EFFECTS OF SOIL DEGRADATION ON CROP PRODUCTION: AN ASSESSMENT OF TOTAL NITROGEN AND AVAILABLE PHOSPHORUS IN THE RAINFOREST OF OBIARUKU, DELTA STATE.


EFFECTS OF SOIL DEGRADATION ON CROP PRODUCTION: AN ASSESSMENT OF TOTAL NITROGEN AND AVAILABLE PHOSPHORUS IN THE RAINFOREST OF OBIARUKU, DELTA STATE.  

TABLE OF CONTENTS

Title Page    -    -    -    -    -    -    -    -    -   

Approval Page    -    -    -    -    -    -    -    -   

Declaration    -    -    -    -    -    -    -    -   

Dedication    -    -    -    -    -    -    -    -    -   

Acknowledgement    -    -    -    -    -    -    -   

Abstract    -    -    -    -    -    -    -    -    -   

Table of Contents    -    -    -    -    -    -    -   

CHAPTER ONE – INTRODUCTION

1.1    Background of the Study    -    -    -    -    -   

1.2    Statement of the Problem    -    -    -    -   

1.3    Objectives of the Study    -    -    -    -    -    -   

1.4    Research Questions    -    -    -    -    -    -   

1.5    Research Hypothesis    -    -    -    -    -    -   

1.6    Significance of the Study    -    -    -    -    -   

1.7    Scope of the Study    -    -    -    -    -    -   

1.8    Limitations of the Study    -    -    -    -    -

1.9    Definition of Terms    -    -    -    -    -    -   

CHAPTER TWO – REVIEW OF RELATED LITERATURE

2.1    Introduction    -    -    -    -    -    -    -   

2.2    Theoretical Framework    -    -    -    -    -   

2.3    Conceptual Framework    -    -    -    -    -   

2.4    Empirical Review    -    -    -    -    -    -

CHAPTER THREE – RESEARCH METHODOLOGY

3.1    Introduction    -    -    -    -    -    -    -   

3.2    Research Design    -    -    -    -    -    -   

3.3    Population of Study    -    -    -    -    -    -   

3.4    Sample size and Sampling Techniques    -    -    -   

3.5    Method of Data Collection    -    -    -    -    -   

3.6    Research Instrument

3.7    Validity of the Instrument    -    -    -    -    -   

3.8    Reliability of the Instrument    -    -    -    -   

3.9    Sampling Method    -    -    -    -    -    -   

CHAPTER FOUR – DATA PRESENTATION AND ANALYSIS

4.1    Introduction    -    -    -    -    -    -    -   

4.2    Data Presentation and Analysis    -    -    -    -   

4.3    Testing Hypothesis    -    -    -    -    -    -   

CHAPTER FIVE – SUMMARY, CONCLUSION AND RECOMMENDATION

5.1    Summary    -    -    -    -    -    -    -    -   

5.2    Conclusion    -    -    -    -    -    -    -    -   

5.3    Recommendations    -    -    -    -    -    -   

    References -    -    -    -    -    -    -    -   

Appendix    -    -    -    -    -    -    -    -

CHAPTER ONE

BACKGROUND TO THE STUDY

1.1    INTRODUCTION:  

Soil is defined as the upper most layer of the earth crust which supports plant growth. Soil is a living entity on which all terrestrial habitats dwell on. Soil over the years has been degraded by environmental degradation. Environmental degradation is a worldwide environmental issue which affects not only the soil but also the natural environment (Diaz and Telleria, 2014). Soil degradation according to Davies, et al., (2010) is the decline in soil quality that can be a result of many factors, especially continuous crop production. Diaz and Telleria (2014), added that soils hold the majority of the world’s biodiversity, and healthy soils are essential for food production and an adequate water supply. Soil degradation also has huge impact on biological degradation, which affects the microbial community of the soil and can alter nutrient cycling pest and disease control, and chemical transformation properties of the soil (Davies, 2009).

The environmental impact of soil degradation on agriculture especially on arable crop production as pointed out by Evans (2016) varies based on the wide variety of agricultural practices employed around the world. Ultimately, the environmental impact depends on the types of crop production and the various types of farm/agricultural practices (such as shifting cultivation, mixed cropping, plantation, bush fallowing etc). It also depends on the system used by farmers. The connection between emissions into the environment and the farming system is indirect, as it also depends on other climate variables such as rainfall and temperature (Evans, 2016). According to him, there are two types of indicators of environmental impact of soil degradation on arable crop production “means based”, which is based on the farm’s production methods, and “effect based” which is the impact that farming methods have on the farming system or on missions to the environmental.

