Monday, September 30, 2019
Array Paper
Programming Solution Segments in Wooden Ring or Bowl One of the clubs that I belong to is the Savannah River Wood turners Association. We meet once a month in a friends shop down the road from where I live, and we usually have guest speakers give a presentation on aspects of wood turning. Last weekend we had a gentleman from Atlanta teach a session on segmented wood turning. Segmented turning is a type of wood turning that involves gluing together hundreds of segments to make a particular shape that you would then refine on a DOD lathe.It is a very time consuming and complicated endeavor sometimes, and the thought of a program to help with the math seemed like a great idea. The personnel involved in the project is mainly myself, but also some of the other members from the group. The aim is to be able to input the amount of segments that you would want to use in a ring and then determine the angle at which you must cut the sides of the segments. It would also be great if the program c ould output the length of each segment based on the diameter of the bowl.I say bowl loosely, building a blank with segments is usually done so that they form a ring. The final shape could be anything, but for this program it will be a bowl. In terms of the development cycle, the program will be built in five stages. The first part I am doing right now by writing this paper, this part is the analysis of the problem. The second will be the general design of the program itself. I will flesh out all of the details about input/output, what variables will be used, whatever math will be involved in the next paper.The third stage is the coding stage in which I will create a Visual Logic executable that runs the program. The fourth and fifth stage will be testing and maintenance. I suppose that I will actually test out the program by attempting to use the results that I get by creating a segmented wood blank. I will then put it on the lathe and include pictures in my final paper, as long as time permits. Turning can be a slow or fast process, and with segmented turning going fast is really not an option.Taking a modular approach will be somewhat important in the context of this reject. By using modules to separate all of the math from the input and output, it should make the academicals Logic flow chart easier to understand. The math involved in determining the dimensions of each segment is not that complicated in reality, but to me it might as well be ancient Egyptian. Luckily, I have found multiple websites and even other programs to guide me in making this. The first thing the program will do is ask the user what it wants to do.I saw that in the next paper we are required to use a selection statement, and I intend to use an if else, or maybe even a while loop to create a main menu for the program. From the desired diameter of the bowl in centimeters or they will choose to exit the program. The exact function of this menu is still up in the air, and as I move into mo re detailed design and math I will figure it out. The number of segments will be store in a variable. This variable will then be divided into 360, then divided by 2. This will give the angle to cut the pieces at.In reality the user would have to understand to cut the segments at this angle on both ides facing inwards, but that may be another variable I can output. Next the user will input the desired diameter of the ring in centimeters, this will also be stored in a variable, which will then be multiplied by 3. 14. I will add a third variable called the fudge factor, this is relative to the thickness of the segments and gives the user some flexibility in design and cutting. This number will be added to the circumference of the ring, and then the circumference will be divided by the number of segments.The final output will be the length of each segment, and the angle to cut at. Overall I hope to create a program that will aide in the math involved in this process, and one that I will be able to share with my friends. This type of woodworking is a lot of fun, but for those of us that are not so math inclined it can become frustrating. Accuracy is of the utmost importance, and hopefully this program will help me achieve it. I think this will be a lot of fun. References Segmented
The Most They Ever Had Book Review
Cory W. Smith Mrs. Huskinsson English 101 18 November 2012 Book Review: The Most They Ever Had The Most They Ever Had is a story of suffering, hard work, and sacrifice. It is a collaboration of interviews conducted on the textile workers of the Profile cotton mill in Jacksonville, Alabama. The author of the book, Rick Bragg, compiles the stories of these people because he is one of them. He was raised in Jacksonville, Alabama. His older brother, Sam, worked at the mill. Bragg wrote this story of his people because it was a story that needed to be heard.The Most They Ever Had tells the simple lives of the men that just wanted to make a living to support a family and make it through this life to get to the next. The title is so fitting because they lived such simple lives that the mill coming to town meant survival. It meant having a somewhat stable job and the ability to buy a house and put food on the table. It was, in fact, the most they ever had. The job came with a price, however. The workers paid for their means of survival with their health. They worked unventilated rooms saturated with lint.The constant inhalation of these minute particles eventually caused damage to the workers lungs causing a disease called ââ¬Å"brown lung. â⬠Because the job was so sought after, the workers could lose their job for the smallest mishaps, even missing one day of work due to illness. The workers could be sick as dogs, but they would still clock in a put in their daily hours. Their daily struggles can teach the readers a lessonââ¬âto never take things in life for granted. These workers labor tirelessly day in and day out just to put a roof over their familyââ¬â¢s head and food on the table.They worked in terrible conditions, but they rarely complained because they appreciated what they had. That, I believe, is a main purpose behind this book. Not only to tell the readers the stories of these true American heroes, but also to teach them this valuable lesson. T he Profile cotton mill opened its doors in Jacksonville, Alabama in 1905 and remained open until 2001 when it shut down without warning and left the workers still trying to pay off mortgages with no pension. Bragg tells the stories of the mountain people from this region just trying to get by paycheck to paycheck. He insights us on the tyrant mill owners and managers.He also informs us of the tragedies the workers endured like Charlie Hardyââ¬â¢s story of how he, ââ¬Å"one of the best front-porch guitar pickers,â⬠lost his ââ¬Å"picking armâ⬠to a machine in the mill and had to give up his talent. Or the tragic story of Leon Spears, the 65 year old man that began working at the mill when he was seventeen that has to carry an oxygen tank close by because of the damage done to his lungs by the cotton filled air of the mill. Bragg explains how the corrupt bosses would blame the workersââ¬â¢ troubled breathing on hangovers and laziness rather than inadequate working co nditions.Still, however, the workers would show up day after day because they knew that the mill gave them a means of survival. The workers of the mill never gave up hope, though, that things would get better, and, eventually, they did. Over time conditions improved. Profile mill workers, in time, earned ââ¬Å"one of the best blue collar paychecks in the foothills. â⬠The book is informative because it does exactly thatââ¬âit informs. If I had not read this book, I would have never learned the stories of these brave Americans and their families. It tells you what life in a mid 20th century mill town was like.Bragg doesnââ¬â¢t stop at informative, however. He portrays the workersââ¬â¢ stories in a way that one becomes attached to them. Bragg writes in such an eloquent and descriptive manner that by the end of the book, one believes that he or she actually knows the mill workers of Jacksonville, Alabama. One of the most amazing components of this book, in my opinion, i s that the workers living this tragedy didnââ¬â¢t even realize that they were living one. It was just their life. They worked in such harsh working conditions and under such greedy bosses, but they didnââ¬â¢t look at themselves with pity. They didnââ¬â¢t complain.They did what they had to do to support their family and to make ends meet. Another intense part of the book for me was reading Charlie Hardyââ¬â¢s story. Charlie lost his arm to a machine and by result had to give up on his talent of guitar playing. Since I am a musician myself, I can hardly imagine what it would feel like to be told that I would never be able to play the guitar again. Rick Braggââ¬â¢s The Most They Ever Had is amazing book of conquest over struggle. The mill workers of Jacksonville, Alabama gave life and limb to provide for their family and never gave up hope that someday things would get better.They never gave up on their families that depended on that paycheck. The Most They Ever Had show s that things in life donââ¬â¢t always come easy and that we must work hard for the things in life we love most. I highly recommend this book to anyone that likes a good conquest story because thatââ¬â¢s what this story boils down to. Itââ¬â¢s the story of how the workers of the Profile cotton mill trying to overcame the struggles of everyday life in the textile mill of Jacksonville, Alabama. Works Cited: Bragg, Rick. the most they ever had. San Fransisco: MacAdam/Cage, 2009. Print.
Saturday, September 28, 2019
Bergala Resorts Assesment of Tourism with Sustainable Managment of Environmental Resources
