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Viagra is now not the sole cure to impotence. A number of medications have come up that claim to curb this disease called erectile dysfunction. These drugs belong to the class of PDE-5 inhibitors. The drugs promise effects like increased blood flow to the penis and better penis enlargement. Some even claim to be herbal. All these medicines act in different ways to heighten the sexual pleasure. Impotence occurs when the male is unable to sustain the erection long enough to enjoy the sexual intercourse. In some cases, it is difficult even to achieve an erection. This condition can be caused due to a physical injury or due to a psychological trauma. The shock affects the nerves and reduces the blood flow in the penis. Levitra is one of the drugs that help to control this disorder. This FDA approved drug has been tested on thousands of men in about fifty clinical trials. The results were positive and showed that the medicine could treat diabetes and prostrate cancer as well. However, the drug also causes certain side effects. The most common reactions are headache, flushing and a runny nose, but all the reactions are mild and disappear quickly. Some uncommon but dangerous effects can be a prolonged erection that continues for hours together and inability to differentiate between the colors blue and green. Levitra works in a simple manner. It relaxes the muscles and the blood vessels in the penis, thereby inducing an erection. The drug has to be taken orally once a day. One dosage produces an erection long enough for the patient to have sexual intercourse. An important fact to know about the drug is that it does not stimulate sexual urges, nor does it cause an automatic erection. The patient still needs to have a sexual arousal before achieving an erection. It is also not a permanent cure for impotence. The effect of the drug subsides after the intercourse. Levitra is said to be better than its predecessor Viagra. Another such drug is Cialis. The effect of this drug is supposed to be strong enough to last for 36 hours at a stretch. The advent of these drugs has proved to be a boon to the victims of erectile dysfunction. The drugs were such a breakthrough, that they earned their inventors a Noble Prize. A prescription is required to purchase these drugs. Prescriptions can also be filled on websites and the drugs bought through online medical stores. A relevant question here is how long can a person thrive on these drugs. It is advisable to consult physicians for frequent usage of the drugs. One can also go for other surgical treatments like penile injections and vacuum tubes. The condition of erectile dysfunction is hard to cure. The PDE drugs have a made a difference to millions of sufferers. While some enlarge the penis and others relax muscles, the effect of these drugs is the same. An important thing to note is that the advent of these drugs is fairly recent and the long term effects are unknown. top rated penis enhancement pills manual pennis enlargement cheapest penile enlargement pills best penis enhancement pills magna rx plus vimax natural penis enlargement exercise penis enlarement secret easy enlagement free penis surgery way

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THE RESPIRATORY SYSTEM Intake of oxygen and removal of carbon dioxide are the primary functions of the respiratory system. The respiratory system carries out these life-sustaining acts in close coordination with the circulatory system. Most of the time, we remain blissfully unaware of these automatic functions. The respiratory organs deliver oxygen to the circulatory system. The circulatory system transports the oxygen to all body cells. Oxygen is used by cells to liberate the energy needed for cellular activities. The respiratory system also removes carbon dioxide. Thus, the circulatory system prevents the buildup of this lethal waste byproduct in the body tissues. Irreversible damage to tissues can occur if the respiratory system is halted even for a few minutes. This can cause failure of all the other body systems. The consequence is death! NOSE COMMENCES THE RESPIRATORY PROCESS The respiratory system begins from the nose. It ends in the lungs. The respiratory system is broadly divided into two parts, viz., the upper and the lower respiratory tracts. The upper respirator tract is made up of the nose and the throat (pharynx). The lower respiratory tract includes five organs. They are the voice box (larynx), and the windpipe (trachea), bronchi, bronchioles and the lungs. The trachea splits into the two branches called bronchi. The bronchi further gets divided into further smaller branches called bronchioles. The lungs are a pair of spongy saclike organs. The bronchioles, bronchi, trachea, larynx, pharynx and the nose transport air to and from the lungs. It is the lungs that interact with the circulatory system for delivering oxygen and removing carbon dioxide from the lungs. THE RESPIRATION PROCESS Respiration is a two-pronged process. It involves the respiratory and the circulatory systems. Respiration connotes the coordinated functioning whereby the cells are delivered oxygen and the lethal carbon dioxide is removed. The first phase: The nose begins the first phase of respiration. This is done with inhaling or inhalation (breathing in). The process brings in air along with oxygen from outside the body into the lungs. From the lungs, oxygen goes via the blood vessels to the heart. The heart pumps the oxygen-rich blood to all parts of the body. The first phase of respiration ends with the oxygen moving into the cells from the bloodstream. The second phase: The second phase commences after the oxygen gets into the cells. The cells use the oxygen to produce energy. This independent process is called cellular respiration. It produces the byproduct -- carbon dioxide. The accumulated carbon dioxide now moves from the cells to the bloodstream. Next, the bloodstream transports the carbon dioxide to the heart. Then, the carbon dioxide-laden blood is pumped back to the lungs. The third phase: Again the nose comes into picture during this stage. The lungs push the byproduct to the nose from where it is exhaled or breathed out. This is the final or the third stage when the body gets rid of the carbon dioxide. At the end of the third stage or the entire respiratory cycle another one starts automatically. OTHER FUNCTIONS OF THE RESPIRATORY SYSTEM The respiratory system further regulates the balance of acid and base in tissues. This balancing act is crucial for the normal functioning of cells. It protects the body against disease-causing organisms and toxic substances inhaled with air. The respiratory system also houses the cells that detect smell. Moreover, the respiratory system assists in the production of sounds for speech. THE OLFACTORY NERVE The brownish olfactory nerve is also called olfactory receptors. The olfactory nerve inside the nose is the main nerve of smell. The olfactory region is made up of thick nasal soft mucous membrane. Its brownish color is because of a pigment. The olfactory nerve ends in minute varicose fibers (several small branches). These fibers ultimately conclude in the epithelial cells. Mentionably, the epithelial cells project into the nasal free surface. The olfactory nerve is the first to know of any chemicals that may enter the nasal passages. The receptors immediately trigger off a signal to the brain. This creates the smell perception. THE ESOPHAGUS Esophagus is a muscular tube. The esophagus carries food from the throat to the stomach. The esophagus and the pharynx situated behind the mouth swallow the food and move it to the stomach. The stomach temporarily stores the food, mixes it with digestive juices, and carries out some digestion. The esophagus also holds the stomach contents in place. Actually, this function is carried out by the lower esophageal sphincter. This sphincter is a muscle. It is located at the lower end of the esophagus. THE PHARYNX The pharynx is a passageway for both air and food. The pharynx connects the nose and mouth with the windpipe (trachea) and the food pipe (esophagus). The pharynx is a muscular tube. The pharynx is located within the neck. The pharynx is lined with a mucous membrane. The pharynx is approximately five inches (13 cm) in length. The pharynx lies in the front of the spinal column. The upper portion of the pharynx is known as nasopharynx. The name arises as it begins in the back of the nasal cavity.. The lower part is oropharynx. It points to that area in the back of the mouth. The pharynx ends at the epiglottis. Epiglottis is a flap of cartilage. Epiglottis prevents food from entering the trachea. However, the epiglottis allows the food to enter the esophagus. Two eustachian tubes connect the pharynx to the middle ear. These eustachian equalizes the eardrums air pressure. The pharynx can be infected via the mouth as well as the nose. Sore throat involves pharynx infection (pharyngitis) or throat inflammation. Pharyngitis can be due to infectious mononucleosis, herpes, and viral infections. The viral infections are German measles (rubella), influenza, and common cold. It can also be caused by bacteria like staphylococcal, streptococcal, chlamydial, and diphtherial. These bacteria multiply cause sore throat by multiplying rapidly within the pharynx. Tonsils and Adenoids Among the adults the pharynx contains the tonsils, while among the children the pharynx contains the adenoids. Tonsils: Tonsils are lymphoid tissues at the back of the throat. Tonsils form a tissue ring around the pharynx or the throat. Tonsils are cells. Tonsils are similar to the bloodstream lymphocytes. Tonsils are embedded in fibrous connective tissues. Tonsils are covered by a single epithelium layer. The lymphoid cells are phagocytic. The cells protect the pharynx from bacteria that can cause diseases. Tonsils may become inflamed and chronically or acutely infected. This condition is called tonsillitis. It is generally caused by streptococcus infection. During tonsillitis and streptococcal, the tissues surrounding the tonsils form pus. Then a whitish coat forms over the tonsils which can appear as white specks. This state is called quinsy. When the pharyngeal tonsils become inflamed they become abnormally large. They are called adenoids. Acute cases of tonsillitis are often treated by antibiotics like penicillin. Chronic recurrent tonsillitis may be treated by tonsillectomy (surgical removal of the tonsils). Adenoids: Adenoids are lymphoid tissue at the back of the throat. Adenoids usually shrink and disappear by adolescence. Enlargement of this