Disposal of muncipal solid waste and it's effect on agriculture

              DISPOSAL OF MUNCIPAL SOLID WASTE AND IT’S

                                     EFFECT ON AGRICULTURE

                                          

                                                 (Drishya Jagadish ,Natural science, SNM Training College)

ABSTRACT

   Soils are essential for life, in the sense that they provide the medium for plant growth, habitat for many insects and other organisms, act as a filtration system for surface water, carbon store and maintenance of atmospheric gases. Soils help regulate atmospheric Carbon dioxide (CO₂) by acting as a carbon store. .Since the beginning, humankind has been generating waste, be it the bones and other parts of animals they slaughter for their food or the wood they cut to make their carts. Solid waste; when left unattended to for a long time, constitutes health hazards, causes offensive odour, and pollutes the underground water sources and decreases aesthetics and quality (Federal Ministry of Environment). The inability to manage these wastes effectively  becomes an issue of great concern. The present study, which is preliminary, was conducted with an objective to determine the effect of Municipal Solid Waste waste on the soil total elemental compositions around the dump sites .There appear to be various agricultural practices at the site of this study and around the neighbourhoods.

INTRODUCTION

Soil is a very specific component of the biosphere because it is not only a geochemical sink for contaminants, but also acts as natural buffer controlling the transport of chemical elements and substances to the atmosphere, hydrosphere and biota.Since the beginning, humankind has been generating waste, be it the bones and other parts of animals they slaughter for their food or the wood they cut to make their carts.

With the progress of civilization, the waste generated became of a more complex nature. At the end of the 19th century the industrial revolution saw the rise of the world of consumers. Not only did the air get more and more polluted but the earth itself became more polluted with the generation of non-biodegradable solid waste. The increase in population and urbanization was also largely responsible for the increase in solid waste. Solid waste is the term used to describe non-liquid waste materials arising from domestic, trade, commercial, agricultural, industrial activities and from public services .

Solid waste; when left unattended to for a long time, constitutes health hazards, causes offensive odour, and pollutes the underground water sources and decreases aesthetics and quality (Federal Ministry of Environment). The inability to manage these wastes effectively  becomes an issue of great concern. This is because apart from the destruction of aesthetics of landscape by the waste dumpsites, some of the municipal solid wastes contain both organic and inorganic toxic pollutants (such as heavy metals) that threaten the health of humans and the entire ecosystem. Proper management of solid waste is critical to the health and well-being of urban residents .

With the ever increasing population and emerging technologies, there is a corresponding increase in health care delivery/facilities. A large amount of solid waste is generated in the hospital during diagnosis and treatment of diseases. The solid waste may contain human organs, bandages, syringes, test tubes, tissues cell culture and other plastic materials. These wastes can cause health hazards and indeed, is a veritable source of transmission of HIV/AIDS, Hepatitis B and other diseases. The dumping of infectious/toxic waste on the soil and sometimes burning them can lead to contamination of crops and underground water which can cause very serious harm to unsuspected consumers.

Hospital solid waste has been found to contain appreciable quantity of heavy metals such as Cd, Zn, Pb and Cu, all which may eventually end-up in the soil and leached down the profile. The concern about heavy metals is that they are not biodegradable and therefore accumulate in the environment. Thus one of the development challenges facing this decade is how to achieve a cost effective and environmentally sound strategies to deal with the global hazardous waste crises facing both the developed and developing Countries.

Large quantities of untreated industrial municipal and agricultural wastes are dumped into the soil. Heavy metals like mercury, lead, cadmium, nickel and arsenic cause serious land pollution problems. For example wastes from mines and factories located in agricultural areas have been found to have contaminated the soil with heavy metals. In some cases, land disposal of degradable hazardous organic wastes is practiced as a means of disposal and degradation.

Disposal of municipal solid waste and it’s impact on the agriculture soil property is up by plants and animals or carried away by wind. But the processes that actually play important roles in reducing their total amount of residues, are those mediated by microorganisms, animals, plants and sunlight. Other factors are pH and heat. Catalytic agents in the soil and soil enzymes also play important roles in degrading relatively unstable pesticides. The major group of soil microorganisms such as acitnomycetes, fungi and bacteria, degrade pesticides through oxidation, ether cleavage, ester and acid hydrolysis, oxidation, oxidation etc. The notable characteristics of degradation systems in microorganisms are the reductive systems. Combustion of sulfur-containing fuels emits SO2 and finally leaves sulphate in the soil. Atmospheric nitrogen oxides are converted into nitrates in the atmosphere and the nitrates eventually are deposited on the soil.

OBJECTIVES OF THE STUDY

·         To analyze the impact of municipal solid waste disposal on soil by analysing pH and moisture content.

·          To interpret the impact of solid waste disposal on agricultural production through survey.

