Islam, A. T. M. N. and Hossain, A.T. M. E. 1990. Soil, hydrology and salinity of Sundarbans in relation to top dying, regeneration and survival of Sundri (Heritiera fomes) trees. In: Rahaman, M. A.; Khandakar, K.; Ahmed, F.U. and Ali, M.O. (Eds.). Proceedings of the Seminar on Top Dying of Sundri (Heritiera fomes) Trees. Bangladesh Agricultural Research Council, Dhaka: 1- 11. |
| [26] | Howlader, A. S. 1973. Report on the Preliminary investigation of Probable causes of Top-Dying, Regeneration and Survival of Sundri. Unpublished Report, BFRI, Chittagong, 9 pp. |
| [27] | Imam, S. A. 1982. The Sundarbans and its future. In: proceedings of the Second Bangladesh National Conference on Forestry, Dhaka, Bangladesh, p.19-24. |
| [28] | Ismail, M. 1987. Significance of Bangladesh estuarine and mangrove ecology. Proceeding 9th International Symposium on Tropical Ecology and international Conference on Rehabilitation of Disturbed Ecosystems: Global Issue, December 11-16. International Society for Tropical Ecology. Department of Botany, Banaras hindu University, Varanasi, India. |
| [29] | Karim, A. 1988. Environmental factors and the distribution of mangroves in Sundarbans, Unpublished report, Calcutta, India: p 220. |
| [30] | Leece, D. R. 1984. Effects of Salinity and Pesticides on Terrestrial Plant Systems, Pollution and Plants, (Eds.) D.M.H. Cheng and C.D. Field (1984):23-42. |
| [31] | Lugo, A.E. and S. C. Snedaker, 1974. The ecology of mangroves. Annual Review of Ecology and Systematics, 5: 39-64. |
| [32] | Macnae, W. 1968. A general account of the fauna and flora of mangrove swamps and forests in the Indo-West Pacific region. Advance Marine Biology, 6: 73-270. |
| [33] | McMillan, C.1975. Interactions of soil texture with salinity tolerances of Avicennia germinans (L.) Lam. And Laguncularia racemosa (L) Gaertn from North America. In: Proceedings of the International Symposium on Biology and Management of Mangroves, (eds.) G.E. Walsha, S.C. Snedaker and H.J. Teas, Volume 2: 561-68.Gainesville, University of Florida, U.S.A. |
| [34] | Prain, D. 1903. Flora of the Sundarban. Records of the Botanical Survey of India. Periodical Expert Book Agency, Delhi.pp.231-370. |
| [35] | Rahman, M.A. 2003. Genetic Approach to mitigate the top Dying Problem of Heritiera fomes in the Mangrove Forests, Khulna University, Bangladesh, 87pp. |
| [36] | Rahman, M.A. 2003. Mid-term Report on Top Dying of Sundri (Heritiera fomes) and Its Management in the Sundarbans Biodiversity Conservation Project, Khulna.109pp. |
| [37] | Ross and Shell, 1987. Na and K level in Sundri tissue, Cambridge University press, London. |
| [38] | Sahgal, B. 1991. Sanctuary; Asia. The Complete Ecology & Wildlife. Bi-Monthly, Volume, XI. No. 2. 1991. |
| [39] | Sattar, M. A. 1977. Sundri mortality in Sundarbans. In: Proceedings of the First Bangladesh National Conference on Forestry, Dhaka: 12-100. |
| [40] | Shafi, M. 1982. Adverse effects of Farakka on the forests of south- west region of Bangladesh (Sundarbans). Proceedings of the Second Bangladesh National Conference on Forestry, Dhaka, Bangladesh: 30-45. |
| [41] | Shafi, M.1982. Artificial regeneration of Keora (Sonneratia Appetalla) in Bangladesh. Proceedings of the Bangladesh second national conference on forestry, Dhaka: 136-139. |
| [42] | Siddiqi, N. A; Islam, M. R; Khan, M.A.S. and Shahidullah, M. (1993). Mangrove nurseries in Bangladesh. Mangrove ecosystems occasional papers. International Society for Mangrove Ecosystems, Japan: 1-14. |
| [43] | Snedaker, S.C. 1977. General Ecology and Resource Utilization Potential of the Sundarbans, FAO Report No.Fo:TCP/BGD/2309 (MF) W/R, 28 prepared for the Government of Bangladesh, Dhaka: 31. |
| [44] | Sokal, R.R. and Rohlf, F.J. (1981). Biometry. San Francisco, w.H. Freeman. |
| [45] | UN-ESCAP, 1987. Final Report: Volume 2. Coastal environment management plan for Bangladesh. Bangkok, Thailand. |
| [46] | UN-ESCAP, 1988. Coastal environment management plan for Bangladesh. Bangkok, Thailand: 7-34. |
| [47] | UNESCO, 1997. Convention Concerning the Protection of the World Cultural and Natural Heritage, France, Paris. |
APA Style
Awal, Mohd. Abdul. (2014). Analysis of Relationship between Salinity and Top-Dying Diseases of Sundri Trees in Sundarbans, Bangladesh. Science Journal of Analytical Chemistry, 2(4), 29-40. https://doi.org/10.11648/j.sjac.20140204.11
ACS Style
Awal; Mohd. Abdul. Analysis of Relationship between Salinity and Top-Dying Diseases of Sundri Trees in Sundarbans, Bangladesh. Sci. J. Anal. Chem. 2014, 2(4), 29-40. doi: 10.11648/j.sjac.20140204.11
AMA Style
Awal, Mohd. Abdul. Analysis of Relationship between Salinity and Top-Dying Diseases of Sundri Trees in Sundarbans, Bangladesh. Sci J Anal Chem. 2014;2(4):29-40. doi: 10.11648/j.sjac.20140204.11
Share This Article
Twitter
Linked In
Facebook
Copy
Download@article{10.11648/j.sjac.20140204.11,
author = {Awal and Mohd. Abdul},
title = {Analysis of Relationship between Salinity and Top-Dying Diseases of Sundri Trees in Sundarbans, Bangladesh},
journal = {Science Journal of Analytical Chemistry},
volume = {2},
number = {4},
pages = {29-40},
doi = {10.11648/j.sjac.20140204.11},
