Project Abstract

Abstract
Flooding is a natural disaster that has significant environmental impacts on agricultural activities and its surrounding areas. This research project aims to investigate and understand the environmental consequences of flooding on agricultural land and the ecosystems in its vicinity. The study will focus on exploring the various ways in which flooding affects soil quality, crop production, water resources, and biodiversity in agricultural areas. One of the primary impacts of flooding on agricultural activities is the degradation of soil quality. Floodwaters can carry sediments, chemicals, and pollutants that contaminate the soil, rendering it less fertile and suitable for cultivation. Excessive waterlogging caused by floods can also lead to soil erosion, compaction, and loss of essential nutrients, further reducing the productivity of farmland. In addition to soil degradation, flooding can have detrimental effects on crop production. Sudden inundation of fields can destroy crops, leading to significant economic losses for farmers. Waterlogged conditions can also promote the growth of pathogens and pests, increasing the risk of crop diseases and reducing yields. Furthermore, changes in precipitation patterns and temperature extremes associated with flooding events can disrupt planting and harvesting schedules, affecting overall agricultural productivity. The environmental impacts of flooding extend beyond agricultural land to the surrounding ecosystems. Floodwaters can carry pollutants and agricultural chemicals into nearby water bodies, contaminating freshwater sources and endangering aquatic life. The altered flow of water during floods can also disrupt aquatic habitats and lead to the loss of biodiversity in rivers, wetlands, and other ecosystems. Understanding the environmental impacts of flooding on agricultural activities is crucial for developing effective mitigation and adaptation strategies. By identifying the vulnerabilities of agricultural systems to flooding and implementing measures to enhance resilience, policymakers, farmers, and other stakeholders can minimize the negative consequences of floods on food security, rural livelihoods, and ecosystem health. In conclusion, this research project will contribute to the growing body of knowledge on the environmental impacts of flooding on agricultural activities and its environs. By examining the interconnected relationships between flooding, agriculture, and the environment, the study aims to provide valuable insights for sustainable land management practices and disaster risk reduction efforts in flood-prone regions.

Project Overview

INTRODUCTION

1.1     Background of the Study

This study focuses on the environmental impacts of flooding on agricultural activities in Kwale and its environs. Flooding has been a long-term issue which affects the inhabitants of Kwale. In many natural systems, floods play an important role in maintaining key ecosystem functions and biodiversity. They link the river with the land surrounding it, recharge groundwater systems, fill wetlands, increase the connectivity between aquatic habitats, and move both sediment and nutrients around the landscape, and into the marine environment (Apan, et al., 2010). For many species, floods trigger breeding events, migration, and dispersal. These natural systems are resilient to the effects of all but the largest floods. The environmental benefits of flooding can also help the economy through things such as increased fish production, recharge of groundwater resources, and maintenance of recreational environments (Bunn and Arthington, 2002).

The environmental resources in Kwale most especially the land and soil resources are greatly threaten by flooding. The Kwale and its environ is covered by beautiful vegetation naturally checking the menace. This flooding menace has destroyed arable land for agricultural purposes which are the major socio-economic activities of the Kwale people. The government in his attempt to curb the situation has constructed a drainage system some meters away from the major road to redirect and channel all the water flowing to the erosion sites into the drainage system which is emptied into the river. Despite all this effort, the situation still remains the same.

Areas that have been highly modified by human activity tend to suffer more deleterious effects from flooding. Floods tend to further degrade already degraded systems. Removal of vegetation in and around rivers, increased channel size, dams, levee bank and catchment clearing all work to degrade the hill-slopes, rivers and floodplains, and increase the erosion and transfer of both sediment and nutrients (Douglas, et al., 2005). While cycling of sediments and nutrients is essential to a healthy system, too much sediment and nutrient entering a waterway has negative impacts on downstream water quality. Other negative effects include loss of habitat, dispersal of weed species, the release of pollutants, lower fish production, loss of wetlands function, and loss of recreational areas (Kingsford, 2000).

          Flooding is one of the environmental problems that have confronted man since immemorial. Flooding is a widespread and age long phenomenon. In Kwale, flooding has created and causes untold hardship such as destruction of building and properties, interruption of socio-economic development of the area. Jon (2011), defined flooding as a condition, which exist when any overland flow over an urban or rural area, that is sufficient to cause property damage, health hazard, nuisance and the obstruction of the socio-economic activities in the area. He went further the types of flooding to include rivers flood, flash flood, splash flood and flood bondages.

Agriculture has changed significantly in terms of the production patterns and structure and a significant trend has been the development towards fewer and larger holdings with more intensified and specialized production. This development has included an increased mechanization and use of fertilizers and pesticides. Biodiversity has been affected negatively both by the physical changes in the landscape and by the changes in the production methods. As the agricultural production has intensified, all levels of biological diversity (genetic, species, and

habitats) have declined in farming environments. The more intensive land use corresponds for example to the decrease in the populations of farmland birds.

Many of our coastal resources, including fish and other forms of marine production, are dependent on the nutrients supplied from the land during floods. The negative effects of floodwaters on coastal marine environments are mainly due to the introduction of excess sediment and nutrients, and pollutants such as chemicals, heavy metals and debris. These can degrade aquatic habitats, lower water quality, reduce coastal production, and contaminate coastal food resources (Poff, et al., 2003). It is against this background that this study is carried out to examine the environmental impacts of flooding on agricultural activities in Kwale and its environs.

