Characteristics of the Flora and Woody Vegetation of Agroforestry Parks in the District of Kataba 1 (Bignona, Lower Casamance)

Like several Sahelian countries, Senegal is facing a strong degradation of woody and arable resources. This is due to the development of certain inap-propriate agricultural practices. To mitigate this situation, the populations tend to preserve and maintain certain woody species of interest in the fields, thus constituting agroforestry parks. Thus, the objective of this study was to contribute to a better understanding of the characteristics of woody vegetation in agroforestry parks in the department of Bignona. To this end, a plot of 2500 m 2 (50 m × 50 m) was installed in the fields of each farmer selected in a sample of 99 farm managers distributed in the three communes (Djinaky, Kataba1 and Kafountine) of the Kataba1 district, for a total of 99 plots installed. A total of seventy-three (73) species divided into fifty-five (55) genera and twenty-eight (27) botanical families were inventoried. In the agroforestry parks of the Kataba 1 district, the density of woody vegetation is 56.12 indi-viduals/ha, the cover rate is 27.9% and the basal area is 5.9 m 2 /ha. The vertical structure of the woody vegetation is characterized by a predominance of individuals between 2 and 4 m in height (48.07%). As for the horizontal structure, it is characterized by a predominance of individuals of diameter between 5 and 20 cm (39.19%). These results obtained will serve as a source of information for better management of these agroforestry parks by the populations.

contribute to the maintenance of soil fertility, water conservation and environmental protection. Through species selection, farmers have deliberately adapted tree production to their specific needs on their land [1].
The natural region of Casamance, in Senegal, has the greatest diversity of wood resources in the country [4]. These ecosystems generate very important foreign exchange and environmental services, thus contributing to cultural and socio-economic development worldwide. Indeed, according to [5], forestry remains a factor of economic development and contributes to 2.7% of the GDP in ten major tropical producing countries. However, these important ecosystems are now threatened by climatic hazards and strong anthropic pressure. The latter results in the uncontrolled exploitation of certain species of interest such as those producing quality timber. These species are often exploited fraudulently without any respect for management principles [6]. Indeed, species such as Pterocarpus erinaceus are currently threatened in all forest areas and agroforestry parks in the Sahelo-Sudanian and Sudanian zone [7]. Therefore, an assessment of the current status of these ecosystems appears to be imperative. It is in this perspective that this study proposes to establish the floristic and structural characteristics of the woody vegetation of these agrarian systems. The aim of this study is to establish the floristic and structural characteristics of the woody vegetation of these agrarian systems in order to have a database for more rational management of these ecosystems.

Presentation of the Study Area
The district of Kataba1 belongs to the department of Bignona and the region of Ziguinchor. It consists of four communes, three of which are rural (Kafountine, Djinaky and Kataba 1) and one urban (Diouloulou). It is bordered to the east by the Sindian district, to the south by the Oussouye department and the Tendouck district, to the west by the Atlantic Ocean and to the north by the Gambia (Figure 1).
From a climatic standpoint, the Kataba1 district belongs to the Lower Casamance climatic zone, which has a coastal South Sudanese type of climate marked by the existence of two seasons: a dry season and a rainy season. The lower Casamance is characterized by rainfall that is higher than 1000 mm everywhere [8]. The average annual rainfall over the 1980-2018 series is 1302.04 mm ( Figure 2) [9].
The nature of the soils in Lower Casamance is a function of the toposequence [10]. Three types of soil are encountered: hydro morphic soils exploited for rice

Vegetation Surveys
Stratified sampling was carried out in the agroforestry parks of Kataba1 district, taking the three municipalities of the district as strata ( Table 1). The criterion for choosing villages was based on geographic distribution in order to ensure a good network in each municipality. The selection criterion for farmers is whether they have a cultivated field.
Thus, 99 plots are distributed among the municipalities in proportion to their number of farms, with one plot per farm manager. The survey area is 2500 m 2 as recommended by [12] for the study of woody vegetation in agroforestry systems.
In each plot, all species were inventoried and dendrometric measurements were made for each individual that reached the pre-count diameter (5 cm).
The dendrometric parameters measured are: Trunk diameter at breast height (DBH) using a forestry compass; The circumference of the trunk using a metric tape for individuals with a large trunk; Tree height using a suntoo dendrometer; The cross-sectional diameter of the crown (East-West and North-South) using a metric tape.
Also, an exhaustive count of all young individuals, with a diameter less than 5 cm was carried out to evaluate the regeneration.

