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Topics On Children In Group Counseling Research Paper
Tuesday, August 25, 2020
Social and Historical Effects Responsible for the Conception of the Fantastic and Supernatural in Gothic Horror (Dracula)
Bram Stokerââ¬â¢s Dracula appeared in Victorian England toward the finish of the nineteenth century. Not the primary vampire story of now is the ideal time, it surely made one of the most enduring impacts on present day culture, where stories of the otherworldly, loathsomeness, black magic, ownership, demoniacs, vampires, werewolves, zombies, outsiders, and beasts of assorted types have become something of a subject in current workmanship, if not a fixation. Numerous researchers banter the root or reason for this wonder, yet most concur that culture assumes a gigantic job in the advancement of such subjects, regardless of whether in nineteenth century gothic books, for example, Dracula or Frankenstein, or in present day films with gothic leanings, for example, The Exorcist or Children of Men. This paper will analyze how dream and the possibility of the otherworldly, including the ââ¬Å"undead,â⬠is a significant hidden dread common in the mind of humankind, which shows itself in an unexpected way, contingent upon the social or recorded conditions which generates the formation of that work of writing or film. By setting Mary Shelleyââ¬â¢s Frankenstein inside the setting of its Romantic/Enlightenment time, E. Michael Jones shows how the impacts of the progressive tenet of Jean-Jacques Rousseau, Marquis de Sade, and Percy Bysshe Shelley discovered their definitive articulation in the gothic loathsomeness kind (90). Dracula, no not as much as Frankenstein, is characteristic of the social underbelly that the Victorian Age looked to conceal. A long way from talking straightforwardly of the human interests released by the Romantic time, the Victorian Age thought that it was progressively fitting to conceal them, keep them out of the open circle, render them dormant, and in this way make life good. The issue was, the less those interests were discussed, however followed up on, the more those equivalent interests rose to the surface through the methods for gothic frightfulness books and movies. While, Oscar Wildeââ¬â¢s ââ¬Å"art for artââ¬â¢s sakeâ⬠did the masterful universe of the Victorian Age and into the twentieth century of unhindered expressionism, Wilde himself succumbed to the underbelly of Victorian Englandââ¬which, truth be told, indicted him to the furthest reaches of the law when his indecencies became open information to people in general. Stokerââ¬â¢s Dracula was similarly as illustrative of his own sexual wants conceal by Victorian prudery. But since Stoker generally shielded his issues from turning out to be open outrage, he was let it be to communicate what everybody was keen on in any case, and which has consistently been a simple merchant: sex. Controlling the interests had consistently been the enthusiasm of the Catholic Church, which was the European defense against transformation, with help from the explanation of Augustine to the scholasticism of Aquinas to the design of the gothic houses of God. With the developing defilement of many Church authorities, the ascent of the Renaissance and the Protestant Reformation, that control was at long last undermined and supplanted. New methods of reasoning were spread (Rousseauââ¬â¢s idea of nature as the main law; Sadeââ¬â¢s idea of that equivalent nature as fierce, carnal, and brutal), which released a tsunami of radical progressives in Paris toward the finish of the eighteenth century, which thusly required new sorts of control. Napoleon was the prompt outcome. Victorian prudery was the nineteenth centuryââ¬â¢s later reaction. It empowered Mary Shelley to transform her better half into a ââ¬Å"Victorian angel,â⬠as she ââ¬Å"dedicated an incredible remainder to destroying their sexual experimentâ⬠(Jones 91) with Byron in Geneva, memorialized, in any case, by Ken Russellââ¬â¢s 1987 film Gothic, in which de Sadeââ¬â¢s Justine illuminates Mary Shelley regarding what could before long be normal. What Sade anticipated, and advanced, was a sexual transformation that would lift sexual want from the limitations of medieval Church tenet. While that height prompted the implementation of another social set of principles (Victorianism), a substitute improvement got in progress in which that equivalent rise of sexual permit was to be utilized itself as a type of control. Truth be told, Augustine had talked about such hundreds of years before when he composed that a man has the same number of experts as he has indecencies. Sadeââ¬â¢s evaluation was comparative in the eighteenth century: ââ¬Å"The condition of the ethical man is one of serenity and harmony; the condition of an indecent man is one of interminable unrestâ⬠(Jones 6). However, while Augustine advanced harmony, Sade, who practiced some political influence in the Reign of Terror, advanced agitation: ââ¬Å"By advancing bad habit, the system advances subjection, which can be designed into a type of political controlâ⬠(Jones 6). Such was in accordance with Robespierreââ¬â¢s precept of fear as influence. Stokerââ¬â¢s Dracula was a statement of simply such an ideaââ¬for Stoker himself knew the legitimacy of both those cases: a tempter of young ladies, Stoker without a doubt related to Jonathan Harker and Dracula, the hostage and ace at the same time. The vampire turned into a persona of famous frightfulness status in film in the next century. The idea of the strolling ââ¬Å"undeadâ⬠who benefited from the blood of blameless people evoked something so significant and invigorating in the psyches of crowds everywhere throughout the world that vampirism was all over, from Nosferatu to Bela Lugosi to Carl Theodor Dreyerââ¬â¢s Vampyr. Dreyer, who had shot what is viewed as one of the best quiet movies ever, The Passion of Joan of Arc, discovered his motivation for his vampire film in any semblance of Magnus Hirschfeld. Hirschfeld was a privileged individual from the British Society for Sexual Psychology and something of a famous actor himself in Weimar Germany, playing a ââ¬Å"enlightened, explicitly excusing specialist in Richard Oswaldââ¬â¢s ace gay film Anders als bite the dust Andernâ⬠(Jones 194). The topics of sexual permit and control significantly affected Germany. Sigmund Freud would take up the topics in his psychoanalytic investigations, advancing the satisfaction of sexual wants as a methods for conciliating the inner mind. In Dr. Sewardââ¬â¢s journal, one finds no less: a blood transfusion is given to Lucy by Van Helsing, who states, ââ¬Å"She needs blood, and blood she should have or dieâ⬠(Stoker 123). Lucy has been chomped by the vampire and become, it could be said, tainted. The main logical fix is to give her need she needs: blood. The mention to another blood trade is obviousââ¬but the sense is transformed: While T. S. Eliot states in Murder in the Cathedral the connection between Christian penance and control of the interests (ââ¬Å"His Blood for our own, Blood for bloodâ⬠), Enlightenment science proposes no profound remedyââ¬merely a physical or mental one: a mental/physical surrendering to want as opposed to an otherworldly predominance of it. Jones talks about the sexual unrest that ran correspondingly with the French Revolution as the genuine forbearer of gothic ghastliness. Though othic basilicas fortified through visual portrayal the awfulness of Satan and sin, current gothic frightfulness does the sameââ¬though the arrangement is unique (if there is one, and there regularly isn't: the unfading malice of Michael Myers, Jason, Krueger, and so on recommends that while Christ was the response for Augustine and Aquinas, the Enlightenment presently can't seem to plan any satisfactory arrangement). In the mean time, the control of want, Jones notes, has discovered out of Victorian prudery and into the standard through publicizing, radio, TV, music, and film. The dream of the ââ¬Å"undeadâ⬠in the George A. Romero establishment, which is as yet being refreshed, proposes a sort of open reaction to it's general surroundings: a general public brimming with living, strolling deadââ¬killed by the siege of uncontrolled interests, yet as yet living, shopping, taking care of social ceremonies. The sexual unrest and Enlightenment regulation of the 1790s and mid twentieth century reemerged in max speed during the 1960s and 70s, to make another flood of liberal social tenet and another rush of gothic awfulness in film. In Dracula, Mina Harker records the evaluation of the malice of vampirism as per Van Helsing: The nosferatu don't kick the bucket like the honey bee when he sting once. He is just more grounded; and being more grounded, have yet more capacity to work insidious. This vampireâ⬠¦is of himself so solid face to face as twenty men; he is of clever more than mortalâ⬠¦he have still the guides of magic, and all the dead that he can come near to are for him to order; he is beast, and more than savage; he is demon in insensitive, and the core of him isn't. (Stoker 237) The depiction is Satanic, and a comparative depiction would be given in 1973ââ¬â¢s The Exorcist, wherein Satan has a young lady thanks to a childrenââ¬â¢s game (the Ouija board). However, with The Exorcist, the otherworldly abhorrent is made significantly more genuine than the awesome malevolence of Dracula. And keeping in mind that Dracula is devastated by a stake, the fiend is scattered distinctly through the intensity of Christ in The Exorcist. Incidentally, in any case, the fallen angel is driven out simply after the demise of not one but rather two priestsââ¬the elderly person at first, and afterward the more youthful cleric, whose own emergency of confidence turns into a sort of misery toward the finish of the film, when, stopping to urge Satan through Christ, he cries, ââ¬Å"Take me! rather, and afterward hurls himself out the window when his own belonging is finished. The young lady is liberated from her captor, yet just at the expense of the life and soul of the youthful cleric: the intensity of Christ simply served to outrage the devilââ¬it didn't oppress him; such would have been excessively significant in the relativistic atmosphere of the 70 s. The 70ââ¬â¢s sexual and political unrests were entwined to such a degree, that no-nonsense erotic entertainment and Feminist governmental issues showed up on the scene all the while. While Betty Friedan contradicted customary sexual orientation codes in such fills in as The Feminine
