Personal Project Picture Book On Global Warming Education Essay

A image book is a book designed for kids which uses images and illustrations to state a narrative. In some instances, a image book may convey the significance of the narrative wholly through images, without any text at all. In other instances, text accompanies the images and is read along with them. In both cases, the image book is designed to present immature kids to the thought of books and reading. As a general regulation, each bend of the page reveals a new image, or series of images. The images in image books use a scope of media such as oil pigments, acrylics, water-color and pencil. I will seek the cyberspace that what is an easy manner to do a image book. I will travel to the library when I am free and publish some image books and read them at place so so I will acquire an thought what to make. The undermentioned twenty-four hours I will take some images from the net about planetary heating and publish them out. I will glue the images on paper and right something underneath them. I will acquire the paper spiral binded so it looks like a book ; this will be my 1 bill of exchange. I will give it to supervisor and acquire some remarks I will travel through my remarks and do another bill of exchange might be my concluding bill of exchange of undertaking. Introduction My subject for image book is planetary heating. The term â€Å" planetary heating † refers to the addition in the mean temperature of planetary surface air and oceans since about 1950, and to go oning additions in those temperatures. Basically the whole thought of my undertaking on image book is that the new coevals could larn about planetary heating. My image book will be easy for the kids to understand and to read. I will non utilize excessively difficult words because the childs wo n't be able to stop up understanding it.Description of procedureIt took me several hours to make my research on how to do a image book on planetary heating. After that I took some apparent sheets of paper and printed out some of the exposure that I got from cyberspace about planetary heating. I saw some kids picture book in the library and got some thought, that it should be neatly written, should hold large fount size letters and non to utilize word which kids could n't understand. The best manner to make my merchandise was to acquire some documents and compose a short narrative about and add images to it. I thought that this is the best manner to make it and none other thought could be at that place to make a image book. I learned many new accomplishments like how to cut a paper in different manner ( cloud shaped paper, egg-shaped shaped paper ) this undertaking besides helped me to take the exposure for the right paragraph. I used scissor, paper, colourss, pastic sheet and coiling bind to do my undertaking. My pick of techniques were really simple and easy, I think that the simplest thing will accomplish your end so I achieved my end through this simple manner. Write your paragrapgh and add exposures to it. Analysis of research My research affected my be aftering a batch because I had planned to seek the cyberspace about how to make an easy image book, but this was n't rather easy as I wrote in my planning. When searched it, I could n't acquire what to compose in the narrative of my image book. The starting of planning was incorrect that ‘s the error I had done, because of this I could n't make my deadline as the day of the month was assigned. After acquiring all the information about my undertaking, the concluding theoretical account was rather easy as I thought. I chose to make this research because I thought that I would n't be able to acquire the information which I needed to construct my undertaking. I learnt from this research that, I wo n't be able to compose a short 20-50 word narrative but I have to compose a 100-150 words narrative, because planetary heating has so much to talk about itself. I found this research really helpful and I got inspired by it.Analysis of Process and OutcomesI achieved my end after a batch of difficult work and ageless research. Yes my end was realistic because all the information was based on facts. Internet was the chief hunt engine.My research was really successful because all the determination were true although one can non be hundred percent sure. The aggregation of the information was the hard portion because seeking so many different sites and determination, and after that seting them down in order was another different undertaking. Hap jeopardy work would botch my merchandise. The easy portion of the undertaking on image book on planetary heating was aggregation of images, coiling binding, ornament was merriment to make and it added colour to my work which made my merchandise even more presentable and visually attractive.Evaluation of MerchandiseI think my merchandise was rather seccesful because I used composing work along pictures/representation so that it would be easir to understand. A diagram or exposure gives a better image, and do it easier for people to see. I besides did non utilize really hard Hagiographas, my informations was besides really simple and it was easy to follow. I did non travel in to many inside informations of planetary heating, I wanted to give a good overall position which was easy for everyone to follow/read. My planetary heating merchandise was such that it coverd all major points which caused planetary heating, all the subjects were good covered so I feel that my poject was successful in relation with the end. There are some basic alterations that I would make if I had to do this undertaking on planetary heating once more. I would do the background pages a little more bright and colorfull, although merely where it would be necessary. This clip I would travel into a little more higher degree of research, on every that I covered I woul add a litte more of composing merchandise, so that the individual who reads my undertaking wuld acquire a deatailed in formation on every subject on planetary heating Why I would make the above. First of wholly, to do it visually more attractive so the individual immedaetly pick up and read my work and secondly and a batch more particularization in informations and composing so that a individual gets a batch more in formation on every subject on planetary heating. Decision Most of things in the procedure of my personal undertaking worked really good, but some of them did non work as I thought they might. Besides that, another thing did non work really good was making a good temper to make my work in, if i had some other prep I would n't make my personal undertaking. The book I created was non every bit good as I wanted, every twenty-four hours I used to believe that should i alteration my subject or non but I did n't, is sticked together and complete my project.. My personal undertaking was really valuable non merely for me, but I hope besides for other people. By making this undertaking, I learned many things and I improve my creativeness accomplishments. I began to hold a new position of seeing the creativeness of my interior ego. I learned this because of my supervisor Mrs cathy Berra, this was n't really hard, but Is could n't make my due day of the months. I think this was the right subject for me, because it taught me a good lesson of doing undertakings. the undertaking essay was detaining my work. I could n't understand what to make in it. but eventually one got in the right path and finished it within a hebdomad ‘s clip.

Emotional Intelligence Essay

The book, Emotional Intelligence 2.0, provides an alternative approach to how a person achieves success. This book does not focus on the conventional determinant of success, such as formal education and training, experience, and intelligence level (IQ). Although all these components contribute greatly to ones achievement of success, these factors are not the only factors to be considered in whether a person will be successful or not. This book focuses on the concept that it refers to as emotional intelligence (EQ), which is one’s ability to recognize and effectively understand his/her emotions in a productive and rational manner. The objective of Emotional Intelligence 2.0 is to educate people on suppressing their natural willingness to succumb to their feelings or emotions. The author states, â€Å"The physical pathway for emotional intelligence starts in the brain, at the spinal cord. Your primary senses enter here and must travel to the front of your brain before you can think rationally about your experience. But first they travel through the limbic system, the place where emotions are experienced. Emotional intelligence requires effective communication between the rational and emotional centers of the brain† (p. 7). Overall, people have to learn to deal with or work through the emotional phase of the thinking process and resist making â€Å"knee jerk† decisions based on their feelings at a given moment. By increasing their EQ, people are more proficient in making sound rational decisions when they are emotional. One may ask. How do you determine your level of emotional intelligence (EQ)? This is accomplished by an individual taking the â€Å"Emotional Intelligence Appraisal† test. Completing this test is the first step to determining and improving your EQ. Your individual EQ report provides you with a synopsis of your current EQ level, the EQ skills you need to improve, and the strategy(s) that will be most beneficial to increasing your EQ. In addition to this information, your EQ report allows you to compare your scores with others around the world. Also, you are given the opportunity to take the â€Å" Emotional Intelligence Appraisal† test a second time to see how you have improved your EQ and receive feedback report allows you to see your accomplishments and outline the next steps of your progression. The author states, â€Å"Emotional intelligence is your ability to recognize and understand emotions in yourself and others, and your ability to use this  awareness to manage your behavior and relationships† (p. 17). EQ lays the foundation for many skills, such as, time management, communication, assertiveness, customer service, anger management, stress tolerance, and many other aspects of our life each day. Although our emotions will play an eminent role in our daily life, improved EQ skills will teach us to better control our emotions and keep our emotions from controlling our actions or behaviors. Additionally, we will learn how to better interact with others and build better and stronger relationships. While emotional intelligence is vital to human behavior, it only accounts for a portion of a person as a whole. The author states, â€Å"IQ, personality, and EQ are distinct qualities we all possess. Together, they determine how we think and act. It is impossible to predict one based upon another. People may be intelligent but not emotionally intelligent, and people of all types of personalities can be high in EQ and/or IQ. Of the three, EQ is the only quality that is flexible and able to change† (p. 19). There is no know link between these three components that exist in a person, but each component coexists and works together to guide this person’s thoughts and behaviors. Unlike EQ, a person’s capacity to learn and personality are hardwired or ingrained over time. Emotional intelligence is a skill that is flexible and can be improved with guidance and practice. There are four core emotional intelligence skills. These four skills are divided into two categories: personal competence and social competence. Personal competence is centered on the individual, and it is made up of your self-awareness and self-managements skills. Self-awareness is your ability to recognize and understand how and why you typically behave or react a certain way. It is becoming comfortable dealing with both positive and negative emotions. Self-management is an extension of personal-awareness. It is using your awareness to guide your actions in a positive direction. Social competence focuses on your interaction with other people, and it consists of social awareness and relationship management skills. Social awareness is your ability to recognize and understand others emotions. It is noticing how others are feeling and thinking, even if it differs from your own. Relationship management is the capacity to use the knowledge and understanding of both your emotions and the emotions of others to connect with others. Although each of these EQ skills are evaluated separately and  can be improved individually, theses skills work collectively to increase your EQ level and improve your emotional intelligence overall.

Applied research method - topic to be defined out of the assignment Essay

Applied research method - topic to be defined out of the assignment - Essay Example The difference in organizational culture is perceivable and culture has been recognized as a strong determinant of beliefs, attitudes and behavior. The strategic decision of M&A would have to take into account the impact of the differences in culture between two organizations or even between two nations. A high percentage of mergers and acquisitions fail to meet expectations and a very strong argument is that cultures were not integrated. This makes it interesting to know the impact that M&A has on the culture of an organization. To determine the impact of cultural differences when M&A take place, literature review would be conducted. There is a broad stream of literature available but since it is not possible to go through or include the entire database, select academic journals would be used to determine the impact that culture has during mergers. Three academic papers are recent while two papers are decades old. This has been done to understand how the mind set of people has changed over time. Literature review permits quick and easy collection of general information on the issue. The literature review would help to arrive at the research question. Cultural differences have been blamed for high failure rate in M&A but research suggests otherwise (Teerikangas & Very, 2006). Differences in top management styles have been found in top US companies but not in rewards and evaluation system to have a negative performance impact. Functional background had a positive impact on post-acquisition performance. A buying firm’s behavior throughout the buying process is influenced by its national background. According to some authors, differences in national cultures are not an impediment but a potential success factor for M&A. Research suggests that decision-makers give disproportionate attention to strategic fit as compared to integration issues (Olie, 1994). One of these issues is the ‘cultural fit’ where the fundamental differences

Journal for my Presentation Essay Example | Topics and Well Written Essays - 1000 words

