Document 6426366
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Document 6426366
Editorial Board Editor-in-Chief Dr. D.R. Tiwari [email protected] Editorial Cum Advisory Board Alex Afouxenidis Professor National Center for Social Research Athens, Greece Prof. (Dr.) Jason L. Powell Prof. Jozef Drabowicz Professor Center of Molecular & Macromolecular Studies, Polish Academy of Sciences, Sienkiewicza 112, 90-363LODZ, Poland Prof. Ismael Saadoune Professor Universite Cadi Ayyad, Faculte des Sciences at Techniques Maraktech Laboratoire do chimie des materiaux et de 1' Environment BP 549, Marakech, MAROC Dr. Fardoon Jawad Admed Professor Professor Of Molecular Cell Biology, Department of Pathalogy, King Edward Medical university, Lahore Pakistan Dr. Neelam Gupta National Bureu of Animal Genetic Resources India Dr. Vinod Singh Microbilogy Department Barkatullah University, Bhopal Dr. Mona Purohit Department of Legal Studies & Research, Barkatullah University. Dr. Charu P. Pant Department of Geology, Kumau University, Nainital Dr. Pramendra Dev Professor & Head School Of Studies In Earth Science, Vikram university, Ujjain MP, India Professor University of Central Lancashire UK Prof. J. P. Shrivastav Department of Geology, University Of Delhi, India. Dr. L. P. Chourasia Professor & Head Department of Applied Geology, Dr. Hari Singh Gour University, Sagar, M.P India Dr. Piyush Verma NITTTR, Bhopal Dr. K. S. Tiwari Bhopal,MP, India Anil Shukla Deputy Secretary NCTE, Ministry of HRD, Govt. Of India Prof. Santosh Kumar Former Vice Chancellor Dr. H S Gour University Sagar. Executive Editor & Owner Dr. Shashi Tiwari. Circulation Manager Esha Raje Tiwari ASSOCIATE EDITORS Dr. Abha Swaroop, Dr. Alok Rastogi Dr. Santosh Bhargava Dr. Praveen Jain Dr. Kailash Tyagi Dr. H. C. Kataria Dr. V. K. Parashar Dr. Pawan Pandit Dr. G. P. Singh Dr. J. S. Chouhan Dr. J. P. Shukla Dr. Praveen Tamot Content S No 1 Title 2 Evaluation of biochemical indices in chronic alcoholism 3 महामित प्राणनाथ की सवर्धमर् सम वय की अवधारणा 4 Authors Socio-Cultural Perspective in Girish Karnad’s Naga-Mandala Ruchi Midha, Vinita Singh Chawdhry Akanksha Dubey, Bhawna Bhimte Page No 1‐6 7‐11 t; izdk'k 'kkD; 12‐16 ehuw prqosZnh 17‐19 Santosh Ambhore, H.C. Kataria 20‐25 डा. नागे द्र की समीक्षा पद्धित 5 An investigation –The level of contamination caused by Heavy Metals in Drinking Water of Gandhi Nagar and Bairagarh Area of Bhopal with Environment and Human Health aspects. 6 mRihM+u ds ifjis{; esa dkedkth efgykvksa dh fLFkfr % lelkef;d foospuk o"kkZ lkxksjdj 26‐28 7 स तक का य परं परा : एक अ ययन चंदा मोदी 29‐31 8 Fixed point theorem in Fuzzy metric space by using compatibility of type beta Environmental Management Systems And Business M S Chouhan, Manoj Kumar Khanduja and Bharat Singh Pavan Mishra 32‐39 9 40‐46 International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (1 – 6) Socio‐Cultural Perspective in Girish Karnad’s Naga‐Mandala Ruchi Midha* Vinita Singh Chawdhry** *Research Scholar, UIT-RGPV, Bhopal **Professor (English), Govt. Hamidia Arts & Commerce College, Bhopal ABSTRACT Girish Karnad is the most eminent dramatist of the contemporary Kannada theatre. He has given the Kannada theatre the variety that could probably be possible only with his talents as an actor-director. He has always used myths and legends and made them a source of a new vision. By using these myths and folklores he tried to show the absurdity of life with all its fundamental passion and disagreements and man’s everlasting struggle to develop a symbolic form out of tension between the typical and a mythical experience and a living reaction to life and its values. Contemporaneity in Karnad’s plays shows itself through its functional sensibility in his attempt to give new meaning to the past from the vantage point of present time. He has presented an image to the Indian theatre community and to the world theatre community how our past and present give our present day existence a sense of purpose and to theatre activity a direction. Karnad pays a lot of attention to his characters. His characters are full of life and variety. They are living characters. Karnad highlights those qualities of his characters which supports the development of his plots. His characters and plots are interrelated. For his character description Karnad has used various devices such as dialogue, irony, contrast and parallelism. INTRODUCTION Naga‐Mandala is return in the process of development of Karnad’s vision regarding human relationship. Karnad in this play, takes his examination of human relationship a step forward with the help of folk theatre tradition. The play beautifully generalizes the particular truth and in the same manner particularizes the general truth. The play examines the changing and growing of a newly married couple and their eventually understanding of the role, function and responsibilities of their marital bond. With the help of the ethnic theatre tradition Karnad describes the multiple aspect and psychological self‐division of the human being. With P a g e | 1 Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (1 – 6) the help of the age‐long myth of snake lover the sexual aspect of the hero, Appanna, has been projected. The same man who loves and caresses during the darkness of the night is harsh, brutal and inconsiderate during the light of the day. The wonderful use of the ‘symbols’ like snake dark long tresses, night, day, blindness and stag helps Karnad in his description of the deeply distressing experiences and sufferings of a newly married couple. The desire of Rani for her parents finds a superbly metaphorical expression in the opening of the play: “Where are you taking me? And the Eagle answers: “Beyond the seven island is a magic garden. And in that garden stands the tree of emeralds. Under the tree, your parents wait for you.” So Rani says: “Do they? Then please, please take me to them‐ immediately. Here I come.” So the Eagle carries her clear across the seven seas.”(Naga‐Mandala, 25) Rani seems to be distressed at the beginning of her entrance in the new role assigned to her by the marriage, and she is equally unaware about the physical aspect of relationship. In Naga‐ Mandala the psychological self division of Appanna has been revealed. The play seems to be a beautiful generalization of man‐woman relationship and it seems that every woman in the play is one woman and every man one man. Appanna, Naga and Kappanna are likely various aspects of man. While Appanna put forwards domineering aspect of manhood. He kept his wife locked up like a cage bird and orders her to do things like to serve food etc. And use to visit a concubine every night which reflects his awareness of the biological aspect of sex. At the same time he seems emotionally under‐developed as he deals with Rani always unfairly. Karnad says that Appana and Naga are two aspects of a husband the social front Appanna and the private‐self Naga. Whereas at the social situation a husband is unable to come out of his narcissism, with the arrival of the darkness of night, he feels his quest for completeness stirred up. Appanna’s behavior brings out the nature of the male in general for whom neither of the relationship is complete and satisfactory. Appanna seems unable to accept his marital life comfortably whereas the arrival of the Naga in the darkness of night creates the huge conflict. Karnad uses the folk tale to bring out the psychological divide of a person. Naga‐a Cobra being the age long symbol of male sexuality, projects the truth and the inner conflict of the protagonist. Naga talks in a very soothing way and it is a mystery for Rani to accommodate with two selves that are Appanna and Naga; this trauma is particularization of the situations where the husband is sweet and soothing during the darkness of night, harsh and bullying during the light of the day. Naga himself says: “No, let’s say, the husband decides on the day visits. And the wife decides on the night visits. So I won’t come at night if you don’t want me to.” (Naga‐Mandala, 42) Discussion The irony remains undamaged throughout the play. It could be seen in the beginning when Rani throws the juice of the medicinal root in the anthill and it is devoured by the Cobra king. Kurudavva seems to be another aspect of the same woman putting in efforts in every way to harmonize with her man. Kurudavva’s blindness seems to carry a deeper meaning and that is inability of female to peep into the heart of the truth. The isolation and communication gap between Rani and Appanna, and Rani’s wish for fulfillment arrives at climax with the disclosing of her pregnancy. The result of this medicinal root could be seen in the arrival of the Naga during night. He started visiting her during night and Appanna during day. It’s brilliant mixture of dream and reality and Rani seems to dream during day for dream like reality of the night and is distressed by P a g e | 2 Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (1 – 6) the nightmare like reality of day during the night. She could not form anything of Naga’s statement: “Of course. There’s always that. Listen, Rani. I shall come home everyday twice. At night, wait for me here in this room. When I come and go at night, don’t go out of this room, don’t look out of the window –whatever the reason. And don’t ask me why.” (Naga-Mandala, 45) Karnad in his introduction to Girish Karnad Three Plays: Naga-Mandala, Hayavadana, Tughlaq writes about the position of Rani. He relates the play with the psycho-social reality only. He says: “The position of Rani in the story of NagaMandala, for instance, can be seen as a metaphor for the situation of a young girl in the bosom of a joint family where she sees her husband only in two unconnected roles-as a stranger during the day and as a lover at night. Inevitably, the pattern of relationships she is forced to weave from these disjointed encounters must be something of a fiction. The empty house Rani is locked in could be the family she is married into.” (Naga-Mandala, 17) The Naga Rani relationship passes through various modes. Rani is visibly sad with the drops of blood on Naga’s visage. The maternal feeling of the lady could not see the blood on the visage of the concerned male. Whereas she is unaware of the physical aspect of love, Naga seems to know and accept it as an essential part of marriage and love. Karnad appears to contemporaries his exploration of human relationship by violating the sanctity of the marital bond. Naga, if we accept him as the intruder-lover crosses the sanctity of nuptial bond. He relates the hunger of his blood with the hunger of surrounding. He takes the trouble making Rani understand that sex is natural and obvious outcome and symptom of our growth. But false belief is broken and reality overpowers the situation. Rani got pregnant by Naga. She feels upset with her husband’s reaction. The reality, illusion and truth are face to face. Naga, the other-self of Appanna, was satisfied with illusion and he never wanted an issue as a real proof of his true illusion. But Rani knows well that the quest for completeness could be meaningful with once palpating proof of the relationship. Ultimately Appanna comes across the truth but it was impossible to him. The isolation and communication gap between Rani and Appanna, and Rani’s wish for fulfillment arrives at climax with the disclosure of her pregnancy to him. Whereas Rani does adapt with the shifts of the roles, Appanna could not. Rani achieves fulfillment with the disclosure of her own pregnancy. Rani’s capacity to synchronize the dream and reality and in this way she is superior to her husband. Rani very smoothly accepts the role but the rebellious mood she could not get rid of this again. Appanna calls the village elders to look after the case. Rani is asked to go through some ordeal, Naga suggests her to prefer snake-ordeal. After taking the snake-ordeal she has been proofed not guilty. According to Karnad it is Rani’s overcoming the guilt and coming across the innocence. In a way it also shows the superiority of the intelligence of a woman. Immediately she was given the status of a goddess. The villagers adore her. And the dramatic intensity touches its highest point: “Yes, my husband and this king Cobra. Except for these two, I have not touched anyone of the male sex. Nor have I allowed any other male touch me. If I lie, let the Cobra bite me.”(NagaMandala, 58) Later when Naga died Rani requested her husband to allow her son to perform the last ritual of Naga. The end of Naga-Mandala is exceptionally metaphorical. The playwright has suggested two ends and both the ends convey the same meaning and equal intensity. According to the first ending Naga died and the last ritual have been performed by Rani’s son. The second ending suggests the entry of Naga into her long black tresses, symbolizes his P a g e | 3 Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (1 – 6) eternal presence: “This hair is the symbol of my wedded bliss. Live in there happily, forever.” (Naga-Mandala, 64) In this depiction of eternal quest for completeness and age-long efforts to fill up the vacuum, Karnad used symbols beautifully. Snake has been used as age-long symbol of male sexuality, long black tresses as the female sexuality, night as the personal aspect of human being and day as public front. The main plot and sub-plot are well synthesized by the playwright. The KurudavvaKappanna episode focuses on other aspect of the human relationship. Kurudavva, the mother is blind and she needs her son as a support but the son is hypnotized from a female voice. Karnad appears to express the subdued sexual self-through the character of Kappanna. He seems to be deeply distressed by the horrible aspect of woman. From his infantile onwards he has seen the woman as a mother only so the other aspect of woman horrifies him. The story is crushed from time immemorial and at length she librates herself and finds identity through the man. The conflict dissolves and the relationship of Appanna and Rani attains social recognition. Life starts rolling smoothly with the blessing of a son and acceptance of reality as truth is achieved. Karnad’s shift was towards the harmonious relationship between human being and society. In Naga-Mandala social approval becomes a part and parcel for the balance of the relationship. Rani acquires her identity as a wife after acquiring the identity of motherhood. Her position has been stored what though Karnad’s vision about this indescribable, unpredictable human relationship seems slightly settled. The subtlety could be felt into the happy ending of Naga-Mandala and the fact could not be ignored that this is the only play dealing with man-woman relationship, which ends if not happily, at least then satisfactorily. Naga-Mandala is a feminist play. It questions patriarchal moral code which demands the faithfulness of a woman to her husband but not the faithfulness of a man to his wife. It can be described as a problem play. It puts forward the problems of a married woman, the position and status of a woman in her relation to her husband and home. The dramatist does not express his opinion about the rights of women or the freedom of women. He pictures the tragic result of less importance of married woman to her husband. The play shows how the woman is excessively controlled by her husband. Girish Karnad appears as a dramatist of social realities in this play. Karnad is on the side of Rani who wins our sympathy too. In this play the dramatist delivers a message to the society, that is to say that it should awaken a sense of individual responsibility among women. Without allowing a woman to develop her own individuality, a woman would be really unhappy. If Rani had lived with Appanna lifelong under the conditions in which we find her living with her husband at the beginning of the play, her life would have been miserable. In Indian society a woman is expected to perform unquestionable obedience to her husband as Rani does in this play. She has no right not only to refuse her husband but also to question him. Appanna openly and unashamedly commits adultery, but nobody objects to it; the village elders who sit in judgment do not find any fault with him. Nobody was ready to believe the innocence of Rani. She sleeps with Naga without knowing his identity. She does not discover the identity of Naga who assumes Appanna’s form by using its magical power. Her failure to discover the truth is the suppression of her reason and intuition by the strong warning of Appanna and Naga not ask any question. If she had discovered the real identity of Naga she would not have allowed him to enter her house. Rani is frigid and despises sex. What she craves for is affection which Naga gives her in plenty by functioning as a surrogate parent for a P a g e | 4 Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (1 – 6) while. By using his erotic art Naga cures her frigidity. Due to which, later Appanna and Rani could enjoy marital life happily. patriarchal society of which Rani is no doubt a victim. References Chastity is a patriarchal concept that has been used to oppress and weaken women for ages. Here also in the case of Rani her chastity is clearly gender based. There are two reasons which lead to the whole trouble that crops between Rani and Appanna. In the first place, he regards Rani as his personal property and adopts a possessive attitude towards her. Secondly, the lack of communication between them makes him a stranger to her. The concept of chastity has been associated with women since ancient days, almost from the very inception of human civilization. A woman especially in India fails to command that social prestige which she ought to have if she once regarded worthy of disgrace. What Rani does and what she suffers is not due to some weakness in her character. Like Oedipus, who murders his father and marries his mother unknowingly, Rani also commits the sin of adultery due to lack of knowledge of the real identity of Cobra. But the society, based on the patriarchal norm never forgives a woman who lost her chastity. Conclusion Thus it can be concluded that, Rani is a typical Indian woman who is ready to suffer and sacrifice for her husband without complaining in the hope that husband will return to her in the end. She expects nothing. She is ready to make any amount of sacrifice. If she comes to commit a mistake, she holds herself guilty and ever remains repentant for the lapse. Rani’s character typifies a wife that accepts suffering as fait accompli. The play NagaMandala reflects upon the contemporary Indian cultural and social life with the use of myths and folktales. It is a feminist play not because it is pathetic story of Rani but because it very brilliantly captures the insanity of violence against an innocent woman in the background of a conservative Crow, Brian and Chris Banfield.1996. Postcolonial Theatre. London: C U P. Dodiya, Jaydipsinh.Ed. 1999. Three plays of Girish Karnad. New Delhi: Prestige Books. Edgar Andrew and Peter Sedgwick. 