Saturday, August 22, 2020
Harsh Reality free essay sample
Since the time I figured out how to play the trombone, I absurdly fooled myself into accepting that my playing aptitudes were past those of any other person just on the grounds that I was better than the couple of individuals I had really heard play around me. This self-importance made me discover practice pointless. In this manner, I just rehearsed the All State tryout music a couple of times. Upon the arrival of the tryout all that I recently accepted totally changed. The tryout procedure happens in one room where all the individuals trying out exclusively play the tryout pieces for the appointed authorities. There were around 40 individuals in my room, and the randomizer chose me to as one of the last individuals that would get the chance to try out. I promptly thought they were obviously holding back something special for later. I glanced around to investigate my opposition, however nobody looked scaring. I heard everybody warm up ââ¬still I was not stressed. We will compose a custom exposition test on Cruel Reality or then again any comparative point explicitly for you Don't WasteYour Time Recruit WRITER Just 13.90/page At that point individuals started trying out. The initial scarcely any individuals to play did as I anticipated that them should: more terrible than me. This helped support my effectively high sense of self. To my fanciful self, they sounded a great deal more terrible than they really were. I went to Evan and with pompous look all over and pronounced, ââ¬Å"Easy win.â⬠Be that as it may, it didnââ¬â¢t take well before the great players went ahead, and I understood how terribly wrong I was tied in with everything. They played quicker than me, explained superior to me, sounded superior to me, showed improvement over me â⬠every one superior to the last. Their method of playing was impossible to me and I immediately became befuddled not recognizing what to think. My vision got fluffy, and I started to feel bleary eyed. I had an inclination that I had committed a tremendous error by appearing at the tryout so ill-equipped. The Trombone God Noah went straightaway. I later learned he had earned the main seat All State recognize the earlier year as a green bean which didn't amaze me at all given that he made the most delightful sound I had ever heard and will undoubtedly ever hear. I cleared the detaches my face and took a full breath still in wonderment of his presentation. The manner in which his sound delicately touched my eardrums caused me to f eel as though I had kicked the bucket and could hear him playing as the entryways of paradise gradually opened before my eyes. Everybody before him had just exceeded expectations route past my desires, yet Noah played in such a lovely way, that he could without much of a stretch make world harmony by basically playing a show F. After we were totally done, I figured out how to praise him with an insecure ââ¬Å"good job.â⬠Before Noah played, every one of my deepest desires had been ruthlessly murdered, yet his playing brought forth my definitive objective. I figured out how a trombone is genuinely expected to sound and in this manner started my excursion to do the unimaginable: to beat Noah. Albeit a profoundly improbable objective, I accept itââ¬â¢s better to have such an objective since progress stays reachable consistently. The tryout has filled almost the entirety of my activity for as far back as year and has helped me improved as an artist and an overall better individual. I was presented to the unforgiving reality that I was squandering my capacities and not endeavoring to be as well as could be expected potentially be. Iââ¬â¢m happy I encountered this from the get-go in my life since it really changed my perspective about everything. I discovered that there will consistently be somebody superior to you, however you can generally develop yourself to endeavor to ascend to, if not outperform, their level. The sentiment of progress comes to me each time I know Iââ¬â¢m improving, and I will in the long run prevail at beating my opposition.
Saturday, August 1, 2020
Keeping Healthy in College
Keeping Healthy in College Weâve all heard the stories about the âfreshman fifteenâ or the âfreshman plague.â This is typical college lore used to scare freshman into forming healthy habits early on. While these stories can often be a bit exaggerated, the wellness habits you form during your first semester of college really do matter. It will most likely be your first time choosing your own food, making your own exercise schedule, and regulating your own sleep patterns. It can be tough figuring out all these factors for yourself, so here are a few tips to help you get on the right track and stay healthy as you adjust to your new college life. Prioritize sleep. This may sound like one of those cliché health tips that you hear all the time, but getting a solid amount of sleep each night is the foundation for a healthy life. College is a balancing act. Youâll be figuring out how to manage homework, RSOs, and a social life, but sacrificing sleep for any of these things is 100% not worth it. Setting a time to go to bed on weeknights will help you get into a routine and leave you feeling better during the day. While it sometimes seems like pulling an all-nighter is the best way to finish your work, I promise you itâs not. Getting your eight hours of sleep each night will help you to make the most out of your days. Take advantage of your free gym membership. All University of Illinois students have free access to the Activities and Recreation Center (ARC) and Campus Recreation Center East (CRCE). Between these two gyms, youâll have access to tons of different fitness equipment, two pools and a hot tub, two running tracks, and a climbing wall. You can also sign up for workout and yoga classes for an additional charge. I try to visit CRCE a few times a week to stay active and frequently go to the pool with friends. While it can be hard to fit daily workouts into your busy schedule, staying active is an important part of staying healthy, and the gyms on campus provide lots of options to exercise in a way that best suits your style. Walk to class whenever possible. Another easy way to stay active and healthy is to walk or bike to class whenever you can. Plus, taking a walk is a great way to relax and clear your head. I always try to reach a goal of 10,000 steps per day. While this is sometimes difficult to achieve when itâs rainy or cold, itâs easy to reach this goal just by walking everywhere I need to go on a nice day. Go into the dining halls with a plan. With the newfound freedom to choose all your own meals and all-you-can-eat dining halls at your disposal, itâs easy to overindulge at times. Itâs tough to limit yourself when you have so many options, but itâs important to be conscious of what youâre putting on your plate each day. An easy way to do this is to check the UI Dining app, which lists the menus for all the dining halls every day. This is a helpful resource because it allows you to plan your meals better. Look through the menus and decide what looks good to you. Then, instead of just walking into the dining hall and hungrily filling up your plate with everything that looks good, youâll be on a mission to find those few menu items you were looking forward to. Visit McKinley Health Center. McKinley Health Center is an awesome resource for students to utilize. You can schedule appointments to meet with various different healthcare professionals or simply walk in and pick up a package of cold medicine when you arenât feeling your best, and all of these services are included with your tuition. They also have a 24-hour Dial-a-Nurse service which allows you to call and ask health questions at any time. I made my first trip to McKinley to get my free flu shot a few weeks ago. Since sickness spreads like a wildfire in the dorms, this was a great resource to utilize so I donât have to worry about catching the flu and missing a bunch of classes later on. Take care of yourself! Most importantly, donât forget about all the little things. Maintaining your personal hygiene habits in college is key. Simple things like showering, brushing your teeth, or even going out of your way to wash your hands more often can be frequently overlooked when youâre busy, but remember to prioritize these things. Trust me, getting sick in the dorms is not fun, but taking a few extra minutes each day to take care of yourself can help prevent sickness and leave you feeling better all around. Abby Class of 2023 I'm a Civil and Environmental Engineering major in the Grainger College of Engineering and I hope to one day work to lessen society's impact on the environment. I am a major nerd, have a passion for all things outdoors, and I can't wait to see what new opportunities are in store for my freshman year at University of Illinois!