Journal for my Presentation - Essay Example Avatar is a 2009 science fiction film by James Cameron. Putting aside the terrific story, plot, and concept, the movie is a visual treat. It is a next generation film using the most innovative forms of technology. The movie was delayed since 1990 as Cameron was waiting for the techniques to advance so that he could use the best ones to portray his vision. Thus, in 2009 Cameron released his masterpiece using technologies that were never seen before. He used the photorealistic computer-generated characters which were created with the motion-capture animation technique. Other innovations included the advanced structure of lighting for areas as huge as Pandora’s jungle. There was also a motion-capture stage used which was about six times bigger than any other previously used volume. There was also a technology used which captured facial expressions in an improved way that enabled full performance capture. This technology involved face capturing of the actors who wore skull caps which were made for them according to their facial structure. These skull caps were fitted along with a small camera positioned in the front of the actor’s faces. These skull caps captured information about the facial expressions of the actors and were transmitted to the computers. Through this technique, the filmmakers were able to capture and transfer all the actor’s expressions and performances to their digital devices. This enabled the filmmakers to use the actual physical performance and expressions of the actors making the film extremely attractive and essential for the visual effects. Besides this technique, there were several reference cameras which gave multiple angles to the digital artists for each of their performance (Bimber 15). The film was not only made using new and innovative technologies, but it was also released in 3D which was a whole different experience for the viewers. Another example of the ways digital effects have entered our mass media

Formal Legal Brief on a Tort Law Case Essay Example | Topics and Well Written Essays - 1000 words

Formal Legal Brief on a Tort Law Case - Essay Example Donoghue suffered severe gastroenteritis, shock, as a result, Mrs. Donoghue brought a claim for damages against Stevenson, and the trial judge found the action sustainable while the court of appeal overturned the decision. Mrs. Donoghue appealed to the House of Lords. Issues In this case, the issue was whether Stevenson the manufacturer of the beer owed Mrs. Donoghue who consumed the contaminated beer a duty of care. Stevenson raised an issue, where even if Mrs. Donoghueproved allegations of the consequences of the contaminated beer correct his duty of care did not extend to every consumer of the products he manufactured and for which he would not be liable. Lord Atkin stated that Mrs. Donoghue has to show that the injury resulted in breach of duty by Stevenson and in the circumstances by Stevenson to take reasonable care to prevent injury. Rules The rule applied in this case was the neighbor principle, which essentially states that if a negligence case is to be successful the proxim ity of the two parties that are the claimant and the defendant should not be too remote. The proximity of the defendant and the plaintiff should be that of a neighbor. To capture this position is Lord Atkin’s neighbor principle, which provides that some concept of relationship must be in existence giving rise to a duty of care. He goes ahead to state that the general rule that one loves his neighbor and one ought not to hurt his neighbor. A neighbor in this case gets a restricted response. The rule is that one should take reasonable steps to avoid acts or omissions, which are reasonably foreseeable, would be likely to injure one's neighbor. A neighbor according to Lord Atkin is anyone who is directly and, closely affected by ones act ions or omissions and one reasonably ought to have them in contemplation before doing the act or omissions in question. Analysis For an action in negligence to succeed, the plaintiff must show that there was a duty of care owed to the plaintiff b y the defendant. The defendant must have breached the owed duty of care, and as a result, the plaintiff suffered damage. This duty existed prior to the case of Donoghue V Stevenson, but the duty owed was usually in sheer circumstances or proximity between the two parties. In determining the existence of a legal duty of care based on the general principle of proximity of the parties and the foresee ability of the event in question. This case provided that even in situations where the duty of care did not initially exist an individual owes a duty of care, not to harm other people who are reasonably foreseeable to be hurt by such actions. In order for the action, to succeed Mrs. Donoghue had to establish the connection between her and the manufacturer, Stevenson in relation to the negligence. The duty of care in this situation is that of an ordinary, prudent man. According to the case of Anns v London Merton Borough foresee ability is what might be reasonably expected to occur due to t he actions of the defendant. The position is that liability may only arise in a case where the defendant would have foreseen the harm and avoided it. In this case, Stevenson knew that public members would consume the ginger beer and; therefore, Stevenson had a responsibility of ensuring the beer befit human consumption. The position in this case is that if a manufacturer puts a product for consumption in which the products form precludes examination

Business Management Report Essay Example | Topics and Well Written Essays - 3000 words

Business Management Report - Essay Example However, at the conclusion part, the report summarizes the approaches adopted to assess and manage performance, as well as the summary of performance management, in general. Performance management concept is a recent development that adopts a future-oriented strategy that is focused and is applied to all workers with an aim of maximizing their usual level of performance and future potentiality. This increasing focus on the level of performance at all levels in a company arose from the globalization pressures. There is an urgent need, of creating competitive advantage, is for survival in the marketplace internationally (Elias and Scarbrough, 2004). Talents, abilities, competencies, human capital, the value-creating skills, and competencies, of a companys employees, are argued to be a significant component in forming such competitive advantage (Mayo, 2001). Management of performance is noted to be the main role in human capital development (Tahvanainen, 2000). In addition, performance management is a continuous cycle to assess and manage the development of skills and tasks of all workers so that the organization can achieve its goals. In this section, it has been divided into three major parts and subsections on it. The major sections include an overview of the management cycle, review of different approaches to performance management and analysis of the problems associated with assessing and managing performances. Human resources problems that are commonly experienced by employers include establishing productivity, recruitment, employees, carrying out and prevent discrimination. However, the report covered performance management in organizations. This section is divided into three sections. They are an overview of the performance management cycle, a review of the different approaches to performance management and analysis of the problems associated with assessing and managing performance. In addition, there are

English Criminal law Problem question - Discuss the criminal Essay

English Criminal law Problem question - Discuss the criminal liability, if any, of Bruiser for the murder of Dot - Essay Example In the event the actus rea and the mens rea are concurrent, then the accused person will be deemed fully liable for the act and be penalized for first degree murder. The establishment of mens rea is particularly important to establish guilt, since according to Edward Coke who first proposed the theory of mens rea, â€Å"an act does not make a person guilty unless the mind is also guilty.†2 When a criminal act – especially murder – has occurred, it is also necessary to establish a concurrence with the mens rea.3 The case of R v Lamb4 set out the precedent that mens rea â€Å"is an essential ingredient in manslaughter†. The criterion that is used is by assessing whether a reasonable man would have been able to assess the risk inherent in his actions that caused harm, which will be sufficient to establish mens rea5. However, a recent significant development in this area is the case of R v Andrews6 (2003), wherein the Court upheld a conviction for manslaughter although it was a strict liability offense. The prosecution was not required to prove mens rea in that case7. This could impact significantly upon the extent of Bru iser’s liability and the possibility of conviction. The context within which an offense occurs forms an important part of the sentencing and in making a determination of the extent of liability of a person when mitigating circumstances exist, the accused could be deemed to have a diminished responsibility for his actions and will be liable for the lesser charge of manslaughter. However, there is also provision in English law for transferred malice, whereby a person intending to cause grievous bodily harm to one person may actually cause it to another by some slip or change in circumstances, nevertheless the accused will be deemed to be as guilty as if he had intended to carry out the damage on the second person. Moreover, in making the determination about whether grievous bodily harm has taken place, the Court will also

How can we see architecture as a form or median that merges humanity Thesis

How can we see architecture as a form or median that merges humanity and nature - Thesis Example 122). Since time immemorial, several societies of the world have been known to honor sculptures and other forms of architectural designs as their gods; the Chinese and ancient Japanese societies being the best point of reference. As a matter of fact, their places of worship had specific architectural designs. This was evidence enough of the close relationship that existed between architecture and humanity (Brebbia, 2012, p. 71). Before the World War I, architectural designs were not necessarily buildings. Monuments stood in large cities and significant laces like museums and attraction sites. They added to the beauty of sceneries and made nature admirable. That notwithstanding, these designs reminded people of the significance of nature and. They were also a direct reminder of the fact that nature ought to be protected by humanity. For this reason, people remained connected with nature courtesy of the architectural designs of the times. The warm relationship between nature and architecture began deteriorating after the Second World War and the cold war that came thereafter. The Great Depression of the United States of America also contributed to the degradation of the closeness that existed between nature and architecture. People were more oriented to business and improving their economic statuses as opposed to observing the importance of nature. Every architectural design began to take the direction of business. The architectural designs of this period and periods that followed were therefore no longer associated with neither nature nor humanity but how people would get money out of them. This then marked the beginning of the disconnection between nature, humanity and architecture. Humanity and nature have lost connection and this can be seen from the early periods of romanticism in which there was a protest against the impending scientific rationalization of nature. This was dated to the 18th century

Technologies and Innovation Essay Example | Topics and Well Written Essays - 750 words

Technologies and Innovation - Essay Example Technology and its innovation tend to change every so often that concentrating in one particular aspect of technology is hard. As mastery of the current technology is achieved emerging technologies and innovation makes the current technology passe if not archaic. And the whole cycle of self–education or formal education starts again. The dynamism of information technology therefore has created opportunities within the industry that should be explored further. Governance framework is an area of information technology that is often neglected during implementation or use of technology. This framework is technology generic and it is not specific or partial to the type of technology being implemented. However, the success of a business is often dependent on these two success factors. Often technology is implemented with the promise of reduction of operational cost, increased profits, efficiency and expansion of business interests. However, as each concept or framework is implemente d the true measurement of technology’s impact has yet to be realized.   Many organisations have come to recognized that they can gain more and up-stand their competitors better in the marketplace with the use of technology. Appropriate and clever use of information systems by organisations can achieve great successes and expand opportunities. There is no limitation in combining information systems and businesses today which provide opportunities for opportunities for growth. Also, using information systems today has became essential to many organisations rather than ‘nice to have’. Globalization forces many organisations to enhance the quality of services and product in order to survive and be competitive in the marketplace. As globalization provides many opportunities to success, it is also carry some risks. Thus, clever use of advancement in technology and information systems can help in the exploitation of these promising opportunities. The available material for this area of research exists in abundance and is readily available in journ als, books and other literatures. However, most information that is readily available is the successes and pains of organisations in implementing their Information System strategy. However, the framework that they have adopted needs to be explored so that the best possible permutation of frameworks or strategies that can produce the best result can be formulated. Information Systems can transform the traditional way of doing business today in order to be better.  