Environmental degradation and loss of ecosystem services will directly affect pests (weeds, insects and pathogens), soil degradation and nutrient depletion, growing conditions through climate and weather, as well as available water for irrigation through impacts on rainfall and ground and surface water (Evans, 2016). These are factors that individually could account for over 50% in loss of crop yield in a given year. The interactions among these variables (soil, land, water, vegetation, forest, etc), compounded by management systems and society, are highly complex. A changing climate will affect evapo-transpiration, rainfall, river flow, resilience to grazing, insects, pathogens and risk of invasions, to mention a few (Diaz and Telleria, 2014). The impact of soil degradation is intensified on all sloping land, where with each degree of slope more of the surface soil is carried away as the water moves downhill into valleys and streams.

The degradation of the natural soil through various human activities such as farm practices causes severe ecological problems and leads to damages of buildings, infrastructures, land degradation and production of sediment (Ndakara and Abotutu, 2010). Indeed soil erosion cause severe ecological degradation and leads to damage of buildings, infrastructures, land degradation and production of sediments (Ndakara and Efe, 2010). This process of soil erosion could be slow and continues unnoticed, or it may occur at an alarming rate causing serious loss of top soil.

          Recent studies (such as Myers, 2013; Diaz and Telleria, 2014; Stockings, 2016; Evans, 2016) have shown that the natural ecosystems suffer degradation losses. This is especially evident along stream banks, where degradation occurs naturally due to the powerful action of the adjacent moving water. Increased soil losses occur on steep surfaces when a stream cuts through adjacent land. Even on relatively flat land, stream banks are eroded during heavy rains and flooding (Stocking, 2016). Although soil degradation has been taking place very slowly in natural ecosystems throughout geologic time, its cumulative impacts on soil quality over billions of years have been significant.

          Approximately 50% of the earth’s land area is devoted to agriculture: About one-third is planted to crops and two-thirds is grazing land (Myers, 2013). Forests occupy about 20% of the world’s land area. Of these three areas, cropland is most susceptible to degradation because of the frequent cultivation of soils and that vegetation is often removed before the crops are planted which exposes the soil to wind and rainfall energy. In addition, cropland is often left without vegetative cover between planting which intensifies degradation on agricultural lands, degradation rates that are estimated to be 75 times greater than degradation in natural forest areas (Myers, 2013).

          Nutrient depletion as a form of soil degradation has a severe economic impact at the global scale, especially in Africa. Stoorvogel, et al. (1993) estimated nutrient balances for 38 countries in Africa. Annual depletion rates of soil fertility were estimated at 22 kg nitrogen (N), 3 kg phosphorus (P), and 15 kg potassium (K) per ha. In Nigeria, soil degradation alone results in an annual loss of Nitrogen and Phosphorus totalling US$1.5 billion. In South Asia, the annual economic loss is estimated at US$600 million for nutrient loss by erosion, and US$1,200 million from soil fertility depletion (Stocking, 2016; UNEP, 2014).

          In developing countries, soil degradation is particularly severe on small farms that are often located on marginal lands where the soil quality is poor and the topography is frequently steep. In addition, poor farmers tend to raise raw crops such as corn and beans; raw crops are highly susceptible to degradation because the crop vegetation does not cover the entire tilled soil surface (Stockings, 2016). The prime causes for exposed soil are overgrazing and the removal of crop residues for cooking fuel but even by the 1990s researchers realized that these causes are so intertwined with the effects of rainfall variability and the occurrence of drought on the vegetation that it can be difficult to determine how much erosion is due to human activity (Boardman, 2010). During the degradation process organic matter and essential plant nutrients are removed from the soil and soil depth is reduced. These changes not only inhibit vegetative growth but reduce the presence of valuable biota and the overall biodiversity of the soil (Evans, 2016). These factors interact, making it almost impossible to separate the specific impacts of one factor from another (Boardman, 2010). During soil degradation by rainfall, water runoff significantly increases with less water entering the soil and less water available to support the growing vegetation. Degraded soil carries away vital plant nutrients such as nitrogen, phosphorus, potassium, and calcium. Typically, the degraded soil contains about three times more nutrients per unit weight than are left in the remaining soil.