Friday, May 22, 2020
Ancient Greece And Rome During The World - 851 Words
Ancient Greece and Rome are some of the most famous time periods in the world, but what influenced them? Ancient Greece lasted roughly from 1000-400 B.C.E while ancient Rome was from 753 B.C.-476 A.D (Cole and Symes, 75). The Greek alphabet was influenced by Phoenician sea traders and their art was mostly influenced by Egypt and western Asia. On the other hand, Rome was influenced by the Greek and derived the alphabet, many of their religious beliefs, and much of their art (Cole and Symes, 147). Ancient Greece and Rome were influenced by the Ancient Near East sedentary societies through art, religion, and architecture. Greece was the first society that was male dominated . Also, sexuality was a part of everyday life for Greeks. If home owners did not offer hospitality to certain groups of people, then they would be sentenced to death (Garcia Lecture 2/3/16). The Greeks had extremely strict rules with education and training. Greece is also known well for their world famous philosoph ers such as Aristotle, Socrates, Plato, and much more. Ancient Rome started as a small town in central Italy, but developed into a vast empire, including continental Europe, Britain, much of western Asia, northern Africa and the Mediterranean islands. Although Rome was influenced by many aspects of Greek life, they downplayed their influence in mythology, preferring to emphasize their alleged descent from the Trojans (Cole and Symes, 147). The social structure of Rome was based on hereditary,Show MoreRelatedWomen s Influence On Women1545 Words à |à 7 PagesThroughout history until about the last couple centuryââ¬â¢s women have had not as many rights compared to their male counter parts and this was especially evident in the ancient world. However women had more rights in places for example they had a bigger role in society compared to that of Greek women in ancient Greece. Women were cogs in a patriarchal dominated society woman were very much under their husbands control acc ording to law and the most important role of women was to raise the children andRead MoreAn Overview of the Greek and Roman Empire1654 Words à |à 7 Pagesï » ¿Victoria Sogbesan Ms.Skinner World History 20 April 2015 Greek: Geography played an important role in the development of Gee civilization. The mountains and the sea played especially significant roles in the development of Greek history. Much of Greece consists of small plains river valleys surrounded by high mountain ranges. The mountain isolated Greeks from one another, causing different Greek communities to develop their own ways of life. The sea also influenced the evolution of Greek societyRead MoreComparing Ancient Greek and Ancient Roman Architecture Essay1132 Words à |à 5 PagesThe two ancient civilizations of ancient Greece and Rome were the best of the best during their time periods. Ancient Greece began around 2000 B.C. by the inhabitants known as the Mycenaeanââ¬â¢s, followed by the Minoans. The Minoans built the foundation of Greece. The Roman Empire was founded around 753 B.C. by the two twins, Romulus and Remus. Romulus ended up killing Remus and built the city of Rome on one of seven rolling hills. Architecture was ve ry important to both civilizations and they wereRead MoreAncient Greeks And The Roman Empire1085 Words à |à 5 Pagesââ¬Å"There is an old saying, ââ¬Å"Rome wasnââ¬â¢t built in a day.â⬠However, it could also be said that, ââ¬Å"Rome wasnââ¬â¢t built, by the Ancient Greeks, in a day.â⬠(Crest) Ancient Greece was founded in 800 B.C. and was seen to be the first technical, civilized society. Within this society there were large advances in art, poetry and technology. Despite these advances Greece finally fell to the Romans in the Battle of Corinth in circa 146 B.C. and was established as a Province of the Roman Empire. This occupationRead MoreWomens Roles in Ancient Greece and Rome Essay1138 Words à |à 5 PagesWomens Roles in Ancient Greece and Rome Women have played important roles throughout history. They have been responsible for the rise and fall of nations, sustaining families, and have been the focal point of worship in ancient religions. Moving forward in history, womens roles have continually changed. Their status as matriarchs changed as the more advanced ancient civilizations rose. The patriarchal societies of ancient Greece and Rome viewed women differently from some societies of past erasRead MoreThe Main Causes Of The Fall Of Great Societies1328 Words à |à 6 PagesGreat societies fail all around the world at anytime, is America in danger? How can we prevent our society from falling like others? Many past societies have fallen for various reasons, some reasons occur more than others and the three mains reasons that string through many of the societies are: political corruption, differing opinions in religion and excessive military spending. This information not only shows us information that caused powerful socie ties to fall but also shows what people rightRead MoreThe Early History Of The Western Civilization1344 Words à |à 6 Pages000 years since the appearance of the first civilizations in the ancient Near East (Instructor, 2016). This history is highlighted by the rise of many different kingdoms and empires each with contributions to modern western cultures. The following essay will describe the Ancient Greece, Ancient Rome and Ancient Egyptians. Ancient Greece (800 B.C. and 500 B.C.) a moderately complex period in the world history. Even though ancient Greece had the most advanced technology, art, and poetry but well knownRead MoreClassical Civilizations of Ancient Greece, Rome, and China Essay897 Words à |à 4 Pagestribes that have impacted the world. The civilizations of Greece, Rome, and China have done this, but what sets them apart from the others is their lasting significance and lasting impact they had on the world. For this reason, they are considered classical civilizations. To describe how Greece, Rome, and Han China are classical, there are three systems that are used; these are Economic, Social, and Political. Out of these three classical civilizations, Greece came first in history. An importantRead MoreGreek And Roman Comparisons And Contributions1698 Words à |à 7 PagesContributions Ancient Greece and Ancient Rome are responsible for many facets in todayââ¬â¢s world. In fact, when reviewing history, the Greeks and Romans are sometimes confused with one another. There are many shared traditions, but yet there are many differences between the two. The countries are both Mediterranean, however they had different social class structures, different mythology, and placed different values on life. Ancient Greece was vibrant in the fifth century B.C., but Rome was not in itââ¬â¢sRead MoreComparison Between Greece And Greece1376 Words à |à 6 PagesWhen comparing Rome and Greece side by side, the two could easily be described as two sides of the same coin. Each heavily influenced the other, cultures mingled and ideas were shared. Greece and Rome in a sense were sister, but not twins. Sitting on the craggy Balkan Peninsula is a collection of powerful city-states known as Greece. Often credited as the birthplace of western culture, Greek culture shaped the western world into what it is today. Western philosophy, literature, mathematics, history
Sunday, May 10, 2020
John Dillinger - Public Enemy No. 1
During the eleven months spanning from September 1933 through July 1934, John Herbert Dillinger and his gang robbed numerous Midwest banks, killed ten people and wounded at least seven others, and staged three jailbreaks. The Start of the Spree After serving a little more than eight years in prison, Dillinger was paroled on May 10, 1933, for his part in a 1924 robbery of a grocery store. Dillinger came out of prison as a very bitter man who had become a hardened criminal. His bitterness stemmed from the fact that he was given concurrent sentences of 2 to 14 years and 10 to 20 years while the man who committed the robbery with him served only two years. Dillinger immediately returned to a life of crime by robbing a Bluffton, Ohio bank. On September 22, 1933, Dillinger was arrested and jailed in Lima, Ohio as he was awaiting trial on the bank robbery charge. Four days after his arrest, several of Dillingerââ¬â¢s former fellow inmates escaped from prison shooting two guards in the process. On October 12, 1933, three of the escapees along with a fourth man went to the Lima county jail posing as prison agents who were there to pick up Dillinger on a parole violation and return him to prison. This ruse didnââ¬â¢t work, and the escapees ended up shooting the sheriff, who lived at the facility with his wife. They locked the sheriffââ¬â¢s wife and a deputy in a cell to free Dillinger from incarceration. à Dillinger and the four men who had freed him ââ¬â Russell Clark, Harry Copeland, Charles Makley, and Harry Pierpont immediately went on a spree robbing a number of banks. In addition, they also looted two Indiana police arsenals where they took various firearms, ammunition and some bulletproof vests. à à On December 14, 1933, a member of Dillingerââ¬â¢s gang killed a Chicago police detective. On January 15, 1934, Dillinger killed a police officer during a bank robbery in East Chicago, Indiana. The Federal Bureau of Investigation (FBI) began posting photos of Dillinger and the members of his gang in the hope that the public would recognize them and turn them into local police departments.à The Manhunt Escalates Dillinger and his gang left the Chicago area and went to Florida for a short break before heading to Tucson, Arizona. On January 23, 1934, firemen, who responded to a blaze a Tucson hotel, recognized two hotel guests as being members of Dillingerââ¬â¢s gang from the photos that had been published by the FBI. Dillinger and three of his gang members were arrested, and police confiscated a cache of weapons that included three Thompson submachine guns, as well as five bulletproof vests, and more than $25,000 in cash. Dillinger was transported to the Crown Point, Indiana county jail which local authorities claimed was ââ¬Å"escape proofâ⬠a claim which Dillinger proved wrong on March 3, 1934. Dillinger used a wooden gun that he had whittled in his cell and used it force the guards to open his. Then Dillinger locked up the guards and stole the Sheriffââ¬â¢s car, which he drove to and abandoned in Chicago, Illinois. This act allowed the FBI to finally join the Dillinger manhunt since driving a stolen car across state lines constitutes a federal offense. In Chicago, Dillinger picked up his girlfriend, Evelyn Frechette and they then drove to St. Paul, Minnesota where they met up with several of his gang members and Lester Gillis, who was known as ââ¬Å"Baby Face Nelson.