ââ¬Å"An Earth Lung Destinationâ⬠A Private Land in the Dadayampola Village, Thiruwanakanda, Beragala An Assessment of Tourism with Sustainable Management of Environmental Resources ââ¬â -Sustainable development through regeneration and re-planting programmes -engaging and sustaining communities -involving the local community in developing income generation programmes -Local environmental, economic, and quality of life benefits -Protecting species and their habitats -eco conscious trail building -planting medicinal plants/herbs Future Environmental Programmes -bio fuels -hydro power -carbon conservation Report For Alpha & Omega Developers Pvt Limited 102/3 Dharmapala Mawatha, Colombo 07 March 2007 STUDY TEAM Dr. Gamini Hitinayake, Team Leader / Forestry Specialist, (Senior Lecturer/ University of Peradeniya), Mr. K. B. Ranawana, Flora and Fauna Specialist (Senior Lecturer / University of Peradeniya), Mr. M. I. D. H. Wijewickrama, Geologist (National Building Research Organization), Mr. Pradeep Samarawickrama (Fauna Specialist), Mr. Alahakoon (Flora Specialist), Mr. Amila Ranasinghe (Flora Specialist), Mr. P. R. S. D. Bandaranayake (Flora Specialist). Study Team Name / Expertise Dr. Gamini Hitinayake, Team Leader / Forestry Specialist, (Senior Lecturer / University of Peradeniya) see www. pdn. ac. lk for more details. . He is a well-known and a leading Forestry Specialist in Sri Lanka. Mr. K. B. Ranawana, Fauna Specialist (Senior Lecturer / University of Peradeniya). see www. pdn. ac. lk for more details. He is a well-known and leading Fauna Specialist in Sri Lanka. Mr. M. I. D. H. Wijewickrama, Geologist (National Building Research Organization-NBRO) He is working as a senior geologist attached to NBRO. He is well-known and leading Geologist in Sri Lanka. Mr. V. A. M. P. K Samarawickrama (Fauna Specialist) Experience as a Fauna Specialist: â⬠¢Bio-diversity survey ,Phase two -Upper kotmale Hydropower Project , conducted by IUCN-Sri Lanka. â⬠¢Bio-diversity assesment-2004, Rakawa,Ussangoda and Kalamatiya Sanctuaries,conducted by IUCN-Sri Lanka. â⬠¢Fauna survey (Horton Plain National Park, Knuckles FR, Bundala National park). Mr. A. M. D. B. Alahakoon (Flora Specialist) Experience as a Flora Specialist: â⬠¢Flora team, Seasonal variation and availability of food preferences by herbivore in Udawalawa National Park, Conducted by University of Peradeniya. Mr. Amila Ranasinghe (Flora Specialist) Experience as a Flora Specialist: â⬠¢Flora team ââ¬â Bio-diversity survey,Phase two -Upper Kotmale Hydropower Project, conducted by IUCN-Sri Lanka Mr. P. R. S. D. Bandaranayake (Flora Specialist) Presently working as a Technical Officer assigned for identification of flora and assisting forestry research Experience as a Flora Specialist: Worked 06 years at the Royal Botanic Gardens, Peradeniya as a Gardener. 1. Introduction 1. 1 Eco-tourism Tourism based on the natural ecological features of the area as opposed to manufactured attractions or features like old forts and structures is referred to as ecotourism. This nature tourism promotes conservation and supports sustainable development. Environmentally responsible travel and visitation to relatively undisturbed natural areas, in order to enjoy, study and appreciate nature and any accompanying cultural features that promote conservation, have a negative visitation impact and provide for substantial beneficial active socioeconomic involvement of local populations. Under the right circumstances, ecotourism has proven to be one of the most effective means to finance biodiversity conservation. In most rich biodiversity areas, actual revenue flows for ecotourism are better than non-timber forest products and biopharmacy, and comparable only to agroforestry. Because the dominating land use in protected areas and buffer zones is agriculture and forestry, ecotourism is an opportunity for the creation of additional income to farmers / foresters and to generate financial means for the management of protected areas, especially where governmental park management agencies have little resources. 1. 2 Agrotourism and Agro-ecotourism : The symbiotic relationship between tourism and agriculture that can be found in agrotourism (i. e. holidays on farmland) is a key element of an environmentally and socially responsible tourism in rural areas. Rural hospitality offers new employment and income generating opportunities for rural populations, including agrotourism as expression and cultural exchange of agricultural practices, artistic heritage and craftsmanship and culinary traditions. Agrotourism may take several forms: holiday farms, farmhouse bed-and-breakfast, farm camping, mountain resorts, equestrian centres and other forms of rural accommodations. Such facilities are an innovative payment system for environmental services generated on and around agricultural lands While ecotourism is nature-based and agrotourism is farm-based, agro-ecotourism is a combination of both. The rural landscape, usually a combination of wild and agro-ecosystems, is the most important resource for tourism development. It is obvious that a diversified agricultural landscape, with semi-natural habitats, has a greater aesthetic and recreational potential over uniform, degraded and/or polluted agricultural areas. In Europe, agri-environmental policies often promoted organic agricultural activities as a most effective means for landscape conservation: for example, the European Union Life Environment project run by the French Federation of Parks and Reserves adopted extensive animal husbandry to prevent the negative impacts of unmanaged forests on some botanical meadow species and to promote a landscape quality attractive to tourists. Examples from the Alpine Region showed that agriculture (e. g. in Carinthia, Austria) maintained an ecological value much more attractive to tourists than areas where agriculture activities were extremely reduced. Tropical countries that harbour extraordinary biodiversity have an untapped potential for generating tourism business around biodiversity-rich farms. For example, shade cacao and coffee farms have a higher biodiversity than forest habitats: families could receive money for visitors access to their land for bird-watching or could be actively involved in the agro-ecotour. Agro-ecotourism in certain locations provides a strong economic incentive to small farmers to commit to biodiversity-friendly agriculture management. 2. Components of the project: PROPOSED AGRI TOURISM ACTIVITIES. Over night Stay: ââ¬â Lodging and Camping â⬠¢Bed and Breakfast only with organic foods. â⬠¢Herbal Tea and other Herbal Drinks, such as Centella / Ranawara/ Rose /Beli etc. â⬠¢Camp sites. â⬠¢Stay in Log Cabins. â⬠¢Rental Cabins for day trip/picnics . â⬠¢Wedding, Reception & Honeymoons. Off the farm â⬠¢Farmers Markets. â⬠¢Road side produce stands. â⬠¢Udawalawe / Kataragama / Hill Country. â⬠¢Tea Gardens & Factories â⬠¢Cinnamon Gardens â⬠¢Historical sites â⬠¢Samanalawewa reservoir / Dam. â⬠¢Landslides Recreation activities and events â⬠¢Organic Vegetable Cultivations. â⬠¢Picturesque jungles/ savanna lands. Fishing â⬠¢Identification of flora / fauna. â⬠¢Tea tasting. â⬠¢Sludge holding ponds. â⬠¢Natural stones houses. â⬠¢Hiking. â⬠¢Rock climbing. â⬠¢Bird watching. â⬠¢Meditation. Other planting activities: â⬠¢Medicinal Garden â⬠¢Botanical Garden â⬠¢Road side planting â⬠¢Kumbuk â⬠¢Aricanuts â⬠¢Jak â⬠¢Palm. â⬠¢Aloe Vera. Community service projects Some component of the project income could be spent on the community service projects. â⬠¢Schools â⬠¢Playground â⬠¢Community center â⬠¢Water supply for local community â⬠¢Electricity for local community â⬠¢Any other long felt needs as identified by the local community 3. Methodology: A survey was conducted in the proposed land between 28th December 2006 and 15th January 2007 in order to evaluate the potential of the proposed land for ecotourism. A team of specialists in the fields of forestry, flora, fauna and geology participated in the survey. 4. Findings of the study 4. 1 Location and access: The proposed land can be accessed from Balangoda via Kaltota, Meddabedda and from Beragala junction via Tiriwanagama. The proposed land is located in the Badulla districts. 4. 2 Climate and soil: The proposed land falls in the mid country intermediate zone of Sri Lanka, more specifically its within the IM2b agro-ecological region. The 75% annual rainfall expectancy of the area is over 1600 mm (Agro-ecological map of Sri Lanka, 2003). The elevation is approximately 200-300m above mean sea level. The rainfall distribution of the area is such that mid January to February and June to Mid September is dry, while other months of the year are wet. The study area has a very steep, hilly and rolling terrain. Table 1. Dry / wet months Dadayampola. MonthMAMJJASONDJF Wet / dry monthsWWW DDDD/WWWWW/DD Cropping season**********ââ¬â The soils of the study area is consists of Reddish Brown Latosolic, Immature Brown Loam, Red Yellow Podzolics and Low Humic Gley in the low lying areas. The physical characteristics of these soils are moderate to deep, well drained and relatively less susceptible for soil erosion. 4. 3 Land Use: Land use in the proposed land is shown in the Table 1. This shows that most of the land is covered with natural vegetation. This natural vegetation, uneven topography and natural streams that flowing through and bordering the land have given rise to diverse range of habitats and eco-units. These landscape characters have made this proposed land having so much of biodiversity and visual amenity. If developed properly this land could be made into a paradise for eco-tourists. The wealth of biodiversity recorded in different land use is discussed in a different section. Table 1. Land use in the proposed land in the Dadayampola. Vegetation typeExtent (acres) Riparian vegetation 43 Dense / primary forest305 Secondary forest 80 Savanna forest195 Rice fields 05 Total628 acres PART I. EVALUATION OF FLORAL BIODIVERSITY A detailed survey was conducted to evaluate the plant diversity in the land. The plant diversity in the different vegetation types were recorded. The details are discussed in the following section. The composition of both woody and herbaceous plants were recorded during the survey. The common name, botanical name, family to which species belong, horizontal strata that species was recorded, growth form, conservation status and their dominance in the plant community was recorded. The summary Table shown below indicates that there is a high plant diversity in the proposed land. It also consist of reasonable number of endemic species. Summary: Plant diversity in the proposed land. Vegetation TypeTrees, shrubs and lianasGrasses and herbs SpeciesFamiliesEndemicSpeciesFamiliesEndemic Primary forest 502605ââ¬â Secondary forest4322012812- Savanna1410000403- Rice fields0706002913- Riparian462505ââ¬â 1. PRIMARY FOREST: PRIMARY FOREST -Trees, Shrubs and Woody lianas FamilyScientific NameVernacular NameGrowth FormConservation StatusSpecies StrataCanopy Strata AnacardiaceaeSemicarpus obscuraBadullaTreeEndemicCDSub Canopy AnacardiaceaeNothopegia beddomeiBalaTreeNativeCD/GVCanopy/Sub Canopy ApocynaceaeAlstonia scholarisRuk-aththanaTreeNativeDCanopy ApocynaceaePagiantha dichotomaDivi kaduruTreeNativeCDSub Canopy ArecaceaeCalamus sppWe welWoody ClimberNative BignoniaceaeStereospermum colais (S. ersonatum)Dunu madalaTreeNativeDCanopy ClusiaceaeGarcinia morellaGorakaTreeNativeCDSub Canopy CombretaceaeTerminalia belliricaBuluTreeNativeCDCanopy EuphorbiaceaeMacaranga peltaaKendaTreeNativeCDSub Canopy EuphorbiaceaeMallotus philippensisGulu kendaTreeNativeCDSub Canopy EuphorbiaceaePhyllanthus polyphyllusKuratiyaSmall TreeNativeCD/GVSub Canopy/Understory EuphorbiaceaeMisch odon zeylanicusThammanaTreeNativeCD/GVSub Canopy/Understory EuphorbiaceaeDimarphocalyx glabellusWelivennaSmall TreeNativeCDSub Canopy/Understory EuphorbiaceaeDrypetes sepiariaWeeraTreeNativeD/CDCanopy FabaceaeAlbizzia odoratissimaHuri MaraTreeNativeDCanopy FabaceaeCentrosema pubescensCentroLianaNative FabaceaeCassia siameaWaTreeNativeDCanopy FabaceaeEntada pusaethaPus welWoody LianaNative FlacortarceaeFlacourtia