tissue is common among children. Such a state can interfere with breathing. Symptoms of enlarged adenoids include restless sleep, snoring, breathing via mouth, and a nasal voice. Earlier, these tissues were removed in children. It was thought that inflamed adenoids led to recurrent colds and infections. Nowadays, this condition is recognized as benign. As a result, there are lesser adenoidectomies. THE LARYNX From the pharynx, the inhaled air moves to the larynx. The larynx is about five inches (13 cm) in length. The larynx is located in the central part of the neck. The larynx is made up of several layers of flexible but tough cartilage, a tissue. Mentionably, during puberty the males experience a protrusion of the cartilage. This enlarged prominent extension at the neck is called the Adam’s apple. FUNCTIONS OF THE LARYNX The larynx primarily transports air to the wind pipe (trachea). Besides, the larynx also helps in producing the sounds. The epiglottis -- a leaflike thin tissue portion of the larynx -- further prevents the food from entering the trachea (thus obviating the possibility of choking). Moreover, the cilia cells as well as the mucous membrane of the larynx also filter air. The cilia cells take the airborne substances towards the pharynx where they are swallowed. The epiglottis: The epiglottis stem is attached to the top and the front portions of the larynx. When the epiglottis remains in a vertical position, it acts like a trap door. This happens during the breathing process. But as a person starts swallowing, a reflexive action forces the epiglottis and the larynx to move near each other toward each other. This coming closer of the epiglottis and the larynx forms a protective seal. As a result, the fluids and food are specifically sent towards the food pipe (esophagus). When the reflexive action doesn’t work: What happens when the reflexive action doesn’t function is that the food can enter the larynx. This happens when one eats the meal fats or when one laughs while swallowing. The result is that there will be a recurrent cough impelled choking effect. At times this apparently simple choking effect can even be life-threatening. The cough is the body’s reflexive action to clear the larynx of the impediment. Whenever such choking takes place, someone must thump the back portion between the shoulder blades several times. This will help the person to get over the choking effect. The Heimlich maneuver: The Heimlich maneuver clears the windpipe of obstructions like food or fluid. The first-aid providing person applies thrusts in quick and in upward motion at the patient’s abdomen. The objective is to expel the object stuck at the trachea (windpipe). Standing behind the victim, the person keeps both his arms across the patient’s waist. Then, he places the fist of one hand below the rib cage and a bit above the navel. All the while, he keeps the thumb against the patient’s body. He uses the other hand for holding the fist and for applying pressure. Next, he puts quick pressure on the abdomen. The pressure is put in an inward and an upward motion. This fast recurrent action forces the lung air to get rid of the substance blocking the windpipe. However, in cases where the patient cannot stand still, is overweight, faints following the choking effect, the Heimlich maneuver is done in a different manner. The patient is made to lie face down. The first-aid provider carries on the process with the heel of a hand. Important: Nonetheless, it is important that the person does not put undue pressure on the rib cage. This is especially true when the patient is a child or an elderly person. Too much pressure can break ribs. Pertaining to pregnant woman or overweight people, the first-aid provider must place his hands only on the lower half of the breastbone (sternum) while carrying out the maneuver. In acute choking, tracheotomy (a surgical procedure) is undertaken to carry out bypass of the larynx. This operation brings in air to the trachea. TRACHEA, BRONCHI, AND BRONCHIOLES The trachea is another tube measuring approximately six inches (15 cm). The trachea is located below the larynx. From the larynx the air passes on to the trachea. About 20 sturdy C-shaped cartilage rings constitute the trachea. These rings help to keep the trachea open. In the process, air gets transported unhindered. While the unfastened cartilage is located at the trachea’s back portion, their ends are linked to each other by muscle tissues. Bronchi & bronchioles: The trachea base is situated at the portion where the neck meets the body trunk. At this juncture, the trachea splits into the right and the left bronchi. These bronchi transport air to the right and left lungs respectively. Inside the lungs, these bronchi again break up into smaller tubes -- the bronchioles. In fact, the respiratory system’s cleansing process is carried out by those bronchioles that are situated at the initial part, bronchi, and the trachea. These organs carry out the cleansing process via the mucous membrane linings as well as the ciliated cells. These cilia and the lining push the mucus upward towards the pharynx. Alveoli & capillaries: Alveoli are minute sacs inside the lungs. Most of the alveoli are lung tissues. Alveoli are formed by the bronchioles as they divide several times. The alveoli along with the