The poor state of sanitary services is a major environmental challenge in urban centres of Nigeria. The situation has reached a crisis proportion in the absence of basic sanitary services like modern toilet, good sewage management method, functional drainage system, good roads, environmentally- friendly solid waste disposal method, potable water, electricity and social amenities. The aim of the study is to show how infrastructural improvement method of slum rehabilitation can be applied to reduce costs for improving environmental quality of a major slum area in Yenagoa. Basic Research Methodology was applied using questionnaire, direct observation and personal interview techniques to collect data. Both qualitative and quantitative techniques were applied to analyse data through the use of tables and charts. The findings in the study showed that poor condition of sanitary services seriously degrades the environmental quality of the study area. The standard of living in the area is very poor as the people lack access to basic sanitation and social amenities. It showed that only 2% of the households exclusively use water closet (wc) toilet; 4% have well-maintained septic tanks; none of the houses are on road with functional drainage system; 10% of the houses are on tarred roads of 10 or more metres right-of-way and none of the households use environmentally-friendly solid waste management method.
The deplorable condition of sanitary services in the urban areas of Nigeria is a major source of concern due to the high prevalence of slums. This seriously degrades the environmental quality of the urban centres as they lack basic sanitary services. Lemma (2005) noted that “Slums are becoming inevitable phenomena of the urban fabric in the developing world”. The UN-Habitat (2010) also defined slum as a contiguous settlement where the inhabitants are characterized as having inadequate housing and basic services. Igwilo (2004) and Vidal (2003) described slum as a group of buildings or an area in a state of deterioration and unsanitary conditions or absence of facilities amongst others where the health, safety or morals of its inhabitants are endangered. All over the globe, “over 880 million urban residents are estimated to live in slum conditions today, compared to 792 million reported in 2000 and 689 million in 1990” (United Nations, 2015, 2016) . In Nigeria, the situation is not different (Ayotamuno & Gobo, 2004; Owei & Nwuzi, 2003) .
Yenagoa, the capital of Bayelsa State of Nigeria, which was created on the 1st of October, 1996, is not an exception as the city lacks basic sanitary services (Ede et al., 2007; NBS, 2009) . The population of the city increases on daily basis due to the uncontrollable influx of people into Yenagoa immediately the town was designated as the capital of Bayelsa State. Consequently, the environmental quality of the city is seriously degraded as the provision of sanitary services like good toilet, roads, sewage disposal method, drainage system as well as healthy solid waste management method/facilities among others cannot match the rapid population growth. The primary aim of the study is to show how cost reduction technique in infrastructural improvement method for slum rehabilitation can be applied for improvement of sanitary services in Yenagoa.
The study was carried out within a major slum area in the central part of the city of Yenagoa in Bayelsa state. The area is bounded by Yenagoa-Mbiama road in the North, Harbour road in the west, Yenagoa-Oporoma road in the South, and Obele road in the East. It has a total land area of about 55.721 hectares (0.55721 sq. km) as also shown in
Yenagoa experiences heavy rainfall for eight to nine months (March to November) of the year with highest rainfall values obtained in the months of June
(322.92 mm), July (413.59 mm), August (438.34 mm) and September (439.84 mm) while the mean annual rainfall is 3191 mm (Harcourt Adukeh Associates, 2004; Adejuwon, 2012) . Even the dry season months of December, January and February are not free from occasional rainfall. Due to the low terrain, swamps, high rainfall and other unfavourable climatic factors, most parts of Yenagoa are flooded for about 8 or 9 months of the year especially during the flood season from the months of May to October. It is very expensive to provide sanitary services like good toilet, septic tank, drainage system, access road and solid waste management facilities among others in Yenagoa as it requires land reclamation and sand-filling due to the low terrain and unfavourable climatic factors.
