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The purpose of this paper is to highlight the relationship between lifestyles, household and household wastes, by exploring possible future development path for the lifestyle and the possible consequences for household waste composition. The study predicates on a reasonably simple and straightforward idea that the waste generated from homes is a product of the way the people live and since the way of life of people change overtime, getting an idea of how people may live in future may give an insight into the sorts of composition of waste produced by them. It tends to provide a contribution to the evidence base on household waste at a general level.

The overall approach hinged on the notion that the household is the appropriate analytical unit of household waste production composition. This specified inputs needed to develop scenarios for future waste composition. The weekly generation of sorted wastes from their various sources was determined by direct measurement in kilograms on a weighing scale. Questionnaires were administered to elicit information on key drivers and factors that influence lifestyles scenarios and their development. Interviews were conducted with relevant stakeholders and government agencies on waste management.

The results indicated that food related waste constituted the major percentages and tonnages (44 percent, 269,870 tons) of household waste, while the least portion was glass (1.2 percent,7,278 tons). The key drivers responsible for generation of food waste include level of income, subsistence farming that generate organic food waste and rise in fast food outfits that give preference to readymade food over cooking at homes. The drivers for developing future scenarios include population, government regulations, nature of apartment, level of income, consumer spending, management technology. Three scenarios were developed: status quo trends, strong government and destination point.

Models should be developed for better simulation studies of lifestyle scenarios by quantifying household wastes in terms of carbon footprint and money instead of relying on quantities generated in tons. Further studies should extend to other sources of waste such as industrial waste, electrical and electronic waste, among others. The implication from research findings shows the need for sustained for sustained awareness on people’s lifestyle with regard to handling of household wastes by government agencies, institutions and non-governmental organizations. Scenario planning is required to enable, encourage and engage householders to make changes in their lifestyles.

Food waste, by virtue of its tonnage and percentage composition, dominated the overall picture during the study period and will continue to do so in the near future. The composition of household waste in the future will be driven by the population and lifestyles of the householders. The drivers of lifestyles are crucial factors that determine the picture of the future. Furthermore, it is possible to conjecture circumstances in which household waste is converted to wealth at the destination point but the period before then imply some radical changes in both lifestyles and underlying economic growth facilitated by a strong political will.

This research could be of enormous benefit to policy makers, practitioners and others with an interest in or responsibility to the development and implementation of sustainable waste management. Scenarios are devices for enabling organizations and the individuals within them better to understand their operating environment, so as to make better decisions. This research is a scenario-planning exercise, considering how future changes in lifestyles of people in Port Harcourt metropolis now and in future may impact on the future composition of wastes they generate.

The purpose of this paper is to show impacts of household wastes handling on some physicochemical parameters of surface water, soil, sediments and borehole water samples in Port Harcourt. Waste generated from the households are indiscriminately dumped on roads, stream channels, bush lands and open spaces thus defacing the landscape of the city, flooding and spreading vector-borne diseases. As a result there is unsustainable and wasteful utilisation of resources which gives rise to pollution of the environment. The research determines the pollution profile of some dumpsites, surface water bodies that act as recipients of household waste from result of analysis of physicochemical parameters.

Major dumpsites in the city were selected for sampling. Three sampling stations at upstream, discharge point and downstream were selected for water and sediments. Water samples were collected in one-litre plastic containers, and then labelled and transported to laboratory for analysis. Sediment samples were collected at a depth of 5-10 m under water and preservation, handling and analysis were based on standard principles and procedures. Soil samples were dug with auger at both top (0-15 cm) and bottom (15-30 cm) in radial coordinates. The soil and sediment samples were first digested using the wet oxidation method before analysis with atomic absorption spectrophotometry.

The physicochemical analysis of surface water samples showed that conductivity, salinity, turbidity, sulphate, phosphate, magnesium, total hardness and lead exceeded the World Health Organization and Nigerian Industrial Standard limits for drinking water qualities at the sampled areas. The same parameters in addition to pH and manganese also exceeded the limits for sediment samples. The soil pH showed acidity at the sampling stations for both top and bottom depths. Conductivity, sulphate, iron, manganese, phosphate and lead also exceeded the FMEnv Guidelines and standards for soil quality. The continuous discharge of household wastes on water and soil resulted in elevated levels of some measured parameters.

The research was limited by funds. The cost of sampling and analysis was enormous and limited the study to parameters that available funds could carry. This factor also stretched the period of study. The non-availability of sponsorship made it difficult to extend the research to soil particle size distribution and the underground water movement of the study areas. Another limitation was logistics as the study covered vast areas of the metropolis demanding steady means of mobility that was not available. Epileptic supply of power delayed the timely delivery of result of analysis.

The results of the analysed physicochemical parameters of water, sediments, soil and borehole water samples indicated spatial variations in their values at the study area, with higher values at the discharge points and downstream than the upstream, while for the borehole water analysis, the effect was more pronounced at stations with appreciable quantity of degradable household wastes. The levels of some physicochemical variables exceeded standard limits as a result of continuous discharge of household wastes .The implication is that household waste handling influenced the physicochemical variables negatively and constant monitoring serves as a useful tool of abatement.

This work is original and has not been published before in any book or journal article locally or internationally. The research related waste handling lifestyles with concentrations of measurable parameters, which is an additional work to what other authors have done. The value is that data generated will be a reference material to other researchers, city planners, government agencies and institutions that are involved with environmental management. Furthermore it has added a new dimension to the discipline of waste management in terms of scope and contribution to knowledge.