bronchioles resemble a tree. The alveoli are only 0.02 inches (0.5 mm) in diameter. There are about 150 million alveoli in each lung. The alveoli carry out a dual function. While providing oxygen to the circulatory system, they also remove carbon dioxide from the lungs. The thin elastic alveoli walls expand when air moves into them. The walls collapse to exhale the air. The alveoli remain in clusters like the grapes. Each cluster is surrounded by capillaries. The capillaries are thin-walled and form a dense net of tiny hairs. The alveoli wall air is generally located 0.2 microns away from the blood carried by the capillary. Mentionably, the alveoli have more oxygen concentration then the capillaries. So, oxygen disseminates to capillaries from alveoli. Through the capillaries, oxygen goes to the larger vessels. These vessels then transport the oxygenated blood to the heart. Next, the heart pumps the cleaned blood to the other parts of the body. Macrophages: Among the alveoli are interspersed many macrophages. The macrophages are blood cells. These large white cells act as the last sentinels of the respiratory system among the alveoli. The macrophages segregate the foreign elements which may have passed through the earlier filtration process. This last line of defense ensures that the alveoli are not infected. Carbon dioxide disposal: The cells from across the body dump Carbon dioxide as a waste product. It is dumped in the bloodstream. The blood carries Carbon dioxide into the heart. From the heart, the Carbon dioxide moves to the alveolar capillaries. Notably, the capillaries have more concentration of carbon dioxide than the alveoli. So, carbon dioxide gets diffused into the alveoli from the capillaries. 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Herpes is a sexually transmitted viral disease caused by the Herpes Simplex Virus. Two strains of this virus have been identified – HSV I and HSV2. The HSV-I virus is known to cause oral herpes. Oral herpes is a disease that affects the mouth. Cold sores appear on the lips and on and in the mouth. It is a communicable disease that is prevalent among children, though it is not uncommon among adults as well. The outbreak of the disease results in painful sores, swollen and bleeding gums and sometimes a white coating on the tongue. The symptoms of herpes are not easily identifiable .The result is that most people don’t even realize they are suffering from the disease and unintentionally spread it to non-infected persons through physical contact. It is easier to prevent Herpes than it is to cure it. It is important that infected parents do not kiss their children, for this could spread the virus. Also, it is better not to send the infected children to school till the attack subsides. It is also essential to keep the utensils of the patient separate from those of the other family members. Once the disease sets in, people should take antiviral drugs such as acyclovir. Genital Herpes is a sexually transmitted disease usually caused by the HSV-2 virus. The blisters appear on the genital area, vaginal area, penis, anal opening, and on the buttocks or thighs. The symptoms of genital herpes include a feeling of itching or burning in the genital area, pain in the legs or buttocks. In case of women, there is a fluid discharge from the vagina. The first attack of the HSV-1 and HSV-2 virus is called the primary episode. The symptoms set in within two to ten days of the infection and last for about two to three weeks. After the attack, the virus remains dormant for some time in the nerve cells and then gets reactivated, and another attack results. The frequency and severity of the attacks diminish with the passage of time. permanent penis elargement penis enhancement without pills penis enlargement product pro solution wealth vimax penis enlargement system safe penis enlargment penis enargement secret real penis enlargement magna rx results review

Viagra is by far the most recognizable brand name and for the drug sildenafil citrate. It is produced and marketed by the pharmaceutical giant Pfizer, and is also sold under the name Ravatio and Caverta in certain locations throughout the world. Viagra is produced for one reason and one reason only, to treat erectile dysfunction, or as it's more commonly known, ED. It comes in the form of a blue pill in 25mg, 50mg, and 100mg dosages. Although it is available only by way of a doctor’s prescription, you can actually buy Viagra on the Internet if you so choose. The drug Viagra wasn't even intended to treat what is so widely known for now, in the beginning. It Was designed in the 1990s with the for the purpose of treating a form of heart disease known as angina pectoris. It didn't work for the purpose it was intended, however, researchers of the drug noticed an interesting side effect of the drug at those who are testing it. It consistently induced erections. They had a gold mine on their hands and they knew it. It was then patented in 1996 with the intention of development as a treatment for ED. By 1998 it had passed the necessary tests for FDA approval, and was released to the public where it was received with open arms and open legs. Erectile dysfunction is a very common disorder in men, and is brought about by any number of factors. Some of the most common causes behind ED are