â⬠à Public Enemy No. 1 On March 30, 1934, the FBI learned that Dillinger may be in the St. Paul area and agents began speaking with managers of rentals and motels in the area and learned that there was a suspicious ââ¬Å"husband and wifeâ⬠à with the last name of Hellman at the Lincoln Court Apartments. The following day, an FBI agent knocked on the Hellmanââ¬â¢s door, and Frechette answered but immediately closed the door. While waiting for reinforcements to arrive a member of Dillingerââ¬â¢s gang, Homer Van Meter, walked towards the apartment and upon being questioned shots were fired, and Van Meter was able to escape. Then Dillinger opened the door and opened fire with a ââ¬â¹machine gun allowing him and Frechette to escape, but Dillinger was injured in the process.ââ¬â¹ A wounded Dillinger returned to his fatherââ¬â¢s home in Mooresville, Indiana with Frechette. Shortly after they arrived, Frechette returned to Chicago where she was promptly arrested by the FBI and was charged with harboring a fugitive. Dillinger would remain in Mooresville until his wound healed.After holding up a Warsaw, Indiana police station where Dillinger and Van Meter stole guns and bulletproof vests, Dillinger and his gang went to a summer resort called the Little Bohemia Lodge in northern Wisconsin. Due to the influx of gangsters, someone at the lodge phoned the FBI, who immediately set out for the lodge. On a cold April night, the agents arrived at the resort with their car lights turned off, but dogs immediately began barking. Machine gunfire broke out from the lodge, and a gun battle ensued. à Once the gunfire stopped, the agents learned that Dillinger and five others had been able to escape once again. à By the summer of 1934, FBI Director J. Edgar Hooverà named John Dillinger as Americaââ¬â¢s very first ââ¬Å"Public Enemy No. 1.ââ¬
Wednesday, May 6, 2020
Investigation of Sorrel in Epping Forest Free Essays
Aim: The purpose of this coursework was to investigate the impact visitors have had on the growth of sorrel on Pillow Mound in Epping Forest and to find out whether soil compression has an effect on the height of the plant sorrel. Hypothesis: There will be a significant difference in the height of sorrel if soil compaction is great. The greater the soil compaction is, the more it restricts sorrel growth. We will write a custom essay sample on Investigation of Sorrel in Epping Forest or any similar topic only for you Order Now Null Hypothesis: Read thisà Respiratory Activity There is no significant correlation between soil compaction and the height of the sorrel plant, any correlation established is due to chance. Scientific knowledge: The soil has fewer spaces that contain air and water needed for plant growth, is less permeable, can store less soil water and is harder for roots to penetrate. In their virgin state, soils can be productive and characterised by excellent physical condition. They allow rapid movement of air and water through the soil, providing an ideal environment for maximum root growth. However, soils are fragile and easily restructured, especially during cropping. Compaction is an example of this restructuring. If compacted badly enough, a soil does not provide adequate space for root growth and soil animal activity, or allow for rapid movement of air and water. In severe cases, roots are unable to penetrate into deeper soil layers, tending to grow along the top of the pan. The best way for water and air to move through the soil is in large pores created by decaying plant roots or soil insects and earthworms this creates a humus layer on the top of the soil which has many nutrients the sorrel can take up. The eventual death and decay of these organisms adds to the humus layer making the soil more favourable to sorrel plant roots allowing the plant to grow and flower. Water plays a major role in plant growth. Plants synthesise carbohydrates from Carbon Dioxide and Water. Water donates + ions to the cell, which are subsequently used in pathways to generate energy in the form of ATP. In non-cyclic phosphorylation water molecules are split to provide reducing power to make carbohydrates. Water is also an important transport medium delivering dissolved minerals that are essential for plant growth to all parts of the plant via the xylem. Water is a product in aerobic respiration. Respiration is the process of metabolizing (burning) sugars to yield energy for growth, reproduction, and other life processes. In a plentiful supply of air glucose and oxygen combine to form water and carbon dioxide and most vitally energy in the form of ATP. Water also maintains the turgor pressure in giving the non-woody plant parts form. Turgidity is important so the plant can remain stiff and upright and gain a competitive advantage when it comes to light. Turgidity is also important for the functioning of the guard cells, which surround the stomata and regulate water loss and carbon dioxide uptake. Turgidity also is the force that pushes roots through the soil. Variables: Independent: Soil compaction tested every 3m for 28 m along 4 line transects to see how soil compaction affects plant growth. Soil compaction tested with use of penetrometer. Dependent: Height of the plant sorrel on each line transect created every 3m up to 28m at the site Pillow Mound in Epping Forest. Sorrel height tested using a ruler and the sorrel closest to the line transect was used. Control Variables: The variables that remain unchanged or held constant to prevent its effects on the outcome and therefore may verify the behaviour of and the relationship between independent and dependent variables. The variables tested for in my investigation must be the same in order for me to establish a reliable correlation between soil compaction and the height of the sorrel plant. Light Intensity Light energy (sunlight) is the primary source of energy in nearly all ecosystems. It is the energy that is used by green plants (which contain chlorophyll) during the process of photosynthesis; a process during which plants manufacture organic substances by combining inorganic substances. Visible light is of the greatest importance to plants because it is necessary for photosynthesis. Factors such as quality of light, intensity of light and the length of the light period (day length) play an important part in an ecosystem. Light directly or indirectly affects the life activities. For the photosynthetic activity of green plants light is essential. Growth, germination, flowering and other functions of plant are controlled by photoperiodism and different light rays. The higher the light intensity, the larger the height of the plant of sorrel. A light meter was used to gather light intensity readings. It gives an accurate lux value. The sensor is placed facing upwards and a value s given . For each line transect light intensity has to be very similar to ensure our variables remain the same so we gather reliable data. I set out each transect away from trees which created shadows and so this ensured that light intensity remained constant throughout each line transect. pH of Soil The pH level of the surrounding soil can have extreme results on the growth rate and overall health of a plant. The pH is technically defined as the negative base ten logarithm of the effective hydrogen ion concentration in gram equivalents per litre. It is measured on a scale of 1-14, with each reading being shown as an acid, base, or a neutral solution. If the measurement is less than 7, it is considered an acid. The plant sorrel grows best in the acidic pH conditions of 5.5 ââ¬â 6.8. The pH of the soil for each line transect created must be the same for the whole 28 m length tested for each. Variation in my pH results limits the validity of my data as it influences the height of sorrel. pH influences availability of certain nutrients such as phosphate availability which is low on acid soils. Soil samples are taken from each transect at 1m 13m and 28m. Back in the laboratory barium sulphate and indicator solution are added to the samples and ph is worked out. Soil Temperature Soil temperature plays an important role in many processes, which take place in the soil such as chemical reactions and biological interactions. Soil temperature varies in response to exchange processes that take place primarily through the soil surface. These effects are propagated into the soil profile by transport processes and are influenced by such things as the specific heat capacity, thermal conductivity and thermal diffusivity. Soil temperature affects water and nutrient uptake. Biological enzymes work best at certain temperatures, if enzyme optimum temperature is exceeded or not reached this could limit the rate to which the enzyme is working limiting the growth and in turn the height of the plant sorrel. Soil temperature has a major effect on the breakdown or decomposition of soil organic matter. This organic component of the soil system is a major reservoir for phosphorus, sulphur, and nitrogen. Approximately 90% of the total amount of sulphur in soil is found in the organic matter. So, if decomposition is slowed, the ready availability of some nutrients necessary for crop growth can be restricted early in the growing season restricting plant growth.â⬠Soil temperature (à ¯Ã ¿Ã ½C) readings are to be taken with the use of a soil thermometer and then recorded on a table. Preliminary Investigation A day before my data collection, I visited Plain Mounds and gathered some preliminary data. My preliminary data was carried out to help me find the sites that should be tested and the distance of each line transect. Initially before preliminary data a 37m line transect was chosen, however, once I experienced the site a 28 m distance was most appropriate as there is no significant variation after the 28m in sorrel height; therefore it would be pointless and time consuming to carry it over a larger distance. Preliminary Investigation Method: 1. A line transect created over a distance of 28m. 2. Tape measure placed flat along the ground vertically. Stretch tape to cover 28m in a straight line along site investigated. 3. Data readings for soil temperature, light intensity, soil pH, soil compression and sorrel height at 1m, 13m and 28m. 4. Soil compaction measurements taken using a penetrometer My readings were taken 1cm at a 90à ¯Ã ¿Ã ½ angle at each interval to the left of the line transect. The scale was set to 0 by moving the ring to the handle, the spike was then pushed vertically into the ground until the indention is level with the surface of the soil. The handle was released and then the results were read off the scale on the side of the penetrometer. 