The research design for the study is Basic Research methodology using questionnaire for data collection. The data collection techniques include questionnaire and administration, observation of physical environmental condition and personal interviews. The respondents in the study are household heads in the area. Personal interviews were also conducted to gather data from government officials and community leaders. All houses in the area are considered as the population for the study. Sample frame was prepared comprising all roads and houses in the area. There are 62 roads in the area and the total number of houses is 1752. On each of the roads, 25% of the houses were selected for assessment giving a sample size of 438 from which one household head was picked as a respondent for the study. Simple random sampling technique was applied to pick one out of the first two houses on each road in the sampling frame as starting point. Subsequently, systematic sampling method was used to pick houses for the study with a fixed periodic interval of 4 on each of the 62 roads. Both qualitative and quantitative data analysis techniques were used to interpret and explain the personal characteristics of household heads, condition of housing and sanitary services in the study area. These are analysed (described) through the use of statistical tools such as tables and charts.
Settlement | 01 | 02 | 03 | 04 | 05 | Total | % | |||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
No. | % | No. | % | No. | % | No. | % | No. | % | |||
Obele | 53 | 12 | - | - | 71 | 16 | - | - | 47 | 11 | 171 | 39 |
Ololo | 8 | 2 | - | - | 55 | 13 | - | - | 63 | 14 | 126 | 29 |
Igugu | 57 | 13 | - | - | 48 | 11 | - | - | 36 | 8 | 141 | 32 |
Total | 118 | 27 | - | - | 174 | 40 | - | - | 146 | 33 | 438 | 100 |
Source: Authors’ Fieldwork. Rating: (01―Water closet); (02―Pail system); (03―Pit latrine); (04―Bucket system); (05―No toilet).
toilet exclusively use them. It conform to the findings by Ezenagu (2000) that the use of toilet facilities by too many persons create maintenance problems and frequent damages on the facilities. The above findings are collectively responsible for the incessant exposure of human feaces in the area that degrade the environmental quality of Yenagoa. The findings of the study show that the residents of the area would suffer health challenges if they live in this unhealthy condition for so long. They are exposed
Condition | No. | % |
---|---|---|
Well-maintained | 17 | 22 |
Required minor repairs | 41 | 54 |
Requires major repairs | 6 | 8 |
Due for evacuation or dilapidated | 12 | 16 |
Total | 76 | 100 |
Source. Authors’ fieldwork.
environmental pollution and degradation in the city. The implication is that this can cause health challenges to the residents which were also identified by Srinivas (2009) . It was observed that human faeces are exposed from some of the septic tanks that are in a state of disrepair. This would cause several environmental hazards and diseases like cholera, dysentery and skin infection as also identified by Olokesusi and Ogu (1998) . The sewage effluent discharged into the streams pollutes water resources and destroys aquatic lives due to eutrophication. It was observed that the discharge of too much nutrients in the form of nitrogen and phosphorous compounds amongst other pollutants into the streams through the sewage effluent accelerate the growth of algae and other aquatic plants as also identified by Enger and Smith (2004) .
Settlement | 01 | 02 | 03 | 04 | 05 | Total | % | |||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
No. | % | No. | % | No. | % | No. | % | No. | % | |||
Obele | - | - | - | - | 2 | 1 | 32 | 7 | 137 | 31 | 171 | 39 |
Ololo | - | - | - | - | 8 | 2 | - | - | 118 | 27 | 126 | 29 |
Igugu | - | - | - | - | 30 | 6 | - | - | 111 | 26 | 141 | 32 |
Total | - | - | - | - | 40 | 9 | 32 | 7 | 366 | 84 | 438 | 100 |
Source: Authors’ fieldwork. Rating: 01―Covered drainage system and flowing. 02―Open drainage system but flowing. 03―Covered drainage system but not flowing (blocked with solid wastes). 04―Open drainage system and not flowing (blocked with solid wastes). 05―No drainage system.
in Yenagoa throughout the year as also identified in Abuja by Jinadu (2004) . The study also observed that houses are even built on natural drainage paths which worsen the flooding problem in the state capital as the free flow of storm water is obstructed.