METHODOLOGY

Experimentation ,soil samples was tested with the help of  J.K soil test corporation Ernakulam. Their standard procedure was followed for

        Soil testing-Soil samples are collected from three regions, Sample 1- an agricultural farm in Paravur, sample 2- In front of paravur government hospital ,sample-3 Near transport stand in paravur. All these samples are ground into fine powder using mortar and packed into three separate polythene bags. The two important parameters of the agriculture soil -pH and moisture content of the soil is tested.

Data collection regarding agricultural out-put: Primary sources: - Primary data will be collected from the Communication Methods with Interacting of respondents and Asking for their opinions, attitudes, motivations, and characteristics Observation Methods actually view respondents, personal survey on site. Self reported interview case study technique with 5 sample size i.e. farmers are selected as respondents were conducted. Secondary sources: - The study is based on secondary data from the respective  District Pollution Control Board, journals, magazines and report based resources of municipal solid waste disposal and its problem has been referred. 

SOIL  PARAMETERS

pH is a scale that chemists use to measure acidity. Values below 7 are considered acidic, values above 7 are alkaline and 7 is neutral. Most plants can tolerate a wide pH range in solution culture, but they cannot tolerate a wide range of acidity in the soil. When soil acidity changes, the solubility of a number of metal ions also change. Plant growth is really affected by the varying concentration of these metals in solution rather than by the acidity itself.

Under acidic conditions, many soil minerals dissolve and increase the concentration of metal ions to toxic levels. The primary toxic metal is aluminum, but high levels of manganese and iron can also inhibit plant growth under these conditions. The nutrients phosphorus and molybdenum are less available in acidic soils and calcium and/or magnesium may also be deficient.

Under alkaline conditions, the solubility of minerals decrease to the point that nutrient deficiencies occur. Plant growth is therefore limited by deficiencies in iron, manganese, zinc, copper and boron. Phosphorus is also less available in alkaline soils and high levels of calcium may inhibit the uptake of potassium and magnesium.

ANALYSIS AND INTERPRETATION

Three soil samples were collected from three areas in north paravur municipality. The type of soil found in  North Paravur is sandy loam. The sample1 is taken from the agricultural land, sample 2 from the organic waste dumping area and  sample 3  from municipal waste dumping area. Three of the samples were finely ground to powders using pestle and mortar before performing the test.

The three samples were diluted in water and the p^H of the soil were measured as tabulated in the table  3.1 below.

Sl.no	Samples	pH
1	Sample 1	6.8
2	Sample 2	6.6
3	Sample 3	7.8

The p^H of the soil should be between 5  and 7 for the favourable growth of plants. The samples 1 and 2 are found to be perfect for the plant growth.  Sample 1 is from the agricultural field and sample 2 is from the area where organic wastes are dumped mostly. So the organic wastes does not harm the soil nutrients and pH or in other way it enhances the nutrients snd increase the porosity of the soil. The inorganic municipal waste present in sample 3 has made the soil more alkaline which is the unsuitable p-h value. This may be due to the presence of heavy toxic elements in the soil.

 Determination of moisture content:

100g of each sample were taken and oven dried to find the moisture content present in the soil. The moisture content is an important parameter of the soil which contributes to plant growth. Based on these parameter farmer decide when to irrigate the soil etc. Table 3.2 shows the moisture properties of the sample.

Weight	Sample 1	Sample 2	Sample 3
Weight of the sample	100g	100g	100g
Weight of the dried sample	74	76.4	81.4
% Moisture content	26	23.6	18.6

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The amount of moisture content in sample 2 is higher compared to the agricultural sample because of the presence of organic matter in the soil. Due to the presence of organic matter in soil the amount of moisture is larger in  Sample 2 in comparison to  sample 3.Sample 3  is contaminated .Sample 1 is well irrigated soil so it is having higher moisture content

 Observations Based on Survey:

Survey  was conducted using the method of interviewing the people living near the sample collection sites in the locality. The SITE 1 is the locality near the farming land in parur.5 persons were interviewed based on the prepared questionnaire and answers were tabulated .The farmers were interviewed about the recent changes they have adopted with the change the pattern of the soil. They shared the  various problems that they have met while cultivation. Table shows the details of survey in SITE 1.

SPOT 1: Sample 1 site	Person 1	Person 2	Person 3	Person 4	Person 5
Any changes in soil from past condition?	x	X	x	´	P
Any change in fertility of soil?	P	P	P	P	P
Do you feel any change in texture of soil?	P	P	´	P	´
Do you perform regular soil testing?	P	´	´	´	´
Whether water retention has reduced in this soil past few years?	P	P	P	´	´
Is there any reduction in micro-organisms found in soil in past –few years?	´	´	P	P	P
Do you use fertilizers?	P	P	P	P	P
Any recent epidemic breakout in this area?	´	´	´	´	P
Any variation in colour of the soil or water?	´	´	´	´	´
Any damages witnessed during rainy season?	´	´	P	´	P
Is there any pollution?	P	P	P	P	´
Is there any history of soil erosion in this area?	´	´	´	´	´

  

  

 

                                                

                    

The SITE 2 is the locality near the organic material dump site  land in parur.5 persons were interviewed based on the prepared questionnaire and answers were tabulated. Table  represents the data.