sppUguressaTreeNativeCDSub Canopy HernandiaceaeGyrocarpus americanusHama-gasTreeNativeDCanopy HippocrateaceaeSalacia reticulataHimbutuWoody ClimberNativeGVGround Vegetation LauraceaeNeolitsea cassiaKudu-daulaTreeNativeCD/GVSub Canopy/Understory LauraceaeLitsea glutinosaBomeeTreeNativeCDSub Canopy MalpighiaceaeHiptage bengalensisPuwak-gediya-welWoody LianaNative MeliaceaeWalsura trifoliolata (W. piscida)Kiri-konTreeNativeCDSub Canopy MeliaceaeCipadessa baccifera HalbabiyaWoody ShrubNativeGVGround Vegetation MoraceaeAntiaris toxicariaRiti GasTreeNativeDCanopy MoraceaeFicus microcarpaPanu-nugaTreeNativeDCanopy MoraceaeFicus tinctoriaWal-ahetuTreeNativeDCanopy MoraceaeStreblus asperGeta NithulTreeNativeCDSub Canopy/Understory MyristicaceaeHorsfieldia iryaghedhiRuk TreeEndemicCDSub Canopy MyristicaceaeMyristicadactyloidesMalabadaTreeEndemicCDCanopy OchnaceaeOchna lanceolataBo keraSmall TreeNativeCD/GVUnderstory PiperaceaePiper sylvestreWal-gammirisClipersEndemic RhamnaceaeZiziphus oenopliaHeena-eraminiyaWoody LianaNative RubiaceaeMussaenda frondosaMussandaWoody ShrubNativeCDSub Canopy RubiaceaeAdina cordifoliaKolonTreeNativeDSub Canopy RutaceaeAcronychia pedunculataUn kendaSmall TreeNativeCDSub Canopy RutaceaeChloroxylon swieteniaBuruthaTreeNativeDCanopy RutaceaeNaringi crenulataWal BeliTreeNativeCDUnderstory RutaceaeGlycosmis mauritianaBol panaSmall TreeNativeGVUnderstory SapindaceaeAllophylus cobbeKobbeSmall TreeNativeCDSub Canopy/Understory SapindaceaeGlenniea unijugaWal moraTreeEndemicCDSub Canopy/Understory SapindaceaeSchleichera oleosaKonTreeNativeDCanopy SterculiaceaePterospermum suberifoliumWelangTreeNativeD/CD/GVCanopy/Sub Canopy/Understory SterculiaceaeSterculia foetidaThelambuTreeNativeDCanopy TiliaceaeGrewia oriantalisWel KeliaWoody ClimberNativeCDUnderstory UlmaceaeCeltis cinnamomiaGurendaTreeNativeCD/GVSub Canopy/Understory VerbenaceaeVitex altissimaMillaTreeNativeDCanopy/Sub Canopy VerbenaceaePremna tomentosaSeruTreeNativeCDSub Canopy Species Strata: D-Dominant, CD-Co-dominant, GV-Ground vegetation 2. SECONDARY FOREST- ABANDONED SUGAR CANE AND HOMEGARDENS SECONDARY FOREST ââ¬â Trees, Shrubs and Woody lianas FamilyScientific NameVernacular NameGrowth FormConservation StatusSpecies StrataCanopy Strata AnacardiaceaeMangifera indicaAmbaTreeIntroduced/CultivatedDSub Canopy AnacardiaceaeNothopegia beddomeiBalaTreeNativeCDSub Canopy ApocynaceaePagiantha dichotomaDivi kaduruTreeNativeCDSub Canopy CombretaceaeTerminalia bellericaBuluTreeNativeCDSub Canopy EuphorbiaceaeBridelia retusaKatakelaTreeNativeCDSub Canopy EuphorbiaceaeJatropha curcasWeta endaruTreeIntroduced/CultivatedCDSub Canopy EuphorbiaceaeMacaranga peltataKendaTreeNativeDCanopy EuphorbiaceaeMallotus philippensisGulu petta,HampirillaTreeNativeDSub Canopy EuphorbiaceaePhyllanthus polyphyllusKuratiyaSmall TreeNativeCDSub Canopy FabaceaeCassia fistulaEhelaTreeNativeCDSub Canopy FabaceaeCassia spectabilisKaha konaTreeIntroducedCDSub Canopy FabaceaeBauhinia racemosaMilaTreeNativeCDCanopy FabaceaeGliricidia sepiumWeta-maraTreeIntroduced/CultivatedDCanopy FabaceaeTamarindus indicaSiyabalaTreeIntroduced/CultivatedDCanopy FlacortarceaeFlacourtia sppUguressaTreeNativeCDSub Canopy FlacourtiaceaeHydnocarpus venenataMakuluTreeEndemicDCanopy LauraceaeCinnamomum sppKuruduSmall TreeNativeCDUnderstory LauraceaeNeolitsea cassiaKudu-daulaTreeNativeCDCanopy/Sub canopy LauraceaeLitsia glutinosaBo-meeTreeNativeCDSub Canopy MagnoliaceaeMichelia champacaSapuTreeIntroduced/CultivatedCDSub Canopy MalpighiaceaeHiptage bengalensisPuwak-gediya-welWoody LianaNativeSub Canopy MeliaceaeCipadessa bacciferaHal BabiyaSmall TreeNativeCDSub Canopy MoraceaeArtocarpus heterophyllusKosTreeIntroduced/CultivatedDCanopy MoraceaeStreblus asperGeta NithulTreeNativeCDSub Canopy MyrtaceaePsidium guajavaPeraSmall TreeIntroduced/CultivatedCDSub Canopy PiperaceaePiper nigrumGammirisClipersCultivated PuniccaceaePunica granatumDelumWoody ShrubIntroduced/CultivatedCDSub Canopy RhamnaceaeZiziphus oenopliaHeena-eraminiyaWoody LianaNative RubiaceaeMussaenda frondosaMussandaWoody ShrubNativeCDSub Canopy RubiaceaePavetta indicaPawattaWoody ShrubNativeCDSub Canopy RutaceaeAcronychia pedunculataUn kendaSmall TreeNativeCDSub Canopy RutaceaeGlycosmis mauritianaBol panaSmall TreeNativeGVUnderstory RutaceaeCitrus sppDodanSmall TreeIntroduced/CultivatedCDSub Canopy SapindaceaeAllophylus cobbeKobbeSmall TreeNativeCDSub Canopy SterculiaceaePterospermum suberifoliumWelangTreeNativeCD/GVUnderstory SterculiaceaeHelicteres isoraLihiniyaTreeNativeCD/GVSub Canopy TiliaceaeGrewea damineDamaniTreeNativeCDSub Canopy TiliaceaeMicrocos paniculataKohukirillaTreeNativeDCanopy TiliaceaeBerrya cordifoliaHul milla TreeNativeDCanopy UlmaceaeTrema orientalisGedumbaTreeNativeDCanopy VerbenaceaeClerodendrum infortunatumPinnaWoody ShrubNativeCDUnderstory VerbenaceaeVitex altissimaMillaTreeNativeDCanopy VerbenaceaeGm elina asiaticaKethi dmataWoody ShrubNativeCDSub Canopy Species Strata: D-Dominant, CD-Co-dominant, GV-Ground vegetation SECONDARY FOREST ââ¬â Grasses and herbs FamilyScientific NameVernacular NameGrowth Form AcanthaceaeJusticia betonica Sudu purukHerb AmaranthaceaeAchyranthes asperaGas Karal HebaHerb AsteraceaeSynedrella nodifloraHulan thalaHerb AsteraceaeAgeratum conyzoidesHulan thalaHerb AsteraceaeVernonia cinereaMonara kudumbiyaHerb AsteraceaeMikania cordataGahala welLiana AsteraceaeEupatorium odoratumPodisinhomaranShrub ColchicaceaeGloriosa superbaNiyagalaLiana CommelinaceaeCommelina diffusaGira-palaGrass CommelinaceaeCommelina bengalensisDiya meneriGrass CommelinaceaeCynotis cristataBolvilaGrass EuphorbiaceaePhyllanthus amarusPitawakkaHerb EuphorbiaceaeEuphorbia hirtaBu-dada-kiriyaHerb FabaceaeDesmodium triflorumHeen udupiyaliHerb FabaceaeMimosa pudicaNidikumbaHerb FabaceaeClitoria ternatiaKata roduLiana MalvaceaeSida acutaGas-bevilaHerb MalvaceaeSida veronicifoliaBevilaHerb MalvaceaeUrena lobataPatta apelaHerb MalvaceaeHibiscus furcatusNapiriththaClimber MenispermaceaeCyclea burmanniiKasipiththanLiana PoaceaeDigitaria sppGrass PoaceaeCyrtococcum trigonumGrass PoaceaePanicum maximumGinea grassGrass PoaceaeBrachiaria sppGrass TiliaceaeTrumfetta pentandraEpalaHerb VerbenaceaeStachytarpheta urticaefoliaBalu NagutaHerb VerbenaceaeLantana camaraGandapanaWoody Shrub 3. SAVANNA FOREST Savanna Forests: Trees, Shrubs and Woody lianas FamilyScientific NameVernacular NameGrowth FormConservation StatusSpecies StrataCanopy Strata CombretaceaeAnogeissus latifollusDawuTreeNativeDCanopy CombretaceaeTerminalia belliricaBuluTreeNativeDCanopy CombretaceaeTerminalia chebulaAraluTreeNativeDCanopy EuphobiaceaePhyllanthus emblicaNelliTreeNativeCDSub Canopy FabaceaePterocarpus indicusWal GammaluTreeNativeDCanopy FabaceaeBauhinia racemosaMyilaTreeNativeCDSub Canopy LaecythidacaeaeCareya arboreaKahataTreeNativeCDSub Canopy LauraceaeNeolitsea cassiaKudu-daulaTreeNativeGVUnderstory LythraceaeWoodfordia fruticosaMaliththaWoody ShrubNativeGVUnderstory RhamnaceaeZizyphus mauritianaDembaraWoody ClimberNative RhamnaceaeZiziphus oenopliaHeena-eraminiyaWoody ClimberNative RubiaceaeCanthium coromandelicumKaraShrubNativeCDSub Canopy RutaceaeChloroxylon swieteniaBuruthaTreeNativeGVUnderstory TiliaceaeGrewia damaniDamaniTreeNativeCDSub Canopy Species Strata: D-Dominant, CD-Co-dominant, GV-Ground vegetation Savanna Forests: Grass and Herbs FamilyScientific NameVernacular NameGrowth Form PoaceaeCymbopogon nardusPagiri ManaGrass AsteraceaeEupatorium odoratumPodisinhomaranShrub AsteraceaeElephantopus scaberAth adiHerb LabiataeLeucas zeylanicaThumbaHerb 4. ABANDONED PADDY FIELD Abandoned Paddy Field: Trees, Shrubs and Woody lianas FamilyScientific NameVernacular NameGrowth FormConservation StatusSpecies StrataCanopy Strata FabaceaeGliricidia sepiumWeta-maraTreeIntroduced/CultivatedDCanopy FabaceaeCassia fistulaEhelaTreeNativeCDSub Canopy LaecythidacaeaeCareya arboreaKahataTreeNativeCDSub Canopy MeliaceaeCipadessa baccifera HalbabiyaWoody ShrubNativeGVGround Vegetation RhamnaceaeZiziphus oenopliaHeena-eraminiyaWoody LianaNative SterculiaceaeHelicteres isoraLihiniyaTreeNativeCD/GVSub Canopy VerbenaceaeVitex negundoNikaWoody ShrubNativeCDSub Canopy Species Strata: D-Dominant, CD-Co-dominant, GV-Ground vegetation Abandoned Paddy Field: Grass and Herbs FamilyScientific NameVernacular NameGrowth Form AcanthaceaeJustica betonica Sudu purukHerb AmaranthaceaeAchyranthes asperaGas Karal HebaHerb AsteraceaeSynedrella nodifoliaHulan thalaHerb AsteraceaeAgeratum conyzoidesHulan thalaHerb AsteraceaeVernonia cinereaMonara kudumbiyaHerb AsteraceaeMikania cordataGahala welLiana AsteraceaeEupatorium oderatumPodisinhomaranShrub CommelinaceaeCynotis sppGrass CyperaceaeCyperus sppGrass CyperaceaeFimbristylis sppGrass EuphorbiaceaePhyllanthus amarusPitawakkaHerb EuphorbiaceaeEuphorbia hirtaBu-dada-kiriyaHerb FabaceaeDesmodium triflorumHeen udupiyaliHerb FabaceaeMimosa pudicaHerb FabaceaeClitoria ternatiaKata roduLiana LamiaceaeLeucas zeylanicaThumbaHerb MalvaceaeSida veronicifoliaBevilaHerb MalvaceaeSida acutaGas BevilaHerb MalvaceaeUrena lobataPatta apelaHerb MenispermaceaeCyclea peltataKasipiththanLiana PoaceaeImperata cylindricaIllukGrass PoaceaeDigitaria sppGrass PoaceaeCyrtococcum trigonumGrass PoaceaePanicum maximumAth-mana'Ginea grassGrass PoaceaeBrachiaria sppGrass PoaceaeEragrostis tenellaGrass TiliaceaeTrumfetta pentandraEpalaHerb VerbenaceaeLantana camaraGadapanaWoody Shrub VerbenaceaeStachytarpheta jamaicensisBalu NagutaShrub 5. RIPARIAN FOREST Riparian Forest -Trees, Shrubs and Woody lianas FamilyScientific NameVerniculer NameLife FormConservation StatusSpecies StrataCanopy Strata AnacardiaceaeMangifera indicaAmbaTreeNativeCDSub Canopy AnacardiaceaeSemicarpus obscuraBadullaTreeEndemicCDSub Canopy AnacardiaceaeNothopegia beddomeiBalaTreeNativeCDSub Canopy ApocynaceaePagiantha dichotomaDivi kaduruTreeNativeCDSub Canopy ClusiaceaeGarcinia morellaGorakaTreeNativeDCanopy ClusiaceaeGarcinia spicataEla-gokatu/GonapanaTreeNativeDCanopy CombretaceaeTerminalia arjunaKubukTreeNativeDCanopy DilleniaceaeDillenia indicaDiya-paraTreeNativeCDUnderstory DilleniaceaeDillenia retusaGoda-paraTreeNativeCDUnderstory EuphorbiaceaeMacaranga peltataaKendaTreeNativeCDSub Canopy EuphorbiaceaeMallotus philippensisHampirillaTreeNativeCDSub Canopy EuphorbiaceaePhyllanthus myrtifolius Ganga-werellaShrubEndemicGVUnderstory EuphorbiaceaeDimorphocalyx glabellusWelivennaSmall TreeNativeCDSub Canopy FabaceaeAcacia caesiaHinguru welWoody LianaNative FabaceaePongamia pinnataMagul KarandaTreeNativeDCanopy FabaceaeCentrosema pubescensCentroLianaNative FabaceaeDelbergia pseudo-sissooBababara welWoody LianaNative FabaceaeDerris scandensKala welWoody LianaNative FlacourtiaceaeHydnocarpus veneataMakuluTreeEndemicDCanopy HippocrateaceaeSalacia reticulataHimbutuWoody ClimberNativeGVUnderstory LauraceaeNeolitsea cassiaKudu-daulaTreeNativeCD/GVSub Canopy/Understory MalpighiaceaeHiptage bengalensisPuwak-gediya-welWoody LianaNative MelastomataceaeMemecylon angustifoliumKora kahaWoody ShrubNativeCD/GVUnderstory MeliaceaeWalsura trifoliolataKiri-koneTreeNativeCDSub