2000. Key Concept in Cultural Theory. New York: Routledge Publication. Foss, A Karen, Sonja K Foss and Cindy L Griffin.1999. Feminist Rhetorical theories. London: Sage Publication. Fuss, Diana.1989. Essentially speaking: Feminism, Nature and Difference. London: Routledge. Karnad, Girish. 1998. Three plays – Naga-Mandala, Hayavadana, Tuglaq. New Delhi OUP. Kosambi, D.D.1998. Myth and Reality. Bombay: Popular. Lang, Andrew.1993. Myth Ritual and Religion, (Vol.2). New Delhi: Aryan Books. Lodge, David.2003. Modern Criticism and Theorya Reader Second Edition. New Delhi: Pearson Education Pvt. Ltd. Makaryk, Irena Rima.1997. Encyclopedia of Contemporary Literary Theory II Series. Canada: University of Toronto Press. Robbins, Ruth.1999. Literary Feminisms. New York: Palgrave Macmillan. Routher P S N.1998. A Handbook of Indo Anglian Literature. Trivandrum: Crescent Publication. P a g e | 5 Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (1 – 6) Said, Edward. 1993. Culture and Imperialism. New York: Knopf. Karnad, Girish.2004. Bali: The Sacrifice. New Delhi: O U P. ---1988. Hayavadana. New Delhi: O U P. ---.1993. Tale-Danda. New Delhi: Ravi Dayal, 1993. ---2004.. The Dreams of Tipu Sultan. New Delhi: O U P. Radhakrishnan, S. 1960. Eastern Religion and Western Thought. No. I 8 & 2, George Allen & Unwin. Ram Atma.1984. Essay on English Literature. Aurangabad: Parimal Prakashan, 1984. Sarcar, Badal.1974. Evam Indrajit, trans. Girish Karnad, Calcutta: OU P, 1974. ---. 1978. The Third Theatre, Calcutta: OUP. ---.1998. The Fire and the Rain. New Delhi: O U P. Sharma, R.S. 2000. Studies in Contemporary Literature: Critical Insights into Five Indian Authors. New Delhi: Sarup & Sons. ---.1995. Three Plays: Naga-Mandala, Hayavadana, Tughlaq. New Delhi: O U P. Tendulkar, Vijay.1984. Ghasiram Kotwal. Calcutta: Seagull. ---.1964. Tughlaq. New Delhi: O U P. ---.1974. The Vultures. Delhi: Hindu Pocket Books. ---.1990. Naga-Mandala. New Delhi: O U P Verghese, C. Paul.1971. Problems of Indian Creative Writer in English. Bombay: Somaiya. Dodiya Jaydipinsh, J.B. Dodita, Jaalpur. 1999.The Plays of Girish Karnad: Critical Perspective. New Delhi: Prestige Books. Williams, H.M.1976. Indo-Anglian Literature. New Delhi: Orient Longman. Iyengar, K.R.S. 1982. Indian Writing in English. New Delhi: Sterling. Naik, M.K.1987. The Limits of Human Power: A Comparative Study of Tughlaq and Caligula. New Delhi: Sterling. ---. 1984. “From the Horse Mouth: A Study of Hayavadana,” Dimensions of Indian English Literature, New Delhi: Sterling. Narasimhaiah, C.D.1969. 1969. The Swan and Eagle. Shimla: I.I.A.S. Pathak, R.S.1990. Indian Fiction in English: Problems and Promises. New Delhi: Northern Books Centre. Priestley, J.B.1975. The Art of the Dramatist, London: Heinemanna. P a g e | 6 Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (7 – 11) Evaluation of biochemical indices in chronic alcoholism Akanksha Dubey,* and Bhawna Bhimte *Department of Medical Biochemistry, GMC Bhopal. ABSTRACT Chronic alcoholism perturb to pathological condition affecting the nervous, gastro enteric system. Hepatocytes are particularly susceptible to alcohol metabolism; consequently abnormalities could be recurrent in liver function test. Present study has been undertaken to evaluate various biochemical alterations caused by alcoholic beverages on long term ingestion. Study has been carried out on 50 alcoholic morbid groups of 20-60 years of age compared to 50 age matched non alcoholic control. Morbid group are again classified on the basis of amount Moderate and heavy drinker’s (90.37±9.09 & 127.61±15.33 respectively) and duration 8-10years with mean of 9.4±0.74 and >10years with average of 12.26±1.46 of alcohol. Biochemical parameters estimated were liver enzymes (GGT, AST, ALT and AST/ALT). Mean ±SD values of GGT for alcoholics were 167.5±95.67 (p<0.001) as compared to controls (14.01±0.613).The ratio of AST/ALT showed significant raise in alcoholics than the controls (1.35±0.186, 1.02±0.005 respectively). Parallel results were also observed with Moderate drinkers compared to heavy drinkers. Evaluation of hepatic parameters establishes that alcohol interfere with liver functioning. The data suggest that elevations of enzymes can be a particular and specific marker of alcohol abuse. However detailed studies with large sample size may be required to establish LFT as marker of alcoholism. INTRODUCTION Chronic consumption of alcohol causes multiple structural and functional derangements. A wide variety biochemical and hematological parameters are affected by regular and excessive alcohol consumption. The blood test most commonly used as markers for recent drinking are the liver enzymes GGT, AST, ALT and ratio of AST/ALT. The liver is known to be a major site of ethanol oxidation; it is first oxidized to acetate by liver acetaldehyde dehydrogenase. These metabolic changes and generation of free radicals are responsible for alcoholic liver diseases [1]. GGT is induced by alcohol and serum level rise in response to acute hepatocellular damage. These are especially high in patients with regular drinking patterns rather than episodic drinking [2] [3]. The serum AST and ALT Page |7 levels are often raised in patients who are alcoholic although generally not more than 2-4 times the upper limits of the normal range [3],[4]. An AST/ALT ratio which is more than 1, strongly suggests an alcohol induced damage to liver and a ratio more than 2 confirms this diagnosis [2], [3]. The present study was undertaken to assess various biochemical alterations caused by alcoholic beverages on long term ingestion and is also an effort to make some contribution to existing knowledge on this subject. Material and method: The present work has been conducted in Department of Medical Biochemistry in coordination with Department of Medicine Gandhi Medical College Bhopal associated with Hamidia Hospital. The study includes 50 chronic alcoholic Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (7 – 11) patient of age group 26-60 years compared to non alcoholic controls of same age group. Morbid group were again sub divided, Firstly, on the basis of amount of alcohol in which one group comprised of 80-100 ml/ day with mean of 90.37±9.09 and other one with more than 100 ml/day with mean of 127.61±15.33. Secondly, on the basis of duration of alcohol consumption as 8-10 years with the mean of 9.4±0.74 and more than 10 years with mean of 12.26±1.46. They were analyzed as chronic alcoholic on the basis of past medical history and all were sufferers of alcoholic liver diseases at some or other time in their life. Mostly patients were of low socio-economic status. The control group consisted of 50 healthy adults who had been matched for age and socioeconomic status. Due to socio-cultural values none of the female has accepted of being alcoholic, hence study is male dominant. Taking all aseptic and universal precaution 5 ml blood sample was collected and biochemical parameters were estimated using standard protocols. Exclusion criteria: The patients of liver disease who were nonalcoholic or occasional drinkers and abstainers were excluded. Page |8 Estimation of liver enzymes: The activities of GGT, AST and ALT were assayed by kinetic spectrophotometric methods. GGT (EC 2.3.2.2) was assayed on its catalysis of transfer of the glutamyl group from L-y-glutamyl-3carboxy-4-anilide to glycylglycine with formation of L-y-glutamylglycylglycine and 5-amino-2nitrobenzoate. The increased absorbance at 405 nm was measured [5]. ALT (EC 2.6.1.2) was assayed by an enzymatic kinetic method, in which the pyruvate which was formed from the transamination of alanine was converted to lactate by lactate dehydrogenase and the rate of the decrease in absorbance was measured at 340 nm [6]. The assay of the AST (EC 2.6.1.1) activity was based on the transamination of Aspartate to oxaloacetate, followed by the conversion of oxaloacetate to malate by dehydrogenase and this decrease in the absorbance measured at 340 nm. [7] Statistical analysis: Results have been expressed as mean±SD. Statistical significance was determined by Students “t” test for unpaired data. The value of significance was evaluated with p values. The p value (p<0.05) was considered significant. Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (7 – 11) Result: Table 1. Comparison of Liver Function Test in cases and control Control S.No Liver enzymes No 1. 2. 3. 4. GGT AST ALT AST/ALT 50 50 50 50 Cases M± SD 14.01±0.613 17.64 ±0.20 17.24±0.14 1.02±0.005 No M± SD 50 50 50 50 167.5±95.67 103.4±40.56 73.27±21.55 1.35±0.186 P value P< 0.001 0.001 0.001 0.001 Table no 1 shows comparison of liver enzymes in cases and controls. 50 cases were compared with 50 controls of same age groups. All liver enzymes showed significantly higher (p<0.001) values in morbid groups when compared with healthy controls. Table 2. Comparison of cases on the basis of duration of alcohol S.No Liver enzymes 8-10years 10 <years p.value 1. Duration 9.4 ±0.74 12.26±1.46 0.001 2. GGT 120.98±95.22 192.86±8871 0.01 3. AST 82.07±38.8 114.67±37.46 0.001 4. ALT 62.25±21.31 78.99±99.76 0.001 5. AST/ALT 1.26±0.16 1.41±0.18 0.001 Table no 2 shows comparison among morbid group depending upon duration of alcohol consumption. The group of 8-10 years comprised of 17 patients and group of more than 10 years was comprised of 33 patients. Highly significant (p<0.001) result was observed when they were compared. Table 3. Comparison of cases on the basis of amount of alcohol S.No Liver enzymes Heavy drinkers(100<ml) 127.61±15.33 p.value Amount Moderate drinkers (80100ml) 90.37± 9.09 1 2 GGT 134.36±94.15 203.84±82.68 0 .001 3 AST 92.00±42.75 116.96±33.94 0.01 4 ALT 66.87±22.39 80.78±18.26 0.01 5 AST/ALT 1.31±0.19 1.41± 0.16 0.01 0.001 Table no 3 shows comparison of cases on the amount of alcohol. The group of 80-100 ml comprised of 27 patients and group of more than 100 ml comprised of 23 patients and they show highly significant (p<0.001) elevations when moderate drinkers were compared with heavy drinkers. Page |9 Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (7 – 11) Discussion: In present study patients with liver diseases due to alcohol were compared with healthy controls. Their mean age, amount of alcohol and duration of consumption were determined. In this study the GGT, AST and ALT were significantly higher in chronic alcoholics when compared to healthy controls as well in heavy drinkers when compared to moderate drinkers. A similar change was also noted in cases of ratio of Aspartate aminotransferases and alanine aminotransferases. Alanine amino transferase (ALT) and aspartate amino transferase (AST) were present in high concentration in hepatocytes. These enzymes leak into the circulation when hepatocytes or their cell membranes are damaged. Although these aminotransferases are sensitive indicators of liver cell damage, neither alone is an ideal marker. The ratio of aspartate amino transferase (AST) to alanine amino transferase (ALT) in serum may help in the diagnosis of some liver diseases. The entire study groups showed a significant alteration in comparison to normal healthy individual (1.02±0.005). Deficiency of pyridoxal-5'-phosphate, a necessary coenzyme for both aminotransferases, is common in alcoholic liver disease. This deficiency decreases hepatic ALT to a greater extent than AST, with corresponding changes in serum concentration. Hence, the AST/ALT ratio is a good marker of ALD [8], [9]. This study shows that chronic intake of ethanol increases serum activities of enzymes originating from liver plasma membranes but has different effects on the enzyme activity in liver plasma membranes itself, suggesting that the alcohol mediated increase of serum activities of various enzymes originating from P a g e | 10 liver plasma membranes might be due to different mechanisms. In case of γGT, both moderate and heavy alcohol intake groups of alcoholic liver disease groups showed significantly higher activities than normal healthy volunteers. γglutamyltransferase (γGT) is a biliary canalicular enzyme, which is induced by alcohol, and serum levels also rise in response to acute hepatocellular damage. γGT characterizes chronic, long-term misuse of alcohol. Even significant difference was also observed between the moderate and heavy alcoholics. Experimental evidence present that the determination of γGT activity in serum is useful in the assessment of alcoholinduced liver disease. With several studies, serum γGT is the most sensitive, moderate specificity, most widely employed marker of alcohol consumption [10] Recently it has been suggested that subjects with very high γGT seem to demonstrate a more intense vulnerability to alcohol, a characteristic that appears to be stable over time [11]. Thus in the present study, moderately high level of γGT in Moderate group of alcoholics and very high levels of γGT in Heavy group of alcoholics indicating that these patients are consuming high amount of alcohol and they are really at the risk or suffering from liver disorders. Conclusion: While traditional markers of alcohol use GGT, AST, ALT have limited sensitivity and specificity, they remain useful adjuncts in the assessment and management of excessive drinkers. Their levels may indicate complications of drinking or concurrent conditions that may be affected by drinking. Monitoring γGT, ALP, AST and ALT in combination is a sensitive means of detecting Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (7 – 11) severity of alcohol induced liver damage further studies with a larger sample size, taking into account the type and dosage of the alcohol which is consumed and including alcoholics of both the sexes, with and without any pathological manifestations, are required. Detailed studies are needed before establishing GGT and AST/ALT ratio for its application in clinical medicine. concentrations of enzymes. Part 3. IFCC method for alanine aminotransferase. J Clin Chem Clin Biochem 18 : 521-534. Acknowledgement [8] Das SK, Nayak P, Vasudevan DM (2003) Biochemical markers of alcohol consumption. Ind J Clin Biochem. 18(2), 111-118 References: [9] Nalpas B, Vassault A, LeGuillou A et al (1984) Serum activity of mitochondrial aspartate amino transferase: a sensitivity marker of alcoholism with or without alcoholic hepatitis. Hepatology, 4, 893-896. [2] Das S.K. Dhanya L., Vasudevan, D.M. 2008; Biomarkers of alcoholism: an Update and review. Scan J Clin Lab Invest 68: 81-92. [10] Rosalki S (1984) Identifying the alcoholic. In Clinical Biochemistry of Alcoholism, (Ed. Rosalki S) Churchill, Livingstone, Edinburgh 6592. My special gratitude to Dr.B.K.Agrawal and Dr.Bhawna Bhimte for their support and believe in me. [1] Tolman KG, Rej R. Liver function. 