5. The soil thermometer was placed at a 90à ¯Ã ¿Ã ½ angle 2 cm away to the left of the line transect at every interval. 6. Place a 1m long ruler across the line transect at a 90à ¯Ã ¿Ã ½ angle this way I can work out which sorrel plant is closest to the line transect. Once this was worked out, a 30cm ruler was used to measure the sorrel height in its natural position. 7. Light meter measures the light intensity. Place the sensor at a 90à ¯Ã ¿Ã ½ angle next to line transect where the sorrel plant is growing. Value in lux read off the scale. 8. Use auger to gain 10cmà ¯Ã ¿Ã ½ sample at the 3 intervals. Twist auger in a clockwise direction whilst pushing down; the soil sample taken must be then placed into soil bags and taken to the lab for further testing of pH. 9. Record data on pre prepared table. 10. In lab to work out pH of soil: 11. 1cmà ¯Ã ¿Ã ½ of each soil sample was placed into separate test tubes. 1cmà ¯Ã ¿Ã ½ of distilled water was added to each test tube. After distilled water added, 1cmà ¯Ã ¿Ã ½ Barium Sulphate was added to each test tube. Finally indicator was added to each test tube and pH was tested and found out by comparing to a pH scale. A systematic stratified approach was decided as my ideal sampling technique. Systematic sampling is when samples are taken at fixed intervals, usually along a line. This normally involves doing transects, where a sampling line is set up across areas where there are clear environmental gradients. Systematic sampling is my chosen method of sampling for my investigation as I am investigating the changes of plant species as you move along a gradient. Stratified sampling was used as we were comparing 4 different subdivisions within Plain Mounds. Systematic Stratified is the combination of these 2 sampling techniques; itââ¬â¢s my preferred sampling technique as it avoids bias and for each sample collected the same approach is followed. this now seemed unnecessary due to little variation after 28m. The start point of the line transect was set to where variation in ground begins. Apparatus: Penetrometer Measures the compaction of the soil. Measures in Kg/cmà ¯Ã ¿Ã ½ Simple and easy to use. Data can be gathered very quickly. Light Meter Used to measured light intensity every 3 metres along each line transect for 28 m. Measured in Lux Gives an accurate Lux value, instrument easy to use and data can be gathered easily Auger Barium Sulphate Soil bags Test tube Spatula pH scale Auger used to get 3 soil samples one sample at 1m the others at 13m and 28m. Soil sample needed so pH of soil could be identified once barium sulphate distilled water and indicator were added to each sample. Sample placed in soil bags. Soil sample placed in individual test tube using spatula and barium sulphate and indicator solution added. A soil pH meter would have been convenience wise much easier to achieve the data, however, adding the barium sulphate to the soil samples taken has ensured my data reliability. Primary data as I have gathered my results here without help of an instrument. Tape measure Used to create line transect. Line transect 28m long. 28m length chosen as after the 28m there is no change in variation of sorrel height, therefore anything more than a line transect of over 28m is irrelevant Soil Thermometer Used to measure soil temperature (à ¯Ã ¿Ã ½C) Easy and quick. A mercury thermometer effectively. An electronic instrument could be more reliable as human error wonââ¬â¢t come into it in reading the results 30 cm ruler Used to measure sorrel height Easy and simple to measure plant height 1m ruler Used every 3m to go at a 90à ¯Ã ¿Ã ½ angle across every 3m to find the closest sorrel plant to the line transect 30cm in some cases not long enough, however 1m long ruler the right size Method: 1. Create a line transect, open up tape measure up to 28m. 2. Place tape measure flat along the ground vertically. Stretch tape measure to cover 28m in straight line along site that we are investigating. 3. Take data readings for soil temperature, light intensity, soil compression and sorrel height at 1m, 4m, 7m, 10m, 13m, 16m, 19m, 22m, 25m, and 28m. 4. Soil compaction measurements taken using a penetrometer which measures the force needed to push the spike into the ground. My readings were taken 1cm at a 90à ¯Ã ¿Ã ½ angle at each interval to the left of the line transect. The scale was set to 0 by moving the ring to the handle, the spike was then pushed vertically into the ground until the indention is level with the surface of the soil. The handle was released and then the results were read off the scale on the side of the penetrometer. 5. The soil thermometer was placed at a 90à ¯Ã ¿Ã ½ angle 2 cm away to the left of the line transect at every interval. 6. Along the line transect at each interval a metre long ruler is placed across the line transect at a 90à ¯Ã ¿Ã ½ angle this way I can work out which sorrel plant is closest to the line transect. Once this was worked out, a 30cm ruler was used to measure the sorrel height in its natural position. 7. Light meter measures the light intensity. Place the sensor at a 90à ¯Ã ¿Ã ½ angle next to line transect where the sorrel plant is growing. Value in lux read off the scale. Move away from sensor so your shadow doesnââ¬â¢t affect lux value. 8. Take soil samples at 1m, 13m and 28m to calculate soil pH. Use auger to gain 10cmà ¯Ã ¿Ã ½ sample at the 3 intervals. Twist auger in a clockwise direction whilst pushing down; the soil sample taken must be then placed into soil bags and taken to the lab for further testing of pH. 9. Record data on pre prepared table. 10. In lab to work out pH of soil: * 1cmà ¯Ã ¿Ã ½ of each soil sample was placed into separate test tubes. 1cmà ¯Ã ¿Ã ½ of distilled water was added to each test tube. After distilled water added, 1cmà ¯Ã ¿Ã ½ Barium Sulphate was added to each test tube. Finally indicator was added to each test tube and pH was tested and found out by comparing to a pH scale. 3pH readings gained at each of the 4 sites. 11. Repeat the steps for the 4 subdivisions within Pillow Mound. Risk Assessment: Risk is the probability of harm actually taking place. A hazard exists where situation has a built-in ability to cause an adverse effect. At the site Pillow Mound in Epping Forest, a few risks were associated with my investigation. 1. 8 pieces of equipment needed to be carried with me to the site to help with this and limit the risk of me tripping up with all the equipment in my hand, a tray was used to place all the equipment needed for the investigation. 2. The sites surface was very uneven at all the areas that were tested within plain mounds. To control the hazard I had no other option but to take my time with walking across the field. Taking my time and making sure I was looking where I was stepping ensured this hazard was avoided. 3. Slippery surfaces and deep muddy areas were also an issue to avoid this specific hazard wellington boots were worn. Strong boots may prevent twisting of ankle. 4. Gathering pH samples with the auger meant there was a risk of causing injury to my wrists, to help with the turning of the into the ground another auger was placed in the top of the one in the ground making it easier to rotate the auger by creating a handle. 5. When testing soil pH samples, gloves had to be worn to avoid contact with the barium sulphate. Safety goggles and lab coats also used to protect the eyes and the skin. 6. After the soil pH has been tested the remaining soil is then placed into a compost bin. Analysis: The scatter graph shown in figure 1.1 shows how soil compression affected the growth of sorrel. The data inputted into this graph was averages of the data collected for soil compression (Kg) and sorrel height (cm) from the 4 subdivisions investigated and tested at Pillow Mound. The graph shows a clear negative correlation between soil compression and sorrel height. As soil compression increases it is evident that sorrel height decreases. The largest sorrel growth on average was 0.0975 cm and this was with a soil compression of 1.575 kg, my lowest sorrel growth recorded from my results was 0.0011cm with a soil compression of 3.6 kg. As sorrel height isnââ¬â¢t constantly decreasing with increasing soil compaction it was appropriate to further my understanding and calculate how strong the relationship between my independent variable, soil compaction and dependent variable sorrel height was. This would also help me establish whether the data was causational or correlational. Spearmanââ¬â¢s rank correlation coefficient is a non-parametric measure of statistical dependence between two variables. It assesses how well the relationship between two variables can be described. It makes no assumption about data distribution. The value for rs is between +1 and -1, where +1 indicates a strong positive correlation, -1 indicates a strong negative correlation and 0 indicates no correlation at all. The data gathered at all 4 sites indicates a strong negative correlation between soil compression and the height of sorrel. The rs value gathered for my averages was -0.89 and this is greater than the critical value for 10 data sets at the 99% significance level. Therefore we can be 99% sure that soil compression restricts sorrel height and I can subsequently reject my null hypothesis establishing that causational relationship between the 2 variables is present. Conclusion: The purpose of this coursework was to find out about the impact which visitors have had on Epping Forest and how the subsequent soil compaction affects sorrel growth. Epping Forest has recreational, aesthetic and educational values, so is a perfect place for visitors. Considerable damage has probably been caused to the environment due to the large number of visitors. Soil compaction at Pillow Mound was relatively high probably due to human interference. Figure 1.0 showing the averages shows us that at 1m, the mean soil compression was 4.175 Kg whilst at 28m the mean soil compression was 1.575 Kg. Figure 0.9 also shows that at 1m at Site 4 soil compression exceeded 4.5 Kg. Management of the site is being introduced with the building of car parks, an information centre, and even a ditch next to the car park to stop the cars getting onto the grass. Epping Forest is one of a number of open spaces around London owned and managed by the City of London as part of its commitment to sustaining a world class city and for the conservation of wildlife and historic landscape. The investigation of how soil compaction affects the height of the plant Sorrel was gratifying as a correlation between soil compaction and Sorrel growth was determined. A slight flaw which may have had an impact on my results was the fact average light intensity increased slightly with increasing distance along the tape measure. At 1m light intensity was at 1894.25 Lux, at 28m this had increased to 1900.25 Lux with the Lux value fluctuating over the 28m distance. Although the differences in light intensities are little, my results are limited slightly as light intensity affects plant growth. The higher the light intensity the higher the plant growth. Light plays a major role in photosynthesis which is a 2 stage process involving the light dependent stage and light independent stage which could continue in the dark. When a photon of light hits a chlorophyll molecule the energy is transferred to the electrons of that molecule. The electrons are excited and raised to higher energy leve ls. If an electron is raised sufficiently it is picked up by an electron acceptor and results into ATP production via cyclic and non-cyclic phosphorylation. ATP is formed supplying the energy needed for synthesis of carbohydrates and the electron is passed along Electron Transport Chain (ETC). The differences in Lux are relatively minuscule along the line transects and so it is not sufficient enough to make my results invalid. Data collection was carried out in the morning before the sun had fully risen, as time passed and data was collected at each interval the sun carried on rising thus explaining the small differences in light intensity. In hindsight data collection should have happened at each interval at each of the 4 sites simultaneously, however, this was not viable as there were not enough people available to assist with data collection. My hypothesis that the greater the soil compaction, the lower the height of the Sorrel plant, has proved to be correct. This is due to the fact that soil compaction doesnââ¬â¢t provide adequate space for the roots of the sorrel plant, which subsequently means that the plant cannot get enough nutrients, water and minerals from the soil which are needed for optimum growth. By using Spearmanââ¬â¢s rank correlation coefficient this was worked out and we are 99% certain that a negative correlation exists between the 2 variables. 4 different sites were tested at Pillow Mound in Epping Forest, and my Spearmanââ¬â¢s rank correlations for each site indicated a strong negative correlation. To back up my hypothesis even further my preliminary data indicate a negative correlation between Sorrel height and soil compaction. 10 samples were collected along each transect so we could get an RS value for spearmanââ¬â¢s rank that was 99% reliable and not down to chance. Evaluation My investigation was highly edifying and although I came to the conclusion that there is a 99% chance that soil compaction affects sorrel height proving my hypothesis correct, in hindsight I would make a few crucial amendments to my method and investigation so next time I carry out the investigation I will have an even higher level of confidence in my results. The 4 subdivisions at Pillow Mound were investigated to gain a general overview of the site. By testing one site, we are limiting our data as our results may only be conclusive for that part of Plain mounds. When collecting data light intensity values varied as the values could not be all taken at the same time. To avoid this more people could help with the fieldwork and we could simultaneously gain figures for light intensity at the same time. To do this more light meters would have to be provided. Time constraints were also a major issue. We were given around 3 hours to collect our fieldwork from 4 different sub divisions within Pillow Mound. Without time constraints there would be less pressure to complete the fieldwork within a specific time leaving us enough time to gather data with each instrument. Ideally a longitudinal study would be most ideal as the patterns established from the data was from only 1 day in the whole calendar year. Throughout the year, sorrel height will vary. The day my data was collected may not depict an average day in Epping Forest and so my data is invalid. A longitudinal study is ideal so we can collect data over the year and see how sorrel height varies. To increase data reliability we could collect data for soil compaction and sorrel height every 3 months at the same 4 subdivisions and see if there is any significant correlation. The weather would also have an effect on sorrel height; if it rains soil will be more compact and soil infiltration would not occur as rapidly. This in turn could affect seed germination as roots cannot penetrate lower soil layers. I expect plant height to be higher in the spring as spring provides optimum temperatures for seed germination, aswell as the fact that it doesnââ¬â¢t rain as much during spring as it does winter, so soil will not become drenched allowing the roots to penetrate the soil greater and greater foundations allows a better uptake of minerals and greater sorrel growth. The most helpful modification would be to carry out this investigation on a different site within Epping Forest; this could show a clear contrast to how sorrel height varies with soil compaction. The data gathered in this study could only be relevant for Pillow Mound, so broadening our study to more than 1 site could further enhance data validity and reliability. Further investigations possibly using 2 paths at each subdivision could further validate data. As a pH probe was not available at the field centre, to measure pH of the soil we had to add a spatula full of barium sulphate as well as 1cmà ¯Ã ¿Ã ½ of distilled water to 1 cmà ¯Ã ¿Ã ½ of each soil sample in separate test tubes. The amount of barium sulphate added or the amount of soil sample added to each test tube would affect pH and so our pH values could vary due to human error and the variable wasnââ¬â¢t of constant of using the same formula each time. A pH probe would eliminate human error and the same procedure could have been kept throughout and been kept constant. How to cite Investigation of Sorrel in Epping Forest, Papers
Investigation of Sorrel in Epping Forest Free Essays
Aim: The purpose of this coursework was to investigate the impact visitors have had on the growth of sorrel on Pillow Mound in Epping Forest and to find out whether soil compression has an effect on the height of the plant sorrel. Hypothesis: There will be a significant difference in the height of sorrel if soil compaction is great. The greater the soil compaction is, the more it restricts sorrel growth. We will write a custom essay sample on Investigation of Sorrel in Epping Forest or any similar topic only for you Order Now Null Hypothesis: Read thisà Respiratory Activity There is no significant correlation between soil compaction and the height of the sorrel plant, any correlation established is due to chance. Scientific knowledge: The soil has fewer spaces that contain air and water needed for plant growth, is less permeable, can store less soil water and is harder for roots to penetrate. In their virgin state, soils can be productive and characterised by excellent physical condition. They allow rapid movement of air and water through the soil, providing an ideal environment for maximum root growth. However, soils are fragile and easily restructured, especially during cropping. Compaction is an example of this restructuring. If compacted badly enough, a soil does not provide adequate space for root growth and soil animal activity, or allow for rapid movement of air and water. In severe cases, roots are unable to penetrate into deeper soil layers, tending to grow along the top of the pan. The best way for water and air to move through the soil is in large pores created by decaying plant roots or soil insects and earthworms this creates a humus layer on the top of the soil which has many nutrients the sorrel can take up. The eventual death and decay of these organisms adds to the humus layer making the soil more favourable to sorrel plant roots allowing the plant to grow and flower. Water plays a major role in plant growth. Plants synthesise carbohydrates from Carbon Dioxide and Water. Water donates + ions to the cell, which are subsequently used in pathways to generate energy in the form of ATP. In non-cyclic phosphorylation water molecules are split to provide reducing power to make carbohydrates. Water is also an important transport medium delivering dissolved minerals that are essential for plant growth to all parts of the plant via the xylem. Water is a product in aerobic respiration. Respiration is the process of metabolizing (burning) sugars to yield energy for growth, reproduction, and other life processes. In a plentiful supply of air glucose and oxygen combine to form water and carbon dioxide and most vitally energy in the form of ATP. Water also maintains the turgor pressure in giving the non-woody plant parts form. Turgidity is important so the plant can remain stiff and upright and gain a competitive advantage when it comes to light. Turgidity is also important for the functioning of the guard cells, which surround the stomata and regulate water loss and carbon dioxide uptake. Turgidity also is the force that pushes roots through the soil. Variables: Independent: Soil compaction tested every 3m for 28 m along 4 line transects to see how soil compaction affects plant growth. Soil compaction tested with use of penetrometer. Dependent: Height of the plant sorrel on each line transect created every 3m up to 28m at the site Pillow Mound in Epping Forest. Sorrel height tested using a ruler and the sorrel closest to the line transect was used. Control Variables: The variables that remain unchanged or held constant to prevent its effects on the outcome and therefore may verify the behaviour of and the relationship between independent and dependent variables. The variables tested for in my investigation must be the same in order for me to establish a reliable correlation between soil compaction and the height of the sorrel plant. Light Intensity Light energy (sunlight) is the primary source of energy in nearly all ecosystems. It is the energy that is used by green plants (which contain chlorophyll) during the process of photosynthesis; a process during which plants manufacture organic substances by combining inorganic substances. Visible light is of the greatest importance to plants because it is necessary