Cultural Anthropology Assignment Essay Example for Free

Cultural Anthropology Assignment Essay English-Lueck is of the opinion that communication technologies have increased the ways in which we can keep track of our families. According to him the communication technologies have been a boon especially for the working mothers as they help them in being connected to their children’s lives even when they spend a lot of time outside home. But at the same time communication technologies have become a bane for them too. To explain this point English-Lueck uses the example of an ageing woman who enjoyed the position of the center of her family till a few years back. Due to the boom in the communication technology, her position has been eroded, as there are other things that her children have started paying importance to even in her presence. For example their constant email contacts keep them busy. As a result the modern gadgets are sharing the time they spent with their mother. So according to English-Lueck, there is a mixed effect of the technology. In some aspects it has enhanced family life while in another aspects, it has played deterrent to keep intact the old way of leading life. Molitor’s viewpoints are also similar to that of English-Lueck as far as the issue of the effect of communication technologies on families are concerned. According to him the modern technologies help us to stay in touch with our families even when we are physically away from them. To explain this point he throws light upon how even newborn babies are in constant touch with their parents through technology. Their parents with the help of two-way radio transmitters monitor every move that they take in their cribs. So though the way of stating their viewpoints is different, both the experts are similar in their analysis of the effect of communication technologies on maintaining family relationships. My family and I are greatly affected by the technological changes that have taken over the years. Each of us is just a click or a phone call away from each other. Even when all of us are so busy in our lives that we hardly get time to spend with each other, thanks of the innovative technologies, now we have complete track of one another as we are in constant touch with one another throughout the day. References English-Lueck, J. A. (Speaker). (1998). Technology and Social Change: The Effects on Family and Community. COSSA Congressional Seminar. Mackay, H. , Ivey, D. (2004). Modern Media in the home: An Ethnographic Study. Italy: John Libbey Publishing – CIC Srl. Molitor, G. T. T (2003). Communication technologies that will change our lives – Science Technology Retrieved Feb. 1, 2008 from, USA Today (Society for the Advancement of Education) Website:://findarticles. com/p/articles/mi_ml272/is_2692_131/ai_9628305/ print