Correlating the values obtained through pH analysis and moisture data along with the survey data municipal waste has affected greatly the life of the people, cattle and also plant life. At site 1,2,3 almost  100% of sample persons are using chemical fertilizers. Most of the farmers are unaware about they have to check the soil texture, moisture pH etc before application of these fertilizers. So they should be properly educated about the correct farming practices that should be taken in to consideration. The use of fertilizers without knowing the actual nutrient level of the soil harms the crops.

It has been found that organic matter dumping site is not that much polluted compared to inorganic pollutant site. The hazardous chemical in the inorganic dumping site not only increases the alkalinity of the soil but also reduces the fertility .It affects the productivity and also it adds toxic metals into the food chain.

. .

   The texture of the soil is greatly affected in areas where inorganic waste dumping is not properly done also fertility of soils are also reducing a lot. The inorganic dumping site has less porosity hence less water retention.

Water retention increases with the porosity of the soil and also the amount of microbes. Reduction in micro-organisms also reduce the amount of nutrients in the soil. Hence from the analysis the site 1 and 2 can be used for cultivation.

SUMMARY AND CONCLUSION

Based on the survey and observation of the waste it was observed that most of the farmers are unaware about they have to check the soil texture, moisture pH etc before application of these fertilizers. So they should be properly educated about the correct farming practices that should be taken in to consideration. The use of fertilizers without knowing the actual nutrient level of the soil harms the crops. It has been found that organic matter dumping site is not that much polluted compared to inorganic pollutant site. The hazardous chemical in the inorganic dumping site not only increases the alkalinity of the soil but also reduces the fertility .It affects the productivity and also it adds toxic metals into the food chain.

During rainy season site 2 type areas are epidemic due to the breeding of mosquitoes and other insects. The mosquitoes multiply and causes several diseases like dengue ,malaria,chicken guniya during rainy season.Taking this into consideration these dumping sites should be relocated to areas away from agricultural lands and housing colonies and properly managed. Water retention increases with the porosity of the soil and also the amount of microbes. Reduction in micro-organisms also reduce the amount of nutrients in the soil. Hence from the analysis the site 1 and 2 can be used for cultivation.

                                             

  REFERENCES

[1]. A Asadi Huat BBK, H Moayedi, Shariatmadari N, Parsaie A (2011). Changes of hydraulic conductivity of silty clayey sand soil under the effects of municipal solid waste leachate. International Journal of the Physical Sciences, 6(12): 2869-2874.

[2]. A.H. Khoshgoftarmanesh, M .Kalbasi (2001). Effect of Garbage Leachate on Growth and Yield of Rice and Its Residual Effects on Wheat. ICID International Workshop on Wastewater Reuse Management, 19, 20 September, Seoul, Rep. Korea.

[3]. A.J.Hernandez , M.J.Adarve , A.Gil , J.Pastor (1999). Soil Salivation from Landfill Leachates: Effects on the Macronutrient Content and Plant Growth of Four Grassland Species. Chemosphere, 38(7): 1693-1711.

 [4] Bhide, A.D. and Sundersan, B.B. “Solid Waste Management in Developing Countries”, Indian National Scientific Documentation Centre, New Delhi, India, 1983.

[5]. M. Maftoun ,F. Moshiri (2008). Growth, Mineral Nutrition and Selected Soil Properties of Lowland Rice, as Affected by Soil Application of Organic Wastes and Phosphorus. J. Agric. Sci. Technol., 10: 481-492

[6]. E.Panahpour ,A. Gholami, A.H Davami (2011). Influence of Garbage Leachate on Soil Reaction, Salinity and Soil Organic Matter in East of Isfahan. World Academy of Science, Engineering and Technology, 171-176 .

[7]. J.M.Edward , H.James , (1987). Hazardous Waste Management Engineering, published by Van NostrandReihold Company Inc. New York.

[8] MoEF “Municipal Solid Waste (Management and Handling) Rules- 2000”, Ministry of   Environment and Forests, Government of India. 2000.

 [9] Modak P R and Nangare P B., “Quantitative And Qualitative Assessment Of Municipal Solid Waste For Nagpur City”, J.Env.Res.& Sc.,Vol.2, Issue 2, April-June, 2011, pp. 55-61.

[10]. O.Schwarz-Herion, A. Omran, and H.PRapp, (2008).“A Case Study on Successful Municipal Solid Waste Management in Industrialized Countries by the Example of Karlsruhe City, Germany”, Journal of Engineering Annals, of the Faculty of Engineering Hunedoara