for photosynthesis. Factors such as quality of light, intensity of light and the length of the light period (day length) play an important part in an ecosystem. Light directly or indirectly affects the life activities. For the photosynthetic activity of green plants light is essential. Growth, germination, flowering and other functions of plant are controlled by photoperiodism and different light rays. The higher the light intensity, the larger the height of the plant of sorrel. A light meter was used to gather light intensity readings. It gives an accurate lux value. The sensor is placed facing upwards and a value s given . For each line transect light intensity has to be very similar to ensure our variables remain the same so we gather reliable data. I set out each transect away from trees which created shadows and so this ensured that light intensity remained constant throughout each line transect. pH of Soil The pH level of the surrounding soil can have extreme results on the growth rate and overall health of a plant. The pH is technically defined as the negative base ten logarithm of the effective hydrogen ion concentration in gram equivalents per litre. It is measured on a scale of 1-14, with each reading being shown as an acid, base, or a neutral solution. If the measurement is less than 7, it is considered an acid. The plant sorrel grows best in the acidic pH conditions of 5.5 ââ¬â 6.8. The pH of the soil for each line transect created must be the same for the whole 28 m length tested for each. Variation in my pH results limits the validity of my data as it influences the height of sorrel. pH influences availability of certain nutrients such as phosphate availability which is low on acid soils. Soil samples are taken from each transect at 1m 13m and 28m. Back in the laboratory barium sulphate and indicator solution are added to the samples and ph is worked out. Soil Temperature Soil temperature plays an important role in many processes, which take place in the soil such as chemical reactions and biological interactions. Soil temperature varies in response to exchange processes that take place primarily through the soil surface. These effects are propagated into the soil profile by transport processes and are influenced by such things as the specific heat capacity, thermal conductivity and thermal diffusivity. Soil temperature affects water and nutrient uptake. Biological enzymes work best at certain temperatures, if enzyme optimum temperature is exceeded or not reached this could limit the rate to which the enzyme is working limiting the growth and in turn the height of the plant sorrel. Soil temperature has a major effect on the breakdown or decomposition of soil organic matter. This organic component of the soil system is a major reservoir for phosphorus, sulphur, and nitrogen. Approximately 90% of the total amount of sulphur in soil is found in the organic matter. So, if decomposition is slowed, the ready availability of some nutrients necessary for crop growth can be restricted early in the growing season restricting plant growth.â⬠Soil temperature (à ¯Ã ¿Ã ½C) readings are to be taken with the use of a soil thermometer and then recorded on a table. Preliminary Investigation A day before my data collection, I visited Plain Mounds and gathered some preliminary data. My preliminary data was carried out to help me find the sites that should be tested and the distance of each line transect. Initially before preliminary data a 37m line transect was chosen, however, once I experienced the site a 28 m distance was most appropriate as there is no significant variation after the 28m in sorrel height; therefore it would be pointless and time consuming to carry it over a larger distance. Preliminary Investigation Method: 1. A line transect created over a distance of 28m. 2. Tape measure placed flat along the ground vertically. Stretch tape to cover 28m in a straight line along site investigated. 3. Data readings for soil temperature, light intensity, soil pH, soil compression and sorrel height at 1m, 13m and 28m. 4. Soil compaction measurements taken using a penetrometer My readings were taken 1cm at a 90à ¯Ã ¿Ã ½ angle at each interval to the left of the line transect. The scale was set to 0 by moving the ring to the handle, the spike was then pushed vertically into the ground until the indention is level with the surface of the soil. The handle was released and then the results were read off the scale on the side of the penetrometer. 5. The soil thermometer was placed at a 90à ¯Ã ¿Ã ½ angle 2 cm away to the left of the line transect at every interval. 6. Place a 1m long ruler across the line transect at a 90à ¯Ã ¿Ã ½ angle this way I can work out which sorrel plant is closest to the line transect. Once this was worked out, a 30cm ruler was used to measure the sorrel height in its natural position. 7. Light meter measures the light intensity. Place the sensor at a 90à ¯Ã ¿Ã ½ angle next to line transect where the sorrel plant is growing. Value in lux read off the scale. 8. Use auger to gain 10cmà ¯Ã ¿Ã ½ sample at the 3 intervals. Twist auger in a clockwise direction whilst pushing down; the soil sample taken must be then placed into soil bags and taken to the lab for further testing of pH. 9. Record data on pre prepared table. 10. In lab to work out pH of soil: 11. 1cmà ¯Ã ¿Ã ½ of each soil sample was placed into separate test tubes. 1cmà ¯Ã ¿Ã ½ of distilled water was added to each test tube. After distilled water added, 1cmà ¯Ã ¿Ã ½ Barium Sulphate was added to each test tube. Finally indicator was added to each test tube and pH was tested and found out by comparing to a pH scale. A systematic stratified approach was decided as my ideal sampling technique. Systematic sampling is when samples are taken at fixed intervals, usually along a line. This normally involves doing transects, where a sampling line is set up across areas where there are clear environmental gradients. Systematic sampling is my chosen method of sampling for my investigation as I am investigating the changes of plant species as you move along a gradient. Stratified sampling was used as we were comparing 4 different subdivisions within Plain Mounds. Systematic Stratified is the combination of these 2 sampling techniques; itââ¬â¢s my preferred sampling technique as it avoids bias and for each sample collected the same approach is followed. this now seemed unnecessary due to little variation after 28m. The start point of the line transect was set to where variation in ground begins. Apparatus: Penetrometer Measures the compaction of the soil. Measures in Kg/cmà ¯Ã ¿Ã ½ Simple and easy to use. Data can be gathered very quickly. Light Meter Used to measured light intensity every 3 metres along each line transect for 28 m. Measured in Lux Gives an accurate Lux value, instrument easy to use and data can be gathered easily Auger Barium Sulphate Soil bags Test tube Spatula pH scale Auger used to get 3 soil samples one sample at 1m the others at 13m and 28m. Soil sample needed so pH of soil could be identified once barium sulphate distilled water and indicator were added to each sample. Sample placed in soil bags. Soil sample placed in individual test tube using spatula and barium sulphate and indicator solution added. A soil pH meter would have been convenience wise much easier to achieve the data, however, adding the barium sulphate to the soil samples taken has ensured my data reliability. Primary data as I have gathered my results here without help of an instrument. Tape measure Used to create line transect. Line transect 28m long. 28m length chosen as after the 28m there is no change in variation of sorrel height, therefore anything more than a line transect of over 28m is irrelevant Soil Thermometer Used to measure soil temperature (à ¯Ã ¿Ã ½C) Easy and quick. A mercury thermometer effectively. An electronic instrument could be more reliable as human error wonââ¬â¢t come into it in reading the results 30 cm ruler Used to measure sorrel height Easy and simple to measure plant height 1m ruler Used every 3m to go at a 90à ¯Ã ¿Ã ½ angle across every 3m to find the closest sorrel plant to the line transect 30cm in some cases not long enough, however 1m long ruler the right size Method: 1. Create a line transect, open up tape measure up to 28m. 2. Place tape measure flat along the ground vertically. Stretch tape measure to cover 28m in straight line along site that we are investigating. 3. Take data readings for soil temperature, light intensity, soil compression and sorrel height at 1m, 4m, 7m, 10m, 13m, 16m, 19m, 22m, 25m, and 28m. 4. Soil compaction measurements taken using a penetrometer which measures the force needed to push the spike into the ground. My readings were taken 1cm at a 90à ¯Ã ¿Ã ½ angle at each interval to the left of the line transect. The scale was set to 0 by moving the ring to the handle, the spike was then pushed vertically into the ground until the indention is level with the surface of the soil. The handle was released and then the results were read off the scale on the side of the penetrometer. 5. The soil thermometer was placed at a 90à ¯Ã ¿Ã ½ angle 2 cm away to the left of the line transect at every interval. 6. Along the line transect at each interval a metre long ruler is placed across the line transect at a 90à ¯Ã ¿Ã ½ angle this way I can work out which sorrel plant is closest to the line transect. Once this was worked out, a 30cm ruler was used to measure the sorrel height in its natural position. 7. Light meter measures the light intensity. Place the sensor at a 90à ¯Ã ¿Ã ½ angle next to line transect where the sorrel plant is growing. Value in lux read off the scale. Move away from sensor so your shadow doesnââ¬â¢t affect lux value. 8. Take soil samples at 1m, 13m and 28m to calculate soil pH. Use auger to gain 10cmà ¯Ã ¿Ã ½ sample at the 3 intervals. Twist auger in a clockwise direction whilst pushing down; the soil sample taken must be then placed into soil bags and taken to the lab for further testing of pH. 9. Record data on pre prepared table. 10. In lab to work out pH of soil: * 1cmà ¯Ã ¿Ã ½ of each soil sample was placed into separate test tubes. 1cmà ¯Ã ¿Ã ½ of distilled water was added to each test tube. After distilled water added, 1cmà ¯Ã ¿Ã ½ Barium Sulphate was added to each test tube. Finally indicator was added to each test tube and pH was tested and found out by comparing to a pH scale. 3pH readings gained at each of the 4 sites. 