          Once the organic matter layer is depleted, the productivity of the ecosystem, as measured by plant biomass, declines both because of the degraded soil structure and the depletion of nutrients that were contained in the organic matter. In addition to low yields, the total biomass of the biota and overall biodiversity of these ecosystems is substantially reduced (Boardman, 2010). He observed that soil degradation has indirect effects on ecosystems that may be nearly as damaging as the direct effects in reducing plant biomass productivity. Beyond the damage to rain fed agricultural and forestry ecosystems, the effects of soil degradation reach far into surrounding environments (Chambers, et al., 2012).

The environmental impact of soil degradation on agriculture, especially on arable crop production involves a variety of factors from the soil, to water, the air, animal and soil diversity, people, plants and the food itself. Some of the environmental issues that are related to agriculture are climate change, deforestation, genetic engineering, irrigation problems, pollutions, soil degradation, and waste (UN, 2007). Generally, soil degradation and erosion removes soil at approximately the same rate that soil is formed (Boardman, 2010). This result to the low crop yield of agricultural production. However, increased soil degradation at a much faster rate than it is formed is a recent problem and due to mankind’s action which leave the land unprotected and vulnerable coupled with naturally occurring erosive rainfall or wind storms makes soil degradation huge environmental issues. This occurs in both agricultural/farming areas as well as the natural environment (Diaz and Telleria, 2014). It is against this background that this study is carried out to examine the effects of soil degradation on crop production: an assessment of total nitrogen and available phosphorus in the rainforest of Obiaruku, Delta State.

1.2     STATEMENT OF RESEARCH PROBLEM

          The major problems associated with soil degradation include loss of farmlands, poor agricultural productivity, loss of live stock breeding, erosional problems, soil infertility, among others. The problems could be stated and discussed below;

Loss of organic matter: Soils may be susceptible to erosion, loss of organic matter leading to poor structure, and pollution by pesticides and heavy metals. Soil erosion has effects external to the farm, through siltation of water courses and transport of pesticides and nutrients. The latter can also be conducted to water via leaching and sub-surface flow. Cultivation systems are among the most important factors influencing soil properties (Boardman, 2010). Both ground and surface waters can be influenced by nutrient and pesticide pollution from arable land. This results in reduction in the quality of drinking water and necessitates expensive treatment. It also has ecological consequences for aquatic life (Stockings, 2016).

Loss of soil nutrients: Another major problem associated with soil degradation is that intensification of farming systems, encouraged by government has exacerbated the problems of soil degradation. Nutrients, especially phosphates cause eutrophication of water, which upsets the ecological balance and can result in undesirable effects such as fish death and algal blooms. Problems are greatest where farming is not intensive and lower in Southern Nigeria. Nitrates are particularly prone to leaching, and concerns over nitrates in water supplies have led to legislation in the form of the Nitrates (Evans, 2016).

Loss of ecosystem: Environmental degradation and loss of ecosystem services will directly affect pests (Weeds, insects and pathogens), soil degradation and nutrient depletion, growing conditions through climate and weather, as well as available water for irrigation through impacts on rainfall and ground and surface water. A changing climate will affect evapo-transpiration, rainfall, river flow, resilience to grazing, insects, pathogens and risk of invasions, to mention a few (UNEP, 2008). Unsustainable practices in irrigation and production may lead to increases salinization of soil, nutrient depletion and erosion. Nutrient depletion as a form of land degradation has a severe economic impact at the global scale, especially in Sub-Sahara Africa. Stoorvogel, et al. (2013) estimated nutrient balances for 38 countries in Sub-Sahara Africa. It was discovered that there is an annual depletion of soil fertility, annual economic loss, nutrient loss all caused by soil degradation and erosion (UNEP, 2014; Stocking, 2016).

Loss of farmland: Soil degradation has posed a serious threat to human existence most especially farmers. Environmental hazards such as soil degradation and erosion among others has given rise to lopsided concentration of vehicles in some of the road thus making the road a place of great conflict between man and the environment (Cohen, 2007). Obiaruku and its environs are facing the problem of soil degradation. Thus, during the rainy season, some areas become inhabitable and uncomfortable for human dwelling. Also farmlands are flooded leading to premature harvest of farm produce and was away of the topsoil thereby resulting to low crop yield o agricultural productivity.(project topics   final year project topics )                                                 

Reduction in soil fertility: Soil degradation has severely caused damage to the soil by greatly reducing the fertility of the soil and cause the development of monstrous soil gullies in the land. Even though there is no specific data on statistics on the extent of soil degradation and fertility in degradation of Obiaruku region, there is evidence to show that majority of the topsoil is increasingly depleted by soil erosion. This is depicted by outdated and unscientific practices. The impact of urbanization and mechanized farming has utter-aggravated the problem.

