Tropical forests are host to a wide array biodiversity and important for global climatic processes. Yet its rate of forest loss and conversions are so alarming that up to 13 million forests are felled or razed each year across the tropics   . Such disruption of the tropical ecosystem are thought to constitute a greater peril for global biodiversity than any other contemporary phenomenon    and poses a major threat to the vast array of services that the ecosystem provides. In a bid to address these issues and ensure that tropical biodiversity is conserved, forest reserves and protected areas were established across many tropical areas, including Africa   . These (reserves and protected areas) were to be used to preserve the wide array of biodiversity found in the region and serve as refuge for species that are threatened in other natural landscapes (outside protected areas). Protected areas are equally seen as the only channel by which obligate forest species could be safeguarded; especially those ones that are found in the remains of ancient logs that are decaying  . While these facts appear to be known across many parts of the tropics, the underlying reasons for establishing reserves are not mostly realized. This has remained a challenge across many tropical areas mainly because, such landscapes are equally prone to environmental stress and human encroachment  .
Even though Nigeria occupies a large land mass, only about 10 percent of its land area are occupied by forests  . Among this land area, about 445 gazetted reserves exist across the entire ecological zones found within the country  . With the reserves varying in size across the different ecological zones, so likewise do their timber output as well: with the savanna having lesser than what is found in the forest zones. Though several attempts have been made to increase the extents or sizes of the forest reserves across the country, it has however not yielded much result compared to the initial time (during the colonial times) when much land was easily gazetted. It seemed easier for communities or regions to part with their land then than in recent times that is characterized by higher population growth and greater demand for land.
These reserves (which are mostly extensive in size) are managed at the state levels by the different State Forestry Departments whose emphasis or target is (varied) dependent on the ecological location or peculiarities. Hence, while the ones in southern Nigeria (where most of the forests are found) are mostly particular with log harvesting, those in the northern part focus mostly on tree establishment for environmental protection, fuelwood and livestock production  . Even though these forest reserves have existed for many years, there is much doubt as to whether the reserves are achieving its original aim of conserving biodiversity. Understanding this trend across southern Nigeria (being where the forests are concentrated) will help to provide insights that could be used to manage the reserves more effectively. Specifically, this work aims to show how effective reserves could be as hosts of biodiversity, and furthermore, elucidate its potentials for sequestering carbon across the region.
2. Materials and Methods
2.1. Study Area
The study region is an extensive sedimentary basin that is found in the lower reaches of the Niger basin (Figure 1). It is a low-lying region characterized by annual flooding and resultant accumulation of mineral-rich sediments. Soils of the region are mainly delimited as hydromorphic soils and are either seasonally or permanently waterlogged  . The region is broadly made up of marine sedimentaries of lower and upper cretaceous age  and filled by a succession of thinly bedded silts and clay. Its rainy months are quite long and last mainly between March and October, while its dry season is quite short (mainly between November and February). Keay  classified the vegetation of the region as freshwater swamp forest. Its canopies are rather open and in gaps. Land use of the zone is determined by whether it is found in the marshy or drier regions. While the marshy zones or swamps are used for fishing and seasonal farming
Figure 1. Map of the study area showing the reserve and the Nigerian map inset.
activities, the dry lands are used predominantly for farming activities and for settlement purposes.
2.2. Vegetation Inventory
Vegetation surveys were conducted in the forest reserve (Figure 1) in order to understand its biodiversity attributes. Standard forest plots were set up randomly across the sites between December 2013 and April 2014. A total number of 4 plots, which were 1 ha (100 × 100 m) each, was used to survey the sites. All the trees that measured ≥ 10 cm (DBH) were identified to species levels across the sites. Tree species identification followed the taxonomy of Nigerian plants  .
2.3. Data Analysis
Importance values were used to characterize the sites and summarize the abundance of each site as follows:
Species importance values (SIV) = Relative density + Relative frequency + Relative dominance  . Where:
The diversity of the ecosystem was calculated  as follows:
where is the Shannon-Weiner index, s is the total number of species, pi is the proportion of individuals in the ith species, and ln is the natural logarithm.