Canopy MoraceaeFicus hispidaKotadimbulaTreeNativeGVUnderstory MoraceaeFicus microcarpaPanu-nugaTreeNativeDCanopy MoraceaeFicus tinctoriaWal-ahetuTreeNativeDCanopy MoraceaeAntiaris toxicariaRiti GasTreeNativeDCanopy MoraceaeStreblus asperGeta NithulTreeNativeCDSub Canopy MyrtaceaeSyzygium operculatumBata-dambaTreeNativeCDSub Canopy PandanaceaePandanus zeylanicusWeta-keyyaShrubNativeGVUnderstory PiperaceaePiper sylvestreWal-gammirisClipersEndemic RhamnaceaeZiziphus lucidaEraminiaWoody LianaEndemic RhamnaceaeZiziphus oenopliaHeena-eraminiyaWoody LianaNative RubiaceaeMussaenda frondosaMussandaWoody ShrubNativeCDSub Canopy RubiaceaeIxora coccineaRathmalWoody ShrubNativeGVUnderstory RubiaceaeMitragyna parvifoliaHalambaTreeNativeCDSub Canopy RubiaceaeNauclea orientalisBuk meeTreeNativeCDSub Canopy RutaceaeAtalantia ceylanicaYakinaranWoody ShrubNativeGVUnderstory RutaceaeMurraya paniculataAtteriyaWoody ShrubNativeGVUnderstory SapindaceaeAllophylus cobbeKobbeSmall TreeNativeCDSub Canopy SapindaceaeSchleichera oleosaKonTreeNativeCDCanopy SapotaceaeMadhuca longifoliaMeeTreeNativeDCanopy SterculiaceaePterospermum suberifoliumWelanTreeNativeCO/GVSub Canopy/Understory VerbenaceaeClerodendrum infortunatumGas-pinnaWoody ShrubNativeGVUnderstory VerbenaceaeVitex altissimaMillaTreeNativeDCanopy Note: The canopy and species stratas were added according to observations. It indicates only its present canopy & species stratas during the observation period not the original stratas Species Strata: D-Dominant, CD-Co-dominant, GV-Ground vegetation PART II. EVALUATION OF FAUNAL BIODIVERSITY A detailed survey was conducted to evaluate the animal diversity in the land. The animal diversity in the different vegetation types were recorded. The details are discussed in the following section. The composition of butterfly, birds, amphibians, reptiles. Fish and mammals were recorded during the survey. The common name, zoological name, family to which species belong and conservation status was recorded. The summary Table shown below indicates that there is a high animal diversity in the proposed land. It also consist of reasonable number of endemic/threatened species. Summary: Animal species recorded from the proposed land. Vegetation typeButterflyFishAmphibianReptileBirdsMammals Species38O405234819 Family080304082612 Conservation status010000040405 Butterfly species. FamilySPECIESCOMMON NAMEConservation StatusNatural ForestRiverrine forestSavana forestStream fauna PapilionidaeTroides darsiusCommon BirdwingE,TR1100 Pachliopta hectorCrimson Rose1110 Pachiopta aristolochiaeCommon Rose1110 Papilio crinoBanded Peacock1100 Papilio demoleusLime Butterfly0110 Papilio polymnestorBlue Mormon1100 Papilio polytesCommon Mormon0100 Graphium dosonCommon Jay1100 Graphium agamemnonTailed Jay0010 PiearidaeLeptosia ninaPsyche0010 Delias eucharisJezebel0010 Belenois aurotaPioneer0010 Appias albinaCommon Albatross0110 Appias paulinaLesser Albatross1110 Catpsilia pomonaLemon Eigrant0110 Eurema brigittaSmall Grass Yellow0110 Eurema hecabeCommon Grass Yellow0110 DanaidaeIdea similisBlue Glassy Tiger0110 Parantica agleaGlassy Tiger0110 Danaus ChrysisppusPlain Tiger0110 Danaus GenutiaCommon Tiger0110 Euploea coreCommon Crow1110 NymphalidaeJunonia iphitaChocolate Soldier1110 Hypolimnas bolinaCommon Egg fly1100 Neptis hylasCommon Sailor1110 Cethosia nietneriCeylon lace Wing0010 Polyura athamasNawab0100 Charaxes solonBlack Rajah0100 AcraeidaeCirrochroa thais Yeoman0100 SatyridaeAcraea violaeTawny Costar0110 Melanitis ledaCommon Evening Brown1100 Orsotriaena medusNigger Brown0110 Nissanga patniaGlad eye Bush brown0110 LycaenidaeYpthima ceylonicaWhite Four-ring0110 Talicada nyseusRed pierrot0100 Prosotas noraCommon lineblue0010 Zizeeria karsandraDark Grass blue0100 HesperiidaeSuastus gremiusIndian Paim Bob0100 Fish species. FamilySPECIESCOMMON NAMEConservation StatusNatural ForestRiverrine forestSavana forestStream fauna CyprinidaePuntius bimaculatus0001 Rasbora Sp. 0001 SiluridaeWallago attu0001 ChannidaeChanna grachua0001 Amphibian species. FamilySPECIESCOMMON NAMEConservationNatural ForestRiverrine forestSavana forestStream faunaRemarks BufonidaeBufo melonostictusCommon House Toad1110Adult, Juvenile MicrohylidaeMicrohyla ornataOrnate narrow mouth frog0001 RanidaeEuphlyctis cyanophlyctisSkipper Frog0001 Limnonectes limnocharisCommon Faddy Field frog0001 RhacophoridaePolypedates maculatuesCommon Tree frog1000 Reptile species. FamilySPECIESCOMMON NAMEConservation statusNatural ForestRiverrine forestSavana forestStream faunaRemarks AgamidaeCalotes calotesGreen Garden Lizard1000 Calotes versicolourHome-garden Lizards1010 Otocryptis wiegmanniSri Lanka Kangaroo LizardE,TR1100 GekkonidaeCnemaspis scalpensisRocky Day-geckoE1110 Gehyra mutilata Common House gecko0010 Hemidactylus leschenaultiiBark gecko1000 ScincidaeLankascincus sp. Lanka skinkE,TR1000 Mabuya maculariaSpotted skink0110 VaranidaeVaranus bengalensisLand Monitor0010 Varanus salvatorWater monitor0100 BoidaePhython molurusIndian Python1010 ColubridaeAhaetulla nasutaGreen vine snake1100 Dendrelaphis tristisCommon bronze back1100 Elaphe helenaTrinket snake1000 Ptyas mucosusCommon Rat Snake0010 Atretium schistosumOlive keelback watersnake0001 Boiga forsteniForsten's cat snake0010 Macropisthodon plumbicolorGreen keelback0010 Family:ElapidaeNaja najaIndian Cobra0010 Bungarus caeruleusCommon karait0010 Family:ViperidaeHypnale hypnaleHump nosed Viper1100 Trimeresurus trigonocephalusGreen Pit ViperE,TR1100 Vipera ruselliRussells Viper1110 Bird species. FamilySPECIESCOMMON NAMEConservation statusNatural ForestRiverrine forestSavana forestStream fauna PhasianidaeGallus lafayettiiSri lanka jungle fowlE1110 PicidaeDinopium benghalense psarodesRed-backed woodpecker1110 MegalaimidaeMagalaima zelanicaBrown-headed barbet1110 Megalaima haelamimaCoppersmith barbet1110 BucerotidaeOcyceros gingalensisSri lanka gray hornbillE,TR1010 HalcyonidaeHalcyon smyrnensisWhite-breasted kingfisher0100 AlcedinidaeAlcedo atthisCommon Kingfisher0100 MeropidaeMerops leschenaultiChest-headed bee-eater0010 CuculidaeHierococcyx variusCommon hawk Cuckoo1010 Eudynamys scolopaceaAsian Koel1100 CentropodidaeCentropus sinensisGreater coucal1010 PsittacidaePsittacula krameriRose-ringed parakeet1110 Loriculus beryllinusSri lanka hanging parrotE,TR1110 HemiprocnidaeHemiprocne longipennisCrested treeswift1110 StrigidaeKetupa zeylonensisBrown fish owl0100 ColumbidaeStreptopelia chinensisSpotted dove0010 Chalcophaps indicaEmerald dove1100 Treron pompadoraPompadour Green-pigeon0100 CharadriidaeVanellus indicusRed-wattled Lapwing0010 AccipitridaeSpilornis cheela Crested serpent eagale0010 Accipter badiusShikra0110 Haliaeetus leucogasterWhite-bellied Sea-eagle0100 PhalacrocoracidaePhalacrocorax fuscicollisIndian Cormorant0101 CiconiidaeCiconia episcopusWoolly-necked Stork0100 LaniidaeLanius cristatusBrown Shrike0010 CorvidaeOriolus xanthornusBlack-hooded oriole1100 Dicrurus caerulescensWhite-bellied drongo1110 Corvus macrorhynchosLarge-billed crow0100 MuscicapidaeTerpsiphone paradisiAsian paradise-flycatcher1100 Rhipidura aureolaWhite-browed fantail flycatcher1000 Copsychus malabaricusWhite-rumped shama1100 Copsychus saularisOriental magpie robin0010 Saxicoloides fulicataBlack-backed robin0110 SturnidaeAcridotheres tristisCommon myna0010 PycnonotidaePycnonotus melanicterusBlack-crested Bulbul1100 Pycnonotus caferRed-vented bulbul1110 Iole indicaYellow-browed Bulbul1100 CisticolidaePrinia socialisAshy prinia0010 Prinia inornataPlain priniya0010 SylviidaeOrthotomus sutoriusCommon Tailorbird1110 PellorneumfuscocapillumBrown-capped babblerE,TR1100 Rhopocichla atricepsDark-fronted babbler1100 Turdoides affinisCommon babbler1110 NectariniidaeDicaem agileThick-billed flowerpecker1110 Netarinia zelonicaPurple-ramped sunbird1100 Netarinia loteniaLong-billed sunbird0100 Netarinia asiaticaPurple sunbird1100 PasseridaeLonchura striataWhite-ramped munia1000 Lonchura punctulataScaly-breasted munia0010 Mammal species. FamilySPECIESCOMMON NAMEConservation statusNatural ForestRiverrine forestSavana forestStream faunaRemarks CercopithecidaeMacaca sinica Toque Monkey1110 Trachypithecus vetulusPurple-faced leaf monkeyE,TR1100 ManidaeManis crassicaidataIndian Pangolin 110Feeding signs PteropodidaePteropus giganteusFlying Fox0100 ScuridaeRatufa macroura Ceylon Giant Squirrel1100 Funambulus palmarumCeylon Palm Squirrel1100 Hystericidae Hystrix indicaIndian Porcupine1010Indirect observation ViverridaeParadoxurus hermaphroditusCommon Indian Palm-Cat1100 Herpestes fuscus Ceylon Brown Mongoose1010 Herpestes smithi Ceylon Ruddy Mongoose0010 FelidaePanthera pardusLeopardTR1110 Felis viverrinaIndian Fishing CatTR1111 Felis rubiginosaCeylon Rusty-Spotted CatTR1110 ElephantidaeElephas maximusElephantTR1110 Suidae Sus scrofa Indian Wild Pig1110Feeding signs TragulidaeTragulus meminnaIndian Mouse 1110 Cervidae Cervus unicolorSambur1110Feeding signs Muntiacus muntjak Barking Deer1110Indirect observation LeporidaeLepus nigricollisBlack-naped hare1110Indirect observation Key- E-Endemic species; TR-Threatened Faunal Diversity: In addition to observations of the study team following faunal species were identified based on the discussions with villagers. Table: Fish Species FamilySPECIESCOMMON NAMEConservationNatural ForestRiverrine forestSavana forestStream fauna Remarks Status AnguillidaeAnguilla bicolourLevel finned-eel 0000Impromation Puntius dorsalisLong-snouted Barb 0001Impromation Tor khudreeMahseer 0001Impromation CobitidaeLepidocephalichthys thermalisCommon Loach 0001Impromation GobiidaeAwaous melanocephalusScribbled Goby 0001Impromation Table: Amphibian species FamilySPECIESCOMMON NAMEConservation StatusNatural ForestRiverrine forestSavana forestStream fauna Remarks Microhylidae Ramanella veriegataSpadefoot Toad 1000Impromation RanidaeHoplobatrachus crassusJerdon's Bullfrog 010 Impromation Rana temporalisBronzed Frog 110 Table: Reptile species FamilyCOMMON NAMEConservation StatusNatural ForestRiparian forestSavanna forestStream faunaRemarks Colubridae Brown vine snake 1110Villages Importations Boulenger. s bronze back 1000Villages Importations Gamma cat snake 1010Villages Importations PART III: VALUING THE TIMBER RESOURCES: Monetary value of the standing timber volume of the proposed land was estimated. Total height (m) and Diameter at Breast Height (DBH in cm) of trees were was measured to estimate the standing tree volume. 1000m2 plots were used measure the trees in each vegetation type. The summary of the calculations are shown below: Summary: Value of standing timber (at 6the currant market rates) Vegetation typeTimber value per acreNo of AcresTotal value of trees (Rs. mil) Primary forest6. 34 mil3051933. 70 Secondary forest3. 146 mil80251. 68 Savanna0. 338 mil19565. 91 Riparian0. 588 mil4325. 28 Kumbuk trees in the riparian39. 18 mil (198 trees)-39. 18 Grand total2315. 