Bioavailability of Agricultural Pesticides on the Land Snails in the Commune of Kérou in the North of Benin

The present study was conducted in the commune of Kerou in North Benin to measure the bioavailability of agricultural pesticides heavily used in the production of cotton on snails. The test was conducted in peasant environment in two villages of the commune. In each site, there are three cages containing 6 snails each. The snails are exposed to soil and plants without special protection and are therefore exposed to environmental conditions. Firstly it’s to evaluate the presence or absence of agricultural pesticides in the viscera of snails after exposure. Secondly it consists to compare the different doses found in the viscera of snails in the different sites. And finally it’s to evaluate the effect of the toxicity of the pesticides on the reproduction of snails. The tests consisted of placing steel cages in the two experimental sites. In each site, there are three cages containing 6 snails each. Snails are exposed to soil and plants without special protection and are therefore exposed to environmental conditions. The observations were made in order to establish a study of transfer kinetics. After the analysis of the data, it appears generally that the accumulation of mineral elements highlighted is not proportional to the mineralogical composition of the soil in which the snail is exposed. Total nitrogen and nitrate were significantly accumulated in the flesh of site 2 snails compared to site 1 snails. These different measures show the bioavailability of soil minerals for living organisms. Accumulations are not necessarily accompanied by toxic effects in terms of survival for snails after 28 days of exposure. However, the absence of immediate toxic effect on snails does not imply a lack of effect in food chains due to the trophic availability of contaminants. The use of snails as bio-indicator of soil quality has therefore proved relevant in the context of soils polluted by minerals.


Introduction
Soil is an essential resource for human societies and ecosystems. Not being a renewable resource on our human time scale and being subjected to increasing pressures (e.g. agricultural and forestry production, urban and industrial development, transportation networks...) and degradation (e.g.: erosion, atmospheric punctual and diffuse contaminations, compaction), it is now necessary to protect it in order to allow the sustainable development of societies [1]. In recent decades, economic and demographic pressures have led to rapid and massive degradation of exploited soils throughout the world.
For several years, the environmental risk of contaminated soils has been mainly addressed by physico-chemical methods. Although these analyses are necessary for the characterization of hazards, these tools do not make it possible to identify all of the molecules and/or toxic elements in multi-polluted contexts [2].
Indeed, the chemical analyses do not give sufficient information on the bioavailable fraction of the contaminants. Conversely, incorporating the effects from all contaminants, biological indicators are excellent ways to learn about the ecological state of polluted soil. In addition, knowledge of the bioavailability of minerals contaminants and the form in which they occur in the soil is a step necessary to determine ecotoxicological risks for living organisms in contaminated soil [3]. This bioavailability can be estimated via chemical measurements for estimating the mobile and provided fraction and biological measurements evaluating the absorption, the bio-accumulation and toxicity [4].
The present study aims to analyse the impact of the misuse of urea, an input that is heavily used in the production of cotton on snails (bioindicators of accumulation) living in these soils and indirectly to learn about the ecological status of the soils of the cotton basin of Benin. The snail is widely present in terrestrial ecosystems, so it is a mollusc that can tell us about the quality of the ecosystem in which it lives. It is exposed to pollution by several routes that involve the ingestion of contaminated food, contact and absorption by the foot epithelium from contaminated surfaces [5].
Snails are macro-invertebrates living at the soil-plant-air interface. They can have high densities [6]. These gastropod molluscs are phytophagous, scavengers and move on soil, lay in soil and ingest soil. They thus ingest multiple sources and routes of contamination [7]. Snails participate in the exchanges with the ground and are prey for many consumers (invertebrates: shining worms, larvae of carabes, or vertebrates: birds, small mammals such as shrews, hedgehogs and humans). In addition, the snail is an excellent bioindicator of terrestrial pollution. Because of its sedentary soil and herbivorous diet, it is easily contaminated by pollutants in the air, soil; hence the interest of its use as a test organism to assess the state of soil pollution in the commune of Kérou.

Study Area
The test was conducted in the commune of Kérou in the north-east of the Atacora department (Rep. of Benin). Of sudano-guinean type, the climate of the commune of Kérou is characterised by a rainy season, from mid-April to mid-October, and a dry season from mid-October to mid-April. It belongs to an agroecological zone characterised by an average rainfall of 1000 mm of water per year. The average temperature varies between 25˚C in August and 31˚C in April.
The harmattan, a cold and dry wind, blows between December and mid-March sometimes resulting in a thermal amplitude of more than 10˚C.
The study area as a whole is located in a peneplain that stretches in the wa-

Equipment
The material is first made up of snail (animal material). Caged snails are 50 g sub-adults raised for 3 months in potentially healthy environments. Microcosms are also used to encircle snails in exhibition environments.