1999 In: Burtis CA, Ashwood ER, editors. Tietz textbook of clinical chemistry. 3rd ed. Philadelphia (PA): Saunders; p. 1158-9. [3] Sharpe PC. 2001; Biochemical detection and monitoring of alcohol abuse and abstinence. Ann Clin Biochem 38: 652-664 [4] Friedel R, Diederichs F, Lindena J. 1979; Release and extracellular turnover of cellular enzyme. In: Advances in Clinical Enzymology (eds.Schmidt E, Schmidt FW, Trauschold I, et al), S.Karger: Munich, pp. 70-105. [7] Bergmeyer H, Bowers G, Horder M, 1977; Moss DW. IFCC methods for measurements of catalytic concentrations of enzymes. Part 2. IFCC method for aspartate aminotransferase. Clin Chem 23: 887-889. [11] Daeppen JB, Schoenfeld-Smith K, Smith TL, Schuckit MA. (1999) Characteristics of alcohol dependent subjects with very elevated levels of Gamma-Glutamyltransferase (GGT). J Stud Alcohol, 60(5), 589-594 [5] Scand J Clin Lab Invest 1976; Committee on enzymes of the Scandinavian society for clinical chemistry and clinical physiology. Recommended method for the determination of gamma-glutamyl transferase in blood. 36 ; 119-125. [6]. Bergmeyer HU, Horder M. 1980; IFCC methods for the measurement of catalytic P a g e | 11 Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (12 – 16) egkefr izk.kukFk dh loZ/keZ leUo; dh vo/kkj.kk t; izdk'k 'kkD;] izksQslj ,oa foHkkxk/;{k n'kZu'kkL= 'kkldh; egkjktk egkfo|ky; Nrjiqj¼e-iz-½ lkj la{ksi egkefr izk.kukFk }kjk izofrZr iz.kkeh /keZ esa loZ/keZ leUo; dh vo/kkj.kk Lohdkj dh x;h gSA iz.kkeh /keZ ewyr% Jh — ".k HkfDr ij vk/kkfjr gSA Hkxoku Jh—".k dk 11o"kZ 52 fnu dk ifo= Lo:i iz.kkeh /keZ esa iwT; o vkjk/; gSA Jhjkt th ds lkFk Jh ';kek th gh czákRekvksa ds fy, loZLo gSaA cztjkl] egkjkl rFkk tkxuh jkl HkDrksa ds fy, v[k.M lq[k dk iznkrk gSA lalkj ds lHkh /keksZ dh ,drk iz.kkeh /keZ esa ns[kus dks feyrh gSA Jh—".k HkfDr dh ijEijk ij vk/kkfjr iz.kkeh /keZ fo'o ds lHkh /keZ] o.kksZ] oxksZa] tkfr;ksa ds euq"; ds fy, ije/kke dk }kj [kksyus dks rRij gSA fcuk HksnHkko ds lHkh yksx bl ekuo /keZ dk ykHk ys ldrs gSaA /keZ thou dk lafo/kku gS tks O;fDr ds O;fDrxr] lkekftd] uSfrd rFkk vk/;kfRed drZO;ksa dh O;k[;k djds drZO; ikyu ds fy;s izsfjr djrk gSA oLrqr%] /keZ uhfr] fu;eksa dk voyEcu O;fDrRo dk fodkl] pfj=&fueZk.k ftlesa Je 'khyrk] ferO;rk] le>nkjh] ftEesnkjh] bZekunkjh vkfn tks ekuo xfjek ds vuqdwy drZO; gSa] mu lcdk leUo; gSA egkefr izk.kukFk us lalkj ds leLr /keksZ ds chap leUo; djds LFkkfir fd;k fd lHkh /keZ vUrr% thou ds vafUre y{; ije/kke ,oa ijekRek rd ys tkrs gSaA ifjp; egkefr izk.kukFk ds iz.kkeh /keZ dk vk/kkj rkjre ok.kh gSA rkjreok.kh dks rkjrelkxj] dqytel:i] Jheq[k ok.kh Lo:i lkgc vkSj izk.kukFk ok.kh ds ukeksa ls lHkh tkuk tkrk gSA leLr /keksZ dk vk/;kfRed fpUru egkefr izk.kukFk dh ok.kh esa vorfjr gqvk gSA Kku dk egklkxj gS dqytel:iA egkefr dk /kkfeZd vk/kkj rdZ laxr lR;kuqHkwfr ij vk/kkfjr gSA egkefr dh ok.kh esa fo'o ds lHkh /keksZ dk lkj lek;k gqvk gSA mUgksua s izkphu vkSj vokZphu] Hkkjrh; ,oa ik'pkR;] laklfjd ,oa vk/;kfRed] uSfrd ,oa /kkfeZd ekU;rkvksa dk leUo; ,oa lkeatL; rkjre ok.kh esa fd;k gSA osn vkSj drsc xzaFkksa dk leUo; djds mudh Js"B ekU;rkvksa dks rkjreok.kh esa izdV fd;kA os dgrs gSa & egkefr izk.kukFk iz.kkeh /keZ ds izorZd FksA os bls fo'o /keZ ds :i esa izfrf"Br dju pkgrs Fks] blfy, mUgksaus osn] mifu"kn] xhrk ij vkfJr fgUnw /keZ] dqjku ij vkfJr bLyke] ewlk iSxEcj dk tacwj] nkÅn iSxEcj dk rkSjsr] bZlk iSxEcj dk ckbfcy vkfn dk lefUor :i tu lkekU; ds le{k j[kk vkSj ?kksf"kr fd;k fd & ** osn drsc ,d crkogha] ij ik;s u dksbZ foosdA tks dqN dg;k drsc us lksbZ dg;k osnAA**2 ext ek;us tkgsj fd,] ekgsa xq> grs tks cksyAA egkefr izk.kukFk ds /keZ dk iz;kstu Fkk lR; dk lk{kkRdkjA oLrqr% fo'o ds lHkh /keksZ dk iz;kstu lq[ke; lalkj dh jpuk gSA tgk¡ ekuo laklfjd yksd O;ogkj esa jgdj eqfDr dk ekxZ iz'kLr dj ldsaA iz.kkeh /keZ Hkh *lq[k'khry d:¡ lalkj* ds egku mn~ns'; dks ysdj ekuo ek= dk dY;k.k djuk pkgrk gSA egkefr Lo;a dgrs gSa& vathj] tacwj] rkSjsr] pkSFkh tks QqjkdkuA **djuk lkjk ,d jl] fgUnq eqlyekuA ,d ek;us ext xq> Fks] tks tkgsj fd;s c[kkuAA**1 /kks[kk lcdk Hkku ds] dgw¡xh lcdk KkuAA**3 egkefr izk.kukFk rkjre ok.kh ds }kjk ekuo ,drk LFkkfir djuk pkgrs FksA os dgrs gSa & bl izdkj Hkkjrh; euhf"k;ksa us lR; dk lk{kkRdkj loksZifj ekuk gSA osnksa dk lkj lR; gSA ;K] nku] ri] bfUnz; la;e] osn osnakx] czáp;Z vkfn lHkh lk/kukvksa dh tM+ esa lR; izfrf"Br gSA osn ls ysdj osnkUr rd] vkfLrd ls ysdj ukfLrd rd] xzgLFk ls ysdj lar rd] Kkuh ls ysdj HkfDr ,oa deZekxhZ rd lHkh lR; ds iFk dks Js;Ldj ekurs gSaA oLrqr% vk/;kfRed vuqHkwfr;ksa dks **osnkUr] xhrk Hkxor] nS;ak blkjrak lc [kksyA **, ckuh rks d:¡ tkgsj] tks djuk lcksa ,d jlA** bl izdkj izk.kukFk th ds iz.kkeh /keZ dk vk/kkj dqytel:i ;k rkjreok.kh gSA loZ/keZ leUo; dh vo/kkj.kk %& P a g e | 12 Corresponding Author : email : International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (12 – 16) izkIr djus dh dksbZ mez ugha gksrh vkSj vk/;kfRed Kku ds foLrkj dh dksbZ lhek ugha gksrhA lR; /kehZ _f"k;ksa us Hkkjr esa vius vk/;kfRed fpUru esa lR; dks lnSo loksZifj ekukA egkefr izk.kukFk us viuh ok.kh esa lR; dks izfrf"Br djrs gq, dgk gS fd & egkefr izk.kukFk okãMEcj djus okyksa dks QVdkjrs gq, dgrs gSa& **lR; ozr /kkj.klqa ikfy,] ftgak yxs ÅHkh nsgA vLuku djh Nk;k fryd] nsvks daB vkjksiks rqylhekyA vusd fo/ku iM+s tks ekFks] rksgs u ewfd, lusgAA*4 fxukuh dgkos lk/k eaMyh] i.k pkyks Nks dsgh pkyAA**8 vFkZkr~ ftlus lR;ozr /kkj.k djus dk ladYi fd;k gks rks 'kjhj esa izk.k jgus rd mls n`<+rkiwoZd fuHkkuk pkfg,A vusd foa/u ck/kk,a vkus ij Hkh lR; ds izfr izse ugha NksM+uk pkfg,A vFkZkr~ ek= vkMEcjh os'k /kkj.k djds txnh'oj dks Bxuk pkgrs gks ijUrq og dSls Bxk tk ldrk gS \ tks nwljksa dks Qlkus ds fy, tky QSykrs gSa os Lo;a tky esa Ql tkrs gSaA Luku djds pUnu yxkrs gks vkSj rqylh dh ekyk /kkj.k djrs gks rFkk lk/kqvksa dh e.Myh esa Kkuh dgykrs gks] ijUrq ;g fopkj ugha djrs fd gekjk vkpj.k dSlk gks \ os vkxs dgrs gS fd & okákMEcj dk fojks/k % egkefr izk.kukFk us /keZ{ks= esa O;kIr ckáMEcjksa dk rhcz fojks/k fd;kA os okákMEcj dks dqdeZ ekurs gSaA os dgrs gSa & **nq"V FkbZ voxq.k djs] rs tS teiqjh jks,A i.k lk/k rbZ dqdje] rsuq Bke u ns[kwa dks,AA**5 vFkZkr tks yksx nq"V cudj voxq.k djrs gSa os jksrs gq, ;eiqjh ds n.M Hkksxrs gSa ijUrq tks lk/kq cudj dqdqeZ djrs gSa] muds fy, eq>s dgh Hkh fBdkuk utj ugha vkrk gSA egkefr us okáMEcjksa dk fojks/k fd;k D;ksafd buls lk/kq vkSj vlk/kq esa Hksn ugha gks ikrk gSA os viuh ok.kh esa dgrs gSa & **Øks/k vgaeso les ugha] vus os"k /kjks Nks lk/kA yksHk yT;k uesa ugha] eakgs eksVh rs , ozk/kAA mRre dgkoks vkius] vus uke /kjkoks lkFkA lkFk eY;ks uo vksy[kks] ekgsa voxq.k , vxk/kAA**6 vFkZkr Øks/k vkSj vgadkj rqEgkjs vanj lek ugha jgs gS rFkk lk/kqos'k /kkj.k fd;k gSA yksHk vkSj eku e;kZnk ds dkj.k fouezrk ugha vkrh] rqEgkjs vanj ;gh egkjksx gSA Lo;a dks Js"B dgykus ds fy, rqeus lk/kqos'k /kkj.k fd;k gS fdUrq dksbZ lPpk lk/kq fey tk;s rks mls ifgpkurs ugha gks] ;gh rqEgkjs vanj cM+k voxq.k gSA egkefr *[kqyklk* esa dgrs gSa fd & **lks igspku D;ksa dj lds] tks idM+s iqy ljkrA NksM+s uk otwn uklwrh] tku cw> ds dVkrAA*7 vFkZkr tks yksx deZdk.M dks gh /keZ ekxZ le>dj mlh dk vuqlj.k djrs gSa ,oa feF;k nsgkfHkeku dks ugha NksM+rsA os czãkRekvksa rFkk ijeczãk ijekRek dks dSls ifgpku ldsaxsA os tkucw>dj ujdxkeh gksrs gSaA P a g e | 13 **Nsrjok ghMks Nks txnhlus] rs Nsrj;ak dse djh tk,A ikl chtk us eakfM,] tbZ vkisuqa ca/kk,AA **os"k mRre res ?kjks] i.k ekgyks rs esy u /kqvksA iaFk djks Nks dsgh Hkkseuks] fjns vk¡[k m/kkM+h uo tqvksAA eu esyka /kqvks ugha] vus mtyk djks vkdkjA vkdkj frgak pkys ugha] pkgs fujey fujkdkjAA**9 vFkZkr~ vkMEcj fn[kkus ds fy, rqeus lk/kq dk os'k /kkj.k fd;k gS ijUrq vius vanj ds fodkjksa ds eSy dks ugha /kks;k gSA bl izdkj rqe fdl ekxZ ij pyrs gksA vius g`n; dh vak[k [kksydj rks ns[kksA eu dh eyhurk rks /kksrs ugha dsoy 'kjhj dks LoPN cukus dk iz;kl djrs jgrs gksA ;g 'kjhj rks izHkq ds /kke ugha tk;sxk ogWk¡ rks dsoy fueZy vkRek gh tk ldrh gSA vr% euq"; dks okáMEcjksa ls cprs gq, viuh vkRek dks fueZy vkSj fufoZdkjh cukuk pkfg;sA okâ;kMEcjksa ds dkj.k lalkj esa vKku dk va/kdkj Nk;k gqvk gS vkSj lPph lk/kq laxr NwV x;h gS os fy[krs gSa & **lr tksÅ larks r.kqa] vus lk/k r.kh fl/;kbZA okgsj psgsu djS dS lk/kd ekgs rs ekM;okbZAA pksdl fpr ds.kh isjs yk/ks] okgsj nms[kkMs vuarA rs ekVs vk dksgsMk va/ksj] ekjs tkbus] laxr lrAA**10 vFkZkr eSus lalkj ds larks] oSjkfx;ksa vkSj lk/kqvksa dh lk/kqrk dks ns[kk gS muesa vusd yksx okâ; vkMEcj iw.kZ HkfDr dk <ksax jpk jgs gSAa Hkhrj ls rks mudh fLFkfr HkkaMksa dh Hkakfr ek= Lokax jpk jgh gSA ,sls larksa ds ân; esa ,dkxzrk dSls vk;sxhA blfy, ;g lalkj dqfgj ds leku vKku :ih va/kdkj ls Hkjk gqvk gS ftlls lPps lk/kqvksa dk lRlax gh NwV x;k gSA bl izdkj egkefr izk.kukFk us viuh ok.kh esa okâ;kMEcjksa dh rhoz fuUnk dh gSA Corresponding Author : email : International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (12 – 16) egkefr izk.kukFk vkRek dh ifo=rk ij tksj nsrs gSa vkSj okâ;kpkj dk fojks/k djrs gSaA os dgrs gSa & **vUnj ukgha fujey] Qsj Qsj ugkos okgsjA dj ns[kkbZ dksV csj] rksgs u feyks djrkyAA dksV djks canxh] okgsj gks fujeyA rksyks u ihm ikb,] ikb, tksyksa uk lk/ks fnyAA** ;fn djksM+ksa ckj Luku fd;k tk, ijarq vkRek fueZy ugha gks rks Hkxon~ izkfIr ugha gks ldrh gSA lkEiznkf;drk dk [k.Mu % egkefr izk.kukFk us viuh ok.kh esa lkEiznkf;drk dk rhcz fojks/k djrs gq, lR; ekuo /keZ dh LFkkiuk dh gSA os ekurs gSa fd lkEiznkf;drk euq"; dks euq"; ls vyx djrh gS tcfd /keZ euq"; ;k lekt dks rksM+rk ugha cfYd tksM+rk gSA bl lalkj esa vusd iaFk lEiznk; gSA mudh jhfr&uhfr] os'kHkw"kk] Hkk"kk Hkh vyx gS fQj Hkh os lc ijekRek dks [kkst jgs gSaA ijekRek dh [kkst esa os vyx vyx gks x;s gSaA lc yksx vyx vyx jhfr&fjokt cukdj vkil esa yM+rs jgrs gSa rFkk Lo;a dks cM+k crkdj ikuh] iRFkj vkSj vkx dh iwtk djrs gSaA ;|fi nqfu;ak ds leLr /keZ lekurk] leHkko] ekr`Ro vkSj fo'o'kkfUr ds fy, iz;kljr gSaA ijUrq lHkh vius vius vuq;kf;k;ksa rd lhfer gS] vr% /keZ ds uke ij lkEiznkf;drk QSyrh tk jgh gSA /keZ ds uke ij jDrikr }s"k] ?k`.kk] cSj QSyrs tk jgsa gSA egkefr izk.kukFk us lkEiznkf;drk dk rhoz fojks/k fd;kA os /kekZU/krk dks /keZ dk lcls cM+k vfHk'kki ekurs gSa os dgrs gS fd fo'o ;q)ksa ds bfrgkl esa /keZ ds uke ij jDrikrksa dk bfrgkl yEck gSA egkefr dgrs gSa & lR; ;g gS fd [kqnk vkSj czá nksuksa ,d gSaA osn vkSj drsc ,d gh ijekRek dh lk{kh nsrs gSaA okLro esa fgUnw vkSj eqlyeku ,d gh [kqnk ds cUns gSA nksuksa dks >xM+us dh vko';drk ugh gS nkuksa dk y{; ,d gSA **tks dqN dg;k drsc us] lksbZ dg;k osnA nksÅ cUns ,d lkfgc ds] ij yM+r fcuk ik;s HksnAA**13 egkefr us fgUnw] eqlyeku] bZlkbZ] ;gqnh vkfn lEiznk;ksa esa O;kIr dqjhfr;ksa] va/k fo'oklksa ,oa :f<+;ksa dk fojks/k dj lefUor fopkj /kkjk dk leFkZu fd;kA izsey{k.kk HkfDr dh LFkkiuk %& egkefr izk.kukFk us ije/kke dh izkfIr ,oa /kke/kuh dh —ik izkfIr ds fy, Kku ;ksx] HkfDr;ksx] deZ;ksx] fu"dke deZ;ksx ds LFkku ij izse y{k.kk HkfDr dks egRo fn;k gSA uo/kk HkfDr ls Hkh Js"B izsey{k.kk HkfDr dks ije/kke rd igqapus dk ekxZ crk;k gS] egkefr izk.kukFk ekurs Fks fd izse ls c<dj lalkj esa dqN ugha gSA *fdjUru* esa dgrs gSa & **,gh lcn ,d vouh esa] ugha dksbZ usg lekukA dgyk;s Fksa & izse en p<+us ds dkj.k izk.kukFk egker **en p<;ks egker HkbZ] ns[kks ;s eLrkbZ**14 egkefr izk.kukFk dgrs gSa fd izsey{k.kk HkfDr ds fcuk osn] egkHkkjr iqjk.k] dqjku ds xw<kFkksZ dks u le>us okys ds fy;s eq[kok.kh esa dgk x;k gS fd & **izses xe vxe dh djh] izse djh vy[k dh y[kA dgsa Jhegkefr izse leku] rqe nqtk ftu dksbZ tkuAA** egkefr izse dks loksZifj ekurs gSa izse ds vfrfjDr lHkh lk/kuk i)fr;Wk O;FkZ gSa & **vc NksM+k js eku xqeku Kku dks] ,gh [kkM+ cM+h gS HkkbZA ,d Mkjh R;ks nqth Hkh Mkjks] tyk, nsvks prqjkbZAA**11 **b'd cM+k js lcu esa u dksbZ b'd lekuA vius vius /keZ dk eku xqeku NksM+dj lHkh ds izfr lerkHkkouk vkSj ln~Hkkouk j[kksA /keksZ dk feF;kfHkeku ,oa esjk /keZ gh loZJs"B ekuus ls leHkko dh txg Vdjko mRiUu gksrk gSA vr% vkt lkEiznkf;drk ds LFkku ij lR;/keZ LFkkfir gksuk pkfg;sA egkefr us viuh ok.kh esa dgk gS & ,d rsjs b'd fcuk] mM xbZ lc tgkuAA**15 **uke lkjksa tqnk /kjS ybZ lcksa tqnh jleA **uo/kk ls U;kjk dg;k] pkSns Hkou esa ughaA lcesa mer vkSj nqfu;ak] lksbZ [kqnk lksbZ czáAA**12 lks izse dgka ls ikb;s] tks clr xksfidk ekghaAA**16 vFkZkr~ fofHkUu lEiznk; ds vuq;kf;;ksa us ijekRek dks vyx vyx ukeksa ls iqdkjk gS rFkk mldh izkfIr ds fy, vyx vyx lk/kuk i)fr;ka xzg.k dh gS] izse gh vkRek dks fueZy djrk gSA izse gh vkpj.k dks Js"B cukrk gSA P a g e | 14 MWk- deykoUrh 'kekZ us fy[kk gS fd izk.kukFk th ds vuqlkj iq"V] izokg vkSj e;kZnk ekxZ rks vU; l`f"V;ksa ds fy, gSA ije/kke dh czã l`f"V;ksa ds fy, rks ldke vkSj fu"dke HkfDr ls ijs rqfj;krhr voLFkk esa xksihHkko ;qDr ijkizsey{k.kk HkfDr gh dgha tk ldrh gSA Corresponding Author : email : International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (12 – 16) egkefr *fdjUru* esa dgrs gSa fd & **lc tkrsa uke tqns /kjs vkSj lcdk [kkcan ,dA **mRiUu izse ikjczá lax] okdks lqiuk gks x;ks lkdkjA lcdks canxh ;kgh dh] ihNs yM+s fcuk ik, foosdAA**21 izse fcuk lq[k ikj dks ugha] tks rqe vusd jks vkpkjAA Nfd;ks lkFk izse jl ekuks] NMwVs vax fodkjA **uke lkjksa tqns /kjs] ybZ lcksa tqnh jleA ij vkre varLdju miT;ks] [ksys lax vk/kkjAA**17 egkefr izk.kukFk Lohdkj djrs gSa fd dqjku vkSj iqjk.k esa ,d gh lR;/keZ ds n'kZu gksrs gSaA mUgkasus dgk gS fd & izk.kukFk th ds vuqlkj izse gh ije/kke dk }kj gSA rkjreok.kh esa izse dks ije/kke dh izkfIr dk loksZPp lk/ku ekuk x;k gSA egkefr izk.kukFk us izse dh vo/kkj.kk dk izlkj u dsoy tho/kkfj;ksa rd fd;k cfYd ouLifr txr izse dk izlkj.k fd;kA blfy, os lnk loZnk lHkh dks 'khry uSu ,oa ehBs cSu ls vkReor~ cukuk pkgrs gSaA *dy'k* esa os dgrs gSa & **nq%[k u nsÅa Qwy ik¡[kqM+h] ns[kw¡ 'khry uSuA mitkÅ lq[k lcksa vaxks] cksykÅ ehBs cSuAA**18 egkefr izk.kukFk izse dks ijekRek ekurs Fks os dgrs gSa fd & lcesa mer vkSj nqfu;ka lksbZ [qknk lksbZ czáAA**22 **tqns tqns uke xkogha] tqns tqns Hks[k vusdA ftu dkbZ >xM+ks vkiesa] /kuh lcksa dk ,dAA vFkZkr euq"; fHkUu&fHkUu ukeksa ls ,d gh iw.kZ czá ijekRek ds xq.k xkrs gSa] mUgksaus viuh os'kHkw"kk Hkh vyx vyx cukbZ gS] ijLij >xM+k er djks] ijekRek lcdk ,d gS A lalkj ds lHkh /keZ ,d gh ijekRek rd igqapus esa vyx vyx ekxZ gSaA egkefr izk.kukFk mn~ns'; lHkh /keksZ dk lkjrRo tulekU; ds le{k ykuk Fkk os viuh ok.kh esa dgrs gSa fd & **djuk lkjk ,d jl] fgUnq eqlyekuA *izse czá nksÅ ,d gS*19 /kks[kk lcdk eku ds] dgw¡xh lcdk Kku**23 izse ds fy, pkSng Hkqou ,oa ije/kke esa dksbZ vojks/k ugha gS & **czká.k dgs ge mRre] eqlyeku dgs ge ikdA **izse [kksy nsos lc }kj] ikj ds ikj tks ikjA**20 [kqyklk os Li"Vhdj.k djrs gq, dgrs gSa fd & **iaFk gksos dksV dyi] izse iksgksapkos feus iydA **yksd pkSns dgs osn us] lksbZ drsc pkSns rcdA tc vkre izse ls ykxh] n`f"V rcgha vUrj tkxhAA** osn dgsa czá ,d gS] drsc dgsa ,d gdAA**25 egkefr ekurs gSa fd izse ls gh ijekRek dh izkfIr gks ldrh gs os *izdk'k* xzFa k esa fy[krs gSa fd& *rqe izse lsok,a ikvksxs ikj] , opu /kuh dgs fuj/kkjA Li"V gS fd egkefr izk.kukFk us izse dks thou dk vk/kkj ekuk gS rks ije/kke dk ekxZ Hkh izse dk ekxZ ekuk gS vkSj ije/kke dk }kj HkhA oLrqr% os izse vkSj Kku dh ewfrZ FksA dgk x;k gS fd &iwju czá izxV Hk;s] izse lfgr yS KkuA* loZ/keZ leUo; % egkefr izk.kukFk us viuh ok.kh esa loZ/keZ leUo; dh vo/kkj.kk dks viuk;k gSA mUgksua s ekuk gS fd & *ikjczá iwju rks ,d gS* blh rRoKku ds vk/kkj ij mUgksusa loZ/keZleUo; dh vo/kkj.kk dks viuk;k gSA mudh loZ/keZ leUo; dh vo/kkj.kk *[kqyklk* xzaFk esa eq[kfjr gqbZA os dgrs gSa fd & P a g e | 15 nksm eqV~Bh ,d Bksj dh] ,d jk[k nwth [kkdAA**24 izk.kukFk ?kksf"kr djrs gSa & **tks dqN dg;k drsc us] lksbZ dg;k osnA nksm cans ,d lkgsc ds ij yM+r fcuk ik;s HksnAA**26 egkefr izk.kukFk dh ok.kh esa /keZ ds izfr mudk y{; Li"V FkkA mudk y{; fgUnq] eqlyeku] bZlkbZ] ;gqnh vkfn lHkh /kekZoyfEc;ksa ds chp vkilh HksnHkko feVkdj /kkfeZd ,drk LFkkfir djuk FkkA os lalkj ds chp fofHkUu /keksZ ds Js"B rRoksa dks ,dlkFk ykuk pkgrs FksA izksQslj gjsUnz izlkn oekZ us fy[kk gS fd **/keZ ds {ks= esa tks vKku] va/kfo'okl vkSj my>u Fkh] mls nwj fd;kA lPph /keZHkkouk vkSj vkUrfjdrk ds LFkku ij deZdk.M dh iz/kkurk Fkh] mudh fujFkZdrk trkbZ vkSj 'kjh;r ds LFku ij gdhdr] ekjQr vkfn dks izdkf'kr fd;kA mUgksaus vuqHko ds vk/kkj ,d fo'otuhu n'kZu fn;k tks fo'o/keZ cu ldsaA** egkefr izk.kukFk iwjs fo'o dks 'kkfUr vkSj vkuan fnykuk pkgrs Fks] blfy;s mUgksaus *lq[k 'khry d:¡ lalkj* dh vo/kkj.kk ij iz.kkeh /keZ dks LFkkfir Corresponding Author : email : International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (12 – 16) fd;kA mUgksaus fofHkUu /keksZ esa O;kIr vgadkj vkSj vKku dks rkjreKku ds }kjk nwj djus dk lkFkZd iz;Ru fd;kA os ekurs Fks fd lHkh /keZ ijekRek] izse vkSj ije/kke dh vksj ladsr djrs gSa rkjreKku }kjk gh ijekRek] izse vkSj ije/kke rd thokRek ¼tho½ igq¡p ldrk gSA 9- fdjUru izdj.k 128 pkSikbZ 13&14 10- fdjUru izdj.k 128 pkSikbZ 15&16 11- fdjUru izdj.k 5 pkSikbZ 6 12- [kqyklk izdj.k 12 pkSikbZ 38 fu"d"kZ & fu"d"kZr% ge dg ldrs gS fd egkefr izk.kukFk us rRdkyhu le; esa O;kIr /kkfeZd fo}s"kksa dks lekIr djds ,d lefUor iz.kkeh /keZ dh LFkkiuk dhA ,d ,slk /keZ tgak fo'o ds lHkh /kekZuq;k;h vius /keZ ds okLrfod Lo:i dk n'kZu dj ldsa vkSj vius /keZ ds lkFk vU; /keksZ dh okLrfodrkvksa dk Kku izkIr dj lR;/keZ dk vkpj.k dj ldsaA egkefr izk.kukFk us viuh ok.kh es Li"V fd;k gS fd & 13- [kqyklk izdj.k 12 pkSikbZ 42 14- fdjUru izdj.k 83 pkSikbZ 1 15- dy'k fgUnqLrkuh & 16- ifjØek & 17- fdjUru izdj.k 81 pkSikbZ 6 18- dy'k izdj.k 23 pkSikbZ 4 19- ifjØek izdj.k 39 pkSikbZ 10 20- ifjØek izdj.k 1 pkSikbZ 24 21- [kqyklk izdj.k 1 pkSikbZ 22 22- [kqyklk izdj.k 12 pkSikbZ 38 23- lua/k izdj.k 40 pkSikbZ 43 24- lua/k izdj.k 40 pkSikbZ 42 25- [kqyklk izdj.k 12 pkSikbZ 29 26- [kqyklk izdj.k 12 pkSikbZ 42 **dqjku iqjku osn drscksa] fd;s vFkZ lc fuj/kkjA Vkyh mj>u yksd pkSns dh] ewy dk<+;ks eksg vgadkjAA** ,d l`f"V /kuh Hktu ,dS] ,d xku ,d vgadkjA NksM+ ds oSj feys lc I;kj lks] Hk;k ldy esa tS tS dkjAA** oLrqr% izk.kukFk th dk leUo; oknh n`f"Vdks.k gh loZ/keZ leUo; dh vo/kkj.kk fodflr djus esa lgk;d fl) gqvkA /keZ leUo; dh Hkko Hkwfe ij izfrf"Br gS] iz.kkeh /keZA iz.kkeh /keZ ,d ,slk fo'o/keZ gS tgak leLr /keZ viuh iwjh izfr"Bk ds lkFk la;qDr gks tkrs gSa vkSj vius fl)akrksa ls vkxs ekuo dks ije/kke rd ys tkrk gS] tgak vkt rd dksbZ /keZ ugha ys tk ldkA ogWk thokRek ijekRek dk n'kZu dj v[k.M lq[k dk vuqHko djrh gSA iz.kkeh /keZ fo'o fgrdj /keZ gS blesa u dsoy ekuo dY;k.k dk Hkko gS cfYd i'kq if{k;ksa ,oa ouLifr txr rd egkd:.kk dk izlkj gksrk gSA laiw.kZ pj&vpj txr ;gk¡ v[k.M lq[k izkfIr dk ekxZ iz'kLr djrk gSA loZtu fgrk;&loZtu lq[kk; dh vo/kkj.kk ;gk¡ lkdkj gks mBrh gSA fo'odY;k.kkFkZ iz.kkeh /keZ ;qx&;qxksa rd lalkj esa izfrf"Br jgsxh vkSj ekuork dk iFk izn'kZu djrk jgsxkA ladsrk{kj & 1- [kqyklk izdj.k 13 pkSikbZ 96&97 2- [kqyklk izdj.k 12 pkSikbZ 41 3- luan izdj.k 3 pkSikbZ 3 4- fdjUru izdj.k 126 pkSikbZ 29 5- fdjUru izdj.k 128 pkSikbZ 7 6- fdjUru izdj.k 128 pkSikbZ 8&9 7- [kqyk'kk izdj.k 2 pkSikbZ 51 8- fdjUru izdj.k 128 pkSikbZ 11&12 P a g e | 16 Corresponding Author : email : International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (17 – 19) MkW uxsUnz dh leh{kk i)fr ehuw prqosZnh] 'kkldh; foKku ,oa okf.kT; egkfo|ky;] csut+hj] Hkksiky lkj la{ksi MkW- uxsUnz us fgUnh vkykspuk dks O;kogkfjd ,oa lS)kfUrd nksuksa n`f"V;ksa ls laof)Zr fd;k gSA os jloknh vkykspd gSA bl fl)kUr esa jl dh lkaxksikax foospuk djrs gq, bUgksaus bls iqu% izfrf"Br djus dk iz;kl fd;k gSA fdUrq laLd`r dkO;'kkL= esa foosfpr jl dks T;ksa dk R;ksa Lohdkj ugha fd;k vfirq mlds foospu esa euksfoKku dh iwjh lgk;rk yh gSA lk/kkj.khdj.k ds laca/k esa buds fl)kUr fopkj.kh; gSaA buds fopkj ls lk/kkj.khdj.k dfor dh viuh vuqHkwfr dk gksrk gS vFkkZr~ tc dksbZ O;fDr viuh vuqHkwfr dks bl izdkj vfHkO;Dr dj lds fd og lHkh ds ân;ksa esa leku vuqHkwfr txk ldsA ;gh lk/kkj.khdj.k gSA ifjHkk"k;d lk/kkj.khdj.k dk vFkZ gS Hkk"kk dk HkkoHk; iz;ksxA 'kCnkoyh esa os vkuUn dks gh dkO; dk vkR;kafrd iz;kstu ekurs gSA Nk;kokn] izxfrokn o iz;ksxokn ij Hkh buds fopkj dsUnz lqO;ofLFkr larqfyr ,oa ekSfyd <ax ls izkIr gksrs gSA dfo dh vkykspuk djrs le; muds Hkkotxr] mudh fopkj/kkjk] mudh dyk vkSj mu ij iM+us okys ckg~; izHkko dh Hkh ppkZ djrs gSaA Hkk"kk dh ljy vyadkfjrk mudh viuh fo'ks"krk jgh gSA fDy"V laLd`rHkk"kk ds os dHkh fgek;rh ugha jgsA i)fr fgUnh ds vk/kqfud vkykspdksa esa MkW- uxsUnz dk fof'k"B LFkku gS budh rhu vkykspukRed d`fr;ka igys izdkf'kr gqbZA 1 lqfe=k uUnu iar 1938 2 lkdsfrd v/;;u 1940 3 vk/kqfud fgUnh ukVd igyh iqLrd dk ikBdksa ,oa vkykspdks ds chp [kwc Lokxr gqvkA ;s vaxzsth ds Js"B vkykspdks dh d`fr;ks ls [kwc izHkkfor Fks vkSj bu d`fr;ksa dh rjg gh ;s mPp Lrjh; leh{kk iqLrd izLrqr djuk pkgrs FksA ^lkdsr ,d v/;;u^ ij bl eukso`fRr dk Li"V izHkko ns[kk tk ldrk gSA vk/kqfud fgUnh ukVd esa buds vkykspd Lo:i us ,d u;k eksM+ fy;k vkSj ;s ÝkW;Mh euksfoKku ds {ks= esa vk x,A bUgksaus ÝkW;M ds euks fo'ys"k.k ds vk/kkj ij ukVd o ukVddkjksa dh vkykspuk,a fy[kh] ckn esa Øksps vkfn ds v/;;u ds QyLo:i budk >qdko 'kS)kfrd vkykspuk dh vksj gqvkA jhfr dkO; dh Hkwfedk rFkk nso vkSj mudh dfork ds Hkwfedk Hkkx esa Hkkjrh; dkO;'kkL= esa fopkj fd;k x;k gSA ftlesa muds euksfo'ys"k.k 'kkL= ds v/;;u esa dkQh lgk;rk feyh gSA dkO; 'kkL= fl)karksa dh ftruh lqUnj vkSj rdZ laxr O;k[;k,a MkWa- uxsUnz us dh gSa] vkpk;Z 'kqDy ds ckn fdlh vkykspd us oSlk ugha fd;kA dkO; 'kkL= ds izfr mudh fo'ks"k :fp gS vkSj budk xgu v/;;u gSA bl lac/k esa bUgksaus vius furkar ekSfyd fu"d"kZ fudkys gSaA jl fu"ifRr ds lac/k esa MkW- uxsUnz ds fu"d"kZ cgqr ljy fdUrq vR;ar egRoiw.kZ gSaA bUgksaus Lohdkj fd;k gSA fd jl loZFkk fo"k;hxr gSA lgzn; dh vkRek esa gh mldh fLFkfr gS oLrq esa ugha A oLrq rks dsoy mldks mn~Hkqr djrh gSA dkO; ds vkLoknu esa gekjs lkeus ewyr% rhu laKk,a vkrh gSaA dfo] P a g e | 17 oLrq vkSj lgzn;A dfo og O;fDr gS tks viuh vuqHkwfr dks laosn~; cukrk gS] ijUrq rRor% mldh vuqHkwrh gS o lgzn; og O;fDr gS tks dfo dh bl laosn~; vuqHkwfr dks xzg.k djrk gSA MkW- uxsUnz us blhfy, vfHkuo xqIr ds fl)kar dks iw.kZ ekuk gSA vfHkuo xqIr us dgk Fkk ^^ ekuo vkRek lkLor gS lHkh vkRekvksa esa fo'ks"kdj lgzn; dh vkRek esa LoHkkx ls gh lkalkfjd vuqHko iwoZtU; vFkok iBu ikBu ds QyLo:i dqN ewyxr okluk,a laLdkj :i esa fLFkr jgrh gSa^^ ;s okluk,a gh ikfjHkkf"kd 'kCnkoyh esa LFkkbZ Hkko dgykrh gSaA foHkko] vuqHkko] lapkjh Hkko ds dqy izn'kZu ls ;s xqIr okluk,a ;k LFkkbZ Hkko gh mn~Hkqr gksdj jl :i esa ifjf.kr gks tkrs gSaA lk/kkj.khdj.k ds laca/k eas Hkh Mk- uxsUnz ds fl)kar fopkj.kh; gSA buds fopkj ls lk/kkj.kh; dj.k dfo dh viuh vuqHkwfr dk gksrk gS vFkkZr tc dksbZ O;fDr viuh vuqHkwfr dks bl izdkj vfHkO;Dr dj ldrk gS fd og lHkh ds gzn;ksa esa leku vuqHkwfr txk lds rks ikfjHkkf"kd 'kCnkoyh esa ge dg ldrs gSaA fd mlesa lk/kkj.khdj.k dh 'kfDr fon~;eku gSA vuqHkwfr lHkh esa gksrh gSA lHkh O;fDr mls ;r fdafpr vfHkO;Dr Hkh dj ysrs gSA ijUrq lk/kkj.khdj.k djus dh 'kfDr lc esa ugha gksrh gSA blfy, rks vuqHkwfr vkSj vfHkO;fDr ds gksrs gq, Hkh lc dfo ugha gksrsA lk/kkj.kh;dj.k dk dkj.k gS Hkk"kk dk Hkkoe; iz;ksxA Hkk"kk dk Hkkoe; iz;ksx iz;ksDrk dh viuh Hkko'kfDr ij fuHkZj djrk gS vkSj iz;ksDrk ds Hkkoksa ds laosnu dk vk/kkj gS ekuo lqyHk lgkuqHkwfrA lk/kkj.kh;dj.k dh fo'ks"k 'kfDr mlh O;fdr esa gksxh ftldh Hkko 'kfDr fo'ks"k :i ls le`) gksA ftldh vuqHkwfr;ka fo'ks"k :i ls ltx gksA ,slk gh O;fDr Hkk"kk dk Hkko e; iz;ksx dj ldrk gS vFkkZr vius le`) Hkkoksa ds cy ij og muds izrhdksa dks lgt gh ,lh 'kfDr iznku dj ldrk gSS fd os nwljksa ds gzn; esa Hkh Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (17 – 19) leku Hkko txk ldsaA ,lk gh O;fDr dfo gSALi"V gS fd MkW uxsUnz us vius bu fl)karks dks ik'pkR; vkSj lLd`r dkO; 'kkL=h fl)karksa ds ijLij leUo; ls vius fu"d"kksZa dks fudkydj budk laca/k euksfoKku ls LFkkfir fd;kA dkO; ds iz;kstu ds laca/k esa budk fuHkkZUr er gS fd bldk iz;kstu vkuan gSA iz;kstu dh LFkwyrk vkSj lw{erk dh ckr vo'; mBrh gSA /ku] ;'k] izpkj ;s lc LFkwy iz;kstu gSaA MkW uxsUnz dkO; ds lanHkZ esa bUgsa egRo ugha nsrsA os vkuan dks gh dkO; dk vkR;kafrd iz;kstu Lohdkj djrs gSA vkuan ds lekukUrj os yksd dY;k.k ,oa psruk ds laLdkj bu nks iz;kstuksa dks gh fopkj.kh; ekurs gSA dkO; ds rhu rRoksa Hkko] dYiuk o cqf) esa MkW uxsUnz Hkko dks gh egRoiw.kZ ekurs gSaA blh ds lkFk ewY; dk iz'u Hkh tqM+k gqvk gSA dkO; ds lanHkZ esa uSfrd vkSj lkekftd ewY;ksa dk iz'u Hkh mBk;k tkrk gSA MkW uxsUnz budk egRo rks Lohdkj djrs gSa fdUrq mUgsa ekSSfyd ;k vkR;kafrd ugha ekurs A vk/kqfud lkfgR; ds lac/k es aHkh MkW uxsUn dh vkykspuk Js"B vk/kkj Hkwfe xzg.k djrh gSA budh igyh vkykspukRed iqLrd lqfe=kuUnu iar ij izdkf'kr gqbZ FkhA vk/kqfud dfork dh izeq[k izo`fRr;ksa ds lanHkZ esa buds fopkj cM+s lqO;ofLFkr ,oa larqfyr <+x ls izkir gksrs gSaA Nk;kokn ds laca/k esa budh /kkj.kk gSa fd Nk;kokn gh J`axkj ds izfr miHkksx dk Hkko u feydj fo"ke; dk Hkko feyrk gSA blhfy, mldh vfHkO;fDr Li"V vkSj eka'ky u gksdj dYiuke; ;k eukse; gSA Nk;kokn dk dfo izse dks 'kjhj dh Hkw[k u le>dj ,d jgL;e;h psruk le>rk gSA ukjh ds izfr mldk vkd"kZ.k uSfrd vkrad ls lgedj tSls ,d vLi"V dkSrqgy esa ifj.kr gks x;k gSA bl dkSrqgy esa Nk;kokn ds dfo vkSj ukjh ds O;fDrRo ds chp vusd js'keh f>yfey ijns Mky fn, gSaA vHkh rd flQZ bruk gh vkykspdks }kjk dgdj larks"k dj fy;k tkrk FkkA fd f}osnh ;qx dh bfr o`RrkRed dfork ds izfrfØ;k Lo:i Nk;kokn dk tUe gqvk FkkA ij Nk;k okn ds okLrfod Lo:i dks ifjHkk"kkvksa dh lhek esa cka/kdj Li"V djuk ,d dfBu dk;Z FkkA bl n`f"V ls Nk;kokn dh ;g ifjHkk"kk vius <+x dh fcydqy ubZ gSA blh izdkj izxfroknh dkO; ds lanHkZ esa MkW uxsUn dk dguk gS ^^ vkt dk izxfroknh ;k fo"k;karj ls vHkh Hkh dqaBk dk f'kdkj gS vFkkZr mldh Hkouk eu dh jkuh NksM+ etnwfju ds vaxks ls fyiVrh gS ;k og okluk ls yrir vfrjaftr ohHkRl fp= mifLFkr djrh gSA ¼ fopkj vkSj foospu ls mn`r½ MkW uxsUn us bl izdkj izksxokn dk tUe izxfrokn dh izfrfØ;k Lo:i ekuk gSA bUgksaus iz;ksxoknh dfork ds Hkkoi{k] dyki{k] dkO;kuqHkwfr dks vR;ar gYds Lrj dk Lohdkj fd;k gS vkSj mlesa vusd U;wurkvksa dks ik;k gSA iz;ksxoknh dfork dh fNNyh eukso`fRr vkSj fNnzk.kqos'ku dh P a g e | 18 izo`fRr dh bUgksaus dVq vkykspuk dh gSA MkW uxsUn dh bl vkykspuk ls fdlh dks vlgefr ugha gks ldh gSA O;kogkfjd leh{kk%MkW uxsUn dh vkykspuk i)fr dks vkpk;Z 'kqDy dh O;k[;kRed i)fr dk gh fodflr :i dgk tk ldrk gSA MkW uxsUn us viuh izFke d`fr lqfe=kuUnu iar ds izdk'ku ds lkFk gh fgUnh vkykspuk ds {ks= esa viuk xkSjoiw.kZ LFkku cuk fy;k FkkA blesa MkW lkgc us lcls igys Nk;kokn dh lhek vkSj egRrk dk fu/kkZj.k fd;k gSA blds ckn dfo iar ds Hkko txr] mudh fopkj /kkjk] mudh dyk vkSj mu ij iM+us okys ckg~; izHkko dh ppkZ dh gSA var esa dfo dh izR;sd jpuk dk Øec) v/;;u djus ds ckn milagkj :i esa mudh leLr fo'ks"krkvksa dk laf{kIr js[kkadu dj fn;k gSA rkRi;Z ;g gS fd MkW uxsUn fdlh Hkh dfo dh vkykspuk djrs le; mlds futh dkO; lkSn;Z dh ij[k ds lkFk Hkh lewps ifjos'k dh lanHkZxr fo'ks"krkvks ds ifjizs{; esa mldh laiw.kZ thou n`f"V ij fopkj djuk Hkh vko';d le>rs gSaA MkW uxsUn dh lcls cM+h fo'ks"krk Hkko xzkfgrk ,oa lkSan;Z fo/kk;d rRoksa dh lw{e igpku gSA ;s vkyksP; d`fr dh fo'ks"krkvks dks lgt gh xzg.k dj ysrs gSa vkSj fQj ,d ,d fo'ks"krk dks ysdj l mnkgj.k mldh O;k[;k djrs pyrs gSaA vc rd MkW uxsUn us nso] johUnzukFk VSxksj] jkepUnz 'kqDy] eSFkyh'kj.k xqIr] izlkn] iar] fujkyk] egknsoh oekZ] ckykd`".k 'kekZ uohu] fnudj] cPpu] vKs;] fxfjtk dqekj ekFkqj vkfn vusd dfo;ksa vkSj ys[kdksa dh vusd d`fr;ks dh O;kogkfjd leh{kk,a izLrqr dj pqds gSaA bu leh{kkvksa esa buds foosd 'kkL=] fu"Bk] Li"V okfnrk] Hkkoxzkfgrk] dykRedcks/k] vk'kk] ifj"dkj rFkk thou ds izfr ,d LoLFk lkSUn;Z n`f"V dk ifjp; feyrk gSA MkW uxsUn ds vkykspuk fl)kar esa tks ckr lcls vf/kd [kVdrh gS og gS budk miU;kl lezkV izsepUnz dks f}rh; Js.kh dk ys[kd Lohdkj djuk ¼ fopkj foospu i`"B&99½ ,slk izrhr gksrk gS fd ;k rks bUgkasus izsepUnz lkfgR; dk xgu v/;;u ugha fd;k o ;fn fd;k gS rks viuh /kkj.kkvksa dks dqN tYnh es fy[k x,A MkW uxsUn us fgUnh vkykspuk ds fodkl esa viuk egRoiw.kZ ;ksxnku iznku fd;k gSA buesa xgu fpUru gS] ekSfyd lw>cw> vkSj lkspus ,oa fu"d"kZ fudkyus dh viuh iz.kkyh gSA budk lS)kfrd i{k izks<+ o rdZ laxr gSA ik'pkR; vkSj Hkkjrh; dkO;'kkL= ds fl)karksa ds ryukRed v/;;u ,oa mudh euksfoKku dh dlkSVh ij ij[k dj tks fu"d"kZ fudkys gSa os vR;ar mPp dksfV ds 'kkL= laxr gSaA MkW uxsUn dh vkykspukRed 'kSyh esa ckSf/kdrk rFkk Hkkoqdrk dk viwoZ lekos'k gqvk gSA budh vkykspukRed 'kSyh izk;% leUo;kRed jgh gSA bUgksaus lkfgR; esa izpfyr izR;sd vfrokn dk fojks/k fd;k gSA fdlh dfo vFkok jpuk ds Hkko i{k ,oa dyk i{k dh 'kkL=h leh{kk djds gh mUgksaus larks"k ugha /kkj.k dj fy;k gSA jpuk ds iquZfuekZ.k ,oa U;wurkvksa ds izfr ekxZ fnXn'kZu mudh izeq[k fo'ks"krk gS tks jpukRed vkykspuk i)fr dk Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (17 – 19) gh ,d Lo:i gSA mudh Hkk"kk cM+h ltho vkSj lkQ gSA fDy"V laLd`r fu"V Hkk"kk ds os dHkh fge;rh ugha jgs gSaA Hkk"kk dh ljy vyadkfjdrk mudh viuh fo'ks"krk gSA ^^^^^^^^^^ lanHkZ xzaFk lwph % Hkkjrh; ,oa ik'pkR; dkO;'kkL= 1969 MkW- ns'kjkt flax HkkVh v'kksd izdk'ku fnYyh] i`"B la[;k 336 fgUnh lkfgR; dk bfrgkl & MkW- uxsUnz 1976 us'kuy ifCyflax gkml] i`"B la[;k 736 fopkj vkSj foospu & MkW- uxsUnz 1949] us’kuy ifCyf’kax gkml] fnYyh] i`"B la[;k 99 fgUnh lkfgR; dk bfrgkl & MkW jkepUnz 'kqDy 2053 laor] ukxjh izpkj.kh lHkk dk’kh] i`"B la[;k 389 &&&&&&&& P a g e | 19 Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (20 – 25) An investigation –The level of contamination caused by Heavy Metals in Drinking Water of Gandhi Nagar and Bairagarh Area of Bhopal with Environment and Human Health aspects. Santosh Ambhore 1, H.C. Kataria 2 1Department of Chemistry, Government Motilal Vigyan Mahavidalaya, Bhopal - 462 008, India. 2Department of Chemistry, Government Geetanjali Girls College, Bhopal - 462 038, India. ABSTRACT The term heavy metal refers to any metallic chemical element that has a relatively high density and is toxic or poisonous at low concentrations Heavy metals are natural components of the Earth's crust. They cannot be degraded or destroyed. Heavy metals are dangerous because they tend to bioaccumulate. Examples of heavy metals as include mercury (Hg), cadmium (Cd), arsenic (As), chromium (Cr), thallium (Tl), and lead (Pb).Contamination of heavy metals and its impact on human health discussed in the present paper. INTRODUCTION Heavy metals are metallic elements which have a high atomic weight and have much high density at least 5 times that of water. They are stable elements i.e. they cannot be metabolized by the body and bio-accumulative i.e. passed up the food chain to humans. They are highly toxic and can cause damaging effects even at very low concentrations. Increasing urbanization and industrialization have increased the levels of trace metals, especially heavy metals, in water ways. There are over 50 elements that can be classified as heavy metals, but only 17 that are considered to be both very toxic and relatively accessible. Mercury, lead, arsenic, cadmium, selenium, copper, zinc, nickel, and chromium should be given particular attention in terms of water pollution. Heavy metal toxicity has severe effect on our mental health, nervous system, kidneys, lungs and other organ functions. Surface water bodies get polluted due to urban sewage discharge. Bhopal the capital of Madhya Pradesh territory the largest state of india degree witnessed the world worst industrial disaster i.e. leakage of methyl isocyanate (MIC) gas from union carbide factory on December 3 rd ;1984 P a g e | 20 .Bhopal is situated on 23 16 minute N latitude and 77 degree25 minute E longitude and is located on “ Hard pink red sand stone of vindhyan region at 503 meters above the mean sea level (msl)according to meteorological department of india . Present district of Bhopal was carved out of Sehore district in 1972. Bhopal is the picturesque capital of Madhya Pradesh and known as “city of lakes”. Water is one of the very precious substances on the earth. it is very essential for the existence and survival of life. As population grows and their need for water increases, the pressure on our ground resources also increases . in many areas of the world ground water is now being over extracted, in some places massively so, the results is falling water levels and declining well yield ,land subsidence and ecological damage such as the drying out of wetlands. Material and Methods : Water samples of bore-wells are collected in 2 litre clean polythene jerry-cane after flushing the bore wells to analysis. The procedure has adopted as prescribed by APHA (1985), NEERI (1986), pre -sterilized bottles are used to collect samples. Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (20 – 25) Description of Sampling Sites 1. Christ Memorial Church 2. Sai-Tech Farm House 3. Viklang Aashram 4. Pardi Mohalla 5. Kailash Nagar 6. .Mathai Nagar 7. Gidwani park 8. Suvidh vihar colony 9. One Tree Hill Area. 10. Rishi vilas colony Water sample was collected from sampling stations .The heavy metals were preserved by adding 5 ml of 1N HNO3 in one litre of sample to maintain the pH below 4.04 The samples were then filtered through Whatmann filter paper No. 40 and the filtrate was directly used for analysis in the Atomic Absorption Spectrophotometer (Perkin Elmer Analyst 100). At the time of sampling the samples are acidified as per standard, international method reference given by APHA. Table 1 : The level of contamination caused by heavy metals in Drinking Water of Study area of Bhopal city 2010-2011 Parameter unit SS 1 SS 2 SS 3 SS 4 SS 5 SS 6 SS 7 SS 8 SS 9 SS 10 Iron(Fe) Mercury(Hg) ppm ppm ppm 0.09 0.009** 0.07 BDL* 0.24 0.008 1.05 BDL 1.01 0.009 1.08** 0.007 0.04 BDL 0.72 0.008 0.92 BDL 0.05** BDL* 0.09 0.01 0.04 0.01 0.1 0.21 0.03 0.02** 0.08 0.38** 0.01 0.01 0.07 0.24 BDL* 0.001 0.11** 0.22 0.05 BDL 0.04* 0.04 0.02 0.08 0.01 0.05 0.01 0.09 0.001 BDL BDL 0.07 0.01 0.01* 0.005 0.04 Arsenic(As) Cadmium(Cd) Lead(Pb) Copper(Cu) ppm ppm ppm SS1= Christ Memorial Church SS2=Sai-Tech Farm House SS3=Viklang Aashram SS4=Pardi Mohalla SS5=Kailash Nagar **=maximum value P a g e | 21 BDL* 0.003 0.08 BDL SS6=Mathai Nagar SS7=Gidwani park SS8= Suvidh vihar colony SS9=One Tree Hill Area. SS10=Rishi vilas colony *=minimum value Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (20 – 25) Results and Discussion : The analysis of water quality of the study area of Bhopal was carried out for heavy metals viz: Cu, Fe, Hg, Zn, As, Cd and Pb. These parameters are discussed below: Iron (Fe) : Iron may be present in varying amounts i.e from 0.5 ppm to 100 ppm in surface water. Iron was found in the range of 0.14 ppm to 0.50 ppm .which is well within the permissible limits as prescribed by ICMR WHO and BIS standards. iron was found mostly below detectable limit in drinking water of the study area as shown in table1. WHO (world health organisation ) highest desirable and maximum permissible limits are 0.1 and 1.0 ppm and MWH (ministry of works and housing )1975 acceptable and cause of rejection limits are 0.1 and 1.0 ppm . Deficiency of iron in human body causes anaemia. Iron (as Fe2+) concentrations of 40 µg/litre can be detected by taste in distilled water. In a mineralized spring water with a total dissolved solids content of 500 mg/litre, the taste threshold value was 0.12 mg/litre. In well-water, iron concentrations below 0.3 mg/litre were characterized as unnoticeable, whereas levels of 0.3–3 mg/litre were found acceptable (E.Dahi, personal communication, 1991). In drinking-water supplies, iron(II) salts are unstable and are precipitated as insoluble iron(III) hydroxide, which settles out as a rustcoloured silt. Mercury (Hg): Mercury has been well known as an environmental pollutant. Mercury is a liquid metal that is used in cell batteries, fluorescent lights, switches, and other control equipment. Excess mercury in water can lead to loss of muscle control, kidney disease and brain damage. There are two kinds of mercury. The simple one atom Hg is called "Inorganic Mercury". The other type of mercury is called P a g e | 22 "Organic Mercury”. The Organic mercury is 100 times more dangerous since it can easily penetrate cell walls and is easily absorbed in fatty tissues, nerve and brain cells. Elemental mercury is relatively inert in the gastrointestinal tract and also poorly absorbed through intact skin, but if inhaled or injected elemental mercury may have disastrous effects. Mercury was found below detectable limits in water of the study area . Mercury was found mostly below detectable limit in drinking water of the study area as shown in table1. WHO (world health organisation) highest desirable and maximum permissible limits are --- and 0.001 ppm and MWH (ministry of works and housing )1975 acceptable and cause of rejection limits are 0.001 and 0.001 ppm . Arsenic (As): The usual arsenic level in drinking water is about 0.002 ppm. However, in the present study arsenic was found below detectable limits in water of the study area of Bhopal .All types of arsenic exposure can cause kidney and liver damage, and in the most severe exposure there is erythrocyte haemolyses. During chronic intoxication "garlic breath", skin sensitivity, dermatitis, and keratitus occurs very frequently. The acute effect of arsenic poisoning by oral intake are intense abdominal pairs, nausea, vomiting, diarrhoea resulting from gastro-intestinal tract damage and all terminating in coma and death. Arsenic was found mostly below detectable limit in drinking water of the study area as shown in table1. WHO (world health organisation) highest desirable and maximum permissible limits are 0.05 and 0.05 ppm and MWH (ministry of works and housing )1975 acceptable and cause of rejection limits are 0.05 and 0.05ppm . Cadmium (Cd): Cadmium is highly toxic because of the absence of homeostatic control of this metal in the human body. When Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (20 – 25) excessive amount of cadmium is ingested, it replaces zinc at key sites and induces metabolic disorder. Cadmium was found below detectable limits in water of the study area. Cadmium was found mostly below detectable limit in drinking water of the study area as shown in table1. WHO (world health organisation) highest desirable and maximum permissible limits are ---- and 0.01ppm and MWH (ministry of works and housing )1975 acceptable and cause of rejection limits are 0.01 and 0.01ppm . Lead (Pb): Lead was found below detectable limits in water of the study area. In most individuals there is a "lead balance", that is one excretes as much as they take in. However an increase in the rate of intake will result in accumulation or a "positive lead balance". Since lead is chemically very similar to calcium, it is handled by the body as if it were calcium. Thus the first place to which it is transported is to the plasma and the membrane sites in soft tissues. It is then distributed to the other sites where calcium plays an important role, most notably in the teeth of developing children and in bone at all ages. Lead was found mostly below detectable limit in drinking water of the study area as shown in table1. WHO (world health organisation) highest desirable and maximum permissible limits are ---- and 0.10ppm and MWH (ministry of works and housing )1975 acceptable and cause of rejection limits are 0.10 and 0.10ppm . .Copper (Cu): Copper is one of the earliest known metals. ISI8 has prescribed the limit of copper is 0.05 ppm. In the present study the copper was found below detectable limit. Copper is essential components of key metalloenzyme that maintains the vascular and nervous system. P a g e | 23 Copper was found mostly below detectable limit in drinking water of the study area as shown in table1. WHO (world health organisation ) highest desirable and maximum permissible limits are 0.05 and 1.0 ppm and MWH (ministry of works and housing )1975 acceptable and cause of rejection limits are 0.05 and 1.0 ppm . The normal adult requires approximately 2 to 3 milligrams of copper per person per day. More than 90% of your dietary needs for copper is provided by food. Drinking water usually provides less than 10% of your daily copper intake. Consumption of high levels of copper can cause nausea, vomiting, diarrhoea, gastric complaints and headaches. Long term exposure over many months and years can cause liver damage and death. Normally less than 10% of your daily copper intake is through water consumption. Consumption of high levels of copper can cause nausea, vomiting, diarrhoea, gastric complaints and headaches. Conclusion : In the present study iron was found in the range of 0.14 ppm to 0.50 ppm which is well within the permissible limits as prescribed by WHO and BIS standards. Concentration of other metals like Cu, Hg, Zn, As, Cd and Pb was found below detectable limits. Hence the water of the study area is suitable for drinking purposes. The above findings are similar with those of kataria1995;2000;2004;2010, Anu upadhyaya, S.K. and Bajpai,A;2010, Sannasi,P.,Salmijah,S.;2011,Murugavelh S and Vinodkumar(2010),Hutton M.,(1987), Malviya,Ashutosh.,Diwakar,S.K.,Sunanda, Chaubey O.N.(2010). Most of the parameters are found well within the recommended limits Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (20 – 25) of BIS and some parameters are found beyond the limits. Hence water samples analyzed in present study found suitable for drinking purpose after proper required treatment. References : 1. Ansari, M.R., Ghomi Avili, J., Riazian, M., (2011). Study of Environmental Chemistry and Therapeutic Properties of Ramsar Thermal Spring and Radiations from Thermal Springs of the Area on the Residents. Orient. J.Chem.27(4):1497-1501 2. Anu, Upadhyaya, S. K. and Bajpai, A. (2010). Comparison of physico-chemical parameters of various water bodies in and around Bhopal (M.P). Asian journal of chemical and environmental research, 3(3): 20-26. 3. APHA, AWWA, WEF, (1998) Standard methods for the examination of water and waste water (20th edn.) Washington, DC: American Public Health Association 4. B.I.S. (1991) Bureau of Indian Standards Drinking water specification, Ist revision, ISS 10500 5. Bhavana, A., Shrivastava, V., Tiwari, C.R. and Jain, P. (2009). Heavy metal contamination and its potential risk with special reference to Narmada River at Nimar region of M.P. (India). Res. J. of Chem. & Env. 13 (4), 23-27. 6. Dayal G. and Singh R.P., (1994) Heavy metal content of municipal solid waste in Agra, India, Pollut. Res., 13(1), 83-87 7. Dixit Savita, Gupat S.K., Tiwari Suchi., Nutrient overloading of fresh water lake of Bhopal., E.GJ-Electronicgreen Journal, 1(21)UCLA Library, UC Los Angeles(2005) P a g e | 24 8. Dixit.S and Tiwari. S., (2005) Impact assessment of heavy metal pollution of Shahpura lake, Bioline internationalInternational Journal of Environmental research, University of Tehran, 2(1):37-42 9. ICMR: (1975) Manual of standards of quality for drinking water supplies Special report series No. 44, 2nd edition. 10. Jain S. and Salman S., (1995) Heavy metal concentration in highly eutrophic lake sediments and overlying water. Pollut. Res., 14(4), 471-476 11. Kataria, H. C., (2004) Analytical study of trace elements in ground water of Bhopal City. Ind. j. environment prot. IJEP.,24 (12): 894-89(1995)vol 6 12. Kataria, H.C., (2004) Flurosis with special reference to fluroide contents in drinking water of Bhopal city (M.P.) Research Link, 14 (4) : 12, 13 13. Kataria, H.C., (1995). Physiochemical analysis of water of Kubza river of Hoshangabad, Orient J. Chem., 11(2) : 157-159 14. Kataria, H.C., (2000) Preliminary study of drinking water of Pipariya township, Poll, Res, 19 (4): 645-649 15. Kataria, H.C., (2000) Preliminary study of drinking water of Pipariya township, Poll, Res, 19(4) : 645-649 16. Kataria, H.C., Sharma, Shalini., (2010). Physico-chemical analysis of water of Seevan river (M.P.) India. Orient. J. Chem. 26(1):337338 17. Kataria, H.C., (2006) Studies of water quality of Dahod dam, India, Poll Res.,25(3):553-556 18. Malviya, Ashutosh., Diwakar, S.K., Sunanda, Choubey O.N., (2010).Chemical Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (20 – 25) assessment of Narmada river water at Hoshangabad city and Nemawar as navel of river in central India. Orient. J. Chem. 26(1):319-323 19. Murugavelh S. and Vinodkumar, ,(2010). Removal of Heavy metals from waste water using different biosorbents. Current World Environment. 11(2),299-304, 20. Sannasi, P., Salmijah, S., (2011).Preliminary Adsorption study for Heavy Metal Removal with Ion-Exchange Resins in the Teaching Laboratory.: Orient.J.Chem.27(2):461-467 21. World Health Organization, (1993) Guidelines for drinking water quality-I, Recommendations, 2nd Edi. Geneva WHO,. 22. APHA (1985)standard method for examination of water and waste water . APHA,AWWA,WPEC 16th Edition NewYork. 23. NEERI(1986)manual on water and waste water analysis National Environmental Engineering Research Institute, Nagpur. Oote,A.D. and Laconde,K.V.(1977).Environment assessment of municipal sludge utilization at nine locations in the united states proceding 19th Cornwell Agricultural waste management conferences APHA Cornwell university, Ithaca, New York page 135-146. P a g e | 25 Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (26 – 28) mRihM+u ds ifjis{; esa dkedkth efgykvksa dh fLFkfr % lelkef;d foospuk o"kkZ lkxksjdj] /kuat; oekZ] l- izk- jktuhfr'kkL= 'kk-xhrkatfy-d-egk- Hkksiky jktuhfrd foKku foHkkx ,e-,y-ch- dkyst Hkksiky 'kks/k lkjka'k ukjh Lo;a l"Vªk gS o ek= l`"Vªk gksuk gh mldk lEiw.kZ ifjp; ugh cfYd og deZB lfg".kq gksus ds lkFk&lkFk dykijd ekuh tkrh gS] mldh vkRek lR;e~ f'koe~ lqUnje dh Hkkouk ls vksrizksr gS izkphu oSfnd dky esa vo'; gh ukjh dh fLFkfr mruh gh lgt Fkh ftruh dh iq:"kks dh ijUrq mÙkj oSfnd dky ds i'pkr ukfj;ksa dh fLFkfr esa fxjkoV vkus yxh o mÙkjksÙkj c<+rh gh pyh xbZ vkSj orZeku esa Hk;kog gks x;hA pkgs og lhrk] nzksinh] 'kdqUryk 'kkgckuksa ;k :iy n;ksy gh D;ksa uk gks fdlh uk fdlh :i esa vieku o mRihMu dh f'kdkj jgh gSA lh-Qksj fjlpZ vkxZukbts'ku ds vuqlkj ^^Hkkjr eas 8 yMfd;ksa esa ls 1 yMdh mRihMu dh f'kdkj jgh gSA** gkykafd Lora=rk ds mijkUr Hkkjrh; lafo/kku esa buds dY;k.k gsrq dbZ fu;e mi fu;e cuk, x;s rkfd bu dkuwuksa dk vkJ; ysdj ukjh vius vkidks n`<+ o etcwr fLFkfr esa yk ldsA izLrkouk Lokeh foosdkuan us dgk gS fd ^^fL=;ksa dh n'kk esa lq/kkj uk gksus rd fo'o ds dY;k.k dk dksbZ ekxZ ughA fdlh Hkh i{kh dk ,d ia[k ds lgkjs mM+uk furkUr vlaHko gSA** izd`fr us l`f"V ds lapkyu ds fy, uj o ukjh dks mRiUu fd;kA ;s nksuks ,d nwljs ds iwjd gS fodkl iFk ij lekt :ih i{kh ds nksuks ia[k gSA nksuks eas fHkUurk Hkh izd`fr iznÙk gSA ukjh esa dkseyrk gksrh gS vkSj dkseyrk ds dkj.k mls lqj{kk dh vko';drk gksrh gSA ukjh dk nwljk :i l`f"V gS] og ftl lko/kkuh ds lkFk xHkZLFk f'k'kq dks /kkj.k djrh gS mlh ds dkj.k ekuo lH;rk dk vfLrRo gSA efgyk,a vkxs dne c<+krh gS rks ifjokj] lekt o jk"Vª vkxs c<+rk gSA izkphu dky esa ukjh dks iwT;uh;] nsoh Lo:ik ekuk tkrk Fkk] ijUrq orZeku ;qx esa mis{kk izrkM+uk o mRihM+u dk ik= cukbZ tk jgh gSA Økbe bu bafM;k dh ,d fjiksZVZ ds vuqlkj ^^ns'k esa gj 10 fefuV esa ,d cykRdkj] gj 15 fefuV esa ,d NsM+NkM 23 fefuV esa ,d vigj.k vkSj 50 fefuV esa ,d ngst gR;k dk vijk/k gksrk gSA** ;g vkadMs LoLFk lekt dh ugh cfYd ,d :X.k fodkj xzLr lekt dh rLohj is'k dj jgs gSA buesa efgykvksa ds lkFk gksus okys mRihMu dh dFkk lcls vf/kd ToyUr o ekfeZd gSA iqjkÙku ;qx ij n`f"V Mkys rks ikrs gS fd jkek;.k dky esa jko.k us lhrk dk vigj.k dj ukuk ;kruka, nh] egkHkkjr dky es ;qf/kf"Bj us viuh iRuh dks nkao ij yxk;k o nq;ksZ/ku nq'kklu us mldk phjgj.k dj mRihM+u fd;k mlds i'pkr ls gh mRihMu dk Øe fujUrj tkjh gS] blfy, dgk tkrk gS fd ftruk izkphu Hkkjr dk bfrgkl gS mruk gS mruk gh iqjkru gS efgyk mRihMu dk bfrgklA Hkkjr ds lkFk&lkFk fo'o ds yxHkx lHkh ns'kksa esa fL=;ksa ds fo:} mRihM+u c<+ jgk gSA gj LFkku ij fL=;ksa dks iq:"kksa ds mRihM+u dk f'kdkj gksuk iM+rk gSA efgykvksa ds lkFk dk;ZLFky ij mRihMu dksbZ uohu eqn~nk ugh] NksVs ls NksVs o cMs ls cMs inks ij dk;Zjr efgyk deZpkfj;ksa ds P a g e | 26 lkFk&lkFk le;≤ ij dk;Z LFky ij mRihMu ds dbZ ekeys mtkxj gq,A tkus fdruh fL=;ka bl rjg ds mRihM+u ;k 'kks"k.k dk f'kdkj gS ;k gks jgh gSA buesa ls dqN rks vius lkFk ?kVs nqO;Zogkj dks lkoZtfud dj nsrh gS ysfdu vf/kdrj efgyk,a cnukeh ;k ukSdjh [kksus ds Mj ls bl izdkj ds mRihM+u dks vR;kpkj dks lgu djus gsrq ck/; gSA okLro esa mRihM+u D;k gS\ D;ks brus vf/kd ekeys vkt ds nksj esa mHkj dj lkeus vk jgs] vksj ljdkj dks blds fy, D;ksa dkuwu vFkok fo/ks;d ikfjr djus dh vko';drk vuqHko gks jgh gSA okLrfodrk esa laLFkkuksa esa dk;Zjr efgyk deZpkfj;ksa ij ekufld] 'kkjhfjd o vkfFkZd vR;kpkj dks gh mRihM+u dh Js.kh esa j[kk tkrk gSA deZpkfj;ksa dks ekufld :i ls izrkfMr djuk tSls muds mij dke dk vuko';d nckc cukuk] vko';drk ls vf/kd dk;Z djokuk] dk;kZy; dk okrkoj.k Hk;kog ¼Mjkouk½ cuk,a j[kuk] vko';d vodk'k Hkh uk iznku djuk ;g lc efgyk deZpkfj;ksa dks ekufld :i ls vLoLFk o vlqjf{kr vuqHko djokrk gSA blh izdkj /ku laca/kh ekeyksa esa efgyk deZpkfj;ksa dk fofHkUu izdkj ls 'kks"k.k djuk vkfFkZd mRihMu ds vUrxZr vkrk gSA de jkf'k nsdj vf/kd jkf'k dh ikorh ij gLrk{kj djokuk] dk;Z ds le; vf/kd osru crkuk o i'pkr de jkf'k dk Hkqxrku djuk ;k osru cdk;k j[kuk vkfFkZd 'kks"k.k] ;k mRihM+u gSA vkfFkZd o ekufld mRihM+u dh vis{kk ;kSu 'kks"k.k dk {ks= vR;Ur foLr`r o Hk;kog gSa ;kSu mRihMu ,d Hka;dj leL;k ds :i esa efgykvksa dh izxfr ds ekxZ esa ck/kk mRiUu dj jgk gSA 'kklu o dkuwu }kjk fuEufyf[kr fLFkfr;ksa dks ;kSu mRihM+u ds vUrxZr ekuk gSA v'yhy fVIi.kh;k¡] v'yhy fp= fn[kkuk] vkoafNr :i ls 'kkjhfjd Nqvu] v'yhy okrsa djuk] dke esa O;o/kku mRiUu djus Corresponding Author : email : International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (26 – 28) dh /kedh nsuk] v'yhy yrhQs lqukuk] dEI;wVj LØhu lsoj ij ;k vius MsLdVki ij iksuZ fp= iznf'kZr djuk] lsDlqvy Qsoj dh fMekUM esa oSls gko&Hkko djuk] b'kkjs djuk] og lc dke djus ds fy, ck/; djuk tks og ugh djuk pkgrh ;g lc ;kSu mRihM+u gSA nl o"kZ iwoZ rd ;kSu mRihM+u dh ifjHkk"kk dkQh fookfnr Fkh fd fdl d`R; dks ;kSu mRihM+u ekuk tk, D;ksafd dbZ ckj iq:"k uk Li'kZ djrk gS vkSj uk gh dqN dgrk gS fQj Hkh fL=;ksa dks mldh gjdrksa ls yfTtr gksuk iMrk gSA vr% 13 vxLr 1997 dks loksZPp U;k;ky; }kjk dk;ZLFky ij mRihM+u dks foLrkj iwoZd ifjHkkf"kr dj mu LkHkh d`R;ksa dks ;kSu mRihM+u esa lfEefyr fd;k tks fL=;ksa dks ukxkokj gSA Loa;lsoh laLFkk vgenkckn cqeUl ,D'ku xzqi }kjk fd;s x;s losZ{k.k ds vuqlkj yxHkx 48% efgykvksa dks muds dk;Z LFky ij ekSf[kd] 'kkjhfjd o ekufld ;kSu mRihM+u dk f'kdkj gksuk iM+rk gS o blesa uk dsoy mPpkf/kdkjh cfYd lg;ksxh deZpkjh Hkh lfEefyr gksrs gSA LofIuy Hkkjr xSj ljdkjh LoSfNd laxBu esa 60% esa 55% efgykvksa }kjk Lohdkj fd;k x;k fd muds lkFk mRihM+u ds ekeys gksrs gSA jk"Vªh; efgyk vk;ksx ls izkIr vkdM+ks ds vuqlkj o"kZ 1999&2000 esa dk;ZLFky ij mRihMu ds 104 ekeys ntZ gq, ftles 39 ekeys ;kSu mRihMu ds FksA 2003&04 ess ;g vkadMk c<+dj 153 gks x;k ftles 57 ;kSu mRihM+u ds ekeys FksA 2007&08 esa blesa mrjksÙkj izxfr gqbZ 197 f'kdk;rs dk;ZLFky