psychological in origin, and some are equally based on physical abnormalities. The vast majority of men will find that they will have some difficulty getting or maintaining an erection at at one time or another, even though they may be perfectly healthy. These are the instances where Viagra has proven to be very effective indeed. Some cases of ED can be caused by damage to the nervous system, diabetes, or hypogonadism, and in these cases Viagra may not be effective. If a doctor you to effectively screen new officers of questions to see if it can help you pay Viagra is classified as a PDE5 inhibitor. Pretty fancy name isn't it? PDE5 causes a compound called cyclic GMP or cGMP to degrade. Since cGMP causes the arterial smooth muscles in the penis to relax, which will then allow the penis to become engorged blood which is how an erection is created. Stopping or restricting the action of PDE5 will result in penile erections if the individual has an otherwise clean bill of health. Some other PDE5 inhibitors available today include Levitra, and Cialis. You have probably heard of all of them because they advertise very aggressively for this lucrative market. Viagra is not without side effects and some of them include headaches, stomach upset, flushing, and sweating. Viagra has been reported to also cause blurred vision in some cases, and in some rare cases have actually been reports of temporary blindness. Viagra should not be taken in conjunction with drugs designed for angina pectoris, combination can cause a serious drop in blood pressure that may be very dangerous. Even though it is available on the internet, it is always wise to consult a qualified physician before taking any drug, including Viagra. truth about penis enlargment pills penis enlagement surgery penis enhancement before and after photo enlagement erection penis pill vimax penis enlargment surgery cost pennis enlargement video pnis enlargement surgeon magna rx results review magna rx results review

Introduction The Multi-Fiber Arrangement (MFA) has governed international trade in textiles and clothing since 1974. The MFA enabled developed nations, mainly the USA, European Union and Canada to restrict imports from developing countries through a system of quotas. The Agreement on Textiles and Clothing (ATC) to abolish MFA quotas marked a significant turnaround in the global textile trade. The ATC mandated progressive phase out of import quotas established under MFA, and the integration of textiles and clothing into the multilateral trading system before January 2005. The Agreement on Textiles and Clothing ATC is a transitory regime between the MFA and the integration of trading in textiles and clothing in the multilateral trading system. The ATC provided for a stage-wise integration process to be completed within a period of ten years (1995-2004), divided into four stages starting with the implementation of the agreement in 1995. The product groups from which products were to be integrated at each stage of the integration included (i) tops and yarns; (ii) fabrics; (iii) made-up textile products; and (iv) clothing. The ATC mandated that importing countries must integrate a specified minimum portion of their textile and garment exports based on total volume of trade in 1990, at the start of each phase of integration. In the first stage, each country was required to integrate 16 percent of the total volume of imports of 1990, followed by a further 17 percent at the end of first three year and another 18 percent at the end of third stage. The fourth stage would see the final integration of the remaining 49 percent of trade. Global Trade in Textile and Clothing World trade in textiles and clothing amounted to US $ 385 billion in 2003, of which textiles accounted for 43 percent (US $ 169 bn) and the remaining 57 percent (US $ 226 bn) for clothing. Developed countries accounted for little over one-third of world exports in textiles and clothing. The shares of developed countries in textiles and clothing trade were estimated to be 47 percent (US $ 79 bn) and 29 percent, (US $ 61 bn) respectively. Import Trends in USA In 1990, restrained or MFA countries contributed as much as 87 percent (US $ 29.3 bn) of total US textile and clothing imports, whereas Caribbean Basin Initiative (CBI), North American Free Trade Area (NAFTA), Africa Growth and Opportunity Act (AGOA) and ANDEAN countries together contributed 13 percent (US $ 4.4 bn). Thereafter, there has been a decline in exports by restrained countries; the share of preferential regions more than doubled to reach 30 percent (US $ 26.9 bn) of total imports by USA. The composition of imports of clothing and textiles by USA in 2003 was 80 percent (US $ 71 bn) and 20 percent (US $ 18 bn), respectively. Asia was the principal sourcing region for imports of both textiles and clothing by USA. Latin American region stood at second position with a share of 12 percent (US $ 2.2 bn) and 26 percent (US $ 18.5 bn), respectively, for textiles and clothing imports, by USA. In most of the quota products imported by USA, India was one of the leading suppliers of readymade garments in USA. Though China is a biggest competitor, the unit prices of China for most of these product groups were high and thus provide opportunities for Indian business. Import Trends in EU EU overtook