Comparative Analyses of Diversity and Similarity Indices of West Bank Forest and Block A Forest of the International Institute of Tropical Agriculture (IITA) Ibadan, Oyo State, Nigeria

Comparative analyses of diversity and similarity indices of west bank and block A forest of the International Institute of Tropical Agriculture (IITA) were carried out by the vegetation survey using transects and plot sampling techniques. Six transects {A (270°W), B (90°E), C (180°S), D, E (0°N), and F (180°W)} were constructed with the aid of prismatic compass in west bank forest and block A forest. 10 sampling plots of 10m× 10m were demarcated along each transect making 30 plots in each forest, and a total number of 60 plots were used for the study. Complete enumeration and identification of plants were carried out in each plot. +e results showed that block A forest had 167 plant species from 58 families while west bank forest had 146 plant species from 56 families. A total number of 219 plant species from 70 families and 5804 individual plants were recorded in the two forests. West bank forest had higher values of all the diversity indices and Gamma diversity except Margalef’s community diversity index and alpha diversity index which were high in block A forest. Sorensen’s and Jaccard similarity indices of plants between west bank forest and block A forest were 59.42% and 42.66%, while the dissimilarity index of 40.58% was recorded. +us, the two forests are richer and diverse in plant species; adequate protection of the two forests should be a priority to prevent loss of diversity of plants. Cutting of poles from the forests should be stopped.


Introduction
Biodiversity is the totality of heritable variations or differences in characteristics that exist in all living things, individuals, and their species in various ecosystems in different parts of the earth [1]. According to the Convention on Biological Diversity [2], biodiversity is defined as "the variability among living organisms from all sources including inter alia, terrestrial, marine, and other aquatic ecosystems, and the ecological complexes of which they are a part of; this includes diversity within species, between species, and of ecosystems." Moreover, biodiversity has become an increasingly popular topic within the discussion of sustainability in the last decade, though the maintenance of diversity of forest ecosystems is required since many years [3,4]. is interesting topic was stressed especially in the Rio Declaration and renewed by the Lisbon Conference in 1998 [5]. Generally, biodiversity measurement typically focuses on the species level, and species diversity is one of the most important indices which are used for the evaluation of ecosystems at different scales [6]. Local diversity can be studied with various indices, such as number of species per unit area (species richness) or the Shannon index, amongst others. ese are used as indicators of the degree of complexity of the under study communities and provide information on the homeostatic capacity of the system to unforeseen environmental changes [7].
Distinguishing plant communities has been at the heart of vegetation science for centuries, with a traditional focus on the distribution, composition, and classification of plant communities [8]. Plant communities are defined as an assemblage of functionally similar species populations that occur together in time and space [7]. Plant communities are separated from each other based on indicator species in combination with a distinctive floristic composition. e latter is considered as one of the major distinguishing characters of a community, and therefore, any depletion of biodiversity is bound to alter the community attributes [9,10].
Biodiversity includes genetic diversity, species richness, and ecosystem diversity and assumes that these are interdependent and quantified through taxonomic inventories within specified areas [11,12]. e number of different species within a geographical area depends on migration and adaptation to environmental conditions and how they in turn modify the environment [13,14]. Biological conservation is concerned with the protection of living species including the sustainable use of soils and environmental resources [15]. Biologists have long realized the value of biodiversity to humanity, but local communities also value biodiversity in their own terms for "use" and traditional conservation systems exist [16,17]. A range of species may have no direct value to people, but provide common ecological services to the wider community through tourism revenue and an ecosystem that is more sustainable. e west bank and block A forests of the International Institute of Tropical Agriculture (IITA) are a mosaic of abandoned villages and farmland at various stages of forest regrowth. e plots that were under cultivation before the acquisition fifty three years ago are now mainly a thicket of Chromolaena odorata. It is interesting that although some tree saplings are now emerging through this undergrowth, there is so far little sign of the structure and diversity of the original primary forest. On the other hand, it is remarkable to note that many of the forest species of plants and animals have managed to survive or even flourish in this extended "bush fallow". e natural vegetation in this area could be classified as tropical semideciduous forest with various pockets of vegetation types ranging from derived savanna, secondary forest, and riparian types. According to Ezealor [18], the area resembles mature Guinea-Congo lowland rainforest with scattered emergence of trees which include Ceiba pentadra, Milicia excelsa, and Terminalia species. Large clumps of bamboo (Bambusa vulgaris) are common; stands of Raphia vinifera are found along watercourses while scattered oil palms Elaeis guineensis grow in both low-lying and the relatively better-drained upland areas. e west bank forest had been under active protection as an informal forest and nature reserve for some years while block A forest are open to villagers living at the adjoining villages of IITA perimeter fence for collection of Non-Timber Forest Products (NTFPs) such as firewood, bamboo, waterleaf, and palm kernel and also to IITA staff for collection of poles, pegs, and firewood for experimental field. Few authors have worked on the vegetation structural diversity and similarity index of west bank forest but no information is available on the comparative analysis of diversity and similarity indices of the two forests with the view of comparing the species composition, richness, diversity, and similarity of the two forests. It is against this backdrop this work was designed to compare the diversity and similarities indices of the two forests.