Plant Diversity and Angiosperms in India

Plant Diversity and Angiosperms in India INTRODUCTION Angiosperms or flowering plants (also called Angiospermae, Magnoliophyta, or Anthophyta) are the most diverse group of the plant kingdom, comprising of about 2,50,000 species in 350 families (Kenrick, 1999). Flowering plants are by far the most numerous, diverse, and â€Å"successful† extant plant group, containing well over 95% of all land plant species alive today (Simpson, 2006). Angiosperms are characterized by (i) seeds produced within a carpel with a stigmatic surface for pollen germination, (ii) a much reduced female gametophyte, consisting in most cases of just eight nuclei in seven cells; and (3) double fertilization, leading to the formation of a typically triploid nutritive tissue called endosperm (Judd et al., 2002). Several apomorphies distinguish the angiosperms from all other land plants: (1) the flower, usually with an associated perianth, (2) stamens with two lateral thecae, each composed of two microsporangia, (3) a reduced, 3-nucleate male gametophyte, (4) c arpels and fruit formation, (5) ovules with two integuments, (6) a reduced, 8-nucleate female gametophyte, (7) endosperm formation and (8) sieve tube members (Simpson, 2006). Some of these apomorphic features, which represent the product of a unique evolutionary event, have become further modified in particular lineages of angiosperms. Almost all angiosperms produce vessels in the xylem tissue, though this feature probably evolved within the group. Angiosperm phloem differs from that of all other plants in having sieve tube elements accompanied by one or more â€Å"companion cells† that are derived from the same mother cell. Flowering plants grow in virtually every habitable region and are dominant in some aquatic and most terrestrial ecosystems, the notable exception to the latter being coniferous forests. Angiosperms comprise the great bulk of our economically important plants, including our most valuable food crops. India with a geographical area of about 32, 87,263 sq km is the seventh largest and tenth industrialized country of the world. It is situated between 804 N to 3706 N latitude and 6807 E to 97025 E longitude. The longitudinal variation divides Indian subcontinent into four climatological zones, viz., equatorial, tropical, subtropical and warm temperate. The forest cover of the country have been estimated to be 6, 37,293 km2 (19.39% of the geographic area of the country) and includes dense forest (3, 77,358 km2), open forest (2, 55,064 km2) and mangrove (4,871 km2). India represents about 11% of world’s flora in just about 2.4% of total land mass. Out of the 25 biodiversity ‘Hotspots’ identified in the world (Myers, 1990), India has two, namely Eastern Himalaya and Western Ghats. These hotspots posses majority of plant diversity in India. In terms of species diversity, approximately 45,000 plant species are found in India (Khoshoo, 1994, 1995; Sharma et al., 1997). The angiosperms are represented by c. 17,500 species out of which 5725 species are endemic to India. About 28% of the total Indian flora and about 33% of angiosperms occurring in India are endemic (Nayar, 1996). It is roughly estimated that about 10% of flowering plant species in India are threatened and 34 plant species have been reported to be extinct (Nayar and Sastry, 1987-1990). The studies on Indian plants were first initiated by the European visitors. Even before the publication of Species Plantarum by Linnaeus (1753), Hendrik Van Rheede (1678-1703) started publication of his monumental 12 volume work ‘Hortus Malabaricus’. However, actual work on Indian flora was initiated by Roxburgh (1814, 1820- 1824) and later by Hooker and Thompson (1855). The publication of Flora of British India by Sir J.D. Hooker (1872- 1897) gave a stimulus to taxonomic studies in our country and since then several regional and state floras have been published. In 1954, Botanical Survey of India was revived with a view to make intensive studies of local flora especially to gather precise information on the identity, floristic diversity, distribution, ecological association, phenology, medicinal and economic uses of plants. India is immensely rich in biological diversity. Such richness is largely due to varied physical environment, latitude, altitude, geology and climate. The climate and altitudinal variations coupled with varied ecological habitats have contributed in the development of immensely rich vegetation wealth, and varied flora and fauna forming a very unique biodiversity. Seeing the rich plant diversity, Hooker (1904) commented that ‘The Indian flora is more varied than that of any other country of equal area in the eastern hemisphere, if not on the globe’. The Indian flora represents taxa occurring in different countries including Afghanistan, Bhutan, Bangladesh, China, Nepal, Pakistan, Myanmar, Malaysia, Indonesia, Thailand and Indo-China. There are even the representatives from African, American, Australian and European countries. DISTRIBUTION AND HABITAT Bio-geographical Territories in World The Indian region is one of the most diverse bio-geographic regions of the world having wide ranging topography from permanently snow covered high Himalayan ranges to plains at sea level, low lying swamps and mangroves, island systems, tropical evergreen rain forests, fertile alluvial plains, hot deserts and high altitude cold deserts. The climate ranges from tropical and sub-tropical in Indo-Gangetic plains and in the peninsular regions to temperate and arctic in the Himalayan region. Biogeographically India represents two of the major realms (Palaearctic and Indo-Malayan) and three biomes. Considering the vastness of the country and variation pattern in different areas, the country is divided into ten botanical regions with distinct bioclimatic conditions. These include: Coromandal coast, Malabar, Indus plain, Indian desert, Gangetic plain, Assam, Eastern Himalaya, Central Himalaya, Western Himalaya, Andaman and Nicobar Islands and Lakshdweep and minicoy group of islands (Mudgal and Hajra, 1997). India harbors very diverse climatic conditions and thus fosters different types of habitats. The major mountain ranges in India are the Himalaya and the Western Ghats. The Indian Himalayan region is spread over the states of Jammu and Kashmir, Himachal Pradesh, Sikkim, Arunachal Pradesh, Nagaland, Manipur, Mizoram, Tripura, Meghalaya, and a part of Assam, along with eight districts of Uttarakhand and one district of West Bengal. Biogeographically, the Indian Himalayan region falls under Boreal Zone which has two sub-zones, viz., Sino-Siberian and Sino-Himalayan. The area can be divided into four distinct zones longitudinally: (i) the Siwalik (900 – 1500 m), (ii) the outer Himalaya (1500 – 3500 m), (iii) the middle or lesser Himalaya (3600 – 4600 m), and (iv) the Greater Himalaya (above 4,600 m). This complex mountain system consists of narrow and deep valleys, glaciers and fertile terrain. Five climatic zones can be delineated in the Himalayan region based on geographic and physiographic factors. These are: (1) Warm tropical, (2) Warm sub-tropical, (3) Cool temperate, (4) Alpine and (5) Arctic. While these are only broad zonations, there are many local variations in the climate due to precipitation, temperature, wind patterns, humidity etc. The type and nature of soils also vary vastly in the Himalayan region from deep alluvial to the thin and bare soils of the high mountains. The nature of the soil depends upon the rocks, the prevailing climatic conditions, topography and vegetation. According to Udvardy (1975), biodiversity exists on earth in 8 broad realms with 193 bio-geographical provinces. It has been estimated that world’s 12 countries Australia, Brazil, China, Columbia, Ecuador, India, Indonesia, Madagascar, Malaysia, Mexico, Peru and Zaire together hold 70% of its total flowering plant diversity. These countries have been termed as â€Å"Megadiversity† countries (Mc Neely et al., 1990) Rodgers and Panwar (1990) have divided India into 10 phytogeographic zones and 24 biotic provinces. Gadgil and Meher-Homji (1990) have recognized 16 phytogeographical zones in India. On the other hand, Das (1996) has recognized 9 physiographic regions within the Indian Territory. Chowdhery and Murti (2000) have recognized 11 phytogeographic regions for India, each of which have its uniqueness in ecosystem, vegetation and floristic composition. These phytogeographic regions are: Western Himalaya, Eastern Himalaya, Gangetic plains, North East India, Semi arid and Arid regions, Deccan Plateau, Western Ghats, Eastern Ghats, Andaman and Nicobar Islands, Lakshdweep and Coastal regions. Distribution of Angiosperms in India In India, the vascular plants form the most dominant and conspicuous vegetation cover comprising of over 17,500 species of angiosperms which represents more than 7% of the worlds known flowering plant species (Hooker, 1872-1897; Karthikeyan et al., 1989; Sharma and Balakrishnan, 1993; Sharma and Sanjappa, 1993; Sharma et al., 1993; Hajra et al., 1995; Mudgal and Hajra 1997- 1999; Singh et al., 2000; Karthikeyan, 2000). These species are distributed in more than 4000 genera occurring in diffenent ecosystems from the humid tropics of Western Ghats to the Alpine zones of the Himalayas and from Mangrooves of tidal Sunderbans to the dry desert of Rajasthan. In India, dicots are represented by 2,282 genera and 12,750 species whereas monocots are represented by 702 genera and 4,250 species. Dicots account for c. 75% of flowering plants in terms of both genera and species. On the other hand, remaining 25% is contributed by monocots. Out of 511 recognized plant families (Brummit, 1992), 320 families with more than 4000 genera are represented in the Indian flora. Of which Poaceae is the largest family with about 263 genera and more than 1200 species. In India, over 60 families of flowering plants are monotypic, e.g., Illiciaceae, Ruppiaceae, Turneraceae, Tetracentraceae, etc. Asragaluts, Carex, Dendrobium, Ficus, Habenaria, Impatiens, Primula, Rhododendron, Saussurea, Taraxacum, etc. are some of the dominant genera of flowering plants in India. Out of the estimated 17,500 species of angiosperms, approximately 15% species are trees which include some of the highly valued timber species of the world and belong to the families like Annonaceae, Dipterocarpaceae, Euphorbiaceae, Fabaceae, Lauraceae, Moraceae, Meliaceae, Verbenaceae, etc. There are several botanical curiosities like Aeginetia indica, Balanophora dioica, Boschiniackia himalaica, Drosera, Epipogium, Galeola, Mitrastemon yamamotoi, Monotropa, Nepenthes khasiana, Pinguicula, Sapria himalayana, Utricularia spp., etc. Species in certain groups like Orchids, Bamboos, Rhododendrons, Citrus, Hedychiums, Impatiens, Pedicularis, Primulas, etc. exhibit remarkable diversity in India (Rao, 1994). Dominant angiospermic families in India are given in table1 (after Groombridge, 1992; Sharma et al., 1997). Table 1. Dominant families of dicots and monocots Insectivorous and parasitic plants The carnivorous plants (insectivorous plants) trap and digest insects to meet the requirement of nitrogen deficiency. Altogether over 450 species of carnivorous plants have been reported of which approximately 30 species occur in India. The insectivorous taxa belong to family Droseraceae (3 spp.), Nepenthaceae (1 spcies) and Lentibulariaceae (36 spp.). The parasitic plant species are prominent in Loranthaceae (46 spp.), Santalaceae (10 spp.), Balanophoraceae (6 spp.), Rafflesiaceae (1 spp.), Cuscutaceae (12 spp.) and Orobanchaceae (54 spp.). Aquatic plants About 2 percent of all flowering plants known in the world inhabit water bodies and more than 50 percent of these are represented in Indian subcontinent (Lavania et al., 1990). Some important aquatic plants families are: Alismataceae (8 spp.), Aponogetonaceae (6 spp.), Azollaceae (1 sp.), Barclayaceae (2 spp.), Butomaceae (1 sp.), Cabombaceae (2 spp.), Callitrichaceae (3 species), Isoetaceae (10 spp.), Lemnaceae (14 spp.), Najadaceae (7 spp.), Nelumbonaceae (1 sp.), Nymphaeaceae (7 spp.), Podostemaceae (24 spp.), Pontederiaceae (13 spp.), Ceratophyllaceae (3 spp.), Hydrocharitaceae (13 spp.), Potamogetonaceae (18 spp.), Ruppiaceae (1 sp.), Salviniaceae (3 spp.), Trapaceae (2 spp.), Typhaceae (4 spp.), Zannichelliaceae (1 sp.), etc. The members of families Podostemaceae and Tristichaceae grow on rocks under water in fast flowing streams. The aquatic plants in India are highly diversified comprising free-floating forms (Eichhornia crassipes, Lemna perpusila, Nymphoides hydrophylla, Trapa natans var. bispinosa, Pistia stratiotes, Wolffia microscopia, W. globosa), rooted aquatics with their foliage floating (Nymphaea nouchali, N. stellata, Euryale ferox, Nelumbo nucifera), submerged aquatics (Vallisnaria natans, Hydrilla verticillata, Najas graminea, Potamogeton pectinatus) emergent aquatics (Scirpus maritimus, Cyperus articulates, Sagittaria trifolia, S. guayanensis subsp. leppula) and marsh plants (Ranunculus scleratus, Hydrolea zeylanica, Panicum paludosum, Polygonum barbatum, P. glabrum). The aquatic flora play an important role as water purifier by absorbing heavy metals, e.g. Ceratophyllum demersum (chromium), Bacopa monnieri (copper and cadmium). Limosella aquatica, Hippuris vulgaris occur in subalpine-alpine lakes. Mangroves Mangroves are the plants that inhabit coastal regions and estuaries. They are adapted to survive under marshy conditions. In India, mangroves cover an area of approximately 6700 Km ² which constitutes c. 7 percent of the world’s mangroves. The largest stretch of mangroves in India occurs in Sunderbans (West Bengal) which covers an area of about 4200 km ². It has been designated as World Heritage site of which 80% of them are restricted to Sunderbans (West Bengal) and Andaman Nicobar islands (Chowdhery and Murti, 2000). The remaining taxa are scattered in the coastal areas of Andhra Pradesh, Tamil Nadu, Orissa, Maharashtra, Gujarat, Goa and Karnataka. Some of the dominant mangrove species include Avicennia marina, A. officinalis, Bruguiera gymnorrhiza, B. parviflora, Ceriops tagal, Heritiera fomes, Lumnitzera spp., Rhizophora mucronata, R. apiculata, R. stylosa, Sonneratia spp., Xylocarpus spp., etc. The shrubby Aegialitis rotundifolia and Acanthus ilicifolius are common o n poor saline plains. The herbaceous succulent halophytes are represented by Aegiceras corniculatus, Suaeda brachiata, Sesuvium portulacastrum and Salicornia brachiata. The characteristic mangrove palms are: Nypa fruticans and Phoenix paludosa. Indicator species Some species of angiosperms growing on metalliferous soils accumulate large amounts of metals in their roots and reflect the levels of metal present in the soil (indicators). For example, presence of copper is indicated by Astragalus spp., Croton roxburghii, Hyptis suaveolens, Holarrhena pubescens, Impatiens balsamina, Vernonia cinerea, and indicates presence of Uranium (Aery, 1977; Venkatesh, 1964, 1966). Diversification of Primitive and Advanced Families The primitive families are confined to those regions which are very old in geological time scale in comparison to the newly developed areas. Assam, North-east Indian region and Deccan Peninsula are older in comparison to the other phytogeographical regions of India. These regions are more or less identical in age with Sri Lanka, South West Chinese region and Malay Peninsula. The Deccan Peninsula shows its floristic relationship with Sri Lanka and Malay provinces, while the North east India shows its floristic relationship with Myanmar, South West Chinese Provinces and Malay Peninsula. Thus the Malay region shows similarity with Deccan Peninsula on one hand and North east India on the other. By this way the North East India shows similarity with Deccan Peninsula to some extent (Mitra and Mukherjee, 2006). India (Eastern Himalaya including North east India) is considered as a sanctuary of primitive flowering plants. The occurrence of such a large number of primitive angiosperms led Takhtajan (1969) to designate this region as the ‘Cradle of Flowering Plants’ where angiosperms have diversified (Table 2) Table.2. Primitive flowering plants occurring in India (after Rao, 1994) The advanced families occur in those areas which are comparatively very young in the geological time scale. On the basis of this idea it can be stated that the Himalayan region of India is very young in its age as compared to Deccan Peninsula and North East Indian regions of India, as it harbours most of the advanced families with well diversified restricted genera and species. A comparative account of diversification of primitive and advanced families of India and its adjoining area is given in table 3. The advanced families are young in their age and also they are confined to the areas which are also geologically young, they are unable to spread in the wider regions. On the other hand, primitive plant families are older in their age and also found to confined in those areas which are geologically very old. So they get sufficient time to spread over larger areas, as a result