Methodology
The general objective of this study is to evaluate the bioavailability of minerals on snails and analyse their impact on the dynamics of populations of snails in the commune of Kérou.
Firstly it's to evaluate the presence or absence of nitrate, ammonium, total nitrogen, total phosphorus and total potassium in the viscera of snails after exposure. Secondly it consists to compare the different doses found in the viscera of snails in the different sites. And finally it's to evaluate the effect of the toxicity of the pesticides on the reproduction of snails.
The tests consisted of placing steel cages in the two experimental sites. In each site, there are three cages containing 6 snails each. Snails are exposed to soil and plants without special protection and are therefore exposed to environmental conditions [8] [9] [10] [11].
The observations were made in order to establish a study of transfer kinetics.
For this purpose, three snails are collected per site (i.e. one per cage) at each sampling date, i.e. the 14 th , 21 st and 28 th days after exposure. Observations on the behaviour of laying snails during exposure were also collected.

Characteristics of the Different Exhibition Sites
The test was conducted in peasant environment in two villages of the commune of Kérou. The first site is a field that is part of the intensification of agricultural production program. It receives a standard recommendation, but with a significant complement of compost. The cultural antecedent is known either two years of cotton production but always with a complement of beef manure.
The second site houses a ¼ hectare school farm and receives a dose of 50 kg/ha of grass with a cultural antecedent, 3 successive years of intense cotton production (with the addition of mineral fertilizers only).

Method of Analysis of Soil Samples and Snails
Mineralization and solubilization of soil and snail samples The solubilization method that is used is the mineralization by acid attack The samples, after acid etching and heating, are filtered using a filter paper.
The filtrate obtained contains chemical elements to be assayed.

Characterization of soils used for exhibitions
The chemical composition of the soils of the two sites that hosted the test are recorded in Figure 2.
From the analysis of the soil samples from the two experimental sites, it is noted that the mineral element composition in the soil 2 shows a very high concentration of total nitrogen and nitrate compared to the control soil S1. Soil S2 shows a relatively low mineral component composition.
Evaluation of the contents of N, P, K, The accumulation of phosphorus and potassium elements in the snails of sites 1 and 2 are significantly different as proved by the two p-value < 0.05%. On the phosphorus element, the data distribution is not normal. We therefore made a test of Wilcoxon to verify the significance of the difference in accumulation of elements ( Figures 5-7). Open Journal of Soil Science       In general, the accumulation of elements is not proportional to the mineralogical composition of the soil in which the snail is exposed. The minerals were accumulated differently and significantly in the snails of both soil types.
The total phosphorus, potassium and ammonium ion accumulated in both cases are higher than those found in the soils where they were exposed. The possible and valid explanation in these cases is that snails, even in a healthy state, contain within them phosphorus and potassium.
Total nitrogen and nitrate were significantly accumulated in snail flesh at site 2 compared to site 1 snails. These different measures show the bioavailability of soil minerals for the organisms that live there. Accumulations were not necessarily accompanied by toxic effects in terms of survival for snails after 28 days of exposure. However, the absence of immediate toxic effect on snails does not imply the absence of effect in food chains due to the trophic availability of contaminants because the snails exposed to the soil of site 2 have from the twenty-first day after exposure started by losing eggs significantly to other soil snails from site 1.
The difference in nitrate and total nitrogen accumulation observed at both sites is explained by the treatments received by each soil. Indeed, the soil 1 having been regularly treated with compost, the minerals available at this level are easily assimilated for the plant and the nitrification of the nitrogen is effective.
This lowers the internal concentrations in snails after exposure. Conversely, at soil level 2, the recurrence of mineral fertilizers decreased the microbial activity of the soil as well as the absorbency of the plant. This makes difficult the assimilation of the minerals and is therefore free in the soil for the snails that live there.
Linking bioaccumulation with soil parameters and environmental availability is complex to analyse because snails are exposed not only to soil minerals but also to plant debris from cotton.

Discussion
The different results of accumulations as presented show a bioavailability of agricultural contaminants on snails and indirectly on other soil organisms. The important to take into account their bioavailability, particularly by influencing the pH and soil organic matter in the snail [13]. This study therefore shows the inability of the total concentration of minerals to predict their bioavailability. The use of snails as a bioindicator of soil quality has proved relevant in the context of soils polluted by agricultural pesticides. The methodology used in this study provides information on the current bioavailability of snail contaminants and can also be used for ecosystem risk assessment and assessment of remediation methods.
Finally, under the current conditions of cotton production in Benin in general and in the commune of Kérou in particular, the intensive use of pesticides and other chemical fertilizers constitutes an important ecotoxicological risk for soil organisms and even for human health.