ij mRihMu dh o 62 f'kdk;rs ;kSu mRihMu dh FkhA 2010&11 esa ;g vkadMk yxHkx 200 dk;ZLFky ij mRihMu o 100 ;kSu mRihMu dks f'kdk;rksa dks Hkh ikj dj x;k orZeku esa ;kSu mRihMu ds ekeys vf/kd c< x;s gSA dk;Z ds flyflys esa efgykvksa dks ?kj ls ckgj fudyuk iM+rk gS blfy, dke dkth fL=;k¡ gh bldh lcls vf/kd f'kdkj gksrh gS pkgs Hkkjr dk fu/kZu jkT; mMhlk gks ;k cMk jkT; mRrjizns'k] vk/kqfud jkT; paMhx<+ gks ;k fnYyh o NksVk jkT; dsjy vFkok xksok loZ=- bl rjg ds ekeys ns[kus o lquus esa vk jgs gSA fnlEcj 2011 esa t;iqj ds vkehZ Ldwy ds izkpk;Z ij ogk¡ dh f'kf{kdkvksa o prqFkZ Js.kh deZpkjh ¼efgyk½ ds }kjk ;kSu mRihM+u dk ekeyk izdk'k esa vk;k fdUrq mlesa Hkh izkpk;Z ds LFkku ij f'kf{kdk o efgyk deZpkjh dks gh nf.Mr fd;k x;kA blh rkjrE; esa fnlEcj 2011 esa gh iVuk fLFkr fpfdRlk egkfo|ky; esa 80% efgyk fpfdRld o ulZ ;kSu mRihMu dk f'kdkj ik;h xbZ uk dsoy ofj"B fpfdRld cfYd jksxh iq:"k o muds ifjtuksa }kjk Hkh mu ij ;kSu mRihMu fd;k x;kA ekpZ 2012 esa :de.kh ckbZ uked efgyk ij mlds Bsdsnkj }kjk fd;k x;k ;kSu mRihMu dk ekeyk izdk'k esa vk;k] e/;izns'k esa tcyiqj fpfdRlk egkfo|ky;] pfpZr vkbZ-,l-vf/kdkjh :iy n;ksy Hkh blh rjg ;kSu mRihMu ds f'kdkj jgs gSA P a g e | 27 bl rjg dh f'kdk;rksa o ekeyksa dks /;ku esa j[kdj Hkkjr esa v'yhyrk dks /kkjk 292] 293] 294 Hkkjrh; naM lafgrk ds vUrxZr lafgrko) fd;k x;k rFkk efgyk ;kSu mRihMu j{kk fo/ks;d 2010 ikfjr fd;kA bl fo/ks;d ds vuqlkj dk;Z LFky ij efgykvksa ds lkFk 'kkjhfjd lEidZ] bldk iz;Ru ;k NsM+NkM vf'k"V fVIi.kh v'yhy okrkZyki] v'yhy lkfgR; fn[kkuk] ;kSukpkj dk fdlh Hkh rjg dk iz;Ru ftl ij efgyk dks vkifÙk gks ;kSu izrkMUkk ds {ks= esa j[kk x;kA lkFk gh dk;ZLFky esa izfrdwy okrkoj.k ;k efgyk ds jkstxkj ds Hkfo"; dks ysdj /kedh ;k izyksHku dh x.kuk Hkh ;kSu mRihMu ds vUrxZr dh tkosxhA bl fo/ks;d dks ikfjr djus dk eq[; mís'; fdlh Hkh {ks= ¼ljdkj ;k xSj ljdkjh] v)Z ljdkjh futh laxfBr ;k vlaxfBr½ dke djus okyh ;k dke djokus okyh efgykvksa dks dk;ZLFky ij Hk;jfgr okrkokj.k miyC/k djokuk ftlls efgyk, vius vki dks Lora= o lqjf{kr vuqHko dj ldsA bl fo/ks;d ds vuqlkj izR;sd fu;ksDrk dks dk;ZLFky ij efgykvksa ds lkFk gksus okys ;kSu mRihMu ds fy, ,d f'kdk;r lfefr dk fuekZ.k djuk gksxkA ;fn fdlh dk;kZy; esa 10 ;k mlls de deZpkjh gS o vkarfjd f'kdk;r lfefr dk fuekZ.k laHko ugh rks ftykf/kdkjh dk ;g nkf;Ro gksxk fd os ftyk ;k mi ftyk Lrj ij LFkkuh; f'kdk;r lfefr dk fuekZ.k djsA izLrkfor dkuwu ds vuqlkj f'kdk;r tkap lfefr dks 90 fnolksa ds vUnj tkap dk;Z iw.kZ djuk gksxk o tkap dk;Z iw.kZ gksus ds i'pkr fu;ksDrk ;k ftykf/kdkjh dks lfefr dh flQkfj'kksa dks 60 fnolksa esa ykxw djuk vfuok;Z gksxkA ;fn lfefr ds fu.kZ;ksa dks Lohdkj ugh fd;k tkrk rks nks"kh i{k dk yk;lsUl jn~n djus o 50000@& ds n.M dk izko/kku j[kk x;kA lkFk gh tc rd tkap dk;Z tkjh jgsxk rc rd ihfMr efgyk viuk LFkkukarj.k djok ldrh gSA ;fn ihfMr i{k lfefr ds fu.kZ;ksa ls larq"V ugh rks og U;k; gsrq U;k;ky; dh 'kj.k esa tkus gsrq Lora= gSA bl fo/ks;d ds lkFk&lkFk bUMfLVª;y fMLI;wV ,DV ,y 5 'ksM~;wy 5 ds vuqlkj ;kSu vkae=.k izLrko dks uk ekuus ds dkj.k deZPkkjh ¼efgyk½ dks dke ls fudkyus ;k fofHkUu ykHkks ls oafpr djus ij mlds fo:) dk;Zokgh dk izko/kku gSA blds fy, leku osru vf/kfu;e 1976 Hkh ikfjr gSA /kkjk 66 ds vuqlkj lw;ksZn; ls iwoZ ;k lw;kZLr ds i'pkr dke djus dh ck/;rk ugh gS] izLkwfr lqfo/kk vf/kfu;e 1961 ds vuqlkj rhu ekg ds izlwfr vodk'k dks izko/kku gS dqN jkT;ks esa c<kdj N%ekg dk dj fn;k x;kA ¼jktLFkku] e/;izns'k½ izkd`frd :i ls xHkZikr dh fLFkfr esa Hkh N% LkIrkg ds izlwfr vodk'k dh ik=rk gSA brus fofHkUu vf/kfu;e fo/ks;d /kkjk,a efgykvksa dks dk;ZLFky ij lHkh izdkj ds mRihM+Uk ls eqDr j[kus gsrq cuk, x;s gS fQj Hkh efgyk,a mruh n`<rk ds lkFk viuh Corresponding Author : email : International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN- 2320-7973 Volume-1 Issue -2 Month – May 2013 pp. (26 – 28) vkokt dks lwj nsus esa lQy ugh gks ik jgh gS o mRihM+u o 'kks"k.k dks lgu dj jgh gSA D;ksfd] ifjokj dh cnukeh] iq:"k iz/kkurk dh xyr ijEijk] dkuwuks dh tfVyrk] iqfyl o lekt }kjk mRihM+u dk Hk;] ihfMr efgyk dks pqi djokuk ;k cnukeh ;k va/kdkje; Hkfo"; dk Hk;] ;k fQj bl rjg dh gjdrs ;kSu mRihM+u ds vUrxZr vkrh gS bldh Hkh tkudkjh uk gksuk vf/kdkjkas ds izfr tkx:drk dk vHkko] ;g lc dkj.k fL=;ksa ds mRihM+u dks izksRlkfgr djus gsrq dkj.khHkwr ¼ftEesnkj½ gSA lq>ko pwfda fL=;ka cgqqr lkjs dkj.kks ls viuh f'kdk;r ntZ ugh djokrh gS ;fn fuEu lq>koksa dks /;ku esa j[kdj dk;Z fd;k tk, rks vkSj vf/kd efgykvksa dks Hkh bl rjg ds mRihMu ds fo:) vkokt mBkus dk volj feysxkA 1f'kdk;r drkZ efgyk dh igpku xqIr j[kh tkuh pkfg, blls efgykvksa es fufeZdrk vk,xh D;ksafd uk cnukeh dk Mj gksxk uk ukSdjh tkus dk ladVA 2xqIr f'kdk;r ds dkj.k 'kks"k.k ;k mRihMu djus okyk O;fDr Hkh Mj ds ekjs bl rjg dh gjdrksa dks djus ls igys 10 ckj fopkj djsxkA 3ehfM;k dh Hkwfedk fuLi{k gksuh pkfg, D;ksafd bl rjg ds ekeyksa dk pSuy czsfdax U;wt cuk nsrs gS ftlds dkj.k Hkh efgyk,a f'kdk;r djus ls Mjrh gSA 4le;≤ ij fofHkUu ys[kks] lekpkj i=ksa nwjn'kZu ds dk;ZØeksa ds }kjk efgykvksa dks bl laca/k esa iw.kZ tkudkjh nsrs jguk ljdkj dk nkf;Ro gksuk pkfg, rkfd bl rjg dh gjdr gksus ij o fuMj gksdj dk;Zokgh dj ldsA vU; izfrfnu ds dk;ZØeksa dh Hkkafr bls Hkh 'kkfey djuk pkfg,A 5y|q ukVdks] uqDdM ukVdksa ds ek/;e ls bldh tkudkjh fu;e xk¡o&xk¡o txg&txg rd igq¡tkbZ tk, rkfd vui<+ fL=;ka Hkh bl vf/kdkj dk mi;ksx dj ldsA 6ekuo vf/kdkjksa dks 'kkys; ikB~;Øe esa lfEefyr dj cPpksa dks izkjEHk ls gh ekuo vf/kdkjksa ds izfr tkx:d djuk gksxkA 7,sls ekeyksa esa iqfyl dh Hkwfedk Hkh egRiw.kZ gksuh pkfg,] mUgs tYn ls tYn o dBksj dne mBkus pkfg,A 8lekt dh lksp esa Hkh ifjorZu vko';d gS fd yM+dk yM+dh ,d leku gSA 9;fn efgyk,a pkgrh gS fd mRihM+u uk gks rks efgykvksa dks Loa; vkxs vkuk gksxkA 10efgykvksa ds f'kf{kr gksus ds ckotwn Hkh mudks vius vf/kdkjksa dh tkudkjh ugh txg&txg ,sls dsUnz [kksys tk, tks bl laca/k esa efgykvksa dks tkudkjh ns lds mUgs tkx`r dj ldsA 11ukSdjh dh xkjUVh ns nh tk, rks mRihMu ;k 'kks"k.k djus okyk iq:"k vkfFkZd :i ls efgyk ij nckc ugh cuk ldsxkA P a g e | 28 12efgyk laxBuksa dk joS;k lg;ksxkRed gksuk pkfg,] lkFk gh jktuhfrd nyksa ds ,tsUMs esa bls lfEefyr dj fy;k tk, rks mudk Hkh izpkj gksxk o ny Hkh efgykvksa ds fgr esa dk;Z djsaxsA milagkj% ;g dguk lkFkZd gksxk fd ljdkj us bl {ks= esa fofHkUu dkuwu ikl dj efgykvksa dks fofHkUu vL= o 'kL=ksa ls lqlfTtr dj fn;k gS vko';drk ek= le; jgrs mldh tkudkjh izkIr dj vius ij gksus okys cpko dh gSA okLro esa dkuwu brus dMs cuk, x;s gS ftudh lgk;rk ls ;kSu mRihMu jksdk tk ldrk gSA oLrqr% dHkh gekjs dkuwuksa esa ugh cfYd ykxw djus okyks dh ekufldrk esa gSA oSls Hkh loZizFke 1997 esa fo'kk[kk cuke jktLFkku ljdkj okys ekeys esa ;kSu fgalk dks vijk/kk ds :i esa ifjHkkf"kr fd;k x;kA xka/khth us ;ax bf.M;k esa fy[kk gS fd ^^ukjh dks vcyk dgus okys yksx efgykvksa dk vieku djrs gS] efgykvksa ds l'kfDrdj.k dh vko';drk blfy, gS D;kasafd efgyk,a gh lalkj dk ;q) o fglak ls cpk ldrh gSA ^^;fn vkSjr dks lekt uk ekjs rks vkSjr dHkh uk gkjsA** lUnFkZ xzaFk lwph Corresponding Author : email : 1- vlkjh ,e-,e- & ukjh psruk o vijk/k] iap'khy izdk'ku] t;iqj 2- flag jktkckyk & ekuokf/kdkj o efgyk,a 3- JhokLro lq/kkjkuh & efgykvks ds izfr vijk/k] dkeuosYFk ifCy'klZ] ubZ fnYyh 4- flag fu'kkUr ehuk{kh & vk/kqfudrk o efgyk mRihMu vksestk ifCyds'ku 5- c?kZy Mh- ,l- & vijk/k 'kkL= & foosd izdk'ku] tokgj uxj] fnYyh 6- 'kekZ izKk & efgyk fodkl o l'kfDrdj.k vfo"dkj ifCy'klZ] t;iqj] 7- ukjk.kh izdk'kukjk;.k & fyax o lekt & fjlpZ ifCyds'ku 8- ;ax bf.M;k tuyZ 30 vizSy 1930 9- vxzoky pUnzeksgu Hkkjrh; ukjh fofo/k vk;ke] Jh ehY;ksx cqd fMiks vYeksMk] m-iz10- lu; lq"kek efgyk l'kfDrdj.k International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN‐ 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (29 – 31) lIrd dkO; ijaijk % ,d v/;;u pank eksnh] lgk;d izk/;kid] foDVksfj;k dkWyst vkWQ ,tqds'ku] Hkksiky lkj la{ksi O;qRifRrewyd n`f"V ls *lIrd* 'kCn laLd`r ds *lIr* ls cuk gSA *lIr* 'kCn esa *d* izR;; tqM+dj *lIrd* 'kCn cuk gSA *lIr* dk vFkZ gS *lkr*A laxhr'kkL= esa **lIrd** dk vFkZ lkr laxhr /ofu;ksa ¼lk]js]xk]ek]ik]/kk]fu½ ls fy;k tkrk gSA vLrq **lIrd dkO;** ls rkRi;Z lkr dfo;ksa dk ladyu vFkok lkr dfo;ksa dh dforkvksa dk ladyu gqvkA izLrqr lnHkZ esa lIrd dkO; dk vfHkizk;% vKs; }kjk laikfnr lkr dfo;ksa ds ladyu ds :i esa :<+ gks x;k gSA ifjp; izLrqr ’kks/k i= esa lIrd dkO; ijaijk dk rF;ijd fo’ys"k.k izLrqr gSA lIrd dkO; ijaijk dk Jh x.ks'k lu~ 1943 esa izdkf'kr vKs; }kjk laikfnr **rkjlIrd** ls gqvkA tgkW rd bu lIrdksa ds lhekadu dk iz'u gS] izFke rhu lIrd lkr&lkr o"kksZ ds varjky esa Øe'k% lu~ 1943] 1951 vkSj 1959 esa izdkf'kr gq,A pkSFkk lIrd ¼1979 esa½ vk;k] ftldh fgUnh leh{kk txr~ esa rhoz izfrfØ;k gqbZA fgUnh ds vf/kdka'k leh{kd vkSj bfrgkl ys[kd **rkjlIrd** ds izdk'ku ls gh ubZ dfork dk 'kHkkjaHk Lohdkjrs gSaA mudh n`f"V esa Nk;koknksRrj lHkh dkO; izo`fRr;ka ubZ dfork esa varZHkwr gSA izfr mRrjnkf;Ro c<+ x;k gSA bl lIrd ds dfo;ksa dks Hkh d`frdkj ds :i esa mUgksaus u, dfo dgdj lacksf/kr fd;kA **pkSFkk lIrd** dh Hkwfedk esa mUgksaus ckj&ckj ubZ dfork ds LFkku ij *vkt dh dfork* eqgkojs dk iz;ksx fd;k gSA tSls& ¼d½ **vkt dh dfork esa tks izo`fRr;ka eq[kj gqbZ gSa] muds cht mlls igys dh dfork esa ekStwn FksA ml dfork esa Hkh ftls iz;ksxoknh dgk tkrk gS vkSj mlesa Hkh ftls izxfroknh uke fn;k tkrk gSA ** ¼[k½ **vkt dh dfork esa oDrO; dk izk/kkU; gks x;k gSA iz;ksx ds lR; dks Lohdkjrs gq, vKs;th us *rkjlIrd* dh Hkwfedk esa iz;ksx 'kCn ds izfr viuk eksg O;Dr fd;k gSA fdUrq] nwljk lIrd rd vkrs&vkrs mudk ;g eksg Hkax gqvk vkSj os dgus dks ck/; gq, fd&**iz;ksx dk dksbZ okn ugha gS] ge oknh ugha jgs] ugha gSa] u dksbZ iz;ksx vius&vki esa bZ"V ;k lk/; gSA rhljk lIrd rd fLFkfr ,dne lkQ gks xbZA rhljk lIrd dk egRo gh bl ckr dks ysdj gS fd blls ubZ dfork dh lkjh ekU; izo`fRr;ka Bhd&Bhd fuf'pr :i esa ikBdksa ds lEeq[k vkbZA nwljk lIrd dh gh Hkwfedk esa vKs;th us ;g Lohdkj fd;k gS fd&**dsoy iz;ksx'khyrk gh fdlh jpuk dks dkO; ugha cuk nsrhA gekjs iz;ksx dk ikBd vkSj lân; ds fy, dksbZ egRo ugha gS] **egRo ml lR; dk gS] tks iz;ksx ds }kjk gesa izkIr gksA **geus lSdM+ksa iz;ksx fd, gS**] ;g nkok ysdj ge ikBd ds lkeus ugha tk ldrs] tc rd ge ;g u dg ldrs gks fd geus iz;ksx }kjk ;g ik;k gS A iz;ksxksa dk egRo drkZ ds fy, pkgs ftruk gks] lR; dh [kkst] yxu pkgs ftruh mRd`"V gks] lân; ds fudV og lc vizklafxd gSA ¼x½ **vkt dh dfork cgqr cksyrh gS] tcfd dfork dk dke cksyuk gS gh ugha A mi;qZDr foospu ds vk/kkj ij ;g dgk tk ldrk gS fd lIrd dkO; vk/kqfud fgUnh dfodk dk gh vfofPNUu L=ksr gSA **rkjlIrd** ls ysdj **pkSFkk lIrd** rd dh jpukvksa esa Nk;koknksRrj dkO; dh U;wukf/kd lHkh izo`fRr;ka fdlh u fdlh :i esa fo|eku gSaA okn&fookn% *lIrd dkO; ijaijk* dk lw=ikr 1943 esa *rkjlIrd* ds izdk'ku ds lkFk gqvkA *nwljk lIrd* 1951 esa] *rhljk lIrd* 1959 esa rFkk *pkSFkk lIrd* % 1979 esa izdkf'kr gq,A budk laiknd vKs;th us fd;k] izR;sd lIrd esa lkr dfo;ksa dh jpuk,a ladfyr gSaA *pkSFkk lIrd* ds jpukRed ifjizs{; dks le>us ds fy, iwoZorhZ rhu lIrdksa dh l`tukRed i`"BHkwfe dk fo'ys"k.k vizklafxd u gksxkA ¼1½ rkjlIrd *rkjlIrd* dk izdk'ku lu~ 1943 esa gqvkA blesa lkr dfo;ksa dh jpuk,a ladfyr gSaA dfoØe bl izdkj gS& xtkuu ek/ko eqfDrcks/k] usehpUnz tSu] HkkjrHkw"k.k vxzoky] izHkkdj ekpos] fxfjtkdqekj ekFkqj] jkefoykl 'kekZ vkSj Lo;a vKs;A vuqØe ds laca/k esa **rhljk lIrd** dh Hkwfedk esa vKs;th us iz;ksx'khy dfodk dk i;kZ; ubZ dfork dks ekudj laHkor% dgk gS& **ubZ dfork dk vius ikBd ds vkSj Lo;a vius P a g e | 29 Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN‐ 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (29 – 31) ladfyr dfo;ksa dh fopkj/kkjk dk iz'u gS % 'kdqUrekFkqj izxfroknh fopkj/kkjk ds izfr] ujs'k esgrk ekuorkoknh fpUru ds izfr] Jh O;kl vkSj Hkkjrh mUeqDr O;fDrokn ds izfr izfrJqr fn[kkbZ iM+rs gSaA loZ Jh 'ke'ksj cgknqj ,oa j?kqohj lgk; ekDlZoknh oSKkfudrk ds izfr viuh jpukvksa esa fu"Bkoku gS rFkk Hkokuhizlkn feJ dk n`f"Vdks.k v}Sroknh ,oa xka/khoknh fpUru ls mUesf"kr izrhr gksrk gSA blh jpukRed i`"BHkwfe ds dkj.k *nwljk lIrd* dh jpukvksa esa ,d e;kZnk vkSj ;qxhu thoun'khZ dh Hkh vfHkO;fDr gqbZ gSA lkSan;Zcks/k dh n`f"V ls Hkh *nwljk lIrd* dh jpukvksa esa dq.Bkvksa vkSj otZukvksa dk vHkko gSA bu dfo;ksa dk lkSUn;Zcks/kkRed n`f"Vdks.k fufyZIr ,oa LoPN gSA vKs;th dk vfHker gS fd&**ladyudrkZ vUr esa vkrk gSA ---- ek= vuqØe ls in xkSjo ds ckjs esa dksbZ ifj.kke fudkyuk ;k ml fo"k; esa ladyudrkZ dh lEefr dh [kkst yxkuk] ew[kZrk gksxhA ** oLrqr% *rkjlIrd* ds izdk'ku ls gh iz;ksxoknh dkO;/kkjk dk lw=ikr gqvkA lHkh rkjlIrd ds dfo oSpkfjd erHksn j[krs gq, Hkh jkgksa ds vUos"kh vFkkZr~ iz;ksx'khy gksus ds dkj.k ,d gks x,A *rkjlIrd* dh Hkwfedk esa Jh vKs; us *iz;ksx* dh ckr ds vfrfjDr jpuk laca/kh dksbZ oDrO; ugha fn;k gSA ,d leh{kd ds 'kCnksa esa & **rkjlIrd vius mRFkku dky dh f'k'kq&jpuk gSA ** D;ksafd blesa ifjorZu vkSj laØkafr dh vksj ladsr fd;k x;k] fdUrq ewY; foospu ds ekunaM LFkkfir ugha gq,A *rkjlIrd* dh lajpukRed izfØ;k ,oa Lo:i ij n`f"Vikr fd;k tk, rks fu"d"kZ ;g fudyrk gS fd dF; esa iwoZorhZ dkO; ijaijk ds izfr fonzksg] e/;eoxhZ; O;fDr ds izfr lgkuqHkwfr] uo ewY;ksa dh izfrLFkkiuk] vuqHkwfr dh izekf.kdrk] lkekftd n`f"Vdks.k es vc)rk] thou ds izfr vuqjkx] ;FkkFkZoknh lkSUn;Z fp=.k vkfn fof'k"Vrk,a fo|eku gS rFkk f'kYi dh n`f"V ls vFkZy; dk iz;ksx] uwru NUnksa ds izfr vkd"kZd Hkk"kk esa uohurk] O;atd inkoyh dk iz;ksx]uohu fcEcksa vkSj izrhdksa dh l`f"V *rkjlIrd* dh nsu dgh tk ldrh gSA ¼3½ rhljk lIrd % *rhljk lIrd* dk izdk'ku lu~ 1959 esa gqvkA bl lIrd esa laiknd vKs;th us pys vk jgs *iz;ksxokn* uke ij vkifRr;ka mBkbZ vkSj Lo;a dks iz;ksx'khy fl) djus dk iz;kl fd;k gSA *rhljk lIrd* esa laxzfgr dfo;ksa dh la[;k 1943 ls 1959 rd cuh yhd ds vuqlkj lkr gh gSA budk vuqØe bl izdkj gS % iz;kxukjk;.k f=ikBh] dhfrZ pkS/kjh] enu okRL;k;u] dsnkjukFk flag] dqaoj ukjk;.k] fot;nso ukjk;.k lkgh ,oa losZ'ojn;ky lDlsukA *rhljk lIrd* ,sls le; izdkf'kr gqvk] tc uwru gLrk{kjksa dh vko';drk eglwl dh tk jgh Fkh] D;ksafd 1959 ds vklikl ,slh jpuk,a Hkh fy[kh tkus yxh Fkha] tks udy vkSj O;FkZ cdokl dh laKkvksa ls lacksf/kr dh tkus yxh FkhA *rhljk lIrd* ds ckn yxus yxk fd dfork vkRekUos"kksUeq[kh gksrh tk jgh gSA bl laxzg dh jpukvksa esa *rkj lIrdh;* dq.Bk ,oa otZuk iqu% fn[kkbZ nsus yxhA dF; dh n`f"V ls dksbZ fof'k"Brk ;k u;kiu rks ugha fn[kkbZ nsrk] fdUrq laosnuk Lrjksa esa fHkUurk vo'; n`f"Vxr gksrh gSA * rhljk lIrd* dk dfo vius ifjos'k ,oa ifjtu nksuksa ds ;FkkFkZ ds izfr ltx gSA bu jpukvksa esa izd`fr ifjofrZr vFkZoRrk ds lkFk fpf=r gqbZ gSA izse&fu:i.k esa dgha nk'kZfudrk] dgha oSKkfudrk rks dgha d:.; ifjyf{kr gqvk gSA 'kSfYid izfrekuksa dh n`f"V ls *rhljk lIrd* dh Hkk"kk yksdksUeq[kh fn[kkbZ nsrh gS rFkk Hkk"kk esa lEizs"k.kh;rk] O;axkRedrk] Hkko fp=kRedrk] uwru izrhdkRedrk dh laiUurk Hkh fn[kkbZ nsrh gSA vk/kqfudrkcks/k] ;kSucks/k ,oa ewY;cks/k dh l'kDr vfHkO;fDr bu jpukvksa ds oSpkfjd&ifjizs{; esa fof'k"Vrk fy, gq, gSaA ¼2½ nwljk lIrd % lIrd dkO; ijaijk ds nwljs lksiku ds :i esa lu~ 1951 esa *nwljk lIrd* izdkf'kr gqvkA blesa ladfyr dfo;ksa dks bl nkos ds lkFk izLrqr fd;k x;k fd budh jpuk,a laxzg :i esa ml le; rd izdkf'kr ugha gqbZ FkhA blds dfo gS& Hkokuhizlkn feJ] 'kdqUr ekFkqj] gfjukjk;.k O;kl] 'ke'ksjcgknqj flag] ujs'k esgrk] j?kqohj lgk; vkSj /keZohj HkkjrhA *nwljk lIrd* ds dkO;kRed i{k dks ns[ksa rks ewY; foospu laca/kh ekun.M+ksa dh tks deh gesa *rkjlIrd* esa fn[kkbZ nsrh gS] ml deh dks *nwljk lIrd* esa nwj djus dk lQy iz;kl fd;k x;k gSA Hkk"kk dh tks leL;k *rkjlIrd ds dfo;ksa dks lrk jgh Fkh] *nwljk lIrd* ds dfo blls eqDr gSa] D;ksafd ;FkklaHko Hkk"kk cksy pky ds djhc gSA *nwljk lIrd* ds dfo;ksa esa jpuk/kehZ mUeqDrrk] mRlkg izlUurk vkSj fu"Bk Li"V fn[kkbZ nsrh gSA mUgksaus tks dqN dguk pkgk gS] og Li"Vr% ,oa ltxrk ls dgk gSA *nwljk lIrd* esa ftu ekuo ewY;ksa dk fp=.k fd;k x;k gS] mldh Lohd`fr 'kksf"kr] xjhc] fujhg] Hkw[k ls lar`Ir] foo'k vkSj Hk;Hkhr O;fDr dh psruk ds ek/;e ls gekjs le{k mHkjk gSA *nwljk lIrd* dh jpukvksa esa ;FkkFkZcks/k] vk/kqfudrk dq.Bkghu cks/k] iz.k; dh vfHkO;fDr ds lkFk&lkFk loZlk/kkj.k dh Hkk"kk esa lgtrk ,oa mUeqDrrk ds lkFk uO; izrhdksa] ;qx fp=.k ds le{k Hkko fcECkksa ds ifj/kku esa fyiVdj] *nwljk lIrd* dh dfork,a fof'k"V jpuk ,oa 'kfDr ds lkFk mHkjh gSA tgka rd ¼4½ pkSFkk lIrd % iwoZorhZ rhu lIrdksa dh Hkkafr lkr dfo;ksa ds ladyu ds :i esa*pkSFkk lIrd* dk izdk'ku lu~ 1979 esa gqvkA dkyØe dh n`f"V ls rhljs vkSj pkSFks lIrd ds chp 20 o"kZ dh dkykof/k dk vUrjky gS] ftlds laca/k esa vKs;th us ledkyhu dkO; vkSj ledkyhu vkykspuk ds *vfr Lohd`fr* lacaf/kr xq.k&nks"kksa dk mYys[k fd;k gSA **pkSFkk lIrd** dh Hkwfedk esa os fy[krs gS fd & **rhu lIrdksa ds izdk'ku ls eq>s og izfØ;k iwjh gks xbZ tku iM+rh Fkh] tks ubZ dkO; izo`fRr;ksa dh izfr"Bk ds fy, P a g e | 30 Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN‐ 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (29 – 31) vko';d FkhA eSaus ;g Hkh dgk fd ,d ,slh ifjfLFkfr vk xbZ gS] ftlesa fQj ,d ckj xq.k&nks"k&foosd viuk vk/kkj [kks cSBk gSA ysfdu] dfork ds izfri{k dh vksj Hkh dqN dguk vko';d gks x;k gSA ---- ledkyhu vkykspukvksa dh =qfV;ksa vkSj mldh ,dkafxdrk dks Hkh vuns[kk u djuk gksxkA bl ,dkafxdrk us ubZ jpuk dk cgqr vfgr fd;k gS vkSj ikBd dks Hkh blfy, iFkHkz"V fd;k gS fd mlus