of which the primitive families show less number of restricted genera and species in their credit in comparison to the advanced families (Mitra and Mukherjee, 2006). Habitats Different ecological habitats occur in India ranging from tropical rainforest, subtropical savanna or shrublands, temperate forest, alpine mosses to xerophytic variation of desert. The habitat types vary from the humid tropical Western Ghats to the hot deserts of Rajasthan, from cold deserts of Ladakh to the long, warm cost line stretches of peninsular India. While Cherrapunji and Mawphlong in the north-eastern state of Meghalaya are the two wettest places on earth, Dras in Ladakh is the coldest inhabited place of the world. Phytogeographically, the eastern Himalaya forms a distinct floristic region. The area comprises Nepal, Bhutan, and neighboring states of northern India along a continuous sector of the Yunnan province in south-west China. In Nepal, there are around 7000 plant species, many of which overlap those of India, Bhutan and even Yunnan. Of these species, at least 500 (almost 8%) are believed to be endemic to Nepal. Bhutan possesses an estimated 5000 species, of which as many as 750 (15%) are considered to be endemic to the eastern Himalaya (Anonymous 1999). This region is the meeting ground of the Indo-Malayan, Afro-tropic and Indo-Chinese biogeographical realms as well as the Himalayan and Peninsular Indian elements, formed when the peninsular plate struck against the Asian landmass, after it broke off from Gondwana land. The region is recognized as refugium of flowering plants and center of active speciation (Rao, 1994). The numerous primitive angiosperm families found in this region inclu de Degeneriaceae, Eupomatiaceae, Himantandraceae, Lardizalbalaceae, Magnoliaceae, Trochodendraceae, Tetracentraceae, Winteraceae. The primitive genera are Alnus, Aspidocarya, Betula, Decaisnea, Euptelea, Exbucklandia, Haematocarpus, Holboellia, Houttuynia, Magnolia, Mangelietia, Pycnarrhena, and Tetracentrol (Malhotra and Hajra 1977). Regions of High Diversity India is one of the 12 mega biodiversity countries of the world. It represents an example of conglomeration of diverse bioclimates influenced by neighbouring areas (particularly Mediterranean), the unique location, peninsular land mass, Gangetic plains and the crown of complex chain of mountain systems – the Himalaya. The Himalayan region with only 18% of India’s land area, houses 81.4% of the country’s stock of gymnosperms, 47% of angiosperms, 59.5% of lichens, 58.7% of pteridophytes, 43.9% of bryophytes and 53.07% of fungi found in India. Orchidaceae with over 1331 taxa (S. Misra, 2007) is one of the dominant families and probably the second largest among all families of flowering plant known from India. Of these 407 taxa are endemic to India. Out of the 18 monotypic orchid genera of India, 13 are found in the Himalayan region. In the Eastern Himalaya, the Orchid family is the largest, with 60% species, whereas in the Western Himalaya, Asteraceae with 540 species is the largest family followed by Poaceae with 439 species and Fabaceae with 362 species. Carex with more than 100 species and infraspecific categories is the largest genus in the Himalaya. Rhododendron with 96 species and infra-specific categories, and Astragalus with 90 species, is the largest genera in the Eastern and Western Himalaya, respectively. Some other plants with pronounced diversity in the Eastern Himalaya include the Hedychium (Zingiberaceae) with 18 species out of 35 Indian species, and numerous species of bamboos. The Eastern Himalaya is a cradle of numerous primitive angiosperms, such as Manglietia and Euptelea (Magnoliaceae) and Tetracentron (Tetracentraceae). Christollea himalayensis, recorded from Mt. Camet is the flowering plant occurring at the highest altitude (6300 msl). Arceuthobium minutissimum, (small angiosperm) grows on Himalayan conifers. Apart from these botanical curios, the Himalayan region has a rich diversity of medicinal and aromatic plants. The floristic richness has also rendered the North-Eastern region and Western Ghats to be recognized as two hotspots among 25 hotspots identified throughout the world. The humid tropical conditions met within these regions not only support exceptionally diverse vegetation but have also resulted in speciation in several genera, thus adding to the high endemicity of the flora (Nayar, 1996). In addition to these two, there are about 40 other sites in different phytogeographical zones of India which have high degree of endemism and genetic diversity. Mc Neely et al. (1990) estimated that 70% of worlds total flowering plants occur in 12 countries and these have been designated as Mega diversity centres or mega ­biodiversity country. The earth’s 25 biodiversity hotspot regions collectively cover about 2% of the planet’s land surface, yet claim more than 50% of all terrestrial species diversity. They have within them a phenomenal 1, 25,635 plant species. The top 11 hotspots (out of 25) for plant endemism harbor 5000 or more species as endemics. It accounts for 93,214 plant species, or 37.3% of the total global plant endemics (Myers 1988). Western Ghats The Western Ghats, which covers an area of approximately 1, 60,000 Km ², are among the 25 biodiversity hotspots globally identified. The wide variation of rainfall patterns in the Western Ghats, coupled with the regions complex geography, produces a great variety of vegetation types. These include scrub forests in the low-lying rain shadow areas and the plains, deciduous and tropical rainforests up to about 1,500 meters, and a unique mosaic of montane forests and rolling grasslands above 1,500 meters. Based on the ecological factors and floristic composition, four major forests and 23 floristic types have been identified. Eastern Himalaya Eastern Himalaya covering the states of Sikkim, Darjeeling district of West Bengal, Assam, Manipur, Tripura, Meghalaya, Arunachal Pradesh, Mizoram and Nagaland is the richest of the phytogeographic regions of India affording the highest plant/ animal diversity (Rao, 1994). This region is characterized by high rainfall and humidity. The abundant rains and high humidity contribute the occurrence of largest number of species in this region. North eastern region of India, blessed with wide range of physiography and ecoclimatic conditions, is the richest biodiversity centres of the Indian subcontinent (Hooker and Thompson, 1855; Hooker, 1905; Chatterjee, 1962; Rao, 1974). The north eastern India has a geographical area of about 2, 55,050 Km ². The rich plant wealth of this region has been reported by Hooker (1854). Further, Hooker’s work on â€Å"Flora of British India† (1872-97) and â€Å"Sketches on Flora of British India† (1905), presents a very detailed account on vegetation and flora of this region. Kanjilal et al. (1934-1940), in their â€Å"Flora of Assam† have provided a detailed account with emphasis on woody flora of this region. There are works on â€Å"Forest flora of Meghalaya† by Haridasan and Rao (1985, 1987) and â€Å"Grasses of North eastern India† by Shukla (1996). There are several genera endemic to Eastern Himalaya. Some important endemic genera are Aucuba, Bryocarpum, Pleurospermopsis, Gamblea, Lepidostemon, Parajaeschkaea, Paroxygraphis, Risleya, Sphaerosacme, Treutlera and Brachycaulos. Cyathopus is endemic to Sikkim. Some genera like Biswarea, Hymenandra, Jejosephia, Neoluffa, Pauia, etc. are endemic to North eastern India. Some important Eastern Himalayan endemic species are Abies densa, Agapetes incurvata, A. sikkimensis, Dipsacus atratus, Eriobotrya hookeriana, Geum macrosepalum, Larix griffithiana, Lindera heterophylla, Liparis perpusilla, Lloydia flavonutans, Maddenia himalica, Meconopsis grandis, M. superba, M. villosa, Myricaria albiflora, Primula whitei, Rhododendron baileyi, R. camelliaeflorum, R. ciliatum, R. glaucophyllum, R. grande, R. lantanum, R. lindleyi, R. wallichii, R .wightii, Rubus fragarioides, Sassurea conica, Acanthus leucostachys, Aconitum assamicum, Anoectochilus sikkimensis, Aeschynanthus parasiticus, Baliospermum micranthum, Berberis dasyclada, Calamus leptospadix, Calanthe densiflora, Capparis acutifolia, Cotoneaster assamensis, etc. (Chowdhery and Murti, 2000) Plant Diversity in Western Himalaya The Western Himalayan region is one of the 12 biogeographic regions of India and includes Jammu and Kashmir, Himachal Pradesh, and Uttaranchal. This region constitutes the alpine zone, temperate, humid and warm climatic conditions. The main portion of Western Himalaya lies in J K state comprising 67.5 Plant Diversity and Angiosperms in India Plant Diversity and Angiosperms in India INTRODUCTION Angiosperms or flowering plants (also called Angiospermae, Magnoliophyta, or Anthophyta) are the most diverse group of the plant kingdom, comprising of about 2,50,000 species in 350 families (Kenrick, 1999). Flowering plants are by far the most numerous, diverse, and â€Å"successful† extant plant group, containing well over 95% of all land plant species alive today (Simpson, 2006). Angiosperms are characterized by (i) seeds produced within a carpel with a stigmatic surface for pollen germination, (ii) a much reduced female gametophyte, consisting in most cases of just eight nuclei in seven cells; and (3) double fertilization, leading to the formation of a typically triploid nutritive tissue called endosperm (Judd et al., 2002). Several apomorphies distinguish the angiosperms from all other land plants: (1) the flower, usually with an associated perianth, (2) stamens with two lateral thecae, each composed of two microsporangia, (3) a reduced, 3-nucleate male gametophyte, (4) c arpels and fruit formation, (5) ovules with two integuments, (6) a reduced, 8-nucleate female gametophyte, (7) endosperm formation and (8) sieve tube members (Simpson, 2006). Some of these apomorphic features, which represent the product of a unique evolutionary event, have become further modified in particular lineages of angiosperms. Almost all angiosperms produce vessels in the xylem tissue, though this feature probably evolved within the group. Angiosperm phloem differs from that of all other plants in having sieve tube elements accompanied by one or more â€Å"companion cells† that are derived from the same mother cell. Flowering plants grow in virtually every habitable region and are dominant in some aquatic and most terrestrial ecosystems, the notable exception to the latter being coniferous forests. Angiosperms comprise the great bulk of our economically important plants, including our most valuable food crops. India with a geographical area of about 32, 87,263 sq km is the seventh largest and tenth industrialized country of the world. It is situated between 804 N to 3706 N latitude and 6807 E to 97025 E longitude. The longitudinal variation divides Indian subcontinent into four climatological zones, viz., equatorial, tropical, subtropical and warm temperate. The forest cover of the country have been estimated to be 6, 37,293 km2 (19.39% of the geographic area of the country) and includes dense forest (3, 77,358 km2), open forest (2, 55,064 km2) and mangrove (4,871 km2). India represents about 11% of world’s flora in just about 2.4% of total land mass. Out of the 25 biodiversity ‘Hotspots’ identified in the world (Myers, 1990), India has two, namely Eastern Himalaya and Western Ghats. These hotspots posses majority of plant diversity in India. In terms of species diversity, approximately 45,000 plant species are found in India (Khoshoo, 1994, 1995; Sharma et al., 1997). The angiosperms are represented by c. 17,500 species out of which 5725 species are endemic to India. About 28% of the total Indian flora and about 33% of angiosperms occurring in India are endemic (Nayar, 1996). It is roughly estimated that about 10% of flowering plant species in India are threatened and 34 plant species have been reported to be extinct (Nayar and Sastry, 1987-1990). The studies on Indian plants were first initiated by the European visitors. Even before the publication of Species Plantarum by Linnaeus (1753), Hendrik Van Rheede (1678-1703) started publication of his monumental 12 volume work ‘Hortus Malabaricus’. However, actual work on Indian flora was initiated by Roxburgh (1814, 1820- 1824) and later by Hooker and Thompson (1855). The publication of Flora of British India by Sir J.D. Hooker (1872- 1897) gave a stimulus to taxonomic studies in our country and since then several regional and state floras have been published. In 1954, Botanical Survey of India was revived with a view to make intensive studies of local flora especially to gather precise information on the identity, floristic diversity, distribution, ecological association, phenology, medicinal and economic uses of plants. India is immensely rich in biological diversity. Such richness is largely due to varied physical environment, latitude, altitude, geology and climate. The climate and altitudinal variations coupled with varied ecological habitats have contributed in the development of immensely rich vegetation wealth, and varied flora and fauna forming a very unique biodiversity. Seeing the rich plant diversity, Hooker (1904) commented that ‘The Indian flora is more varied than that of any other country of equal area in the eastern hemisphere, if not on the globe’. The Indian flora represents taxa occurring in different countries including Afghanistan, Bhutan, Bangladesh, China, Nepal, Pakistan, Myanmar, Malaysia, Indonesia, Thailand and Indo-China. There are even the representatives from African, American, Australian and European countries. DISTRIBUTION AND HABITAT Bio-geographical Territories in World The Indian region is one of the most diverse bio-geographic regions of the world having wide ranging topography from permanently snow covered high Himalayan ranges to plains at sea level, low lying swamps and mangroves, island systems, tropical evergreen rain forests, fertile alluvial plains, hot deserts and high altitude cold deserts. The climate ranges from tropical and sub-tropical in Indo-Gangetic plains and in the peninsular regions to temperate and arctic in the Himalayan region. Biogeographically India represents two of the major realms (Palaearctic and Indo-Malayan) and three biomes. Considering the vastness of the country and variation pattern in different areas, the country is divided into ten botanical regions with distinct bioclimatic conditions. These include: Coromandal coast, Malabar, Indus plain, Indian desert, Gangetic plain, Assam, Eastern Himalaya, Central Himalaya, Western Himalaya, Andaman and Nicobar Islands and Lakshdweep and minicoy group of islands (Mudgal and Hajra, 1997). India harbors very diverse climatic conditions and thus fosters different types of habitats. The major mountain ranges in India are the Himalaya and the Western Ghats. The Indian Himalayan region is spread over the states of Jammu and Kashmir, Himachal Pradesh, Sikkim, Arunachal Pradesh, Nagaland, Manipur, Mizoram, Tripura, Meghalaya, and a part of Assam, along with eight districts of Uttarakhand and one district of West Bengal. Biogeographically, the Indian Himalayan region falls under Boreal Zone which has two sub-zones, viz., Sino-Siberian and Sino-Himalayan. The area can be divided into four distinct zones longitudinally: (i) the Siwalik (900 – 1500 m), (ii) the outer Himalaya (1500 – 3500 m), (iii) the middle or lesser Himalaya (3600 – 4600 m), and (iv) the Greater Himalaya (above 4,600 m). This complex mountain system consists of narrow and deep valleys, glaciers and fertile terrain. Five climatic zones can be delineated in the Himalayan region based on geographic and physiographic factors. These are: (1) Warm tropical, (2) Warm sub-tropical, (3) Cool temperate, (4) Alpine and (5) Arctic. While these are only broad zonations, there are many local variations in the climate due to precipitation, temperature, wind patterns, humidity etc. The type and nature of soils also vary vastly in the Himalayan region from deep alluvial to the thin and bare soils of the high mountains. The nature of the soil depends upon the rocks, the prevailing climatic conditions, topography and vegetation. According to Udvardy (1975), biodiversity exists on earth in 8 broad realms with 193 bio-geographical provinces. It has been estimated that world’s 12 countries Australia, Brazil, China, Columbia, Ecuador, India, Indonesia, Madagascar, Malaysia, Mexico, Peru and Zaire together hold 70% of its total flowering plant diversity. These countries have been termed as â€Å"Megadiversity† countries (Mc Neely et al., 1990) Rodgers and Panwar (1990) have divided India into 10 phytogeographic zones and 24 biotic provinces. Gadgil and Meher-Homji (1990) have recognized 16 phytogeographical zones in India. On the other hand, Das (1996) has recognized 9 physiographic regions within the Indian Territory. Chowdhery and Murti (2000) have recognized 11 phytogeographic regions for India, each of which have its uniqueness in ecosystem, vegetation and floristic composition. These phytogeographic regions are: Western Himalaya, Eastern Himalaya, Gangetic plains, North East India, Semi arid and Arid