75 1. PRIMARY FOREST Composition: Primary forest (10x100m) FamilyNameCommon NameD. B. H. (cm)Height (m)No. of Trees AnacardiaceaeSemicarpus obscuraBadulla35,43,45,518,10,11,134 AnacardiaceaeNothopegia beddomeiBala30,33,38,46,487,8,10,12,125 ApocynaceaeAlstonia scholarisRuk-aththana32-5612-188 BignoniaceaeStereospermum personatumDunu madala36-6310-166 ClusiaceaeGarcinia morellaGoraka23,37,449,11,143 CombretaceaeTerminalia belliricaBulu57,72,85,8715,18,25,264 EuphorbiaceaeMacaranga peltaaKenda36,3910,122 EuphorbiaceaeMallotus philippensisGulu kenda26,37,39,418,9,11,124 EuphorbiaceaeMischodon zeylanicusThammana33,387,92 EuphorbiaceaeDrypetes sepiariaWeera42,53,5711,13,153 FabaceaeAlbizzia odoratissimaHuri Mara36,42,46,558,9,10,134 FabaceaeCassia siameaWa31,35,36,45,4711,13,13,15,154 HernandiaceaeGyrocarpus americanusHama-gas52,55,61,739,11,12,145 LauraceaeNeolitsea cassiaKudu-daula33,3712,132 MeliaceaeWalsura piscidaKiri-kon36,38,46,508,8,12,144 MoraceaeAntiaris toxicariaRiti Gas48,52,63,68,7115-275 RubiaceaeAdina cordifoliaKolon31-7411-1812 RutaceaeChloroxylon swieteniaBurutha37. 42,45,48,6110-225 VerbenaceaeVitex altissimaMilla53-8515-239 UlmaceaeCeltis cinnamomiaGurenda54,6810,172 SterculiaceaeSterculia foetidaThelambu37-5610-147 VerbenaceaePremna tomentosaSeru26,29,305,7,7,3 SapindaceaeSchleichera oleosaKon42-7813-267 SterculiaceaePterospermum suberifoliumWelang22-565-259 2. SECONDARY FOREST Secondary forest: Composition: 10x100m plot FamilyNameCommon NameD. B. H. (cm)Height (m)No. of Trees AnacardiaceaeMangifera indicaAmba30-5010-255 AnacardiaceaeNothopegia beddomeiBala18-5010-282 CombretaceaeTerminalia bellericaBulu38-8518366 EuphorbiaceaeBridelia retusaKetakela20-558-207 FabaceaeTamarindus indicaSiyambala30-7512-223 FabaceaeCassis spectabilisKahakona22-408-156 FlacourtiaceaeHydnocarpus venenataMakulu30-8016-323 LauraceaeNeolitsea cassiaDaul-kurundu20-6512-258 MagnoliaceaeMichelia champacaSapu23-7510-253 MoraceaeArtocarpus heterophyllusKos26-9015-302 SterculiaceaePterospermum suberifoliumWelan25-7812-323 TiliaceaeGrewia damineDamaniya18-5710-225 TiliaceaeBerrya cordifoliaHalmilla16-4910-254 VerbenaceaeVitex altissimaMilla21-5112-284 FabaceaeCassia fistulaEhela22-488-145 EuphorbiaceaeMalotus philippensisHampirilla,Gulukenda31-548-163 3. SAVANNA FOREST Savanna: Composition: 10x100m plot Common NameNo of trees under different D. B. H. (cm) classesTotal ; 5 cm5 cm ââ¬â 15 cm15 cm -30 cm30 cm ââ¬â 50 cm Dawu38111032 Myila22 Kahata11 Wal Gammalu235 Bulu123 Aralu11 Debara2215 Total410191649 4. RIPARIAN FOREST Riparian Forest (Section A): Composition: 10x100m plot FamilyNameCommon NameD. B. H. (cm)Height (m)No. of Trees AnacardiaceaeMangifera indicaAmba30,35,637,9,153 SapindaceaeSchleichera oleosaKon34-5613-215 AnacardiaceaeMangifera zeylanicaEtamba39-9515-286 SapotaceaeMadhuka longifoliaMee41-9015-3210 ClusiaceaeGarcinias pp. Gonapana38-5611,14,153 ApocynaceaeAlstonia scholarisRuk attana33,54,5914,17,193 HernandiaceaeGyrocarpus americanusHama-gas37,44,48,5313,14,16,174 SterculiaceaeSterculia foetidaThelmbu43,4718,182 FabaceaeHamboltia laurifoliaGalkaranda31131 AnacardiaceaeSemecarpus obscuraBadulla34,28,399,11,133 EbenaceaeDiospyros quercitaKalumediriya36121 TiliaceaeBerrya cordifoliaHalmilla23,349,112 MeliaceaeWalsura trifoliolata( W. piscidia)Kirikoon28,36,36,329,10,10,104 ArecaaeaeCaryota urensKithul4191 DipterocarpaceaeHopea cordifoliaUva-Mandora47-7320-355 SapindaceaeSapindus trifoliusKahapenala2981 EuphorbiaceaeBridelia retusaKetakela32,369,102 Riparian Forest (Section B): Composition: 10x100m plot FamilyNameCommon NameD,B,H. (cm)Height (m)No. of Trees FlacourtiaceaeHydnocarpus veneataMakulu60,30,3520,8,123 SterculiaceaePterospermum suberifoliumWelan35,5014,122 VerbenaceaeVitex altissimaMilla30,70,60,7010,18,15,184 EuphorbiaceaePhyllanthus indicusKaraw40,4510,92 FabaceaePongamia pinnataMagul Karanda30101 SapotaceaeMadhuka longifoliaMee45,35,40,7015,12,12,184 AnacardiaceaeNethopegia beddomeiBala40,309,122 MoraceaeArtocarpus heterophyllusKos50121 EbenaceaeDiospyros malabaricaThimbiri30,4015,182 MyristicaceaeMyristica dactyloidesMalaboda50211 SapindaceaeDymorcarpus longanaMora60151 DipterocarpaceaeHopea cordifoliaUva-Mandora80,7521,182 FabaceaeEntada pusaethaPus wel30100 ;1 Kumbuk (Terminalia arjuna) trees in the river bank. No of Kumbuk (Terminalia arjuna) trees under different D. B. H. cm) classes Area30- 60 cm60- 75 cm75 ââ¬â 100 cm 100 -130 cm 130 -160 cm160 ââ¬â 200 cm200 cm;Total Area ââ¬ËA'1111516132058 Area ââ¬Ë B ââ¬Ë121113854154 Area ââ¬Ë C ââ¬Ë12741030036 Area ââ¬Ë D ââ¬Ë98181220150 Sub total442 750462362 Grand total198 No of Kumbuk (Terminalia arjuna) trees under different height (m) classes Area (as marked on the map);5m5-10m10-15m15-20m20-25m25-30m30m;Sub total Area ââ¬ËA'071717134058 Area ââ¬Ë B ââ¬Ë03292812054 Area ââ¬Ë C ââ¬Ë0346176036 Area ââ¬Ë D ââ¬Ë02312293150 Sub total015264487251 Grand total198 Part IV. Medicinal plants: Medicinal plants recorded from the Dadayampola land (71 species) is shown in the following Table: Medicinal plants recorded from the Dadayampola land. Botanic nameFamilyCommon Name 1Acacia caesiaFabaceaeHinguru wel Achyranthes asperaAmaranthaceaeGas Karal Heba 3Aconitum spp. AraceceAthudian 4Acronychia pedunculataRutaceaeUn kenda 5Adina cordifoliaRubiaceaeKolon 6Ageratum conyzoidesAsteraceaeHulan thala 7Allophylus cobbeSapindaceaeKobbe 8Alstonia scholarisApocynaceaeRuk-aththana 9Atalantia ceylanicaRutaceaeYakinaran 10Bauhinia racemosaFabaceaeMyila 11Bridelia retusaEuphorbiaceaeKetakela 12Careya arboreaLaecythidacaeaeKahata 13 Cassia fistulaFabaceaeEhela 14Cipadessa baccifera MeliaceaeHalbabiya 15Clerodendrum infortunatumVerbenaceaeGas-pinna 16Clitoria ternatiaFabaceaeKata rodu 17Cyclea peltataMenispermaceaeKasipiththan 18Delbergia pseudo-sissooFabaceaeBababara wel 19Derris scandensFabaceaeKala wel 0Desmodium triflorumFabaceaeHeen udupiyali 21Dillenia indicaDilleniaceaeDiya-para 22Dillenia retusaDilleniaceaeGoda-para 23Elephantopus scaberAsteraceaeAth adi 24Entada pusaethaFabaceaePus wel 25Euphorbia hirtaEuphorbiaceaeBu-dada-kiriya 26Ficus hispidaMoraceaeKotadimbula 27Garcinia morellaClusiaceaeGoraka 28Garcinia spicataClusiaceaeEla-gokatu/Gonapana 29Grewia oriantalisTiliaceaeWel Kelia 30Helicteres isoraSterculiaceaeLihiniya 31Horsfieldia iryaghedhiMyristicaceaeRuk 32Ixora coccineaRubiaceaeRathmal 33Justicia betonica AcanthaceaeSudu puruk 34Leucas zeylanicaLabiataeThumba 35Litsea glutinosaLauraceaeBomee 36Madhuca longifoliaSapotaceaeMee 37Mangifera zeylanicaAnacardiaceaeEtamba 8Memecylon angustifoliumMelas tomataceaeKora kaha 39Mikania cordataAsteraceaeGahala wel 40Mimosa pudicaFabaceae 41Mitragyna parvifoliaRubiaceaeHalamba 42Murraya paniculataRutaceaeAtteriya 43Mussaenda frondosaRubiaceaeMussanda 44MyristicadactyloidesMyristicaceaeMalabada 45Nauclea orientalisRubiaceaeBuk mee 46Neolitsea cassiaLauraceaeKudu-daula 47Ochna lanceolataOchnaceaeBo kera 48Pagiantha dichotomaApocynaceaeDivi kaduru 49Pandanus zeylanicusPandanaceaeWeta-keyya 50Phyllanthus amarusEuphorbiaceaePitawakka 51Phyllanthus emblicaEuphobiaceaeNelli 52Phyllanthus myrtifolius EuphorbiaceaeGanga-werella 53Pongamia pinnataFabaceaeMagul Karanda 54Pterocarpus indicusFabaceaeWal Gammalu 5Salacia reticulataHippocrateaceaeHimbutu 56Sapindus trifoliusSapindaceaeKahapenala 57Sida acutaMalvaceaeGas Bevila 58Sida veronicifoliaMalvaceaeBevila 59Sterculia foetidaSterculiaceaeThelambu 60Streblus asperMoraceaeGeta Nithul 61Tamarindus indicaFabaceaeSiyambala 62Terminalia arjunaCombretaceaeKubuk 63Terminalia belliricaCombretaceaeBulu 64 Terminalia chebulaCombretaceaeAralu 65Urena lobataMalvaceaePatta apela 66Vernonia cinereaAsteraceaeMonara kudumbiya 67Vitex negundoVerbenaceaeNika 68Walsura trifoliolata (W. piscida)MeliaceaeKiri-kon 69Woodfordia fruticosaLythraceaeMaliththa 70Ziziphus oenopliaRhamnaceaeHeena-eraminiya 71Zizyphus mauritianaRhamnaceaeDembara GEOLOGICAL REPORT OF THE LAND OF PROPOSED ECHO -TOURISM SITE AT DADAYAMPOLA, THIRIWANA KANDA, BERAGALA Introduction The proposed site situated at Dadayampola village, bound to the left bank of Kalkanna Oya, and just above the Weli Oya Annicut. The site area is accessible from Balangoda via Kaltota, Medabedda and from Beragala junction via Thiriwanagama (Map 1-Location Map). Geological background of the site Geologically, this area belongs to Highland Complex and most high grade metamorphic rocks can be identified in and around the proposed project area. The rock types commonly found belongs to highland complex are, Garnet Sillimanite Gneiss, Quartzite, Marble, Calc gneiss, Charnockite etc. (Figure 2-Geology map). Apart from those highland complex rocks, there are some rocks which are belongs to Wanni complex, such as Pink granitoid gneiss, Pegmatitic granitoid gneiss and Hornblende Biotite gneiss. The area around proposed land is rich with very complex geological structures, among those, local thrusts, Synforms, antiforms, shear zones and lineaments are remarkable. As this area lies to the 2nd Peniplan (Witanage,1972) Northern direction to the study area, high cliffs and escarpments can be observed, which exists between 3rd and 2nd peniplan. Displacement of rock strata along faults, highly crushed (Mylonite) newly formed week rock layers, fault gouge and mobilized marble beds represent neo-tectonic movements of the area. As a result of this complex geological situation, gems and other precise mineral deposits can be expected in the surrounding area. But still those are not well identified and there are some deposits already known, i. e. Corundum, Tufa, Calcite, Feldspar (Fig. 2) Figure 1: Complex geological structures represent neo-tectonic activities of the area, foreign (dark) fragment embedded in local host rock Figure 2: Abandoned gem pit. That represent near by villages have discovered the availability of precise minerals in the area This complex geological setting is represented by the extremely complex rock strata orientations in the area. Dipping and strike of rock beds greatly vary in the vicinity. Within the proposed site area, impure and pure quartzites, Marble, Charnockitic gneiss, and Pink Granitoid gneiss rock beds are identifiable. Those rocks in the site are trending N70? W with the dipping vertically. One prominent joint system was observed as N10? E with vertical dipping. Stream network of the area is purely controlled by the geological structures. Figure 3: Highly jointed, vertical dipping Mable rock in the Kalkan Oya bed. Figure 4: Stream network of the area is completely controlled by the geological structures. Figure 5: The area is rich with geological structures and geomorphological features. The Ubmagala rock, from the proposed site Apart from geology, geomorphology is important for the effect of natural hazards in the area. Although the area is situated under the 3rd peniplane, there was no observations of previous occurrence of landslide activities. The area is covered with residual soil derived from parent rocks except closer to the stream. A strip of river bank (not always) is alluvial deposit, which was transported from the river. Therefore availability of precise gem minerals is high in this area. But this was not studied well yet. Distribution of slope is presented in the Map 3 (Slope map), and that clearly shows majority of slopes in proposed project area is less than 30 degree. This is very favorable for hazard free environment. Discussion / conclusion In the point of geological view, this area is a paradise for earth scientists. Undiscovered geological, mineralogical and structural geological features may give an advantage for a echo-tourism project with hazard free environment. Observed features related to neo-tectonic movements may need further study by earth scientists. According to the literature, concept of well un-proved symotogenic up-warping (Vithanage,1972) and availability of high precise gem minerals in the area can be explored with this proposed project. M. I. D. H. Wijewickrama, B. Sc(hons)-geology, P. G. Dip-Eng. Geology, M. Sc. -GIS and Remote Sensing Consultant Geologist