Species richness was calculated as the number of species in occurrence.
3. Results and Discussion
3.1. Composition, Diversity and Abundance of the Sites
The sites varied in their species composition, frequency and abundance. A total number of eleven species were found in the reserve. Mean diversity for the reserve was 0.85. The most abundant species in the reserve were: Elaeis guineensis, Gmelina arborea and Tectona grandis, with SIV values of 182.03, 24.97 and 16.36, respectively (Table 1). Most of the species in the reserve were lost through clear felling of trees and subsequent replacement with exotic trees. This idea (of replacing indigenous species with exotic ones) have been an age long tradition across the reserves in the country mainly because, they grow faster and are able to yield much logs of wood over the years  . This underscores why species
Table 1. List of species in occurrence and their respective importance values.
like Gmelina arborea, Tectona grandis and Eucalyptus spp are common features of the reserve’s biodiversity (Table 1). Since most reserves in Nigeria adopt such pattern of forest management, the extent to which biodiversity could be conserved in such landscapes seems minimal. This is particularly a major concern for conservation because, such landscapes are rarely characterized by other species that are not exotic. Other forest landscapes (outside the reserves) cannot be relied on either to host much biodiversity, because they are mainly owned by communities and families that depend on it for livelihood and sustenance, and care very little about its conservation   .
Even though the reserves have the potential to produce wood (timber), they however stand the chance of being affected easily by diseases and pests. This is mainly because, since the landscapes are composed of only few species, their ability to withstand disease and pest infestations are much reduced, unlike other forest landscapes with higher species diversity. Since the forest reserve are equally characterised by the presence of other (few indigenous) tree species, efforts should be targeted at promoting the coexistence of both indigenous and (planted) exotic species; as such could help in promoting the resilience of such landscapes as well as their functional traits.
3.2. Stand Structure
The plots were generally characterized by a higher concentration or proportion of trees in the lower structural class (10 - 40 cm; Figure 2); thus, showing its extent of degradation. The highest number of tree stems were seen in the upper stratum of the forest structure (Figure 2), with lesser number of trees in the immediate next forest structural class. This showed the trees were not generally allowed to attain maturity before they are being logged and that little or nothing is left to reach a climax population. Much of the relative density of species found across the forest landscapes were concentrated on Elaeis guineensis and then on
Figure 2. Frequency of occurrence of tree stems according to their DBH categories.
Gmelina arborea; as both had the highest relative densities (74.64 and 11.96, respectively; Table 1).
Understanding the stand structure of forest ecosystems are vital measures or steps towards providing guidelines for the effective management of forest ecosystems. However, since this is not being considered in most occasions, there is usually a wide gap between the number of tree stems in the lower and higher stratum. Since much of the trees are normally logged before they reach their emergent phase, the ability of such landscapes to have sufficient seed bank and provide other vital ecosystem functions become much reduced. This affects both the biodiversity potentials of such landscapes and their conservation prospects as well. On the other hand, the abundance and dominance of Elaeis guineensis across the landscape reduces its capacity to be characterized by indigenous species and in turn, their resilience.
The use of forest reserves for other purposes apart from the original aim for establishing them have become common features across most reserves in Nigeria. In most occasions, it has suffered from degradation and loss due to encroachments from farming activities, illegal logging, firewood gathering, settlement expansion and road constructions     . Such attitudes not only reduce the capacity and ability of established reserves to provide biodiversity and its associated benefits, but furthermore, reduce the resilience of such landscapes and their ability to cope with environmental changes. Conversely, with other species such as Gmelina arborea equally dominating the landscape, the chances of utilizing the reserve to preserve or conserve the biodiversity of the (local) ecosystem appears low. Since such exotic species grow fast and become more easily established than indigenous species, they stand the chance of equally replacing or altering the colonization history of such landscapes.