Study Area.
e study areas are the west bank and block A forests of the International Institute of Tropical Agriculture (IITA), Ibadan, Oyo State, Nigeria. IITA is located at longitude 7°30′8″N, latitude 3°54′37″E, and 243 m above sea level [19]. e site falls within humid tropical lowland region with two distinct seasons: the longer wet season and shorter dry season. e wet season lasts for eight months, and it extends from March to October while the dry season lasts for four months from November to February. e rainfall pattern is bimodal with an annual total which ranges from 1,300 to 1,500 mm most of which falls between May and September. e average daily temperature ranges between 21°C and 23°C, while the maximum is between 28°C and 34°C. Radiation is about 5285 MJ/m 2 /year. Mean relative humidity is in the range of 64% to 83% [19].

Data Collection.
e method of data collection for this study was based on vegetation survey using transects and plot sampling techniques [20][21][22][23][24][25][26]. e number of individuals of each species and the total number of plants were recorded. e geographical positioning system (GPS) was used to take the coordinates of the plots and transects; this was plotted on the GPS arc view to know the position of each transect within the two forests and to obtain the study location map (Figures 2 and 3).

Data Analysis.
e data were analyzed using diversity indices and similarity indices. ese are alpha, beta, and gamma diversities [27,28]. Community studies vary in the number of species encountered in a sample (alpha diversity) and in the total number of species encountered in a study (gamma diversity) [28]. For the measurement of diversity, the Alpha (Simpson diversity index) and Beta (Sorensen similarities indices) diversities were used to determine and compare the plant species diversity of the two sites. e diversity indices of plant community were computed on the basis of density values or total number of individuals of the plants in all the transects and in west bank and block A forests. Seven different indices for describing the species diversity have been devised by various scientists: (i) Simpson's diversity index D [29] was calculated using the following formula: where ni is the total number of each species and N is the total number of all the species.
(ii) e Shannon and Weiner index (H′) was computed from the formula as modified by Shannon and Weiner [30]: where ni is the total number of each species and N is the total number of all the species.
(iii) e evenness (E) was computed from Pielou's index [31]: where H′ = Shannon and Weiner diversity and ln S is the natural log of the total number of species recorded.
(iv) Margalef's community diversity index was calculated by using the formula given by Margalef [32]: where S = total number of species and N = total number of individuals.
(v) e McIntoch diversity index was calculated using the formula given by McIntosh [33]: where S is the total number of species and ni is the number of individual species.
(vi) e Menhinick diversity index was calculated by using the formula given by Menhinick [34]: where S is the total number of species and N is the total number of individuals.
(vii) e concentration of dominance (C d ) was calculated by using the formula given by Simpson [29]: where Ni = proportion of individual belonging to ith species and N = total number of individuals.

Similarity Indices (SI).
e similarity index determines the interspecific association between the species of plant communities. Sorensen similarity index [35] and Jaccard similarity index were used to determine and compare the similarities of plant species in transects A and B, A and C, A and D, A and E, A and F, B and C, B and D, B and E, B and F, C and D, C and E, C and F, D and E, D and F, E and F, and SA and SB (site A: west bank forest and site B: block A forest) because the plots and transects are of equal sizes.
(viii) Sorensen's species similarity index (SI) between the transects and the two sites was calculated according to Nath et. al. [36]: where C is the number of species in sites a and b; a and b are the number of species in sites a and b.
(ix) Jaccard similarity index (C j ) between the transects and the two sites was calculated following Magurran [37]:  (x) Dissimilarity index (DI) is the reverse sequence of similarity index. It was calculated by the following formula: where SI is the similarity index.