USA as the world's largest market for textiles and clothing. Intra-EU trade accounted for about 40 percent (US $ 40 bn) of total clothing imports and 62 percent (US $ 32.5 bn) of total textile imports by EU. Asia dominates EU market in both clothing and textiles, with 30 percent (US $ 30 bn) and 17 percent (US $ 8 bn) share, respectively. Central and East European countries hold a market share of 11 percent (US $ 11.3 bn) in clothing and 7.5 percent (US $ 4 bn) in textiles imports of EU. As regards preferential suppliers, the growth of trade between EU and Mediterranean countries, especially Egypt and Turkey, was highest in 2003. As regards individual countries, China accounted for little over 5 percent (US $ 2.8 bn) of EU's imports of textiles and over 12 percent (US $ 12.4 bn) of clothing imports. In the EU market also, India is a leading supplier for many of the textile products. It is estimated that Turkey would emerge as a biggest competitor for both India and China. However, with regard to unit prices, India appears to be lower than both Turkey and China in many of the categories. Import Trends in Canada Amongst the leading suppliers of textiles and clothing to Canada, USA had the highest share of over 31 percent (US $ 8.4 bn), followed by China (21% - US $ 1.8 bn) and EU (8% - US $ 0.6 bn). India was ranked at fourth position and was ahead of other exporters like Mexico, Bangladesh and Turkey, with a market share of 5.2 percent (US $ 0.45 bn). Potential Gains It may be noted that clothing sector would offer higher gains than the textile sector, in the post MFA regime. Countries like Mexico, CBI countries, many of the African countries emerged as exporters of readymade garments without having much of textile base, utilizing the preferential tariff arrangement under the quota regime. Besides, countries like Bangladesh, Sri Lanka, and Cambodia emerged as garment exporters due to cost factors, in addition to the quota benefits. It may be said that countries like China, USA, India, Pakistan, Uzbekistan and Turkey have resource based advantages in cotton; China, India, Vietnam and Brazil have resource based advantages in silk; Australia, China, New Zealand and India have resource based advantages in wool; China, India, Indonesia, Taiwan, Turkey, USA, Korea and few CIS countries have resource based advantages in manmade fibers. In addition, China, India, Pakistan, USA, Indonesia has capacity based advantages in the textile spinning and weaving. China is cost competitive with regard to manufacture of textured yarn, knitted yarn fabric and woven textured fabric. Brazil is cost competitive with regard to manufacture of woven ring yarn. India is cost competitive with regard to manufacture of ring-yarn, O-E yarn, woven O-E yarn fabric, knitted ring yarn fabric and knitted O-E yarn fabric. According to Werner Management Consultants, USA, the hourly wage costs in textile industry is very high for many of the developed countries. Even in developing economies like Argentina, Brazil, Mexico, Turkey and Mauritius, the hourly wage is higher as compared to India, China, Pakistan and Indonesia. From the above analysis, it may be concluded that China, India, Pakistan, Taiwan, Hong Kong, Brazil, Indonesia, Turkey and Egypt would emerge as winners in the post quota regime. The market losers in the short term (1-2 years) would include CBI countries, many of the sub-Saharan African countries, Asian countries like Bangladesh and Sri Lanka. The market losers in the long term (by 2014) would include high cost producers, like EU, USA, Canada, Mexico, Japan and many east Asian countries. The determinants of increase / decrease in market share in the medium term would however depend upon the cost, quality and timely Review of Indian Textiles and Clothing Industry The textiles and garments industry is one of the largest and most prominent sectors of Indian economy, in terms of output, foreign exchange earnings and employment generation. Indian textile industry is multi-fiber based, using delivery. In the long run, there are possibilities of contraction in intra-EU trade in textile and garments, reduction of market share of Turkey in EU and market share of Mexico and Canada in USA, and thus provide more opportunities for developing countries like India. It is estimated that in the short term, both China and India would gain additional market share proportionate to their current market share. In the medium term, however, India and China would have a cumulative market share of 50 percent, in both textiles and garment imports by USA. It is estimated that India would have a market share of 13.5 percent in textiles and 8 percent in garments in the USA market. With regard to EU, it is estimated that the benefits are mainly in the garments sector, with China taking a major share of 30 percent and India gaining a market share of 8 percent. The potential gain in the textile sector is limited in the EU market considering the proposed further enlargement of EU. It is estimated that India would have a market share of 8 percent in EU textiles market as against the China's market share of 12 percent. Review of Indian textiles and Clothing Industry The textiles and garments industry is one of the largest and most prominent sectors of Indian economy, in terms of output, foreign exchange earnings and