regions, Deccan Plateau, Western Ghats, Eastern Ghats, Andaman and Nicobar Islands, Lakshdweep and Coastal regions. Distribution of Angiosperms in India In India, the vascular plants form the most dominant and conspicuous vegetation cover comprising of over 17,500 species of angiosperms which represents more than 7% of the worlds known flowering plant species (Hooker, 1872-1897; Karthikeyan et al., 1989; Sharma and Balakrishnan, 1993; Sharma and Sanjappa, 1993; Sharma et al., 1993; Hajra et al., 1995; Mudgal and Hajra 1997- 1999; Singh et al., 2000; Karthikeyan, 2000). These species are distributed in more than 4000 genera occurring in diffenent ecosystems from the humid tropics of Western Ghats to the Alpine zones of the Himalayas and from Mangrooves of tidal Sunderbans to the dry desert of Rajasthan. In India, dicots are represented by 2,282 genera and 12,750 species whereas monocots are represented by 702 genera and 4,250 species. Dicots account for c. 75% of flowering plants in terms of both genera and species. On the other hand, remaining 25% is contributed by monocots. Out of 511 recognized plant families (Brummit, 1992), 320 families with more than 4000 genera are represented in the Indian flora. Of which Poaceae is the largest family with about 263 genera and more than 1200 species. In India, over 60 families of flowering plants are monotypic, e.g., Illiciaceae, Ruppiaceae, Turneraceae, Tetracentraceae, etc. Asragaluts, Carex, Dendrobium, Ficus, Habenaria, Impatiens, Primula, Rhododendron, Saussurea, Taraxacum, etc. are some of the dominant genera of flowering plants in India. Out of the estimated 17,500 species of angiosperms, approximately 15% species are trees which include some of the highly valued timber species of the world and belong to the families like Annonaceae, Dipterocarpaceae, Euphorbiaceae, Fabaceae, Lauraceae, Moraceae, Meliaceae, Verbenaceae, etc. There are several botanical curiosities like Aeginetia indica, Balanophora dioica, Boschiniackia himalaica, Drosera, Epipogium, Galeola, Mitrastemon yamamotoi, Monotropa, Nepenthes khasiana, Pinguicula, Sapria himalayana, Utricularia spp., etc. Species in certain groups like Orchids, Bamboos, Rhododendrons, Citrus, Hedychiums, Impatiens, Pedicularis, Primulas, etc. exhibit remarkable diversity in India (Rao, 1994). Dominant angiospermic families in India are given in table1 (after Groombridge, 1992; Sharma et al., 1997). Table 1. Dominant families of dicots and monocots Insectivorous and parasitic plants The carnivorous plants (insectivorous plants) trap and digest insects to meet the requirement of nitrogen deficiency. Altogether over 450 species of carnivorous plants have been reported of which approximately 30 species occur in India. The insectivorous taxa belong to family Droseraceae (3 spp.), Nepenthaceae (1 spcies) and Lentibulariaceae (36 spp.). The parasitic plant species are prominent in Loranthaceae (46 spp.), Santalaceae (10 spp.), Balanophoraceae (6 spp.), Rafflesiaceae (1 spp.), Cuscutaceae (12 spp.) and Orobanchaceae (54 spp.). Aquatic plants About 2 percent of all flowering plants known in the world inhabit water bodies and more than 50 percent of these are represented in Indian subcontinent (Lavania et al., 1990). Some important aquatic plants families are: Alismataceae (8 spp.), Aponogetonaceae (6 spp.), Azollaceae (1 sp.), Barclayaceae (2 spp.), Butomaceae (1 sp.), Cabombaceae (2 spp.), Callitrichaceae (3 species), Isoetaceae (10 spp.), Lemnaceae (14 spp.), Najadaceae (7 spp.), Nelumbonaceae (1 sp.), Nymphaeaceae (7 spp.), Podostemaceae (24 spp.), Pontederiaceae (13 spp.), Ceratophyllaceae (3 spp.), Hydrocharitaceae (13 spp.), Potamogetonaceae (18 spp.), Ruppiaceae (1 sp.), Salviniaceae (3 spp.), Trapaceae (2 spp.), Typhaceae (4 spp.), Zannichelliaceae (1 sp.), etc. The members of families Podostemaceae and Tristichaceae grow on rocks under water in fast flowing streams. The aquatic plants in India are highly diversified comprising free-floating forms (Eichhornia crassipes, Lemna perpusila, Nymphoides hydrophylla, Trapa natans var. bispinosa, Pistia stratiotes, Wolffia microscopia, W. globosa), rooted aquatics with their foliage floating (Nymphaea nouchali, N. stellata, Euryale ferox, Nelumbo nucifera), submerged aquatics (Vallisnaria natans, Hydrilla verticillata, Najas graminea, Potamogeton pectinatus) emergent aquatics (Scirpus maritimus, Cyperus articulates, Sagittaria trifolia, S. guayanensis subsp. leppula) and marsh plants (Ranunculus scleratus, Hydrolea zeylanica, Panicum paludosum, Polygonum barbatum, P. glabrum). The aquatic flora play an important role as water purifier by absorbing heavy metals, e.g. Ceratophyllum demersum (chromium), Bacopa monnieri (copper and cadmium). Limosella aquatica, Hippuris vulgaris occur in subalpine-alpine lakes. Mangroves Mangroves are the plants that inhabit coastal regions and estuaries. They are adapted to survive under marshy conditions. In India, mangroves cover an area of approximately 6700 Km ² which constitutes c. 7 percent of the world’s mangroves. The largest stretch of mangroves in India occurs in Sunderbans (West Bengal) which covers an area of about 4200 km ². It has been designated as World Heritage site of which 80% of them are restricted to Sunderbans (West Bengal) and Andaman Nicobar islands (Chowdhery and Murti, 2000). The remaining taxa are scattered in the coastal areas of Andhra Pradesh, Tamil Nadu, Orissa, Maharashtra, Gujarat, Goa and Karnataka. Some of the dominant mangrove species include Avicennia marina, A. officinalis, Bruguiera gymnorrhiza, B. parviflora, Ceriops tagal, Heritiera fomes, Lumnitzera spp., Rhizophora mucronata, R. apiculata, R. stylosa, Sonneratia spp., Xylocarpus spp., etc. The shrubby Aegialitis rotundifolia and Acanthus ilicifolius are common o n poor saline plains. The herbaceous succulent halophytes are represented by Aegiceras corniculatus, Suaeda brachiata, Sesuvium portulacastrum and Salicornia brachiata. The characteristic mangrove palms are: Nypa fruticans and Phoenix paludosa. Indicator species Some species of angiosperms growing on metalliferous soils accumulate large amounts of metals in their roots and reflect the levels of metal present in the soil (indicators). For example, presence of copper is indicated by Astragalus spp., Croton roxburghii, Hyptis suaveolens, Holarrhena pubescens, Impatiens balsamina, Vernonia cinerea, and indicates presence of Uranium (Aery, 1977; Venkatesh, 1964, 1966). Diversification of Primitive and Advanced Families The primitive families are confined to those regions which are very old in geological time scale in comparison to the newly developed areas. Assam, North-east Indian region and Deccan Peninsula are older in comparison to the other phytogeographical regions of India. These regions are more or less identical in age with Sri Lanka, South West Chinese region and Malay Peninsula. The Deccan Peninsula shows its floristic relationship with Sri Lanka and Malay provinces, while the North east India shows its floristic relationship with Myanmar, South West Chinese Provinces and Malay Peninsula. Thus the Malay region shows similarity with Deccan Peninsula on one hand and North east India on the other. By this way the North East India shows similarity with Deccan Peninsula to some extent (Mitra and Mukherjee, 2006). India (Eastern Himalaya including North east India) is considered as a sanctuary of primitive flowering plants. The occurrence of such a large number of primitive angiosperms led Takhtajan (1969) to designate this region as the ‘Cradle of Flowering Plants’ where angiosperms have diversified (Table 2) Table.2. Primitive flowering plants occurring in India (after Rao, 1994) The advanced families occur in those areas which are comparatively very young in the geological time scale. On the basis of this idea it can be stated that the Himalayan region of India is very young in its age as compared to Deccan Peninsula and North East Indian regions of India, as it harbours most of the advanced families with well diversified restricted genera and species. A comparative account of diversification of primitive and advanced families of India and its adjoining area is given in table 3. The advanced families are young in their age and also they are confined to the areas which are also geologically young, they are unable to spread in the wider regions. On the other hand, primitive plant families are older in their age and also found to confined in those areas which are geologically very old. So they get sufficient time to spread over larger areas, as a result of which the primitive families show less number of restricted genera and species in their credit in comparison to the advanced families (Mitra and Mukherjee, 2006). Habitats Different ecological habitats occur in India ranging from tropical rainforest, subtropical savanna or shrublands, temperate forest, alpine mosses to xerophytic variation of desert. The habitat types vary from the humid tropical Western Ghats to the hot deserts of Rajasthan, from cold deserts of Ladakh to the long, warm cost line stretches of peninsular India. While Cherrapunji and Mawphlong in the north-eastern state of Meghalaya are the two wettest places on earth, Dras in Ladakh is the coldest inhabited place of the world. Phytogeographically, the eastern Himalaya forms a distinct floristic region. The area comprises Nepal, Bhutan, and neighboring states of northern India along a continuous sector of the Yunnan province in south-west China. In Nepal, there are around 7000 plant species, many of which overlap those of India, Bhutan and even Yunnan. Of these species, at least 500 (almost 8%) are believed to be endemic to Nepal. Bhutan possesses an estimated 5000 species, of which as many as 750 (15%) are considered to be endemic to the eastern Himalaya (Anonymous 1999). This region is the meeting ground of the Indo-Malayan, Afro-tropic and Indo-Chinese biogeographical realms as well as the Himalayan and Peninsular Indian elements, formed when the peninsular plate struck against the Asian landmass, after it broke off from Gondwana land. The region is recognized as refugium of flowering plants and center of active speciation (Rao, 1994). The numerous primitive angiosperm families found in this region inclu de Degeneriaceae, Eupomatiaceae, Himantandraceae, Lardizalbalaceae, Magnoliaceae, Trochodendraceae, Tetracentraceae, Winteraceae. The primitive genera are Alnus, Aspidocarya, Betula, Decaisnea, Euptelea, Exbucklandia, Haematocarpus, Holboellia, Houttuynia, Magnolia, Mangelietia, Pycnarrhena, and Tetracentrol (Malhotra and Hajra 1977). Regions of High Diversity India is one of the 12 mega biodiversity countries of the world. It represents an example of conglomeration of diverse bioclimates influenced by neighbouring areas (particularly Mediterranean), the unique location, peninsular land mass, Gangetic plains and the crown of complex chain of mountain systems – the Himalaya. The Himalayan region with only 18% of India’s land area, houses 81.4% of the country’s stock of gymnosperms, 47% of angiosperms, 59.5% of lichens, 58.7% of pteridophytes, 43.9% of bryophytes and 53.07% of fungi found in India. Orchidaceae with over 1331 taxa (S. Misra, 2007) is one of the dominant families and probably the second largest among all families of flowering plant known from India. Of these 407 taxa are endemic to India. Out of the 18 monotypic orchid genera of India, 13 are found in the Himalayan region. In the Eastern Himalaya, the Orchid family is the largest, with 60% species, whereas in the Western Himalaya, Asteraceae with 540 species is the largest family followed by Poaceae with 439 species and Fabaceae with 362 species. Carex with more than 100 species and infraspecific categories is the largest genus in the Himalaya. Rhododendron with 96 species and infra-specific categories, and Astragalus with 90 species, is the largest genera in the Eastern and Western Himalaya, respectively. Some other plants with pronounced diversity in the Eastern Himalaya include the Hedychium (Zingiberaceae) with 18 species out of 35 Indian species, and numerous species of bamboos. The Eastern Himalaya is a cradle of numerous primitive angiosperms, such as Manglietia and Euptelea (Magnoliaceae) and Tetracentron (Tetracentraceae). Christollea himalayensis, recorded from Mt. Camet is the flowering plant occurring at the highest altitude (6300 msl). Arceuthobium minutissimum, (small angiosperm) grows on Himalayan conifers. Apart from these botanical curios, the Himalayan region has a rich diversity of medicinal and aromatic plants. The floristic richness has also rendered the North-Eastern region and Western Ghats to be recognized as two hotspots among 25 hotspots identified throughout the world. The humid tropical conditions met within these regions not only support exceptionally diverse vegetation but have also resulted in speciation in several genera, thus adding to the high endemicity of the flora (Nayar, 1996). In addition to these two, there are about 40 other sites in different phytogeographical zones of India which have high degree of endemism and genetic diversity. Mc Neely et al. (1990) estimated that 70% of worlds total flowering plants occur in 12 countries and these have been designated as Mega diversity centres or mega ­biodiversity country. The earth’s 25 biodiversity hotspot regions collectively cover about 2% of the planet’s land surface, yet claim more than 50% of all terrestrial species diversity. They have within them a phenomenal 1, 25,635 plant species. The top 11 hotspots (out of 25) for plant endemism harbor 5000 or more species as endemics. It accounts for 93,214 plant species, or 37.3% of the total global plant endemics (Myers 1988). Western Ghats The Western Ghats, which covers an area of approximately 1, 60,000 Km ², are among the 25 biodiversity hotspots globally identified. The wide variation of rainfall patterns in the Western Ghats, coupled with the regions complex geography, produces a great variety of vegetation types. These include scrub forests in the low-lying rain shadow areas and the plains, deciduous and tropical rainforests up to about 1,500 meters, and a unique mosaic of montane forests and rolling grasslands above 1,500 meters. Based on the ecological factors and floristic composition, four major forests and 23 floristic types have been identified. Eastern Himalaya Eastern Himalaya covering the states of Sikkim, Darjeeling district of West Bengal, Assam, Manipur, Tripura, Meghalaya, Arunachal Pradesh, Mizoram and Nagaland is the richest of the phytogeographic regions of India affording the highest plant/ animal diversity (Rao, 1994). This region is characterized by high rainfall and humidity. The abundant rains and high humidity contribute the occurrence of largest number of species in this region. North eastern region of India, blessed with wide range of physiography and ecoclimatic conditions, is the richest biodiversity centres of the Indian subcontinent (Hooker and Thompson, 1855; Hooker, 1905; Chatterjee, 1962; Rao, 1974). The north eastern India has a geographical area of about 2, 55,050 Km ². The rich plant wealth of this region has been reported by Hooker (1854). Further, Hooker’s work on â€Å"Flora of British India† (1872-97) and â€Å"Sketches on Flora of British India† (1905), presents a very detailed account on vegetation and flora of this region. Kanjilal et al. (1934-1940), in their â€Å"Flora of Assam† have provided a detailed account with emphasis on woody flora of this region. There are works on â€Å"Forest flora of Meghalaya† by Haridasan and Rao (1985, 1987) and â€Å"Grasses of North eastern India† by Shukla (1996). There are several genera endemic to Eastern Himalaya. Some important endemic genera are Aucuba, Bryocarpum, Pleurospermopsis, Gamblea, Lepidostemon, Parajaeschkaea, Paroxygraphis, Risleya, Sphaerosacme, Treutlera and Brachycaulos. Cyathopus is endemic to Sikkim. Some genera like Biswarea, Hymenandra, Jejosephia, Neoluffa, Pauia, etc. are endemic to North eastern India. Some important Eastern Himalayan endemic species are Abies densa, Agapetes incurvata, A. sikkimensis, Dipsacus atratus, Eriobotrya hookeriana, Geum macrosepalum, Larix griffithiana, Lindera heterophylla, Liparis perpusilla, Lloydia flavonutans, Maddenia himalica, Meconopsis grandis, M. superba, M. villosa, Myricaria albiflora, Primula whitei, Rhododendron baileyi, R. camelliaeflorum, R. ciliatum, R. glaucophyllum, R. grande, R. lantanum, R. lindleyi, R. wallichii, R .wightii, Rubus fragarioides, Sassurea conica, Acanthus leucostachys, Aconitum assamicum, Anoectochilus sikkimensis, Aeschynanthus parasiticus, Baliospermum micranthum, Berberis dasyclada, Calamus leptospadix, Calanthe densiflora, Capparis acutifolia, Cotoneaster assamensis, etc. (Chowdhery and Murti, 2000) Plant Diversity in Western Himalaya The Western Himalayan region is one of the 12 biogeographic regions of India and includes Jammu and Kashmir, Himachal Pradesh, and Uttaranchal. This region constitutes the alpine zone, temperate, humid and warm climatic conditions. The main portion of Western Himalaya lies in J K state comprising 67.5