Settlement | 01 | 02 | 03 | 04 | 05 | Total | % | |||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
No. | % | No. | % | No. | % | No. | % | No. | % | |||
Obele | 2 | 1 | - | - | - | - | 14 | 3 | 155 | 35 | 171 | 39 |
Ololo | 8 | 2 | - | - | - | - | - | - | 118 | 27 | 126 | 29 |
Igugu | 32 | 7 | - | - | - | - | - | - | 109 | 25 | 141 | 32 |
Total | 42 | 10 | - | - | - | - | 14 | 3 | 382 | 87 | 438 | 100 |
Source: Authors’ fieldwork. Rating: 01―Tarred road of 11 or more metres right-of-way and without pothole. 02―Tarred road of 10-10.9 metres right-of-way but without pothole. 03―Tarred road of 11 or more metres right-of-way but with potholes. 04―Tarred road of 10-10.9 metres right-of-way and with potholes. 05―Tarred road of less than 10 metres right-of-way/un-tarred/no access road.
their houses. This is also responsible for the high cost of building construction in the area it is difficult to transport building materials to project sites. The study identified lack of functional access roads in the area as a major factor responsible for traffic congestion in the city where residents who cannot access their houses pack vehicles on the few available roads as also identified in Abuja by Jiriko (2012) . The study also identified lack of functional access roads in the area as the factor responsible for irregular evacuation of septic tanks in the area. It is even more expensive to evacuate septic tanks in the area as evacuation trucks cannot directly gain access to houses that are not along access road. The problem of insecurity in the area is also attributable to lack of access roads. The deplorable state of roads in the area is a major factor responsible for the inability of security agents to effectively fight crime in the area where patrol van cannot access houses. The lack of access roads in the area is a product of negligence on the part of government in terms of land-use planning and implementation as also identified by Olurin (2016) .
Settlement | 01 | 02 | 03 | 04 | 05 | Total | % | |||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
No. | % | No. | % | No. | % | No. | % | No. | % | |||
Obele | - | - | - | - | 11 | 2 | 104 | 25 | 51 | 12 | 171 | 39 |
Ololo | - | - | - | - | 6 | 1 | 90 | 21 | 30 | 7 | 126 | 29 |
Igugu | - | - | - | - | 17 | 4 | 87 | 20 | 37 | 8 | 141 | 32 |
Total | - | - | - | - | 34 | 7 | 286 | 66 | 115 | 27 | 438 | 100 |
Source: Authors’ fieldwork. Rating: 01―Solid wastes sorted and packed into special sanitation bag. 02―Solid wastes sorted but packed into sacks or covered container. 03―Solid wastes not sorted but packed into special sanitation bag. 04―Solid wastes packed into open container. 05―Solid wastes dumped behind buildings or along road side or into seasonal stream.
numerous health challenges from the above unhealthy methods of solid waste management. The people are prone to several health hazards, offensive odour and unsightliness from environmentally-unfriendly solid waste management methods as also identified in Yenagoa by the Federal Republic of Nigeria, National Bureau of Statistics, NBS (2009) . Some of the health problems from the above unhealthy solid waste management methods may not be noticed immediately. The health conditions manifest after several years of stay in such areas through bio-accumulation and magnification of pollutants. Some of the easily identifiable diseases include cholera, typhoid, dysentery, skin infections. The leachate from solid waste contaminates sources of drinking water through percolation. The aquatic lives would also suffer extinction due to eutrophication. The discharge of too much nutrients in the form of nitrogen and phosphorous compounds amongst other pollutants into the streams through the dumping of solid wastes accelerate the growth of aquatic plants including algae as identified by Enger and Smith (2004) .
The study showed that the extant laws for regulating building operations and other human activities in the state have not made an appreciable impact in the study area. Residents of the area still lack improved basic sanitation facilities. This is at variance with MDG 7, SDG 6 as well as SDG 11 which is to make cities and human settlements inclusive, safe, resilient and sustainable. It is clear from the above findings that poor condition of sanitary services seriously degrades the environmental quality of the study area in particular and Yenagoa at large. The study recommends the implementation of Infrastructural Improvement method of slum rehabilitation, which can improve the condition of sanitary services in the study area.
The platform for this study was provided by the IGST, RS/UST to whom the authors are greatly indebted.
Ebakpa, A. F., Gobo, A. E., & Ngah, S. A. (2017). Cost Reduction Technique in Infrastructural Improvement Method for Slum Rehabilitation in Yenagoa, Bayelsa State, Nigeria. Current Urban Studies, 5, 490-501. https://doi.org/10.4236/cus.2017.54028