ikBd ds lkeus tks dlkSfV;ka nh gSa] os Lo;a >wBh gSA fu'p; gh **pkSFkk lIrd** ds ek/;e ls vKs;th lRdkO; dh lajpuk ds izfreku vkSj lr lekykspu dh dlkSfV;ka izLrqr djuk pkgrs gSaA **pkSFkk lIrd** esa Hkh lkr dfo gSa& ¼1½ vo/ks'k dqekj ¼2½ jktdqekj dqEHkt ¼3½ Lons'k Hkkjrh ¼4½ uanfd'kksj vkpk;Z ¼5½ lqeu jkts ¼6½ Jhjke oekZ ¼7½ jktsUnz fd'kksjA lIrd dkO; ijaijk ds vuq:i izR;sd dfo dk laf{kIr ifjp;] fQj dfo dk oDrO; vkSj dfork,a izLrqr dh xbZ gSaA **pkSFkk lIrd** dh Hkwfedk esa vKs;th us ftu egRoiw.kZ jpuk fcUnqvksa dks ladsfrd fd;k gS] os la{ksi esa bl izdkj gSa % ¼d½ *pkSFkk lIrd* laiknd dh dkO; &n`f"V] lkfgfR;d :fp vkSj lkfgfR;d foosd dk izfrQyu gSA ¼[k½ *pkSFkk lIrd* esa pqus x, dfo;ksa dk vk/kkj] os laiknd dh n`f"V esa iz'kaluh; gksus ds lkFk&lkFk vis{k;k iqLrdkdkj :i esa de izdkf'kr gq, gSaA ¼x½ vkt dh dfork dk lcls cM+k nks"k ml ij ,d *eSa* Nk x;k gSA ¼?k½ dfo dh jktuhfrd psruk ds lkFk jktuhfrd erokn dh vkjksi vkSfpR;A *pkSFkk lIrd* ds dfo;ksa dh fcjknjh dk vk/kkj LokUr=; dk vuqHko vkSj Lok;Rrrk dk cks/k gSA ¼M+½ fojks/k i{k dh jktuhfr dh rjg jguk vLokHkkfod ugha gSA fdl fu"d"kZ ij igqaprk gSA ,d nks dks NksM+dj vU; dfo;ksa us Hkh bl izdkj ds ladsr ;k oDrO; jpukvksa esa izLrqr fd, gSaA *pkSFkk lIrd* ds pkSFks dfo dh *og jax* ,oa lkros dfo dh vkikrdky vkRe lacks/ku tSlh dfork,a rks lh/ks&lh/ks izfri{kh jktuSfrd izfrc)rk dks gh mtkxj djrh gSA vLrq jktuhfrd eroknh vlfg".kqrka, rks *pkSFkk lIrd* dh dforkvksa esa Hkh n`f"Vxr gksrh gSA pkSFkk lIrd ds dfo;ksa ds LokrU= vuqHko vkSj Lok;Rr cks/k dh lgh igpku rks dF; fo'ys"k.k ds vuqØe esa gksxhA ;g fcUnq iqu% fpUruh; gS fd D;k ladfyr dfo bl vof/k dh vPNh dfork dk izfrfuf/kRo djrs gSa \ dfork dh vPNkb;ksa ds izfreku fu/kkZfjr fd, fcuk vkSj ledkyhu dkO; lajpuk ds lexz ifjisz{; esa ladfyr dforkvksa dks ij[ks fcuk] ,sls nkos cgqr lkjxfHkZr izrhr ugha gksrs gSaA mi;qZDr foospu dk vfHkizk; **pkSFkk lIrd** dh jpukRed Hkwfedk ds ;FkkFkZ dks mtkxj djuk ek= gSA bl laxzg dh jpukRed miyfC/k;ka Hkh gSa] ftudk laca/k dkO;&lajpuk ds dF;&f'kYi vkSj fopkj&n'kZu ls gSA lanHkZ xzUFk lwph %& 1-vKs; 1970 nwljk lIrd] f}rh; laLdj.k i`"B Øekad&5 2-vKs; 1970 nwljk lIrd] f}rh; laLdj.k i`"B Øekad&8 3-vKs; 1979 pkSFkk lIrd] izFke laLdj.k i`"B Øekad&11 4-vKs; 1979 pkSFkk lIrd] izFke laLdj.k i`"B Øekad&14 5- Ks; 1970 pkSFkk lIrd] izFke laLdj.k i`"B Øekad&10 6-vKs; 1970 pkSFkk lIrd] izFke laLdj.k i`"B Øekad&68 &&&&&&&& ¼p½ vkt dh dfork ds ftl lcls cM+s nks"k *eSa* dh ppkZ lEiknd egksn; us dh gS] og ladfyr dfo;ksa dh jpuk/kfeZrk ij lcls vf/kd Nk;k gqvk gSA fu"d"kZ& ladfyr dfo;ksa dk *eSa* vfrLrRocks/k dh Hkwfedk ls L[kfyr gksdj vge~ dh eqnzk esa :ikUrfjr gks x;k gSA fu'p; gh *pkSFkk lIrd* dh ,dek= dof;=h bldk viokn gSA mudh jpuk eqnzk esa *eSa* dh Hkafxek tgka Hkh mHkjh gSA ge] rqe ;k lcls tqM+h gqbZ gSA mYysf[kr esa ls prqFkZ fcUnq ds lanHkZ esa jktdqekj dqEHkt dk ;g oDrO;kax fd &**jktuhfr esa 'kjhd gksuk dksbZ vNwr vFkok vU;Fkk ckr ugha gS] fdUrq flQZ jktuhfr esa 'kjhd gksuk jpukdkj dh 'kjkQr ughaA eSa bl fopkj ls vlger ugha gwa fd jktuhfr thou esa lkspus dk LoHkko] LokHkkfod rkSj ij P a g e | 31 Corresponding Author : email : [email protected] International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN‐ 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (32 – 39) Fixed point theorem in Fuzzy metric space by using compatibility of type beta M S Chouhan*, Manoj Kumar Khanduja** and Bharat Singh# * Asst. Professor Govt. Mandideep Collge Raisen (M.P.) ** Lecturer SOC. and E. IPS Academy Indore (M.P.) # Reader SOC. and E. IPS Academy Indore (M.P.) ABSTRACT In this paper we prove common fixed point theorem in ‐Fuzzy metric space. We prove the result with help of compatibility of type β. INTRODUCTION The notion of Fuzzy set was introduced by Zadeh [6].Various concepts of fuzzy metric spaces were considered in [15 ,9 , 10 , 7 ].Many authors studied fixed point theory in fuzzy metric space[12, 14 , 8 ,13, 2 , 3 ]. In 2008 Milet proved a Banach Contraction Theorem in M‐conplete non‐Archimedean L‐ fuzzy metric space and .In the sequel we shall adopt the usual terminology, notation and conventions of L‐Fuzzy metric spaces introduced by Saadati et al.[11] which are a generalization of Fuzzy metric spaces[1] Preliminaries Definition1.1 Let , beacompletelattice,andUanonemptysetcalleduniverse.An ‐ fuzzyset onUisdefinedasamapping : U → LForeachuinU, representsthedegree inL to whichsatisfies . Considertheset ∗ andtheoperation , Lemma1.2 ∗ ,, ,, completelattice. ⇔ ∗ , , ,, : , ,, ∈ 0,1 , forevery (ii) ∀ , x, i x, y ∈ (iii) ∀ , , x ; ∈ (iv) ∀ , ′, , ′ ∈ x, 1 , , ,, ∈ ∗ x, y min x, y and , ∗ isa ⇒ x, y x′, y′ monotonocity A t‐norm on issaidtobecontinuousifforany , ∈ and any sequences converge to x and y we havelim , x, y . For example , ∗ x, y , z ; ,Then → satisfyingthefollowingconditions: y, x ; y, z definedby ,, Definition 1.3 A triangular norm (t‐norm) on is a mapping : (i) ∀ ∈ ∗, x, y and which xy are two continuous t norms on 0,1 . A t‐norm P a g e | 32 Corresponding Author : email : [email protected], [email protected], International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN‐ 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (32 – 39) ∈ can also be defined recursively as an (n+1) –ary operation …………………. For 2 and and …………………. ∈ . Definition 1.4 A negation on isanydecreasingmapping 0 1 and 1 0 .If x : L → satisfying xforall ∈ ,then 0 1 and is called involutive negation. Definition 1.5 The 3‐tuple X, , is said to be an fuzzymetricspaceifXisarbitrary non‐empty set, isacontinuoust‐normonand isanfuzzyseton 0, ∞ satisfyingthe Following conditions for every x , y , z in X and t , s in 0, ∞ : (a) , , (b) , , (c) , , (d) (e) 0 ; 1 for all , , , , , 0 if and only if x = y; ; , , , , ; , , . : 0, ∞ → is continuous. Let X, , be an ‐fuzzymetricspace.For ∈ 0, ∞ ,wedefinetheopenball centre ∈ andradius ∈ \ 0 , 1 ,as , , ∈ : 0 and ∈ \ 0 , 1 such that , , ⊆ . Let denote the family of all open subsets of X.Then by ‐fuzzymetric . Lemma 1.6 10 Let , , respecttot,forallx,yinX. Definition 1.7 ε ∈ \ 0 and be an ‐fuzzymetricspace.Then in an ‐fuzzymetricspace X, 0, there exist ∈ such that ∈ , The sequence by → ) If ∈ , , with r . , , A subset ⊆ is called open if for each ∈ , there exist , , is called the topology induced , , isnondecreasingwith is called Cauchy sequence , if for each , , ε is said to be convergent to ∈ in the ‐fuzzymetricspace X, , , , , → 1 whenever → ∞ for every t > 0. A , (denoted ‐fuzzymetricspaceissaidtobecompleteifandonlyifeveryCauchysequenceisconvergent. Henceforth,weassumethat isacontinuoust‐normonthelattice suchthatforevery ∈ \ …………………. 0 , 1 ,thereisa ∈ \ 0 , 1 suchthat P a g e | 33 Corresponding Author : email : [email protected], [email protected], International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN‐ 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (32 – 39) Definition 1.8 Let , iflim → , , , ,, whenever a sequence lim lim , , , Lemma 1.9 Let X be an ‐fuzzymetricspace. , , , ,, , in X 0, ∞ convergestoapoint , , 1 andlim , , , , , . , , be an ‐fuzzymetricspace. , issaidtobecontinuousonX ∈X 0, ∞ 0, ∞ i.e. issaidtobecontinuousfunctionon 0, ∞ . Definition 1.10 Let A and S be mappings from an ‐fuzzymetricspace , , intoitself.Thenthe mappingsaresaidtobeweakcompatibleiftheycommuteattheircoincidencepoint,thatis Ax=Sx impliesthatASx SAx. Definition 1.11 Let A and S be mappings from an ‐fuzzymetricspace mappingsaresaidtobecompatibleif ,, lim → 1 ∀ intoitselff.Thenthe , , intoitselff.Thenthe 0 lim → ∈X → Definition 1.12 Let A and S be mappings from an ‐fuzzymetricspace mappingsaresaidtobecompatibleoftypetype if lim ,, → Whenever lim , isasequenceinXsuchthat Whenever lim ,, , ,, 1 ∀ 0 isasequenceinXsuchthat lim → ∈X → Poposition 1.13 If self mappings A and S of an ‐fuzzymetricspace areweakcompatible. , , arecompatiblethenthey → nondecreasinginfirst Definition 1.14 Let ϕbesetofallrealcontinuousfunctionsϕ: argumentandsatisfyingthefollowingconditions For , 0ϕ , , , Lemma 1.15 Let , , 0imply . be an ‐fuzzymetricspace. If , , , for some k 1 and ∈ Example 1.16 Let , be a metric space. Denote , and , in ∗ and let M and N be fuzzy sets on , , .Then isaCauchysequence. . . for all 0, ∞ be defined as follows: , . P a g e | 34 Corresponding Author : email : [email protected], [email protected], , International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN‐ 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (32 – 39) Main Result Theorem 2.1 Let , for every , ∈ some , be a complete ‐fuzzy metric space and assume S, T , I , J : X→ be four mappings such that ⊆ , ⊆ and , , , , 1 and , , , , , or , , , , , , , , 0 is a closed subset of X in addition that either (I) T and I are compatible of type , I is continuous and S and J are weak compatible or (ii) S , J are compatible of type , J is continuous and T and I are weak compatible, then S , T , I , J have a unique fixed point. and a Proof Let ∈ be given . By ∗ one can choose a point ∈ such that point ∈ such that .Continuing in this way. We define by induction a sequence in X such that Ix Sx y 0,1,2 … … .. n Tx y 0,1,2 … … .. Jx n Put in equation (1) , , , , , , ,, , , , 0 , , , , , , , , , , , , , , , , , , 0 , , , , , , , , , , , , , , , , , 0 , , , , , ,1 , , , , , , , , 0 1 , , , , 0 , , , , , P a g e | 35 Corresponding Author : email : [email protected], [email protected], International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN‐ 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (32 – 39) , lim → , …………. , , is a Cauchy sequence , then it converges to ∈ That is By Lemma( 1.15) sequence lim , lim → → lim lim → → → → .Since T and I are compatible of type implies Now suppose that (i) satisfied. Then that → . Now we wish to show that a common fixed point of I , J , S and T. a is a fixed point of I. Indeed if Ia a we have , , , , , Put , , , , , , , , , , , , , 0 , , , , , , , , , , , , , , , , , 0 , , , , , , , , , , , , , , , , , , , , 1 , , , , , , , , , 0 0 , , , , , , 0 , by implicit relation (1.14) which is a contradiction Hence Ia=a .a fixed point of T .Indeed put , , , , , And letting n → ∞ . if , , , , , , , , , , 0 , gives , , , , , , , , , , , , , , , , 0 , , , , , , , , , , , , , , , 1 ,1 , , , , , , , , , , 0 , ,1 , 0 P a g e | 36 Corresponding Author : email : [email protected], [email protected], International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN‐ 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (32 – 39) , , , 1 , , , , , , , , , 0 0 , , , , , , by implicit relation(1.14) which is a contradiction, Hence ,Ta = a. Since ⊆ for all ∈ ,there is a point ∈ such that we have put We show that b is coincidence point of J and S .If Jb , , , , , , , , , , , , , , , , , , , 0 , , , , , , , , , , , , , , , 0 , , , , 1, , , , , , , , , 1 , , , , , , , ,1 , , , , , , , , , 0 0 0 , , , , by implicit relation (1.14) which is a contradiction therefore a=Sb .Thus Ta = S b =J b = a. Since J and S are weak compatible we deduce that ⇒ So if Ta Sa We have put x = y =a in (1) We show that , , , , , , , , , , , , , , , , , 0 , , , , , , , , , , , , , , , , 0 P a g e | 37 Corresponding Author : email : [email protected], [email protected], International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN‐ 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (32 – 39) , , 1 , 1 , , , , , , , , , 1 , , , , , , , , , , , , 0 , , , 0 0 , , , , by implicit relation (1.14) is a contradiction Therefore Sa = a. Now Sa = Ta =Ja = a if be another fixed point of of I, I ,T and S , then put x = a and y = b , , , , , , , , , 0 , , , , , , , , , , , , , , , , , 0 , , , , , , , , 1 , 1 ,1 , 0 1 ,1 ,1 , , , , , 0 , , , , , , by implicit relation 1.15.which is a contradiction. Therefore a = b Refrences [1] A. George and P. Veeramani, (1994), On some results in fuzzy metric spaces, Fuzzy Sets and System 64 395–399. [2] D.Mihet, A Banach (2004) contraction theorem in fuzzy metric spaces ,Fuzzy Sets Syst.144 431‐439. [3] E. Pap, O. Hazdic and R .Mesiar, (1996) A fixed point theorem in probabilistic metric spaces and and an application J. Math. Anal. Appl. 202) 433‐449. [4]G.DschrijvecrCCornelisand E.E.Kerre 2001 Ontherepresentationof intuitionisticfuzzyt‐normsandtconormIEEE TransactionsonFuzzySys.1215‐16. [5]G.DschrijvecrandE.E.Kerre 2003 Onthe relationshipbetweensomeextensionsoffuzzy settheory.FuzzySetsSyst.33227‐35. 6 I.A. Zadeh, Fuzzy sets, (1965), Inform and Control 89 ,338–353. [7] I. Kramosil and J. Michalek, (1975), Fuzzy metric and statistical metric spaces, Kybernetica 11 326–334. [8] J.Goguen fuzzysets, 1967 J.Math. Anal.Appl.18,145‐171. 9 M.A. Erceg(1979) Metric spaces in fuzzy set theory J. Math. Anal. Appl. 69 ,205‐230. [10] O.Kaleva and S.Seikkala , (1984), On fuzzy metric spaces, Fuzzy Sets Syst. 12 ,215‐220. P a g e | 38 Corresponding Author : email : [email protected], [email protected], International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN‐ 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (32 – 39) [ 11 ] R. Saadati , A. Razani and H. Adibi 2006, A common fixed point theorem in ‐fuzzy metricspacesChaos,SolitionsandFractalsdoi: 101016/jchaos.01.023 [12] .S. Chang ,Y.J.Cho.,B.S.Lee,J.S. Jung and S.M.Kang Coincidence point and mini‐ mization theorems in fuzzy metric spaces Fuzzy Sets Syst. 88 (1997) 119‐128. [13] V.Gregori and A.Sapena, On fixed point theorems in fuzzy metric spaces,Fuzzy Sets. Syst.125 (2002) 245‐252. [14] E. Pap, O. Hazdic and R .Mesiar, A fixed point theorem in probabilistic metric spaces and and an application J. Math. Anal. Appl. 202 (1996) 433‐ 449. [15] Z.K.Deng Fuzzy pseudo metric spaces J.Maths Anal.Appl. 86 (1982) 74‐95. P a g e | 39 Corresponding Author : email : [email protected], [email protected], International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN‐ 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (40 – 46) ENVIRONMENTAL MANAGEMENT SYSTEMS AND BUSINESS Pavan Mishra Professor And Director Rajeev Gandhi Management Institute, Bhopal ABSTRACT The environment today is no longer just the air we breathe, or the water to meet people’s requirements has been practiced since Pre‐Vedic era. Over exploitation of natural resources by growing population resulted in various severe problems. As a first step towards the goals for environmental concerns is to establish an “Environmental Management System “or EMS. Environmental Management System is formal system concerned with managing the aspects of company’s activities, products and services that have or could have an impact on environment. INTRODUCTION As it is a fact that business creates wealth and is basis of economy, same is the fact that natural environment is the basis of all economic activity. Our life depends on nature to fulfill our necessities which are basics and natural environment and ecosystem services provide us with food water and materials for production system and living. From scenic beauty and recreational opportunities to direct inputs into the production process, environmental resources proves to be the means to provide a complex set of values and many advantages to the society. There exists both direct and indirect benefits which are relevant in environmental valuation. Our life depends on nature to fulfill our necessities which are basics and natural environment and ecosystems services provide us with food ,water and materials for production system and living. The precious non‐renewable resources which are scarce are exploited and indiscriminately used for the growth of the economy of the nation which results in environmental problems and hence leads to imbalance in ecosystem. MATERIAL AND METHODS : ISSUES OF BUSINESS WITH ENVIRONMENT A book published by Paul How ken in 1993 named "The Ecology of Commerce” which reveals that business has three issues to face. These include: 1 What it takes 2 What it makes 3 What it wastes 1 What it takes:‐ States that It takes natural resources from earth’s ecosystem through mining, extracting, growing, hunting and other such like things. 