Grapes of Wrath Essay: Steinbecks Communist Manifesto -- Grapes Wrath

The Grapes of Wrath as a Communist Manifesto  Ã‚  Ã‚        Ã‚  Ã‚   Steinbeck's political views are quite evident within The Grapes of Wrath. The subject of much controversy, The Grapes of Wrath serves as a social protest and commentary. Steinbeck's views as expressed through the novel tie directly into the Marxist ideals on communism.    Perhaps the first thing Steinbeck does in The Grapes of Wrath is establish the status quo. He sets up the farmers and the banks as the two main opposing forces. "Lord and serf... in a word, oppressor and oppressed" (Marx, 1) Immediately Steinbeck sets up the very same situation Marx establishes in The Communist Manifesto complete with proletarian (farmers) and bourgeois (bankers) classes.    The Joads and the other farmers clearly represent Marx's proletariat. The entire struggle they face is that of finding work or dying on the most basic of levels. Still, they fall victim to the conditions of the Great Depression, resulting in their continued inability to procure such a job. The migrants appear strongly as " the proletariat, the modern working class... who live only so long as they find work .. who must sell themselves piecemeal ... and are consequently exposed to all the vicissitudes of competition to all the fluctuations of the market" (Marx, 4). Steinbeck and Marx find an obvious agreement over the situation and classification of the Okies, the proletarian workers.    One must also consider the role of the capitalist bankers and upper-class owners in the novel. The banks serve several purposes. First in the novel, they force the rural farmers off of their lands. Being the natural proletariat, they must take to the road in order to find a job. The upper class, as well, distribut... ...hing for a reform of the current system. Bear in mind however, that there is no way to reform a system and let it be run by a "monster." Steinbeck's complaints about capitalism stem from its very basis and allow for no reform short of revolution. The old ways have died, violence is building, and as Marx would agree, revolution is imminent. The bourgeoisie and proletariat exist exactly as Marx states, and all the conditions are shaping up for a proletarian uprising. The revolution draws nigh as Steinbeck's characters learn the principles and values on which Marx bases communism. The Marxist revolution in The Grapes of Wrath is at hand, especially as working men unite.    Works Cited Marx, Karl and Friedrich Engels. The Communist Manifesto. New York: Oxford University Press, 1992. Steinbeck, John. The Grapes of Wrath. New York: Penguin Books, 1998.   