1.2     Statement of Problem

Flooding in key agricultural production areas can lead to widespread damage to crops and fencing and loss of livestock. Crop losses through rain damage, waterlogged soils, and delays in harvesting are further intensified by transport problems due to flooded roads and damaged infrastructure. The flow-on effects of reduced agricultural production can often impact well outside the production area as food prices increase due to shortages in supply (Prosser, et al., 2001). On the other hand, flood events can result in long-term benefits to agricultural production by recharging water resource storages, especially in drier, inland areas, and by rejuvenating soil fertility by silt deposition (Apan, et al., 2010).

Damage to public infrastructure affects a far greater proportion of the population than those whose homes or businesses are directly inundated by the flood. In particular, flood damage to roads, rail networks and key transport hubs, such as shipping ports, can have significant impacts on regional and national economies. Short-term downturns in regional tourism are often experienced after a flooding event. While the impact on tourism infrastructure and the time needed to return to full operating capacity may be minimal, images of flood affected areas often lead to cancellations in bookings and a significant reduction in tourist numbers (Apan, et al., 2010).

Flooding of urban areas can result in significant damage to private property, including homes and businesses. Losses occur due to damage to both the structure and contents of buildings. Insurance of the structure and its contents against flooding can reduce the impacts of floods on individuals or companies. As most people are well aware, the immediate impacts of flooding include loss of human life, damage to property, destruction of crops, loss of livestock, and deterioration of health conditions owing to waterborne diseases. As communication links and infrastructure such as power plants, roads and bridges are damaged and disrupted, some economic activities may come to a standstill, people are forced to leave their homes and normal life is disrupted (Kingsford, 2000).

Similarly, disruption to industry can lead to loss of livelihoods. Damage to infrastructure also causes long-term impacts, such as disruptions to supplies of clean water, wastewater treatment, electricity, transport, communication, education and health care. Loss of livelihoods, reduction in purchasing power and loss of land value in the floodplains can leave communities economically vulnerable. Floods can also traumatise victims and their families for long periods of time. The loss of loved ones has deep impacts, especially on children (Bunn and Arthington, 2002). Displacement from one's home, loss of property and disruption to business and social affairs can cause continuing stress. For some people the psychological impacts can be long lasting. Floods impact on both individuals and communities, and have social, economic, and environmental consequences. The consequences of floods, both negative and positive, vary greatly depending on the location and extent of flooding, and the vulnerability and value of the natural and constructed environments they affect (Douglas, et al., 2005). This study “environmental impacts of flooding on agricultural activities in Kwale and its environs” is therefore carried out to address the aforementioned problems.

1.3     Aim of the Study

          The main of this study is to examine the environmental impacts of flooding on agricultural activities in Kwale and its environs. The specific objectives of this study includes:

1. To examine the environmental impacts of flooding on agricultural activities in the study area;
2. To identify the causes of flooding in the area;
3. To examine the consequent effect of flooding on agricultural activities in the study area;
4. To identify the various types of farm practices and agricultural productivity in the study area;
5. To identify the problems of flooding and areas seriously affected by flooding in the study area; and
6. To suggest mitigation measures to control the problems of flooding in Kwale and its environs.

1.4     Research Questions

The following question(s) raised by the researcher will be answered in this study;

1. What are the environmental impacts of flooding on agricultural activities in the study area?
2. What are the causes of flooding in the area?
3. What are the consequent effects of flooding on agricultural activities in the study area?
4. What are the various types of farm practices and agricultural productivity in the study area?
5. What are the problems of flooding and areas seriously affected by flooding in the study area?
6. What do you think are the mitigation measures to control the problems of flooding in Kwale and its environs?

1.5     Research Hypothesis

          The following hypothesis stated in the null and alternative form will be tested in this study;

1. There is no significant relationship between the environmental impacts of flooding and the various types of farm practices/agricultural productivity in Kwale and its environs.
2. Crop yield is not significantly dependent on flooding and heavy rainfall in Kwale.
3. Occurrence of flooding in Kwale is not significantly depended on heavy rainfall, lack of drainage system.

1.6     Significance of the Study

This study will cover the whole of Kwale and its environs and its to look at the environmental impacts of flooding on agricultural activities in Kwale and its environs. It would also offer suggestion (s) on the causes of flooding and its effect on agricultural activities in the study area.

          Therefore, the study will help to unfold the deteriorating effects of flooding on agricultural activities in Kwale and its environs and other related land use in Kwale, and also to look at the various cause (s) of flooding and the areas mostly affected by flooding in the study area and also to look at or proffer solution (s) to combat flooding problem (s) on agricultural activities and socio-economic life of the people in the study area.

1.7 Study area

          The study area (Kwale) is located in Ndokwa West Local Government Area of Delta State and it’s the administrative headquarters of Ndokwa West L.G.A of Delta State.

1.7.1 Location and Size

Kwale is located between latitude 60 09N and 60 29N of the equator and longitude 50301E and 60031E of the Green Witch meridian. Kwale is a town in Ndokwa West Local Government Area of Delta in southern Nigeria. As a matter of fact, it is the headquarter of Ndokwa West Local Government Area which occupies an area of 816km2. Like any other community, Kwale is divided into six (6) quarters as follows: Umusederi, Isumpe, Umusam, Umusadege, Umuseti and Ogbe-ani. Majority of the population of Kwale are affected by water pollution due to presence of oil companies in the area such as Agip Petroleum Company, Sterling Global Company etc. and the people are prompt to different kinds of diseases. The area also experience destruction of fishes, plants animal life.