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A private waste collection vehicle in Banani Model Town. Current (2012) waste generation in Bangladesh is around 22.4 million tonnes per year or 150 kg/cap/year. [3] There is an increasing rate of waste generation in Bangladesh and it is projected to reach 47, 064 tonnes per day by 2025. The rate of waste generation is expected to increase to ...
Bangladesh faces both natural and man-made environmental problems. The main environmental problems of Bangladesh can be traced to the problems of overpopulation and poverty. These are: deforestation, deteriorating water quality, natural disasters, land degradation, salinity, unplanned urbanization, unplanned sewage, industrial waste disposal, etc.
Flooding has been cited as one of the "main obstacle[s] to the economic improvement of the nation". It affects the agricultural economy and the food security of the nation, since almost 74% of the land is cultivated. If significant portions of this land becomes flooded, it cannot be used for to produce agricultural products.
From 1971 to 1989, the Bangladesh Forest Department was under the Ministry of Agriculture. During 1987-89, Forestry was a department of the Ministry of Agriculture, under a Secretary. The Department of Environment (DoE) was established in Bangladesh in 1977 under the Environmental Pollution Control Ordinance, 1977.
Agriculture is the largest employment sector in Bangladesh, making up 14.2 percent of Bangladesh's GDP in 2017 and employing about 42.7 percent of the workforce. [1] As of the financial year 2022 to 2023, the agricultural sector contributed to more than 12% of GDP. [ 2 ]
Bangladesh Environment Conservation Act (BECA) is set of laws enacted by the government of Bangladesh in 1995 to conserve the nation's environment. [1] Its main goals were to "provide for conservation of the environment, improvement of environmental standards and control and mitigation of environmental pollution."(Bangladesh Environmental Conservation Act, 1995).
The recycling of electronic waste (e-waste) has seen significant technological advancements due to increasing environmental concerns and the growing volume of electronic product disposals. Traditional e-waste recycling methods, which often involve manual disassembly, expose workers to hazardous materials and are labor-intensive.
The smallest in terms of total e-waste made, Oceania was the largest generator of e-waste per capita (17.3 kg/inhabitant), with hardly 6% of e-waste cited to be gathered and recycled. Europe is the second broadest generator of e-waste per citizen, with an average of 16.6 kg/inhabitant; however, Europe bears the loftiest assemblage figure (35%).