2 What it makes:‐It means that the product and services derived from above resources through industrial processes 3 What it wastes:‐It is not only in the form of garbage or pollution but also eco‐cost i.e. damage to the ecosystem. If Our business practices neglect and ignore the significance of above analysis especially the issue of eco‐cost it would mean to destroy our life support system our “Environment” ENVIRONMENT means surrounding in which any organization or living system operates. It includes natural, physical entities like our water land and its resources, human beings, plants, animals and their interrelationship. P a g e | 40 Corresponding Author : email : International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN‐ 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (40 – 46) So, protection of environment must become part of business issue worthy of commitment and action on the part of companies. So, protection of environment or achievement of goals for environmental concerns needs the EMS Systems which are necessary for business activities.. Environmental management system (EMS) refers to the management of an organization's environmental programs in a comprehensive, systematic, planned and documented manner. It includes the organizational structure, planning and resources for developing, implementing and maintaining policy for environmental protection. An Environmental Management System (EMS): • Serves as a tool to improve environmental performance • Provides a systematic way of managing an organization’s environmental affairs • Is the aspect of the organization’s overall management structure that addresses immediate and long‐term impacts of its products, services and processes on the environment • Gives order and consistency for organizations to address environmental concerns through the allocation of resources, assignment of responsibility and ongoing evaluation of practices, procedures and processes • Focuses on continual improvement of the system An Environment Management System (EMS) is a tool for managing the impacts of an organization’s activities on the environment. It provides a structured approach to planning and implementing environment protection measures. The main components of an Environmental Management Strategy in order of development are: • Collect preliminary data • Identify stakeholders • Determine scope • Develop aim and goals • Develop an Action Plan • Implement the Action Plan • Monitor and Review • Report An EMS monitors environmental performance, similar to the way a financial management system monitors expenditure and income and enables regular checks of a company's financial performance. An EMS integrates environmental management into a company's daily operations, long term planning and other quality management systems. BENEFITS OF AN EMS An EMS can assist a company in the following ways: • minimize environmental liabilities; • maximize the efficient use of resources; • reduce waste; • demonstrate a good corporate image; • build awareness of environmental concern among employees; • gain a better understanding of the environmental impacts of business activities; and • increase profit, improving environmental performance, through more efficient operations. An EMS can be a powerful tool for organizations to both improve their environmental performance, and enhance their business efficiency. An EMS is not prescriptive, rather, it requires organisations to take an active role in examining their practices, and then determining how their impacts should best be managed. This approach encourages creative and relevant solutions from the organisation itself. Although the implementation of an EMS is essentially a voluntary initiative, it can also become an effective tool for governments to protect the environment as it can assist regulation. For example, regulatory systems can encourage organisations to use EMS to meet P a g e | 41 Corresponding Author : email : International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN‐ 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (40 – 46) standards, by providing incentives for strong environmental performance. Likewise, organisations can use EMS to ensure that their performance is within regulatory requirements, and to keep ahead of more stringent regulations which might be introduced in the future. BUSINESS STRATEGIES IN RESPECT OF MARKETING AND MANUFACTURING : New ideas are emerging to reduce impacts of consumption such as producing zero emission vehicles, changing annual crops to perennials creating zero wastes textile mills and utilizing electronic paper and compos table footwear. It is imperative to follow business strategies in respect of marketing, manufacturing, accounting and trade as described below:‐ Marketing Strategy :‐ The traditional marketing depends on business and marketing these two are interlinked concepts. In today’s market mechanism. The eco‐cost factor is missing. To make marketing mechanism compatible and sustainable there is need to account eco‐costs and other consideration. For sustainable marketing eco‐cost have to become standard operating procedure spread over the product life cycle. Life cycle of a product refers to material flows starting with the stage of raw materials, its mining manufacturing, finished product its consumption and finally disposal of waste produced as a result of consumption. The life cycle analysis (LCA) gives an idea of eco‐costs associated with each stage. The companies desirous of adopting sustainable marketing have to use full‐cost accounting practice so that eco‐costs are included in the product may increase which may affect the profit maximization goal and shareholder’s interest of the company. In order to avoid such situation the company should go for state‐of‐the‐art technology. This involves 1. The state‐of‐the‐art technology which will be costly. 2. Materials used may have less impact on ecosystem can be more costly. 3. The non‐conventional energy used in the production may be more expensive. 4. To dispose the hazardous wastes is important and if it is not come in consideration in prescribed manner could lead to penalties. 5. Costs associated with installing EMS and certification (ISO 14001) is also important. ECO COST FLOW CHART It is clear from the above conclusion that to encourage the companies for adopting sustainable business practice the govt. of developing nations should provide incentives or subsides. It is truth that sustainable practice definitely reduce the “technological co-efficient factor” of erlich equation that is “T” factor Erlich equation I = P x A x T MARKET BASED INSTRUMENTS ARE MENTIONED BELOW : 1. Many countries are offering subsidies for the companies or industrial sectors that shift to clean technologies, recycling programmes or for energy conservation /use of non conventional energy resources. 2. Incentive – It mean incentive for those (companies or entrepreneurs) who incur P a g e | 42 Corresponding Author : email : International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN‐ 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (40 – 46) additional costs in their operations for the protection of ecosystem. These incentives may be in the form of financial compensation. 3. Incentive for those in the developed countries when they engage in clean technology transfer to developing countries. 4. Taxes for the activities lead to environmental damage or resource depletion. For example levy of extra duty or tax on leaded petrol than unleaded. 5. Tradable permit system has been introduced system has been introduced in environmental management. For example, tradable permits for greenhouse gas emission can be exchanged through the market. 6. Regulations are made in various developed countries for controlling emission of carbondioxide or other gases. 7. A certain level of emission has been granted to the production companies by these regulation. The companies emitting less than that level are allowed to sell the remainder emission (pollution) to other companies as permits. In MBIs, the market price is charged for a product or service for which otherwise no market price exists as for example for gaseous emissions, or if the price impact on environment. In other words, a market is created for a product for which no market existed earlier. METHODS FOR MARKET VALUATON Environmental valuation is largely based on the assumption that individuals are willing to pay for environmental gains and, conversely, are willing to accept compensation for some environmental losses.. Environmental economists have developed a number of market and non-market-based techniques to value the environment. Figure presents some of these techniques and classifies them according to the basis of the monetary valuation, either marketbased, surrogate market, or non-market-based.the following diagram shows the valuation methods as; Methods for Market Valuation Market - Based Surrogate Markets Market-Based Methods. Economists rely on direct, observable market interactions to place monetary values on goods and services. Markets enable economists to measure an individual's willingness to pay to acquire or preserve environmental services. In turn, consumers reveal their preferences through the choices they make in allocating scarce resources among competing alternatives. There are a number of market-based methods of environmental valuation. These includes market-based techniques: a) factor of production approach, b) change in Non-Market-Based producer/consumer surplus, and c) examination of defensive expenditures. Surrogate Market Methods. In the absence of clearly defined markets, the value of environmental resources can be derived from information acquired through surrogate markets. The most common markets used as surrogates when monetizing environmental resources are those for property and labor. The surrogate market methods discussed below are the hedonic price method and the travel cost method, The hedonic P a g e | 43 Corresponding Author : email : International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN‐ 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (40 – 46) price method of environmental valuation uses surrogate markets for placing a value on environmental quality. The real estate market is the most commonly used surrogate in hedonic pricing of environmental values. Air, water, and noise pollution have a direct impact on property values. By comparing properties with otherwise similar characteristics or by examining the price of a property over time as environmental conditions change and correcting for all non environmental factors, information in the housing market can be used to estimate people's willingness to pay for environmental quality. The travel cost method can be used to measure not only the elimination of a site but also the impact of access restrictions and changes in environmental quality. The travel cost method, however, is limited in application and captures only direct recreational benefits and only when there are measurable travel costs to examine. Finally, the travel cost method does not measure non-use and intrinsic values or other sources of value, such as commercial values. Random utility models (RUMs) are econometric models that, among other uses, permit the estimation of preferences among different recreational areas with varying characteristics. The RUM, with its ability to assess competing multiple sites with varying recreational characteristics, holds considerable appeal for economists. A RUM is not specific to surrogate market techniques. Rather, a RUM is an estimation procedure that can be combined with surrogate and non-market techniques used in valuing, for example, recreational areas and wetland area restoration. Travel cost studies often use RUMs; however, they may also be applied in stated preference studies that use choice experiments. eNon-Market Methods. The Contingent Valuation Method (CVM) is a non-market-based technique that elicits information concerning environmental preferences from individuals through the use of surveys, questionnaires, and interviews. When deploying the contingent valuation method, the examiner constructs a scenario or hypothetical market involving an improvement or decline in environmental quality. The scenario is then posed to a random sample of the population to estimate their willingness to pay (for the improvement or their willingness to accept monetary compensation for the decline in environmental quality. The questionnaire may take the form of a simple openended question Based on survey responses examiners estimate the mean and median willingness to pay for an environmental improvement or willingness to accept compensation for a decline in environmental quality. The CVM is extremely flexible and can be used to value most any environmental asset. Further, CVM and other non-market methods are required accurately to capture non-use values. This is a significant point in a world comprised of ecosystems under great stress from human impacts, where increasing attention is being given to nonuse values. The question faced by social scientists, which can be somewhat addressed through nonmarket environmental valuation methods, is how to place a value on such an environmental resource. The objective of the choice experiment study was to examine community preferences relating to various options necessary to meet the demands of the area's growing population, while focusing attention on resultant environmental costs (Blamey and others, 1999). Environmental valuation techniques are primarily driven by the principle that individuals are self-interested and demonstrate preferences that form the basis of market interactions. These market interactions demonstrate how individuals value environmental goods and services. The marketbased nature of economic theory emphasizes the maximization of human welfare. The market, in P a g e | 44 Corresponding Author : email : International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN‐ 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (40 – 46) turn, determines resource allocation based on the forces of supply and demand. The environment, thus, is used as an instrument to achieve human satisfaction. In turn, the environment can be treated like any other commodity and its associated value can be broken down into many elemnts. In this manner, environmental valuation can be viewed as a mechanistic approach in which the total value of an environmental system is assessed in terms of the value of its individual parts. Existence values are not demonstrated in the marketplace and are at least somewhat based on unselfish motives making them problematic to environmental analysts. To quantify existence values accurately within the framework of environmental valuation is difficult. Revealed preference methods (e.g., travel cost method and hedonic pricing methods) measure the demand for the environmental resource by measuring the demand for associated market goods. Existence values are not adequately captured using these methods. Existence values are only revealed through surveys of individual willingness to pay for the environmental resource or willingness to accept compensation for environmental losses. Command and control method :- The other aspect of market – environment relationship is command and control method. In this method a policy framework exists that mandates compliance to certain standards laid down by regulatory authorities. In command and control mechanism economic implications are of paramount importance. If pollution complies and invests more money in pollution abatement it is an extra financial burden for cleaner production for a win-win situation, the product should ecologically sound as well as less costly India is investing 0.3% of GNP on pollution control. In command and control system and MBIs in both financial implications / incentives always exist, In MBIs, since there is no command, the companies have a choice to use technologies that may reduce the cost of compliance. RESULTS AND DISCUSSION : Conclusion / Suggestion 1. As a first step the aspects of company’s activities, products and services must be managed that could have an impact on environment by establishing an environmental management system (EMS) as it is necessary for business practices. 2. Environmental audit should be made to know the environmental aspects and impacts to companies activities and certified by an independent certifier to demonstrate that system confirms to relevant standard. 3. New ideas must emerge to reduce the impacts of consumption such as producing zero emission vehicles, changing annual crops to perennials creating zero wastes textile mills and utilizing electronic paper. 4. Lastly the most important step is to establish market based instruments which include: • Subsides for the companies and industrial sectors for recycling programs, cleaning technologies & for use of non conventional energy resources. • Incentive means incentive should be given to developing countries when theory engages in clean technology. • And regulations and penalties made to control the emission of harmful gases in the country. • to “It is clear from the above conclusion that encourage the companies for adopting sustainable business practice the P a g e | 45 Corresponding Author : email : International Journal of Fundamental & Applied Research Website : www.ijfar.org ,( ISSN‐ 2320‐7973 Volume‐1 Issue ‐2 Month – May 2013 pp. (40 – 46) government of developing nations should provide incentives REFERENCES : 1. Anand S Bal-2008-An introduction to environmental management, Himalayas Publishing House, Mumbai 2. Negi S.S. 2003. 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