url = {https://doi.org/10.11648/j.sjac.20140204.11},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.sjac.20140204.11},
abstract = {At the advent of British rule in 1765, the Sundarbans forests were double their present size (Seidensticker, and Hai, 1983; Khan, 1997). Sundarbans mangroves in Asia including Bangladesh, India, and East Africa previously contained a much fuller range of species (Seidensticker, and Hai, 1983; Khan, 1997). In the Southeast Asian region, species diversity of mangroves was previously much higher (Ellison, 1998, 2000). Although, a particular class of men made a profession of collection of wood, fish, Golpata, Goran, natural beauty, oil, honey, and wax in Sundarbans (Awal, 2007), but it is facing tremendous problems (Awal, 207, 2009, 2014). But, it is now under serious threatened through human destruction, and by ecological pollution (Awal, 2007). The cause of this dieback is still not well understood unknown. The present work has investigated one of the possible factors that might be causing this top-dying, namely the concentrations of various chemical elements present in the sediments, particularly Salinity (Na), Exchangeable K, heavy metals, though other chemical parameters such as the pH, salinity, moisture content of the sediment and nutrient status were also assessed. (Awal, 2007). Na has no relationship with the amount of top-dying of Sundri trees in Sundarbans. However, a serious killer disease (top dying) of H. fomes in Sundarbans is affecting millions of the trees (Awal, 2007). The loss of H. fomes will have a major impact on the Sundarbans mangrove ecosystem, as well as lead to economic losses. A questionnaire survey was conducted among different groups of people inside and outside of Sundarbans to explore local perceptions as to the possible causes of top dying. This confirmed the increase in top-dying prevalence (Awal, 2007). Most of the elements including Salinity of soil and water studied had no significant correlation with the top dying of Heritiera fomes. However, Sn, Exchangeable K, and soil pH were significantly related, and three elements, namely Pb, Zn, Ni, were also close to significance. Sn concentration is negatively associated with top dying. Soil pH varied significantly in the different plots. Exchangeable K was positively associated with the tree diameter whether the top dying was severe or mild.},
year = {2014}
}
TY - JOUR T1 - Analysis of Relationship between Salinity and Top-Dying Diseases of Sundri Trees in Sundarbans, Bangladesh AU - Awal AU - Mohd. Abdul Y1 - 2014/09/10 PY - 2014 N1 - https://doi.org/10.11648/j.sjac.20140204.11 DO - 10.11648/j.sjac.20140204.11 T2 - Science Journal of Analytical Chemistry JF - Science Journal of Analytical Chemistry JO - Science Journal of Analytical Chemistry SP - 29 EP - 40 PB - Science Publishing Group SN - 2376-8053 UR - https://doi.org/10.11648/j.sjac.20140204.11 AB - At the advent of British rule in 1765, the Sundarbans forests were double their present size (Seidensticker, and Hai, 1983; Khan, 1997). Sundarbans mangroves in Asia including Bangladesh, India, and East Africa previously contained a much fuller range of species (Seidensticker, and Hai, 1983; Khan, 1997). In the Southeast Asian region, species diversity of mangroves was previously much higher (Ellison, 1998, 2000). Although, a particular class of men made a profession of collection of wood, fish, Golpata, Goran, natural beauty, oil, honey, and wax in Sundarbans (Awal, 2007), but it is facing tremendous problems (Awal, 207, 2009, 2014). But, it is now under serious threatened through human destruction, and by ecological pollution (Awal, 2007). The cause of this dieback is still not well understood unknown. The present work has investigated one of the possible factors that might be causing this top-dying, namely the concentrations of various chemical elements present in the sediments, particularly Salinity (Na), Exchangeable K, heavy metals, though other chemical parameters such as the pH, salinity, moisture content of the sediment and nutrient status were also assessed. (Awal, 2007). Na has no relationship with the amount of top-dying of Sundri trees in Sundarbans. However, a serious killer disease (top dying) of H. fomes in Sundarbans is affecting millions of the trees (Awal, 2007). The loss of H. fomes will have a major impact on the Sundarbans mangrove ecosystem, as well as lead to economic losses. A questionnaire survey was conducted among different groups of people inside and outside of Sundarbans to explore local perceptions as to the possible causes of top dying. This confirmed the increase in top-dying prevalence (Awal, 2007). Most of the elements including Salinity of soil and water studied had no significant correlation with the top dying of Heritiera fomes. However, Sn, Exchangeable K, and soil pH were significantly related, and three elements, namely Pb, Zn, Ni, were also close to significance. Sn concentration is negatively associated with top dying. Soil pH varied significantly in the different plots. Exchangeable K was positively associated with the tree diameter whether the top dying was severe or mild. VL - 2 IS - 4 ER -
Information
Email: