Investigations into the Morphometric Characteristics of Obibia Drainage Basin , Awka Urban Area , Nigeria

The aim of the study was to investigate the morphometric characteristics of Obibia drainage basin which is wholly located within the Awka Capital territory of Anambra State, Nigeria. The basin was delineated with conventional method from topographic map (Udi SW) on the scale of 1:50,000 published by Federal Survey office. Field survey was conducted for 9 months between April and December 2015 and data were obtained on linear, areal and relief aspects of the basin to ascertain the morphometric characteristics of the basin. Principal Component Analysis (PCA) reduced our 19 variables into 5 while Principal Component Regression (PCR) was employed to reveal the relative contributions of morphometric variables. Result shows a bifurcation Ratio R (Rb) of 3.00 around the month of the river basin indicating higher risk of flooding. The relationship between mean stream length and stream order shows that order 2 drifts too far away from straight line on plotted graph suggesting some structural imbalances. The study recommends proper urban land use planning within the basin that would preserve the natural condition of the basin.


Introduction
The problems posed by the morphometric characteristics of some urban river basins in Nigeria are widely recognized.In a comparative study of Ogunpa and Ogbere drainage basin in Ibadan, Ajibade, Ifebiyi, Iroye and Ogenteru [1] con-cluded that the peculiar morphometric properties of Ogunpa was its compactness that produces sharp hydrographic peak as a result of high bifurcation ratio.
They further concluded that Ogunpa had higher drainage density, higher relief ratio, than Ogbere etc. all which usually result in incidences of flooding that have been the central problem of the basin as wells as higher erosive capacity and sediment yields which further disposes the basin to flooding.These properties were not found in Ogbere basin, making it less prone to extremely hydrological and geomorphic problems.Furthermore Eze and Effiong [2] in examining the morphometric parameters of the Calabar river basin and implications for hydrologic process, noted that low values of drainage density, stream frequency and drainage intensity imply that the surface runoff is not quickly removed from the basin making it susceptible to flooding and existence of a marshy environment.
Again Abua and Abua [3] working in Diobu Port Harcourt interrogated the hydraulic characteristics and relationship of the Oromineke basin and found that a strong association existed between suspended sediment yield and water discharge.The study revealed that the basin has a mean bifurcation ratio of 3.0 and a very high compactness ratio of 7.213 which indicated that the streams in the basin are close to one another and implied that the basin is flooded with patchy swampy locations.Furthermore, Uzor studied the Nyaba and Ekulu drainage basins in Enugu urban area and determined that high sediment yield of Nyaba basin has considerably raised the Nyaba river channel resulting in flash floods that occasionally destroy lives and property especially along the riparian environment.
The influence of high population, as well as, physical development of the urban area affects in various ways the morphometry of the urban drainage basin.However, despite these various studies of drainage basins located in urban areas, many more of such basins are yet to be studied to determine the influence of urban development on various morphometric parameters of such basins.One of such basins that have not been studied is the Obibia drainage basin despite the fact that it is located in the following Local Government Area (LGA) within the Awka Capital Territory: Anaocha, Njikoka and Awka South.However, over 80% of the basin is located in Awka South L.G.A.

Area of Study
The Obibia drainage basin is located between Latitudes 6˚05'N and 6˚13'N and Longitudes 7˚01'E and 7˚09'E.It has an area of 84 sq•km and covers parts of Anaocha, Njikoka and Awka South L.G.A (Figure 1).
The climate is hot wet equatorial with average maximum temperature of 28˚C and average minimum of 24˚C which depend on the season of the year.Rainfall is experienced for 8 months of the year from March to November, while dry season lasts from December to March.Total mean annual rainfall is 1800 mm, In terms of geology, the Obibia Basin lies mainly within Imo clay shale that runs from southern Igala in Kogi State.However, the Bende-Ameki formation which is sandy formation dominates the western and south-western parts of the area.This formation (Bende-Ameki) is a productive aquifer that is suitable for the exploitation of water though ground source.Some parts of the basin around Isiagu and Ezinator communities are dominated by Imo clay shale that is poor in the production of ground water.In the eastern parts of the basin, around Agu-Awka and Amansea, the major geological composition is the Ebenebe formation.
The basin lies on Awka-Orlu upland and partly on the flood plain of Manu River.The plain area has an average elevation of 129.5 m while the upland area has a general elevation of 250 m to 500 m.Open Journal of Modern Hydrology The basin, which is being located mainly in the urban area, has a high population density and many physical development activities which are likely to negatively affect the morphometry of the basin.The drainage pattern of the basin is essentially dendritic.

Data Collection
The basin was delineated from the UDI S.W topographical map on the scale of 1:50,000 published by the Federal survey office.The processes of geo-referencing and digitisation were subsequently employed (Figure 1).Field survey was conducted for 9 months between April and December 2015 and data were obtained on 19 linear, areal and relief properties of the basin consisting of eight linear, six Areal and five relief aspects (Table 1).
Principal Component Analysis (PCA) and Principal Component Regression (PCR) were the major statistical techniques employed for analysis.PCA, reduced the 19 variables into 5 orthogonal components.After this, the principal component loadings were run from the five selected principal components.Subsequently, Table 1.Nineteen morphometric parameters of Obibia Basin and their methods of calculation.

Result
The result of the investigation into the linear properties of the basin including the bifurcation ratio, aerial and relief properties are presented in Tables 2-4.
In analysing the linear, areal and relief properties of the basin, PCA (CDV) was employed.Table 5 shows the labelling and coding of the Properties.
The relationship between streams numbers (N u ) and stream order (U) as well as the regression of the logarithm of stream numbers log N u against stream order were plotted as shown Figure 2 and Figure 3.
The summary of the result is shown in Table 7.
On the calculation of the relative importance of the variables, we computed successive values of the multiple correlation coefficient obtained by introducing successive independent variables at each computation [4] i.e.Ry.x, Ry.X 1 X 2 , Ry,X 1 X 2 X 3 and Ry.X 1 X 2 X 3 X 4 .The difference between the squared multiple correlation (R 2 ) is then regarded as the contribution of each variables (Table 8).

Discussion
Obibia river basin was found to be a 4 th order basin.The stream order was plotted against the stream numbers and logarithm of stream numbers against order are presented in Figure 2 and Figure 3.In Figure 2 the straight line relationship of points is not so perfect as almost all the points are outside the straight line, but when the points were transformed through logarithm the lines conformed to the straight line, but again not so perfect, indicating that some structural disturbances have started to exhibit themselves in the basin.The total stream length of the basin is 102.25 km.The regression of the logarithm of the stream length (log Lu) versus order (u) for the basin is presented in Figure 4.The graph has a "snake" shape other than normal straight line relationship of an ideal river.This is further corroborated in the plotting of the mean stream length of various or-ders against the orders (Figure 5).This graph revealed that points 1, 2, 4 (i.e.orders 1, 2 and 4), are outside the line, the effect of structural abnormality was more pronounced in order 2. On the bifurcation ration (R b ) which is a dimensionless property, it shows only a small variation of different regions with different environment except where powerful geological control dominates [5].
Values of Rb typically range from the theoretical maximum of 3 to a maximum of 5. Newman [6] was of the view that lower Rb values are characteristic of basins which suffers less structural disturbance and drainage pattern that has not been distorted due to the structural imbalances.Conversely high Rb value indicates that the flow of energy is low which in turn gives different time for infiltration and ground water recharge, as well as, low probability of flooding and vice versa [7].
The mean Rb of the basin is 4.09 which falls within the 3 -5 range of basin with stable geologic structure which do not present distorted drainage pattern.However, the Rb of various orders vary indicating a level of distortion probably as a result of the on-going physical development taking place at various parts of the basin.For example, the highest Rb (5.00) is found between 2 nd order and 3 rd order indicating strong stability, while the Rb (3.00) is found between 3 rd order and 4 th order and this indicates a higher risk of flooding in that part of the basin.The basin area of our study area is 84 sq•km which is a relatively medium-sized basin likely to intercept high volume of rainfall and therefore higher risk of flooding.The drainage density of 1.22 indicates that it has a somewhat high permeability as would be seen from the Nanka and Ebenebe sands formation of the area, which easily infiltrate water.The elongation ratio of any basin ranges from 0.6 -0.8.Higher values occur in areas of high relief and steep ground slope.These values are further categorized as circular (>0.9) and oval (0.9 -8.0) and less elongated (<0.7).Flood flow in elongated basins is easier to manage than that of circular basins that are more prone to flash flood and higher discharge.The basin's elongation ratio of 0.57 expresses elongation where flooding can be easily managed, what this means is that flood in the basin can be easier tackled.The circulatory ratio of natural basins range from 0.4 -0.5 and incidentally this basin's ratio of 0.41 falls within this range showing that the basin is very strongly elongated.This further shows that it has a reasonably high level of permeability as could also be seen from its medium to low relief which is between 100 m to 250 m above sea level.
The basin relief of the basin (600 m) goes to validate the medium to low relief found in the analysis of elongation ratio.
Table 6 shows the varimax rotated value of the morphometric parameters of the basin, using PCA it is seen that the parameter with the highest loading in Component 1 is X 8 (BFR) of 0.974.This means that the bifurcation ratio is the strongest morphometric parameter in the basin.From the analysis of the bifurcation ratio, it was found that the Rb of the orders are not the same; 4.25 (between 1 st and 2 nd order), 5.00 (between 2 nd 3 rd order) and 3.00 (between 3 rd and 4 th order) and the mean Rb of the basin of 4.09, were calculated, generally the Open Journal of Modern Hydrology entire basin is between the high and low values indicating that some structural problems are already manifesting.The situation at the mouth of the Obibia basin with Rb of 3 reveals a predisposition to flood incidents.Most disturbing is that urban development is fast taking place in the entire basin although it is presently more pronounced at the middle and lower section of the basin where the present Awka town is located.Furthermore, X 14 (ERA) (0.937) shows that the elongation ratio is a parameter to be closely observed.Although with its value of 0.57, it is slightly outside the range of 0.4 -0.5 for natural basins.This, therefore, means that the flood condition is being created by the present physical development in many parts of the basin.Component III has X 15 (BRE) (0.958) as the parameter with the highest loading, Basin relief was calculated to be 600 m, although that is higher than the general situation but goes to indicate that there are some areas of the basin that are high, as could be seen around Gama Hill east of the basin and in Agulu where the height relief is about 750 mm This situation are seen in patches in the basin.This elevation around Agulu is one of the reasons for erosion and excessive sedimentation which are the features of the area.Finally, component IV has XII (SFR) with highest loading of 0.884.Stream Frequency which is an indication of drainage pattern depends mainly on the lithology of the basin.It is an index of various stages of landscape evolution.The stream frequency of the area is being altered as vegetation is daily removed for various forms of construction.The high value of stream frequency and drainage density of the area strongly indicate possibility of flooding in the area especially at the built up area.The result of PCR on the four isolated morphometric properties shows that all of them operating together contributed 90.6% to the geomorphic and hydrologic problems within the area of the basin.On the calculation of the relative importance of the variables, it was seen that X 8 (BFR) contributed as high as 64.2% of the 90.6% (which is 70.9%) of the contribution of the four parameters).The contributions of others include X 14 (ERA)-11.5%,X 15 (BRE)-9.3% and X 11 (SRF)-5.6%.This, therefore, means that greater attention will be contributed on the bifurcation ratio of the basin considering the on-going intensive construction of roads, houses, and increase in the area of paved surfaces and of course, destruction of the vegetation.