3.3. Prospects for Biodiversity and Carbon Storage
The reserve were generally degraded (Figure 2) and lacked adequate management. Such poor management were responsible for the poor structure of the landscape and in effect, its low biomass. Since the biomass of the landscape was much reduced, its ability to store carbon would be reduced as well. Even though forest reserves were originally established to protect timber and forest resources  , their prospects for carbon storage should equally be considered and harnessed as well. This may require reappraising the policies guiding forest reservation and conservation, and exploring the possibilities of adjusting the guidelines to accommodate carbon sequestration as well. Such steps will help to ensure that adequate attention is not only given to such issues, but proactive steps towards achieving them also enhanced.
Though forest reserves were originally gazetted across Nigeria to facilitate biodiversity conservation, it is far from being achieved as most reserves (as in this study) are degraded and characterized by low species richness. Relying on other forest landscapes (outside the reserve) to achieve biodiversity conservation may not equally be a better option since their owners easily permit logging and degradation of the forests for economic reasons  . Hence, though the reserve was much degraded, it still possesses the potential to facilitate a guaranteed habitat for biodiversity if managed well. This is mostly because, it is characterized by a large expanse of land; being gazetted in the 1920’s when community lands were much available and the pressures associated with population growth and density were still low in the region. Such vast land is owned and controlled by the government and its continual existence (and availability for targeted biodiversity conservation) is more assured than the landscapes under private and community ownership. As the economic value or rent that accrues from (forest) lands in the region and across most tropical forest landscapes continues to rise, facilitating biodiversity conservation and carbon storage is likely to become less feasible in non-government (owned) controlled forest landscapes. Since many forest reserves are characterized by vast extents of land, the government should ensure that they are fully utilized for its sole purpose of conserving biodiversity and in effect, contribute maximally to adequate carbon sequestration across the region.
Even though forest reserves have the potential to host a wide range of biodiversity across tropical forest landscapes, this is not mostly achieved. This study showed that though the reserve had such potentials, it was characterized by low diversity and a low relative density that concentrated only on two species. Degradation and its consequent poor stand structure were seen to reduce the capacity to which the landscape could reach stable/climax population and suitably provide its functions and services. Utilizing the reserve’s large expanse of land effectively will help to facilitate biodiversity conservation and also provide a suitable landscape that could enhance more carbon storage capacities for the region.
 Laurance, W.F., Useche, D.C., Rendeiro, J., Kalka, M., Bradshaw, C.J.A., Sloan, S.P., Laurance, S.G., Campbell, M., et al. (2012) Averting Biodiversity Collapse in Tropical Forest Protected Areas. Nature, 489, 290-294.
 Ezebilo, E.E. (2013) Nature Conservation in Cross River National Park, South-East Nigeria: Promoting Collaboration between Local People and Conservation Authorities. International Journal of Biodiversity Science, Ecosystem Services and Management, 9, 215-224.
 Gardner, T.A., Barlow, J., Chazdon, R., Ewers, R.M., Harvey, C.A., Peres, C.A. and Sodhi, N.S. (2009) Prospects for Tropical Forest Biodiversity in a Human-Modified World. Ecology Letters, 12, 1-21.
 Igu, N.I. and Marchant, R. (2017) Potential and Determinants of Carbon Storage of Freshwater Swamp Forests in the Niger Delta. Open Journal of Ecology, 7, 199-210.
 USAID (2008) Nigeria Biodiversity and Tropical Forestry Assessment. Maximizing Agricultural Revenue in Key Enterprises for Targeted Sites (Markets). United States Agency for International Development Publication. Chemonics International Inc.
 Meduna, A.J., Ogunjinmi, A.A. and Onadeko, S.A. (2009) Biodiversity Conservation Problems and Their Implications on Ecotourism in Kainji Lake National Park, Nigeria. Journal of Sustainable Development in Africa, 10, 59-73.