Friday, September 27, 2019
Identification of unknown Lab Report Example | Topics and Well Written Essays - 1000 words
Identification of unknown - Lab Report Example We were provided with number coded 24- hour broth culture containing a mixture of any two bacteria (gram +ve or gram ââ¬âve), 1 EMB plate, 1 blood agar plate, several inoculating loops and TSA slants. Other materials (mediums and reagents) required were requested from the laboratory technician depending on the type of tests that were to be carried out to facilitate in identifying the unknown bacteria. There were several tests to be carried out to identify the unknown bacteria. On receiving the less than 24 hours broth culture which contained two types of bacteria (G +ve and G- ve), I prepared a stock culture for culture purification. Labelled the bottom of blood agar plate (nonselective medium) with my identification codes, then chose one of the unknown culture, opened the petri dish carefully without placing the top of dish down on the bench. I used the inoculating loop to gently swipe across an area of the bacteria to transfer from the dish to the loop and gently made three successive streaks of the bacteria onto the agar surface of the labelled plate. Incubated the plate at 35o C for almost a week, I kept checking it regularly until single colonies had grown. Then I made a subculture of a single colony on TSA slant, incubated it at 35o C after good growth, I removed from the incubator and stored at room temperature. After acquiring the individual colonies, I performed a gram stain test using EMB (eosin Methylene blue) and lactose agar plate. Collected bacterial colony from and streaked on the EMB plate and waited for some days to observe the result. The unknown bacteria was Gram negative. With G ââ¬âve result I had to carry more tests: Oxidase test, Lactose fermentation test, Indole test, Bile Esculin test, Motility test, Methyl Red -Voges Proskauer test, and Lysine decarboxylase test. Oxidase test: Obtained a liquid culture stock of my gram
Thursday, September 26, 2019
History of community policing Research Paper Example | Topics and Well Written Essays - 2500 words
History of community policing - Research Paper Example ator in the community. It refers to the change in philosophy regarding police duties versus community responsibilities to a team idea of complete quality management of the community (Worts, 2000). Arrington (2006) cites the ââ¬Ëmost often agreed uponââ¬â¢ definition of community policing by the United states Department of Justice (1997) as a philosophy of policing, which supports and promotes organizational strategies of dealing with the causes decreasing social disorder and crime fear by means of problem-solving techniques as well as community policing partnerships. He adds that proper community policing occurs cooperatively with the community being equal partners. Improving residentsââ¬â¢ life quality as well as making them feel safer should be the main objective of police. This idea led to the development of several diverse police tactics and strategies intended for the improvement of the relationship between the police and the community. The idea of community oriented po licing lies on the premise that reducing the fear of crime by citizens while at the same time forming a partnership between the community and the police is a meaningful police organizationsââ¬â¢ goal (Community oriented policing services, 2011). Samaha explains that in its description of community policing, the Community-Oriented Policing services 2004 (COPS) states that the focus of community policing is social disorder and crime by delivering police services, which includes facets of traditional law enforcement and prevention, community partnerships, and engagement, and problem-solving. COPS further states that the model of community policing creates a balance between reactive responses to call s for service and proactive problem solving focusing on disorder and crimeââ¬â¢s causes. The joining of both the citizens as well as the police as partners in recognizing and addressing those issues effectively is very important. COPSââ¬â¢ definition of community-oriented policing adds up to three elements. To start with, it entails the identification, analysis, response to, as well as the evaluation of community problems evaluation by focusing not only on specific crime and disorder incidences but also on their causes. Secondly, it entails incorporating other agencies of the government in addition to private community resources community service organizations as well as businesses with the aim of working on problems. Thirdly, it entails the working together of the police and the community to achieve the task of maintaining order, controlling crime as well as other social services to the social services to the public (Giles, 2002). The primary concern of community-oriented policing (COP) is developing a working relationship with the society. The idea behind it is that if the community partners with the police, increased security and crime reduction can result. COP stresses the fact that residents are the main line of protection against fear, crime, disorder a s well as the worsening of life quality in their vicinity. Therefore, residents, in community-oriented
Differentiated Instruction In the Classroom Research Paper
Differentiated Instruction In the Classroom - Research Paper Example At the California Montessori Project Charter School teachers use differentiated teaching methods that are based on Maria Montessoriââ¬â¢s philosophy of following the child. In other schools in Sacramento the teachers that will be interviewed will share their techniques for small group work. There are also academic programs, such as ââ¬Å"Handwriting without Tears,â⬠that provide differentiation written into the curriculum. Each of these curricula is creating a new pathway for teaching, specifically because of the positive results which are currently being achieved. To continue with this approach, are also several trying to refine and work forward with the learning approaches that are used. Purpose of this Study The purpose of this study is to define the approaches to differentiation as well as whether this will benefit students that are learning with specific approaches. When examining the differentiation in the classroom, there will be the focus on showing the accomplishmen ts, progression and potential problems associated with this approach. Defining this will benefit students, teachers and educators, specifically because there will be more knowledge and background on differentiation. This will be combined with the understanding that education can begin to progress and change for classrooms which are inclusive of alternative styles for teaching. The research will provide information from Gardner, Vygotsky and Montessori as some of the researchers working with differentiated instruction. The research conducted to support this paper will help teachers with new skills and knowledge to best support their students in the classroom. It will also work to identify more of the... The significance of the study is to prepare teachers to expand their horizons when it comes to instructional strategies that are evidence-based and a proven product. It is expected that through this study, there will be the capability of creating new approaches to teaching and learning. Understanding the benefits and the gaps of differential instruction can help to refine the new methodology of teaching while assisting those within the classroom to approach students in a different manner. If this methodology can begin to evolve and become a standard within the classroom, there will be the capability of creating new opportunities for growth in the educational system. This report makes a conclusion that the concepts which were used in the qualitative study, as well as the quantitative research show that there is a demand to change the overall instruction in the classroom. The theoretical approaches show that there are diverse needs, both with the socio ââ¬â cultural basis and with the cognitive learning capabilities which the children carry. This is combined with the needed changes associated with diverse settings which are now incorporating special education with gifted students, specifically because of the recognition that each student doesnââ¬â¢t have slower or faster learning abilities, but instead has different ways of learning. The theoretical concepts show that there are many associations with benefits and needs for differential instruction. While there is a strong need for the instruction, there are also questions over how to intertwine the theories with practical methodologies. The Montessori Method is one which has found explorati on as a main approach to the classroom.
Wednesday, September 25, 2019
The Social Media Essay Example | Topics and Well Written Essays - 500 words
The Social Media - Essay Example I support the view that ââ¬ËSocial media is constructiveââ¬â¢; it constructs relationships, it constructs oneââ¬â¢s knowledge, and it is beneficial from personal to professional levels. Those who are in the habit of using social networking websites are more knowledgeable than ordinary people. Social networking websites, to be specific ââ¬ËFacebookââ¬â¢ which is the famous website used in the world, helps in cross-cultural communication, i.e. we communicate with people not only from different cities of our country but also with people all over the world. This communication helps to develop understanding of different cultures, lifestyles and opinions of people. During the communication different people share different experiences in the form of narratives and we in return share our experiences, this therefore leads to development of knowledge about experiences, cultures and people. One of the main roles that Facebook plays is that of reconnecting people and older acquaintances. This reconnection is so simple that a limited knowledge about the target person is enough to re-establish a relationship. There have been multiple incidents where departed relatives have met again only because of the social networking websites. In words of Browling (n.p), social networking websites provide a mean of reconnecting to the past. ââ¬ËSpread the wordââ¬â¢ seems to be the major task of such websites. People create different communities and groups on Facebook. These groups can be any group based on any constructive idea promoting one common goal. Spreading the messages gets easier and faster through such websites. The examples are endless from all the corners of society, be it personal or professional. The point is clear that social media is more than a technology. It is a sub-culture adopted by the people around the globe. To conclude it can be said that this