Data Processing
The data from the vegetation surveys were entered into an EXCEL spreadsheet. The latter was used to perform the calculations and to develop graphs and tables. XLSTAT Version 2014 was used for the multivariate treatments, in particular the Principal Component Analysis (PCA). A number of formulas were used to assess diversity and to calculate vegetation structure parameters.
Species richness is the total number of species in a given stand in a given ecosystem [13].
Frequency analysis is a method of assessing the distribution of species across surveys. The frequency (F) provides information on the distribution of a species F = frequency of occurrence, N ri = number of surveys where species i is found, N r = total number of surveys.
The density is the number of individuals per unit area. It is expressed in number of individuals per hectare. The observed density (D ob ) is obtained by dividing the total number of individuals in the sample (N) by the sampled area (S).
The woody cover (C), is the surface covered by the projection of the tree crown in relation to the ground. It is expressed in square meters per hectare (m 2 /ha) and is calculated as follows: Basal area (BA) is the area of the tree evaluated at the base of the tree trunk. It is expressed in square meters per hectare (m 2 /ha) and is obtained by the following formula: The Shannon-Weaver diversity index [14] provides information on the magnitude of the number of abundant species in a given environment. It is expressed in bits.
It is given by the following formula: The evenness index (E) provides information on the distribution of species abundances in the stand. According to [15], the regularity index appears to be a more rigorous comparison term. It is between 0 and 1. It tends towards 0 when all the individuals correspond to a single species. It is calculated as follows: H max = log 2 s avec s = effectif total des espèces.

Floristic Composition
The woody flora of the agroforestry parks of Kataba1 district is rich in seven-Open Journal of Ecology ty-three (73) species distributed in fifty-five (55) genera and twenty-eight (28) botanical families. The most represented families are: Fabaceae (18.66%), Moraceae (8%) and Anacardiaceae, Caesalpiniaceae and Rutaceae with each a proportion of 6.66%. These five (5) families alone represent 33.32% of the species inventoried ( Table 2). Of these 73 species, the municipality of Kataba1 recorded 23 species divided into 23 genera elonging to 12 families. In the commune of Djinaky, 52 species were recorded. These are divided into 41 genera belonging to 19 families. As for the commune of Kafountine, it recorded 63 species divided into 48 genera and 25 families (Table 2).

Frequency Analysis
The analysis of the table below shows that in the Kataba district1 the most frequent woody species in agroforestry parks are: Borassus akeassii (42.42%), Mangifera indica (40.40%), and Citrus sinensis (39.39%). The lowest frequency is observed in Afzelia africana, Albizzia zigya, Allophullus africanus with a frequency of presence of 1.01% each.
At the municipality level, it appears that Mangifera indica, Combretum micranthum, and Parkia biglobosa are the most frequent species in the municipality of Djinaky with frequencies of presence of 80%, 80%, and 60% respectively.

Structural Characteristics of Woody Vegetation in Agroforestry Parks
The average cover rate of agroforestry parks in the Kataba1 district is 27.9%. It is higher in the municipality of Djinaky (28.49%) and lower in that of Kafountine (13.10%) ( Table 4). The basal area is 5.6 m 2 /ha in the parks of the district. It is higher in the parks of the municipality of Djinaky (5.48 m 2 /ha) and lower in those of the municipality of Kafountine (2.82%) ( Table 4).
As for density, it is 56.12 individuals/ha at the scale of the parks of the district and is higher in the parks of the municipality of Kataba1 with 64 individuals/ha and lower in those of the municipality of Djinaky (19.2 plants/ha).
Specific diversity is highest in the parks of the municipality of Djinaky with a Shannon index of 3.38 bits and a Pielou index of 0.77. The lowest diversity is noted in the parks of the commune of Kafountine with a Shannon index of 2.74 bits and a Pielou index of 0.53 (Table 4).

Regeneration Rate of Agroforestry Parks
The regeneration rate of woody vegetation in the agroforestry parks of the

Typology of the Parks According to the Municipalities
It appears from the analysis of the figure below that the F1 and F2 axes explain 100% of the variation in the parameters studied. The Principal Component Analysis (PCA) allowed us to distinguish two major groups of parks based on the floristic and structural characteristics of the woody vegetation: Group A agroforestry parks, found in the municipality of Djinaky, characterized by high cover, basal area and diversity; Group B agroforestry parks, located on the negative abscissa side, are made up of two subgroups. Subgroup B1 represents the parks of the Kataba1 municipality, characterized by a high density, specific richness and regeneration rate but with a low basal area. The B2 subgroup represents the parks of the municipality of Kafountine, which are characterized by a low cover rate and low specific diversity ( Figure 5).

Discussion
The objective of this study was to characterize the woody vegetation of the agroforestry parks in the Kataba1 district. The study showed that the flora of the parks in the Kataba1 district is rich in seventy-five (73) species divided into fifty-five (55) genera and twenty-eight (27) botanical families. The most represented family is the Fabaceae. These results are close to those of [16] who found 54 species, 43 genera and 24 families at the level of agroforestry parks in the island terroir of Mar Fafaco, Senegal. They are different from [17] who inventoried seven The regeneration rate of woody vegetation in the agroforestry parks of Kata-ba1 district is relatively high at 84.17%. These results are close to those of [21], who found a rate of 88.19% in the woody stands of the agroforestry parks in Tendouck district. This can be explained according to [22] by the protection and maintenance of certain woody species in the fields and particularly those with socio-economic interest. These results are different from those recorded by [

Conclusions
The objective of the study was to characterize the woody vegetation of the agro- It seems appropriate to continue this study in the other departments of the Lower Casamance in order to have a database for more rational and sustainable management of the parks.