11. Repeat the steps for the 4 subdivisions within Pillow Mound. Risk Assessment: Risk is the probability of harm actually taking place. A hazard exists where situation has a built-in ability to cause an adverse effect. At the site Pillow Mound in Epping Forest, a few risks were associated with my investigation. 1. 8 pieces of equipment needed to be carried with me to the site to help with this and limit the risk of me tripping up with all the equipment in my hand, a tray was used to place all the equipment needed for the investigation. 2. The sites surface was very uneven at all the areas that were tested within plain mounds. To control the hazard I had no other option but to take my time with walking across the field. Taking my time and making sure I was looking where I was stepping ensured this hazard was avoided. 3. Slippery surfaces and deep muddy areas were also an issue to avoid this specific hazard wellington boots were worn. Strong boots may prevent twisting of ankle. 4. Gathering pH samples with the auger meant there was a risk of causing injury to my wrists, to help with the turning of the into the ground another auger was placed in the top of the one in the ground making it easier to rotate the auger by creating a handle. 5. When testing soil pH samples, gloves had to be worn to avoid contact with the barium sulphate. Safety goggles and lab coats also used to protect the eyes and the skin. 6. After the soil pH has been tested the remaining soil is then placed into a compost bin. Analysis: The scatter graph shown in figure 1.1 shows how soil compression affected the growth of sorrel. The data inputted into this graph was averages of the data collected for soil compression (Kg) and sorrel height (cm) from the 4 subdivisions investigated and tested at Pillow Mound. The graph shows a clear negative correlation between soil compression and sorrel height. As soil compression increases it is evident that sorrel height decreases. The largest sorrel growth on average was 0.0975 cm and this was with a soil compression of 1.575 kg, my lowest sorrel growth recorded from my results was 0.0011cm with a soil compression of 3.6 kg. As sorrel height isnââ¬â¢t constantly decreasing with increasing soil compaction it was appropriate to further my understanding and calculate how strong the relationship between my independent variable, soil compaction and dependent variable sorrel height was. This would also help me establish whether the data was causational or correlational. Spearmanââ¬â¢s rank correlation coefficient is a non-parametric measure of statistical dependence between two variables. It assesses how well the relationship between two variables can be described. It makes no assumption about data distribution. The value for rs is between +1 and -1, where +1 indicates a strong positive correlation, -1 indicates a strong negative correlation and 0 indicates no correlation at all. The data gathered at all 4 sites indicates a strong negative correlation between soil compression and the height of sorrel. The rs value gathered for my averages was -0.89 and this is greater than the critical value for 10 data sets at the 99% significance level. Therefore we can be 99% sure that soil compression restricts sorrel height and I can subsequently reject my null hypothesis establishing that causational relationship between the 2 variables is present. Conclusion: The purpose of this coursework was to find out about the impact which visitors have had on Epping Forest and how the subsequent soil compaction affects sorrel growth. Epping Forest has recreational, aesthetic and educational values, so is a perfect place for visitors. Considerable damage has probably been caused to the environment due to the large number of visitors. Soil compaction at Pillow Mound was relatively high probably due to human interference. Figure 1.0 showing the averages shows us that at 1m, the mean soil compression was 4.175 Kg whilst at 28m the mean soil compression was 1.575 Kg. Figure 0.9 also shows that at 1m at Site 4 soil compression exceeded 4.5 Kg. Management of the site is being introduced with the building of car parks, an information centre, and even a ditch next to the car park to stop the cars getting onto the grass. Epping Forest is one of a number of open spaces around London owned and managed by the City of London as part of its commitment to sustaining a world class city and for the conservation of wildlife and historic landscape. The investigation of how soil compaction affects the height of the plant Sorrel was gratifying as a correlation between soil compaction and Sorrel growth was determined. A slight flaw which may have had an impact on my results was the fact average light intensity increased slightly with increasing distance along the tape measure. At 1m light intensity was at 1894.25 Lux, at 28m this had increased to 1900.25 Lux with the Lux value fluctuating over the 28m distance. Although the differences in light intensities are little, my results are limited slightly as light intensity affects plant growth. The higher the light intensity the higher the plant growth. Light plays a major role in photosynthesis which is a 2 stage process involving the light dependent stage and light independent stage which could continue in the dark. When a photon of light hits a chlorophyll molecule the energy is transferred to the electrons of that molecule. The electrons are excited and raised to higher energy leve ls. If an electron is raised sufficiently it is picked up by an electron acceptor and results into ATP production via cyclic and non-cyclic phosphorylation. ATP is formed supplying the energy needed for synthesis of carbohydrates and the electron is passed along Electron Transport Chain (ETC). The differences in Lux are relatively minuscule along the line transects and so it is not sufficient enough to make my results invalid. Data collection was carried out in the morning before the sun had fully risen, as time passed and data was collected at each interval the sun carried on rising thus explaining the small differences in light intensity. In hindsight data collection should have happened at each interval at each of the 4 sites simultaneously, however, this was not viable as there were not enough people available to assist with data collection. My hypothesis that the greater the soil compaction, the lower the height of the Sorrel plant, has proved to be correct. This is due to the fact that soil compaction doesnââ¬â¢t provide adequate space for the roots of the sorrel plant, which subsequently means that the plant cannot get enough nutrients, water and minerals from the soil which are needed for optimum growth. By using Spearmanââ¬â¢s rank correlation coefficient this was worked out and we are 99% certain that a negative correlation exists between the 2 variables. 4 different sites were tested at Pillow Mound in Epping Forest, and my Spearmanââ¬â¢s rank correlations for each site indicated a strong negative correlation. To back up my hypothesis even further my preliminary data indicate a negative correlation between Sorrel height and soil compaction. 10 samples were collected along each transect so we could get an RS value for spearmanââ¬â¢s rank that was 99% reliable and not down to chance. Evaluation My investigation was highly edifying and although I came to the conclusion that there is a 99% chance that soil compaction affects sorrel height proving my hypothesis correct, in hindsight I would make a few crucial amendments to my method and investigation so next time I carry out the investigation I will have an even higher level of confidence in my results. The 4 subdivisions at Pillow Mound were investigated to gain a general overview of the site. By testing one site, we are limiting our data as our results may only be conclusive for that part of Plain mounds. When collecting data light intensity values varied as the values could not be all taken at the same time. To avoid this more people could help with the fieldwork and we could simultaneously gain figures for light intensity at the same time. To do this more light meters would have to be provided. Time constraints were also a major issue. We were given around 3 hours to collect our fieldwork from 4 different sub divisions within Pillow Mound. Without time constraints there would be less pressure to complete the fieldwork within a specific time leaving us enough time to gather data with each instrument. Ideally a longitudinal study would be most ideal as the patterns established from the data was from only 1 day in the whole calendar year. Throughout the year, sorrel height will vary. The day my data was collected may not depict an average day in Epping Forest and so my data is invalid. A longitudinal study is ideal so we can collect data over the year and see how sorrel height varies. To increase data reliability we could collect data for soil compaction and sorrel height every 3 months at the same 4 subdivisions and see if there is any significant correlation. The weather would also have an effect on sorrel height; if it rains soil will be more compact and soil infiltration would not occur as rapidly. This in turn could affect seed germination as roots cannot penetrate lower soil layers. I expect plant height to be higher in the spring as spring provides optimum temperatures for seed germination, aswell as the fact that it doesnââ¬â¢t rain as much during spring as it does winter, so soil will not become drenched allowing the roots to penetrate the soil greater and greater foundations allows a better uptake of minerals and greater sorrel growth. The most helpful modification would be to carry out this investigation on a different site within Epping Forest; this could show a clear contrast to how sorrel height varies with soil compaction. The data gathered in this study could only be relevant for Pillow Mound, so broadening our study to more than 1 site could further enhance data validity and reliability. Further investigations possibly using 2 paths at each subdivision could further validate data. As a pH probe was not available at the field centre, to measure pH of the soil we had to add a spatula full of barium sulphate as well as 1cmà ¯Ã ¿Ã ½ of distilled water to 1 cmà ¯Ã ¿Ã ½ of each soil sample in separate test tubes. The amount of barium sulphate added or the amount of soil sample added to each test tube would affect pH and so our pH values could vary due to human error and the variable wasnââ¬â¢t of constant of using the same formula each time. A pH probe would eliminate human error and the same procedure could have been kept throughout and been kept constant. How to cite Investigation of Sorrel in Epping Forest, Papers
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