Tuesday, September 24, 2019
Improving Speaking Skills of Non-Native Learners Assignment
Improving Speaking Skills of Non-Native Learners - Assignment Example Teaching speaking skills can be very challenging as well as very difficult. Learning to speak with proper grammar usage and pronunciation generally has a long learning curve. The ability to speak proper English is essential for being successful and in oneââ¬â¢s career. This essay would be discussing how to improve the speaking skills of non-native learners and make them speak more fluently and accurately and encourage them to acquire an English native speaker accent. In the essay, some important aspects which are discussed include the accent issues for non-native learners, the methods used by teachers to ensure quality learning, some of which are motivating the non-native learners, innovation of the teaching activities, using paused transcriptions and using regular supervision and feedback. Additionally, the importance of using the main conversational types as spoken message repetition; namely comprehension checks, comprehension checks and clarification requests, is elaborated in the essay. In order to tackle these aspects of life, proper communication in English is imperative. The non-native learners would also regularly need to communicate with employers, neighbors and colleagues in English. They might also have an objective of receiving higher education in a foreign country or get promoted in their jobs, hence for numerous purposes; non-native learners enroll for spoken English classes (Ignash, 1995). The non-native learners are sometimes successful in carrying out conversational English with sound grammar. However, their accent and intonation make their speech partly incomprehensible. According to Hughes ââ¬ËI have argued that because intonational meaning is central to a full understanding of spoken English, it deserves more attention in Applied Linguistics. If researchers are to better understand language acquisition, language production, listening comprehension, and discourse strategies in the context of communication as a whole, intonational meaning should be a central part of the program.Ã
Monday, September 23, 2019
Knowledge of management & Information systems Assignment
Knowledge of management & Information systems - Assignment Example Knowledge management can be described as an organisationââ¬â¢s ability to share, create as well as use the collective information about its processes, products as well as human resource for increasing workplace productivity and reducing activities that put the company in backward position. As organisations are seeking advantage in highly competitive markets, they are increasingly looking for an untapped resource which is knowledge of their employees and organisationââ¬â¢s resources (Alavi and Leidner, 2001). Problems regarding knowledge management can creep in various forms. These can be unsuccessful alignment of knowledge management strategies applied within the organisation. It can also be failure in understanding and incorporating knowledge management into the daily activities of individuals. Another major knowledge management issue faced by organisations in the current business environment is focussing knowledge efforts within organisational boundaries only. Wide disparitie s in maintaining up-to-date infrastructure as well as cultural diversity make knowledge management challenging and cumbersome, especially in developing countries. Though TPMT is based in United States, majority of its client base is in Africa. Thus, culture disparity and lack of technology and resources have created contextual issues for the company. Even though the company is able to meet human resource needs, cultural and infrastructural gap create major problems in the business operations. Thus, it can be concluded that cultural. and infrastructural gaps are the major knowledge management business problems faced by TPMT. Global Diversity in culture has reflective implications on the successful plan and implementation of various Knowledge Management projects. Thus, while creating organisational objectives, global organisational contexts such as, innovations and performance, should be taken into consideration (Avgerou, 2002). In the present case study, the company is facing problems such as, lack of commitment among directors as well as part-time workers in African countries. The directors also face difficulties in enhancing relationships among employees, customers and agents. It is evident that the organisation lacks engagement from the employeeââ¬â¢s perspective. Thus, establishing better interaction between organisation and its agents will help in building confidence and loyalty towards the company (Yue, et al., 2009). Web 2.0 Overview The term, Web 2.0, is used to describe various websites and their applications which allow users to create, share and update online information as well as other materials created by them. A major key element of this technology is that it helps individuals to create, collaborate, share and communicate. The major difference between Web 2.0 and other websites is
Sunday, September 22, 2019
The Crucible is both timeless and universal discuss Essay Example for Free
The Crucible is both timeless and universal discuss Essay The Crucible, first written and performed in 1953 as the work of Arthur Miller, was written through the perspective of a man living in an era of radical social and economical traumas. Miller wrote his play at a time when America was only just beginning to make its way past the suffering of the Great Depression and during the McCarthy Hysteria of the 1950s. His work is not merely heavily influenced by these outside affectations but it becomes evident to one observing the social and political climates of Millers time that these are in fact the inspiration for his creation. What Miller wrote was an artists answer to human suffering, not only through the hard times of the depression but also through the politics and in particular the ideological war on communism (and indeed all left-wing views), which was taking place. Such a war, Miller noticed, was comparable to the war which Puritan society waged on the Devil during the Salem with trials of 1962 and indeed such wars are equally comparable to Hitlers vendetta against the Jews during WW2. Such wars, such prejudices and long term states of disagreement, have been recorded since biblical times which described the Egyptians forcing the Jews into slavery. The fact exists that war is an unfortunate symptom of the human condition it is an inescapable side effects of what it means to be human. A central focus within the play is hysteria: The whole countrys talkin witchcraft Word of Betty and Ruths mysterious states spreads so rapidly throughout the village because the matter is one which is of concern to everyone in the village. People tell each other because it is a universal matter, not necessarily one shared by people today, but certainly one shared by Salems people at the time to a great extent: The whole worlds gone daft with this nonsense The reason that people react so severely to the situation is because they fear witchcraft in the same way that the society in which Miller was writing in, in 1952 feared communism. The hysteria surrounding the McCarthy incident is easily comparable to the Salem witch trials, because although the fear has changed with time and location the human nature remains the same and the human instinct to protect itself invokes a mass of people grouping together for protection against what is seen as a threatening group. In 2003 this can be seen even more clearly in the aftermath of the September the 11th incident when The Times printed the article: Is Arab a dirty word? Discussing how many people in America associated all those of Arabic descent with acts of terrorism. Once again this paranoia is invoked by a deep fear which has become integrated into the minds of the people in that society. Intricately linked to this are the ideas of good and evil within the play: Its Gods work we do Throughout the play many people, from Proctor not confessing to a lie, to Cheever taking the accused to what he knows may be their deaths, justify their actions through religion claiming that what they do, they do in Gods will and that is a healthy thing to strike out against those opposed: Let you strike out against the Devil Very similarly capitalist Americans in Millers era believed that they were doing good for the world in seeking out communists, who are portrayed by American society as being evil because they oppose capitalism in making the world a better place. In such a situation the commonly viewed good is capitalism where as its antithesis evil can be supposed to be communism. In 2003 the ordinary people of America view themselves as good people who do no great wrong, and yet are being attacked by terrorists. They see terrorism, or more generally the east and those of Arabic descent, as the evil of the world, because the moral framework imposed by society is not accepting of the taking of an innocent life. However, the girls know that those they are accusing are in fact innocent: Lies, lies It is also possible to suggest that later Danforth realises this but becomes part of the conspiracy in order to protect himself and his position: You know in all your black hearts that this be fraud Very similarly at the time of Millers writing senator Joseph McCarthy was accusing people within the government and authoritarian positions of being communists or sympathizers, and encouraging them to confess and name others. This is very much like the situation within the crucible when the girls knowingly blame innocent people because it is, again, in order to protect themselves. In 2003 corruption can be seen within the British and American governments who justified their invasion of Iraq by claiming that Saddam Hussein possessed weapons of mass destruction. However since that time, none have been found and many propose that none exist, but leading figures in the movement such as Tony Blair still knowingly untruly claim that Saddam possessed such items in order to protect their own reputations and positions. Show preview only The above preview is unformatted text This student written piece of work is one of many that can be found in our GCSE Arthur Miller section.