Diversity Indices of Plant Community in the West Bank and Block A Forests.
Species diversity is a useful parameter for the comparison of communities under the influence of biotic disturbances or to know the state of succession and stability in the community [38]. e diversity indices of plant community in all the transects are depicted in Table 1. Margalef's community diversity index was higher for transects E, C, D, and A with the values of 33 Gamma diversity except Margalef's community diversity index and alpha diversity index could be due to the protection which the forest has undergone over period of years while increase in Margalef's community diversity index and alpha index of block A forest could be due to dam and river which run through the side of the forest and floods which normally inundate the forest during the raining season from the outside fence. is creates riparian effect whereby there is enough moisture and favourable conditions for plant growth. According to Hengaveld [40], species diversity is an important attribute of a natural community that influences the functioning of an ecosystem. Ecosystem functioning according to De Groot et. al. [41] is the capacity of the natural process and components to provide goods and services that satisfy human needs, directly or indirectly. is simply implies that the higher the biodiversity, the more efficient the functioning of the ecosystem. Logging decreased the species diversity [42,43]; since logging was not allowed in both west bank forest and block A forest, species diversity was expected to be high. However, the results from the two forests showed a high diversity of plant species despite the disturbance that had occurred in the areas such as illegal hunting, land clearing for experiment, construction of physical structure, and firewood, poles, and stake collection [24,44]. Mishra et. al. [10] reported that moderately or slightly disturbed tropical forest ecosystem tends to support more number of plant species in comparison with a forest which is dense and undisturbed. According to Isichei [45], succession restores and increases the diversity of life in an area after disturbance. Also Ayodele and Lameed [1] stated that species diversity is well correlated with the annual amount of rainfall with the water areas tending to be rich in species diversity in the southern parts of Nigeria. e International Journal of Forestry Research abundance of plant species in the forest reserves may be due to the combined effects of favourable climatic conditions and protection from anthropogenic activities over many years which enhance regeneration.

Sorensen's Similarity Indices of Plant Species in West Bank
and Block A Forest. Table 2 shows Sorensen's similarity indices of each transect and the two forests. Beta diversity which compares the similarity between transects as suggested by Wolda [20], Ariyo [44], and Ariyo et al. [24] showed that Sorensen's similarity indices of each transect and the two forests varied from 70.  A and D), west bank forest, and block A forest was high, above 50%. Ariyo [44] and Ariyo et al. [24] found low similarities indices of plants less that 50% between the forests' transect apart from transects B and C. According to Ekta [38], high similarity indices could be due to high moisture content in soil, comparatively low temperature, bright light, and higher organic content through humification which mostly bring about uniformity in the weather conditions which results in good plant growth.

Dissimilarity Index of Plant Species in West Bank and
Block A Forest of IITA. e dissimilarity index which is a reverse sequence of similarity index as found on Table 4 was high for transects A and D with 51.55%. Transects B and E, A  and C, A and E, A and F, B and C, B and D, B and F, C and E, C and F, D and E, D and F, E and F, and C and D had dissimilarity indices ranging between 41.24% and 48.98%. West bank forest and block A forest had a dissimilarity index

Conclusion and Recommendation
Based on the findings of the study, it can be concluded that there was high diversity of plants (both alpha and gamma diversity) from seventy families in the two forests. Block A forest had the highest number of species (intraspecific or alpha diversity) from fifty-eight families, while west bank forest was high in individual species (gamma diversity) from fifty-six families. Besides, west bank forest was high in all the diversity indices considered apart from alpha and Margalef's diversity indices. It can also be concluded that the similarity indices of plants between west bank forest and block A forest was high for both Sorensen's (above 50%) and Jaccard (above 40%). us, the two forests are richer and diverse in plant species; adequate protection of the two forests should be a priority to prevent loss of diversity of plants. Removal of poles, firewood, stakes, or any other forest products that may lead to loss of plant diversity and further degenerate the block A forests should be stopped. Development of buffer zone (golf forest could be used as buffer zone) should be made where villagers would be allowed to collect firewood, palm products, vegetables, medicinal plants, and other forest products for their immediate needs. However, they should be restricted to such zones and not allow encroaching into protected areas (west bank and block A forest).

Data Availability
e raw (primary) data generated for this study were collected from the west bank and block A forest of the International Institute of Tropical Agriculture (IITA) forest. e data that support the findings of this study are available from the corresponding author upon reasonable request.

Conflicts of Interest
e authors declare that they have no conflicts of interest.