This study attempted to explore the nature and prevalence of oil spill events in marine waters of Sri Lanka. The methodology used was based on literature review and Google Sri Lanka was used to search for related literature. The study... more
This study attempted to explore the nature and prevalence of oil spill events in marine waters of Sri Lanka. The methodology used was based on literature review and Google Sri Lanka was used to search for related literature. The study found out five oil spill events during 1994 – 2016. Four of them were in Southern part of the island and one in Western coast. C, D, and E spills belonged to Tier I spills which were relatively small spills requiring local responses using local resources and own capabilities to manage A is Tier II spill (medium spill that requires implementation of the National Oil Spill Contingency Plan) and B is Tier III (large spill requiring international assistance) spill. All of them released Class ‘C’ oils and four of them bunker oil and one fuel oil. The total amount of oil released approximately 369 MT. According to the findings of study Sri Lanka had not faced with huge disasters due to oil spills in their waters except for a few incidents. However, the sea around Sri Lanka is highly vulnerable to an oil spill, because twenty-five percent of the world’s oil transportation, which runs up to 550 million tons per annum, passes via Sri Lanka’s Exclusive Economic Zone (EEZ). Therefore, close monitoring system and immediate arrangements are needed to avoid such events and minimize the adverse impacts.
Belihuloya situated in a biogeographical transition zone in south-central Sri Lanka is being threatened by land-use changes. Establishing baseline biodiversity knowledge of an indicator taxon within this lesser explored area, the present... more
Belihuloya situated in a biogeographical transition zone in south-central Sri Lanka is being threatened by land-use changes. Establishing baseline biodiversity knowledge of an indicator taxon within this lesser explored area, the present study systematically assessed its Odonate fauna in different habitat types through a transect survey supplemented with incidental observations. Further, the morphology of larvae
and exuvia of some Odonates were opportunistically documented from selected water bodies. Transect survey and opportunistic observations identified 36 species of Odonates (22 dragonflies and 14 damselflies) representing ten families, with ten Sri Lankan endemics. Four species of dragonflies and eight damselflies are nationally threatened, including critically endangered Elattoneura centralis and endangered Libellago greeni. The calculated species richness (R), Shannon-Wiener diversity (H’), evenness (E) and Simpson’s diversity (1/D) values were, 3.51, 2.40, 0.85 and 7.90 for dragonflies, and 2.85, 2.36, 0.92 and 8.68 for damselflies respectively, while two groups show vertical niche segregation. Low Odonate community similarity coefficients among habitat types indicate they are complementary for conservation
planning. Out of ten Odonate species for which larval stages were recorded, the larval morphology of Anax indicus and Gynacantha dravida are described for the first time in Sri Lanka. Baseline data provided here are used for evidence-based conservation recommendations.
Microcystins (MCs) and cylindrospermopsin (CYN) are the most abundant toxins produced by cyanobacteria in tropical freshwaters. We studied the spatial distribution of MC and CYN in two multipurpose reservoirs, Mahakanadarawa and... more
Microcystins (MCs) and cylindrospermopsin (CYN) are the most abundant toxins produced by cyanobacteria in tropical freshwaters. We studied the spatial distribution of MC and CYN in two multipurpose reservoirs, Mahakanadarawa and Nachchaduwa in Anuradhapura district in Sri Lanka in September 2020. Fourteen water quality parameters, phytoplankton composition, chlorophyll-a, MC and CYN concentrations were analyzed in triplicate in 25 sampling sites from each reservoir. Both reservoirs were at hypereutrophic status. Microcystis was the dominant cyanobacteria with 0-3.75 x 103 cell/mL in Mahakanadarawa and 1-7 x 103 cell/mL in Nachchaduwa. Besides Microcystis, no other potential MC-producing cyanobacteria were observed. In Mahakanadarawa, MC was detected in the range of 0.11-1.63 µg/L which was above the WHO permissible level (1.0 µg/L) for drinking water. Although comparatively high Microcystis cell density was present in Nachchaduwa, its MC concentration was low (0.06-0.17 µg/L). The...
Belihuloya situated in a biogeographical transition zone in south-central Sri Lanka is being threatened by land-use changes. Establishing baseline biodiversity knowledge of an indicator taxon within this lesser explored area, the present... more
Belihuloya situated in a biogeographical transition zone in south-central Sri Lanka is being threatened by land-use changes. Establishing baseline biodiversity knowledge of an indicator taxon within this lesser explored area, the present study systematically assessed its Odonate fauna in different habitat types through a transect survey supplemented with incidental observations. Further, the morphology of larvae and exuvia of some Odonates were opportunistically documented from selected water bodies. Transect survey and opportunistic observations identified 36 species of Odonates (22 dragonflies and 14 damselflies) representing ten families, with ten Sri Lankan endemics. Four species of dragonflies and eight damselflies are nationally threatened, including critically endangered Elattoneura centralis and endangered Libellago greeni. The calculated species richness (R), Shannon-Wiener diversity (H’), evenness (E) and Simpson’s diversity (1/D) values were, 3.51, 2.40, 0.85 and 7.90 for dragonflies, and 2.85, 2.36, 0.92 and 8.68 for damselflies respectively, while two groups show vertical niche segregation. Low Odonate community similarity coefficients among habitat types indicate they are complementary for conservation planning. Out of ten Odonate species for which larval stages were recorded, the larval morphology of Anax indicus and Gynacantha dravida are described for the first time in Sri Lanka. Baseline data provided here are used for evidence-based conservation recommendations.
With the ever-increasing demand for lithium (Li) for portable energy storage devices, there is a global concern associated with environmental contamination of Li, via the production, use, and disposal of Li-containing products, including... more
With the ever-increasing demand for lithium (Li) for portable energy storage devices, there is a global concern associated with environmental contamination of Li, via the production, use, and disposal of Li-containing products, including mobile phones and mood-stabilizing drugs. While geogenic Li is sparingly soluble, Li added to soil is one of the most mobile cations in soil, which can leach to groundwater and reach surface water through runoff. Lithium is readily taken up by plants and has relatively high plant accumulation coefficient, albeit the underlying mechanisms have not been well described. Therefore, soil contamination with Li could reach the food chain due to its mobility in surface- and ground-waters and uptake into plants. High environmental Li levels adversely affect the health of humans, animals, and plants. Lithium toxicity can be considerably managed through various remediation approaches such as immobilization using clay-like amendments and/or chelate-enhanced phytoremediation. This review integrates fundamental aspects of Li distribution and behaviour in terrestrial and aquatic environments in an effort to efficiently remediate Li-contaminated ecosystems. As research to date has not provided a clear picture of how the increased production and disposal of Li-based products adversely impact human and ecosystem health, there is an urgent need for further studies on this field.