Siddhartha Essays: Achieving Enlightenment at the River -- Hesse Siddh

Achieving Enlightenment at the River in Siddhartha      Ã‚   In Siddhartha's quest for enlightenment, Herman Hesse makes the river the final focal point of the novel. Siddhartha is set on his journey to the river by listening to his inner voice and questioning authority. The river comes to represent the ideas through which Siddhartha reaches enlightenment. The essential concepts of time and how it relates to life are discovered by Siddhartha through listening to the river. He comes to realize that his previous conclusion is correct, wisdom cannot be taught. When he reaches nirvana, he also sees how spiritualism and materialism both have a place in the cycle of life. Acting as Siddhartha's inspiration to his ultimate goal, the river operates as a significant element in Hesse's novel, Siddhartha.    Early in the novel, Siddhartha sets his life pattern by questioning the authority of Hinduism. With his friend Govinda, he begins life amongst the samanas. With the samanas, Siddhartha begins to master their teachings. Feeling unfulfilled, Siddhartha concludes as an ascetic he will not reach bliss as the eldest samana has yet to obtain enlightenment. Leaving the forest, Siddhartha and Govinda go to hear the teachings of the illustrious Buddha. After listening to Gotama's preaching, Siddhartha realizes that he will not reach enlightenment through teachings but along a path which he must contrive. Once again lead by his inner voice, Siddhartha begins to explore life in the material world. Over the ensuing twenty years, he becomes deeply entangled with samsara. In forgetting the past teachings, Siddhartha is able to start his journey anew. Disgusted with his life, Siddhartha leaves again and discovers the river. By listening to his... ...hat leads him to the river where he learns the concepts of time and timelessness. From seeing many disciples of varying religions, Siddhartha decides that wisdom is incommunicable. His last revelation comes has he reaches nirvana. The two worlds of spiritualism and materialism do not exist as forces to side with but powers to be in harmony with. The ideas discovered come through his life experiences and most significantly at the river and the nature of it.    Works Cited    Hesse, Herman. Siddhartha. Dover Publications, 1998.    Malthaner, Johannes. "Hermann Hesse: 'Siddhartha'". The German Quarterly. Vol.25, No.2, March 1952.    Timpe, Eugene F. "Hesse's Siddhartha and the Bhagavad Gita". Comparative Literature, V.22 No.4 , 1970, p.23.    "Nirvana". The World Book Encyclopedia, (Vol.14).   Toronto: World Book, Inc., 1987, p.332-333. Siddhartha Essays: Achieving Enlightenment at the River -- Hesse Siddh Achieving Enlightenment at the River in Siddhartha      Ã‚   In Siddhartha's quest for enlightenment, Herman Hesse makes the river the final focal point of the novel. Siddhartha is set on his journey to the river by listening to his inner voice and questioning authority. The river comes to represent the ideas through which Siddhartha reaches enlightenment. The essential concepts of time and how it relates to life are discovered by Siddhartha through listening to the river. He comes to realize that his previous conclusion is correct, wisdom cannot be taught. When he reaches nirvana, he also sees how spiritualism and materialism both have a place in the cycle of life. Acting as Siddhartha's inspiration to his ultimate goal, the river operates as a significant element in Hesse's novel, Siddhartha.    Early in the novel, Siddhartha sets his life pattern by questioning the authority of Hinduism. With his friend Govinda, he begins life amongst the samanas. With the samanas, Siddhartha begins to master their teachings. Feeling unfulfilled, Siddhartha concludes as an ascetic he will not reach bliss as the eldest samana has yet to obtain enlightenment. Leaving the forest, Siddhartha and Govinda go to hear the teachings of the illustrious Buddha. After listening to Gotama's preaching, Siddhartha realizes that he will not reach enlightenment through teachings but along a path which he must contrive. Once again lead by his inner voice, Siddhartha begins to explore life in the material world. Over the ensuing twenty years, he becomes deeply entangled with samsara. In forgetting the past teachings, Siddhartha is able to start his journey anew. Disgusted with his life, Siddhartha leaves again and discovers the river. By listening to his... ...hat leads him to the river where he learns the concepts of time and timelessness. From seeing many disciples of varying religions, Siddhartha decides that wisdom is incommunicable. His last revelation comes has he reaches nirvana. The two worlds of spiritualism and materialism do not exist as forces to side with but powers to be in harmony with. The ideas discovered come through his life experiences and most significantly at the river and the nature of it.    Works Cited    Hesse, Herman. Siddhartha. Dover Publications, 1998.    Malthaner, Johannes. "Hermann Hesse: 'Siddhartha'". The German Quarterly. Vol.25, No.2, March 1952.    Timpe, Eugene F. "Hesse's Siddhartha and the Bhagavad Gita". Comparative Literature, V.22 No.4 , 1970, p.23.    "Nirvana". The World Book Encyclopedia, (Vol.14).   Toronto: World Book, Inc., 1987, p.332-333.

Eating Disorders And Substance Abuse Essay -- Weight Loss Health Essay

Eating Disorders And Substance Abuse Common Eating Disorders: The two most common eating disorders are bulimia nervosa and anorexia nervosa. Both disorders, primarily affect young women, therefore the majority of the research on eating disorders has been done with women subjects. The onset of bulimia is between adolescence and early adulthood while the onset of anorexia is between early and late adolescence. Not only is the onset different but the disorders are unique. Bulimia nervosa is characterized by loss of control over eating which leads to food binges. These episodes are interspersed with episodes of purging, such as vomiting or laxative abuse, to keep weight down. The goal of anorexia is also to keep weight down , but to a more severe extent. Anorexia nervosa is marked by "a relentless pursuit of thinness, intense fears of becoming fat, and a distorted body image" (Lilenfeld 1996). There is a substantial weight loss and amenorrhea. These changes occur by either restriction of food intake which is labeled restrictive anorexia, or starvat ion with bouts of purging which is labeled binge eating/purging anorexia. Studies of Eating Disordered Individuals And Substance Abuse: The causes and issues underlying eating disorders still remain, for the most part, a mystery. For this reason much investigation has gone into any issues which may be related to eating disorders. The topic which will be analyzed in this paper is the comorbidity of eating disorders and drug/alcohol abuse. In a review of fifty-one studies by Lilenfeld and Kaye, rates of alcohol/drug abuse were found to differ significantly among restricting anorexics, binge eating/purging anorexics and bulimics. "Depending on the study analyzed, the rates of... ...of dual diagnosis. Therefore different and varied treatment programs are used in hopes of improving this problem. In essence, treatment of dual diagnosis is still a guessing game. Works Cited: Lilenfeld, L. & Kaye, W. (1996). The Link Between Alcoholism and Eating Disorders. Alcohol Health and Research World, 20, 94- . Schuckit, M. , Tipp, J. , Anthenelli, R. & Bucholz. K. (1996). Anorexia Nervosa and Bulimia Nervosa in Alcohol Dependent Men and Women and their Relatives. The American Journal of Psychiatrity, 153, 75- . Strober, M. , Freeman, R. ,Bower, S. ,& Rigali, J. (1996). Binge Eating in Anorexia Nervosa Predicts Later Onset of Substance Use Disorder. Journal of Youth and Adolescence, 25, 519- . Varner, l. (1995). Dual diagnosis: Patients with Eating and Subatance Related Disorders. Journal of the American Dietic Association, 95, 224- .

Compare and contrast the human condition as it relates to Muslims and Christians

The author of this paper will endeavor to compare and contrast the human condition as it relates to Muslims and Christians. The author will examine the teachings of these religions as it relates to the improvement of the human condition and will look at the public stance of both of these great religions. One of the five basic pillars of Islam is the Zakaat or spiritual tithing or almsgiving. In its simplest terms it is a command by Muslims to give 2.5% of their accumulated wealth on an annual basis to other Muslims. According to www.islam.tc there is much more to the Zakaat than the simple annual giving. According to this website the Zakaat is â€Å"the most important act of worship which has to be performed monetarily.† The website further lists the many benefits of giving Zakaat as follows: â€Å"It reminds Muslims of the fact that whatever wealth they may possess is due to the blessings of Allah and as such is to be spent according to His commands.† â€Å"Zakaat functions as a social security for all. Those who have enough money today pay for what they have. If they need money tomorrow they will get what is necessary to help them live decently.† â€Å"Zakaat payer pays his dues to Allah as an act of worship, a token of submission and an acknowledgement of gratitude. The receiver of Zakaat receives it as a grant from Allah out of His bounty, a favor for which he is thankful to Allah.† Thus the Muslim by accepting the 5 pillars agrees that he is to help support the less well off from him. As this is a command from Allah, the benefits of the Zakaat are then seen as blessings directly from Allah. Allah says in the Qur'an â€Å"The parable of those who spend their wealth in the way of Allah is that of a grain of corn. It grows seven ears and each ear has hundred grains. Allah increases manifold to whom he pleases.† (Qur'an 2:261) Further research indicates that the Hadith indicates the following benefits are derived from the Zakaat as follows: 1. Gain the pleasure of Allah 2. Increase in wealth and protection from losses 3. Allah's forgiveness and blessings 4. Protection from the wrath of Allah and from a bad death 5. A shelter on the Day of Judgment 6. Security from seventy misfortunes Benefit is sometimes looked upon as the avoidance of pain, and the Hadith certainly points out not only some benefits such as forgiveness and blessings, but additionally the avoidance of pain such as shelter on Judgment day and the security from seventy misfortunes. Allah also indicates punishment for not giving Zakaat as follows: â€Å"And there are those who hoard gold and silver and do not spend it in the way of Allah, announce to them a most grievous penalty (when) on the Day of Judgment heat will be produced out of that wealth in the fire of Hell. Then with it they will be branded on their forehead and their flanks and backs. (It will be said to them) This is the treasure which you hoarded for yourselves, taste then the treasure that you have been hoarding.† (Qur'an 9:34-35) Christians on the other hand are certainly not as public and seem to be by the author's experience somewhat bashful or ashamed to speak about money, tithing and almsgiving. From the author's own experience as a member of the Stewardship committee of his Church, we only speak of money three Sundays per year and only in the context that it is a member of the trilogy of time, talents, and treasures to be given for the glory of God. Further, Christians are of two minds as to the amount of money they should give. The old testament of the Bible in Leviticus 27:31 states the following: A tithe of everything from the land, whether grain from the soil or fruit from the trees, belongs to the Lord; it is holy to the Lord. The word â€Å"tithe† means one tenth. In the new testament of the Bible, Jesus teaches us in Luke 6:38 â€Å"Give, it will be given to you. A good measure, pressed down, shaken together and running over, will be poured into your lap.† Also in Luke, Jesus says in Luke 11:41 â€Å"But give what is inside the dish to the poor, and everything will be clean for you.† The passages from the old and new testaments seem to be mutually exclusive, but do indicate that giving must be done, but not how much. Muslims, it seems are definitely more clear on the amount of giving. Also different between the Christian and the Muslim is who are we giving to? The Zakaat clearly indicates that Muslims are giving to other Muslims as a command from Allah which then gives benefit to both the giver and the receiver. Christians on the other hand clearly give to the Church. The Christian Church according to their doctrines then gives to help support the Church and also humankind as a whole. Christians routinely support other belief systems through their outreach and missions. Look as an example of the enormous support for Muslims by Christians after the Tsunami. The author is a member of an ELCA Lutheran Church and as part of the mission of this Church; the congregation took a mission trip in part to support a Catholic Orphanage in Peru. Muslims routinely praise or do not disparage the terrorist Osama Bin Laden. Why is this so? The reason is that Osama routinely supports other Muslims through generous giving to Muslims. Since there has been no outward vocal opposition to this generosity by Muslims it must therefore be an accepted practice. The author cannot recall or through research find any Christian terrorist let alone one who is exalted because of his giving. Both great religions certainly promote giving. The Muslim Zakaat clearly supports other Muslims which may just be the single biggest reason for the explosive growth of the Islam faithful in the world. Muslims believe the Zakaat should support all things Muslim such as education and cite Muhammad's exhortations regarding education as follows: â€Å"If you educate a man, you educate an individual. If you educate a woman, you educate a nation.† Certainly the Zakaat helps support education amongst the Muslims which further adds to their burgeoning populations. Christianity on the other hand is more quiet and somewhat bashful in their attempts at Christian education amongst the world's non-Christian people which may account for the slower growth of Christianity. Certainly both religions are painfully aware of the decline in the overall human condition, but Muslims, because of their adherence to the Five Pillars are doing a better and more public job of showing humankind (not necessarily in the United States) the kind, peace-loving, nurturing side of their faith.