employment generation. Indian textile industry is multi-fiber based, using cotton, jute, wool, silk and mane made and synthetic fibers. In the spinning segment, India has an installed capacity of around 40 million spindles (23% of world), 0.5 million rotors (6% of world). In the weaving segment, India is equipped with 1.80 million shuttle looms (45% of world), 0.02 million shuttle less looms (3% of world) and 3.90 million handlooms (85% of world). The organised mill (spinning) sector recorded a significant growth during the last decade, with the number of spinning mills increasing from 873 to 1564 by end March 2004. The organised sector accounts for production of almost all of spun yarn, but only around 4 percent of total fabric production. In other words, there are little over 200 composite mills in India leaving the production of fabric and processing to the decentralised small weaving and processing firms. The Indian apparel sector is estimated to have over 25000 domestic manufacturers, 48000 fabricators and around 4000 manufacturer-exporters. Cotton apparel accounts for the majority of Indian apparel exports. Textiles and Garments Exports from India The share of textiles and garments exports in India's total exports in the year 2003-04 stood at about 20 percent, amounting to US $ 12.5 billion. The quota countries, USA, EU and Canada accounted for nearly 70 percent of India's garments exports and 44 percent of India's textile exports. Amongst non-quota countries, UAE is the largest market for Indian textiles and garments; UAE accounted for 7 percent of India's total textile exports and 10 percent of India's garments exports. In terms of products, cotton yarn, fabrics and made-ups are the leading export items in the textile category. In the clothing category, the major item of exports was cotton readymade garments and accessories. However, in terms of share in total imports by EU and USA from India, these products hold relatively lesser share than products made of other fibers, thus showing the restrain in this category. Critical Factors that Need Attention Though India is one of the major producers of cotton yarn and fabric, the productivity of cotton as measured by yield has been found to be lower than many countries. The level of productivity in China, Turkey and Brazil is over 1 tonne / ha., while in India it is only about 0.3 tonne / ha. In the manmade fiber sector, India is ranked at fifth position in terms of capacity. However, the capacity and technology infusion in this sector need to be further enhanced in view of the changing fiber consumption in the world. It may be mentioned that the share of cotton in world fiber demand declined from around 50 percent (14.7 mn tons) in 1982 to around 38 percent (20.12 mn tons) in 2003, while the share of manmade fiber has increased from 44 percent (13.10 mn tons) to around 60 percent (31.76 mn tons) over the same period. Apart from low cost labour, other factors that are having impact on final consumer cost are relative interest cost, power tariff, structural anomalies and productivity level (affected by technological obsolescence). A study by International Textile Manufacturers Federation revealed high power costs in India as compared to other countries like Brazil, China, Italy, Korea, Turkey and USA. Percentage share of power in total cost of production in spinning, weaving and knitting of ring and O-E yarn for India ranged from 10 percent to 17 percent, which is also higher than that of countries like Brazil, Korea and China. Percentage share of capital cost in total production cost in India was also higher ranging from 20 percent to 29 percent as compared to a range of 12 to 26 percent in China. In India, very few exporters have gone in for integrated production facility. It is noted that countries that would emerge as globally competitive would have significantly consolidated supply chain. For instance, competitor countries like Korea, China, Turkey, Pakistan and Mexico have a consolidated supply chain. In contrast, apart from spinning, the rest of the activities like weaving, processing, made-ups and garmenting are all found to be fragmented in India. Besides, the level of technology in the Indian weaving sector is low compared to other countries of the world. The share of shuttle less looms to total loomage in India is 1.8% as compared to Indonesia (10%), Bangladesh (10%), Sri Lanka (12%), China (14%) and Mexico (29%). The supply chain in this industry is not only highly fragmented but is beset with bottlenecks that could very well slow down the growth of this sector. As a result the average delivery lead times (from procurement to fabrication and shipment of garments) still takes about 45-60 days. With international lead delivery times coming down to 30-35 days, India needs to cut down the production cycle time substantially to stay in the market. Besides, erratic supply of power and water, availability of adequate road connectivity, inadequacies in port facilities and other export infrastructure have been adversely affecting the competitiveness of Indian textiles sector. Conclusions It is believed the quota regime has frozen the market share, providing export opportunities even for high cost producers. Thus, in the free trade regime, the pattern of imports in the quota countries would undergo changes. The