Conclusion
We have tried to examine the linear, areal and relief properties of the Obibia basin and related them to the on-going physical development of the area within the basin which covers a good part of the Awka capital territory.The revelation of four important morphometric factors that result in some geomorphic and hydrologic problems of the area is instructive.Out of these variables, bifurcation ratio contributes over 70% of all the contributions of the isolated factors.This means that this parameter should be more closely examined periodically.It has been concluded that adequate planning of the Awka capital territory environment may not achieve good result without considering these isolated factors.

Figure 1 .
Figure 1.Map of River Obibia Basin in Anambra State.
straight line from the mouth of the basin to the farthest point on the basin perimeter Schumn, 1963 4. Main stream length (km) This is the length of the principal drainage Schumn, 1963 5. Main stream length (km) Total stream lengths in the basin divided by total number of streams Schumn, 1963 6.Total stream length (km) This is the total length of all the tributaries and the principal drainage Schumn, 1963 7.Basin perimeter (p) This is the outer boundary of the drainage basin that encloses its area Schumnu = total no of streams of order "u", Nu + 1 = No of segment of the

Figure 2 .
Figure 2. Relationship between stream numbers (Nu) and Stream Order (u) for Obibia River Basin.

Figure 3 .
Figure 3. Regression of logarithm of stream numbers (Log Nu) against Stream Order (u) for Obibia River Basin.

Figure 4 .
Figure 4. Regression of logarithm of stream length (Log Lu) versus Stream Order (u) for Obibia River Basin.

Figure 5 .
Figure 5. Relationship between mean stream length and Stream Order (u) for Obibia River Basin.
MLR) was then run on the selected loadings.In this analysis, the defining loadings known as the Component Defining Variable (CDV) were employed.Basin area was the dependent variable while other morphometric variables are independent variables.With this, a PCR equation was produced which was used to interpret the result of the analysis.
H/Lb where H = basin relief, Lb = Basin length Schumn, 1956 3. Max Relief (maxH) The highest point value of elevation in a drainage basin Schumn, 1956 4. Min Relief (minH) This is the lowest elevation in a drainage basin.Schumn, 1956 Open Journal of Modern Hydrology the Multiple Linear Regression (

Table 2 .
Linear properties of the basin.

Table 3 .
Areal properties of the basin.
55 Open Journal of Modern Hydrology

Table 5 .
Labelling and coding of the morphometric properties of the basin.

Table 6 .
Varimax related component of morphometric factors of Obibia Basin.

Table 7 .
Result of the PCR analysis.

Table 8 .
Relative contributions of the variables.
Furthermore, the dimensionality of the regressions is reduced by taking only the CDVs for prediction.The intention of using PCR was to extract the underlying effects in the X data and to use these to predict the Y values.In this way, we could guarantee that only independent effects were used and local variance noise effects were excluded and this expectedly improves the quality of the model significantly.The dependent variable is the basin area with the loading of 0.925 in the first component.The PCR equation expressing the closest possible relationship between the basin area and the 4 specified variables is