Today, soil degradation is now synonymous with disaster, dangers, despair, destruction, death and damage to economic properties as well as environmental problems caused by flooding, removal of the natural vegetative cover exposes the soil to the action of wind running water. Some of the natural factors which tends to increase soil degradation in Obiaruku region includes, soil type and soil has much impact on farmlands and arable crop production effects of organic matter on soil properties, soil is also lost when it is down slope, road network, commercial places, farmlands which is as a result of mechanization and urbanization, and other life and properties are not well of the range of soil degradation. It has been observed that due to its topography and heavy rainfall, the entire land of Obiaruku or rather most part of the region has been plague and subjected to soil degradation which has heavily contributed to a menace to her inhabitants.  A lot of studies have been carried out by scholars on the causes of soil degradation. This study will therefore focus on the effects of soil degradation on agricultural crop production in the rainforest region of Obiaruku using total nitrogen and available phosphorus as a case study. This study will also address the identified problems and proffer solution accordingly.

1.3     AIM AND OBJECTIVES OF THE STUDY:

The aim of this study is to examine the effects of soil degradation on crop production: an assessment of total nitrogen and available phosphorus in the rainforest of Obiaruku, Delta State. However, the specific objectives of the study are to:

examine the causes of soil degradation and their effects; examine the concentrations of total nitrogen in degraded and rainforest control sites;

iii. examine the concentrations of available phosphorus in degraded and rainforest control sites;

postulate management approaches to conserve the rainforest soils and manage the degraded ecosystem.

1.4            RESEARCH HYPOTHESES

The following null research hypotheses formulated were tested in this study:

There is no significance difference in the concentration of total nitrogen in the soil between the degraded and control sites at 0.05 level of confidence. There is no significance difference in the concentration of available phosphorus in the soil between the degraded and control sites at 0.05 level of confidence.

1.5            SIGNIFICANCE OF THE STUDY;

This research work will cover the entire of Obiaruku region which falls under the rainforest environment and it’s to look intensively at the effects of soil degradation on crop production: an assessment of total nitrogen and available phosphorus in the rainforest of Obiaruku, Delta State. It would offer suggestion(s) on the problems of soil degradation and environmental degradation at large and its adverse effect on agricultural crop production.

          Therefore, the study will help in help to unfold the deterioration effects of soil degradation on agricultural crop production as well as causes of soil degradation in the rainforest region and other related land use in Obiaruku region, and the level of total nitrogen and available phosphorus nutrient in degraded soil and also to look at the concentrations of total nitrogen and available phosphorus in degraded and rainforest control sites, and also to look at or proffer lasting solution(s) to combat the soil degradation problem(s) on agricultural crop production in the study area.

1.6            SCOPE AND LIMITATION OF THE STUDY:

The scope of this study was strictly based on the effects of soil degradation on crop production: an assessment of total nitrogen and available phosphorus in the rainforest of Obiaruku, Delta State and to offer suggestion(s) on the causes and effects of soil degradation in the study area.

          The scope of the study was initially designated to cover all the communities that make Obiaruku. However, because of time and financial constraints, the scope was sealed down. In this regard the only selected major areas were covered in this study. The time was also short to carry out the research work coupled with academic work. These limitations notwithstanding, the data/information generated from this study and research finding will be of invaluable assistance of the management of soil degradation and its control.

1.7            THE STUDY AREA

1.7.1  Location and Boundary

Obiaruku covers about 158 square kilometers (61 square mile). It is located on latitude 050 401 and 050  451 North of the equator, and longitudes 060 051 and 060  251 East of the Greenwich meridian.  On the north, it is bounded by Urhonigbe in Edo State, on the East and South, it is bounded by Ukwuani and Ika South Local Government Areas of Delta State respectively. On the west, it is bounded by Abraka in Ethiope East Local Government Area of Delta State. Obiaruku region consist of various settlements and its made up of various quarters namely: Umuebu, Obinomba, Odaku, Isumpe, Umusume, Odafe, Ogbeje, and Obiaruku main town.

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