issues that would govern the market share in the post quota regime would eventually be productivity, raw material base, quality, cost of inputs, including labour, design skills and operation of economies of scale. It is believed that quotas, by limiting the supply of goods have kept export prices artificially high. Thus, it is estimated that there would be price war in the post quota regime, with competitive price cuts. The price and quantity effects would depend on the efficiency in production process, supply chain management and the price elasticity of demand. Due to the expected fall in prices, developing countries with high production cost have little choice but to compete head-on with the biggest low cost suppliers. In this process, it is presumed that there would be better resource reallocation in these economies. It is assumed that quota restrictions would continue beyond 2005 in various forms. It is also widely recognized that removal of quota may not directly provide easy and unrestricted access to developed country markets. There would be non-tariff barriers as well. Standards related to health, safety, environment, quality of work life and child labour would gain further momentum in international trade in textiles and clothing. Strategies and Recommendations Cost competitiveness in Indian garments sector has been restrained by limited scale operations, obsolete technology and reservation under SSI policies. While retaining its traditional cost advantages of home grown cotton and low cost labour, India needs to sharpen its competitive edge by lowering the cost of operations through efficient use of production inputs and scale operations. Besides, there are needs for rationalization of charges, levies related to usage of export logistics to remain cost competitive. As fallout to the quota regime, there would be consolidation of production and restriction on supplying countries, which would necessarily mean improved scale operations. Indian players should also integrate to achieve operating leverage and demonstrate high bargaining power. It is reported that Chinese textile firms have already invested heavily to expand and grab huge market share in the quota free world. In India, organised players in this sector would require huge investments to remain competitive in the quota free world. These players need to expand and integrate vertically to achieve scale operations and introduce new technologies. It is estimated that the industry would require Rs. 1.5 trillion (US $ 35 billion) new capital investment in the next ten years (by 2014) to lap the potential export opportunities of US $ 70 billion. It is estimated that USA and EU together would offer a market of US $ 42 billion for Indian textiles and garments in 2014. Technology would play a lead role in the weaving and processing, which would improve quality and productivity levels. Innovations would also be happening in this sector, as many developed countries would innovate new generation machineries that are likely to have low manual interface and power cost. Indian textile industry should also turn into high technology mode to reap the benefits of scale operations and quality. Foreign investments coupled with foreign technology transfer would help the industry to turn into high-tech mode. Internationally, trading in textile and garment sector is concentrated in the hands of large retail firms. Majority of them are looking for few vendors with bulk orders and hence opting for vertically integrated companies. Thus, there is need for integrating the operations in India also, from spinning to garment making, to gain their attention. This would also bring down the turn around time and improve quality. Indian players should also improve upon their soft skills, viz., design capabilities, textile technology, management and negotiating skills. Garment manufacturing business is order driven. It would be difficult for the players to keep the workforce full time, even in lean season. This calls for changes in contract labour laws. Logistics and supply chain would also play a crucial role as timely delivery would be an important requirement for success in international trade. The logistics and supply chain management of Indian textile firms are relatively weak and needs improvement and efficiency. China has already created a world class export infrastructure. Given the volume of projections for exports by India, it may be necessary to create additional export infrastructure, especially investment for modernization of ports. In addition, India needs to invest for creating brand equity, supply chain management and apparel industry education. To sum up, the ability of Indian textile industry to take advantage of quota phase-out would depend upon their ability to enhance overall competitiveness through exploitation of economies of scale in manufacturing and supply chain. The need of the hour therefore is to evolve a well chalked out strategy, aimed at improvement in the levels of productivity and efficiency, quality control, faster product innovation, quick response to changes in consumer preferences and the ability to move up in the value chain by building brand names and acquiring channels of distribution so as to outweigh the advantages of competitors in the long run. Source: Export-Import Bank of India, India.