Saturday, September 21, 2019
Benefits Of Using Halophytes Environmental Sciences Essay
Benefits Of Using Halophytes Environmental Sciences Essay The continual increase in world population, coupled with the expansion of salt affected lands into agricultural lands, places additional pressure on global agriculture to produce enough food to feed the growing population. Salt-tolerant plants, namely halophytes, provide a sensible alternative to increase productivity in saline lands where traditional crops such as wheat and canola are unproductive. Halophytes can also be used simultaneously for land rehabilitation. This review covers the physiology of halophytes that enable them to thrive in a salt-stressed environment as well as their uses in food production and phytoremediation of saline or contaminated lands. Introduction Global population is expected to increase by 2.6 billion over the next 40 years to 9.1 billion. In order to meet this growing demand for food and fiber, global agriculture is tasked to increase its productivity by more than 110 %. (FAO, 2005). Expanding cultivation into new areas is undesirable mainly due to the detrimental environmental impacts associated with it. The removal and disturbances of these previously uncultivated areas can have wide ranging and long-term consequences to the terrestrial and aquatic ecosystems via deforestation and eutrophication etc. (Tilman, 1999). As such, improving crop productivity per unit area of existing cultivated land is critical to feed the growing population. However, due to land degradations of cultivated areas worldwide, agriculture is gradually being pushed to marginal and salt-affected lands. Globally, these saline lands cover an area of 831 million hectares, and spans all continents including Africa, Asia, Australasia as well as the Americ as (Rengasamy, 2006). In Western Australia alone, 6.5 million hectares of agricultural land are at risk of dryland salinity due to land degradation (ANRA, 2002), and traditional crops such as wheat and canola will then be unproductive to be farmed. Halophytes are plants capable of surviving and being productive in a saline environment. As such, halophytes can be grown in saline areas in which traditional crops falter, as well as in regions increasingly affected by dryland salinity. Although halophytes constitute a small percentage of the known plant population, they play a number of useful roles in the environment. The first part of this review focuses on the physiology of halophytes that allow them to succeed in a saline environment, and the second part discusses the potential uses of halophytes in increasing global food production, either directly as a food source or through their phytoremediatary capabilities. Halophytes are highly specialized and evolved plants capable of acquiring nutrients from a high salt environment in which glycophytes (salt-sensitive plants) are either unproductive or unable to survive. In this first part of the review, the physiology of halophytes, in particular ion compartmentation, production of organic solutes, salt glands and bladders, as well as leaf and shoot succulence is discussed. Physiology of Halophytes Ion compartmentation Intracellular cytosolic enzymes in both glycophytes and halophytes are equally sensitive to salt (Glenn and Brown, 1999). Under typical physiological conditions, high cytosolic K+/Na+ ratio is maintained (Tester and Davenport, 2003) to ensure normal cellular functions. The maintenance of this ratio in the plants cytosol is energy dependent, and is mediated by pathways for Na+ extrusion or by compartmentation of Na+ into the vacuole (Blumwald, 2000). Unlike glycophytes, halophytes have developed mechanisms to sequester excess Na+ into the vacuoles to avoid Na+ toxicity in the cytosol. The transport of Na+ into the vacuoles is mediated by cation/H+ antiporters driven by the electrochemical gradient of protons generated by the vacuolar H+ translocating enzymes such as H+-ATPase (Gaxiola et al., 2007). These transporters play an essential role in the sequestering Na+ ions into the vacuole or exclusion outside the cell of the halophytes, ultimately allowing them to tolerate much higher sa lt concentrations compared to the glycophytes. Production of compatible solutes Solute transport is a process regulated by environmental and endogenous signals. Environmental stresses such as salinity affects solute transport in plants and can cause changes in the partitioning of carbon and nitrogen. In addition to compartmentalizing extra salt in its vacuoles, halophytes can produce organic solutes. These osmotically active solutes are synthesized in order to maintain normal cellular functions in response to a drop in the osmotic potential within the plant (Glenn and Brown, 1999). Depending on the halophyte species, a variety of organic solutes ranging from proline, sucrose to pipecolatebetaine (Rhodes and Hanson, 1993) can be produced. Unlike inorganic solutes such as Na+, these compounds do not induce toxicity even at high concentrations (Ashraf and Foolad, 2007), and serves as a key adaptation to halophytes survival in a saline environment. Salt glands and bladders As an adaptation to saline environments, halophytes frequently have specialized structures designed for extruding salt from tissues. Salt glands and bladders play an important role in internal ion regulation by transporting ions away from the mesophyll cells to the leaf surfaces. Once deposited on the leaves, crystallization occurs and the salt crystals are washed or blown away. Salt glands Salt glands consist of several specialized cells and are located in the depressions of leaf epidermis. When grown in highly saline environments such as seawater, the excreted ions are typically Na+ and Cl-, and excretion increases with increased levels of salinity. Found in both halophytic monocotyledons and dicotyledons (Khan and Weber, 2006), these glands allow for massive amount of salt to be removed and are important organs for salt management. Salt bladders Salt bladders are derived from modified epidermal hairs and typically have a stalk cell and a bladder cell. Stalk cells serve as ion transporters from mesophyll cells to the bladder cells. As salts accumulate in the bladder cells, expansion occurs until they burst. The bursting action allows salt to be discharged on leaf surfaces. By accumulating salt in the bladder cells, ion toxicity is prevented from building up in the mesophyll cells and this constitutes an important mechanism for the protection of young leaves. This specialized organ is a common feature on the salt tolerant halophytes in the family Chenopodiaceae, and includes the saltbushes (Atriplex sp.) (Khan and Weber, 2006). Leaf and stem succulence Highly vacuolated and large cells resulting in fleshy or thick leaves and stems are a common feature in halophytes. Despite the poor understanding of the anatomical response leading to succulence, Na+ ions are believed to be responsible (Khan and Weber, 2006). Succulence is not confined to halophytes alone. Non-halophytic plants, such as the cotton, increase succulence when grown at a high salt concentration. Despite its succulence, plant growth is still impaired by high levels of salt. In contrast, the Atriplex spp., in conjunction with its salt bladders, utilizes succulence as additional storage for excess salts, and thus reduces ionic toxicity on the mesophyll cells. Saline agriculture Naturally salt-tolerant species are used in agriculture, mainly to provide forage, medicine, and aromatics (Qadir et al., 2008). In Australia, Barrett-Lennard (2002) identified 26 salt-tolerant plant species of potential economic value to agriculture. Examples of these useful halophytes include the potential oil-seed crops Kosteletzkya virginica, Salvadora persica, Salicornia bigelovii, and Batis maritime. Useful fodder crops include Atriplex spp., Distichlis palmeri and biofuels (Flowers et al. 2010). In addition, growing halophytic biofuel crops on saline agricultural land would help to counter concerns that the biofuel industry reduces the amount of land available for food production (Qadir et al., 2008). This second part of the review explores the potential uses of halophytes in the context of Australia in increasing food production directly as a food source or through their phytoremediatary capabilities in abiotic stress management. Saltland pastures Halophytes grown on saline agricultural land helps improve site productivity by providing ground cover to prevent erosion as well as increase the organic contents in saline soils. Atriplex species are now widely used throughout the Meditteranean areas, including Australia, for the purpose of rehabilitating saline land and to increase forage productivity. Saltland pastures provide fresh feed for the entire year, including the summer months in Australia. Furthermore, many studies have been done on halophyte species that can be used for fodder, in particular Atriplex nummularia, A. halimus and A. lentiformis (Choukr-Allah, 1997). These three species are now well established in the Meditteranean basin. When used in conjunction with deep-rooted perennials such as Eucalyptus occidentalis, halophytes can help to restore the hydrologic balance on areas affected by dryland salinity. This can potentially allow vast areas to be reclaimed (Barrett, 2000) and subsequently used to plant traditiona l crops such as wheat and barley. Halophytes as food sources Oilseed crops are grown for the oil contained in the seeds. Seeds of various halophyte species, such as Salicornia bigelovii, Haloxylon stocksii, and Halogeton glomeratus contain 70-80% of high quality and unsaturated edible oil (Ladeiro, 2012). A controversial species underutilized for its edible qualities is Diplotaxis tenuifolia (Rocket). Rocket is widely used in Europe where it is regarded as a delicacy. It is naturally adapted to Mediterranean-type climate, including saline and dry ecosystems. Rocket is able to compete strongly with other pasture plants and can reproduce via seeds and root fragments. Studies have shown that it is able to grow and reproduce at salinity levels of up to 300 mM NaCl, and can be grown at levels up to 100 mM NaCl without losing its nutritional values (Ladeiro, 1997). In Australia, however, rocket is regarded as an agricultural weed found mainly in poorer pastures in the Eyre Peninsular of South Australia and Victoria (DAFWA, 2007). Thus, if Rocket is to be used as a food source in Australia, proper containment strategies must be in placed to prevent it from spreading into unwanted areas. Halophytes in abiotic stress management Desalination of saline soil As dryland salinity increasingly affects huge areas of cultivated land, numerous physical, chemical and biological methods have been developed for reclaiming these saline soils (Shahid, 2002). Biological methods include crop rotation, inputs of organic manure as well as the use of salt-tolerant crops (Shahid, 2002). The ability of plants to accumulate huge amounts of salt is highly dependent on the capacity of their aboveground biomass (Rabhi et al., 2010). This ability is especially important in the drier regions of Australia where rainfed systems are used and rainfall events are not reliable enough to reduce the salt concentration in the rhizosphere (Shahid, 2002). Halophytes are the most important group of plants used in soil desalination due to its salt accumulating and salt-tolerant characteristics. High salt resistance, high aboveground biomass, and high degrees of economic utility (fuel, fiber, and oil seeds etc.) (Rabhi et al., 2010) are key requirements to assess a plants us efulness in desalination. Sesuvium portulacastrum is a naturally occurring halophyte species in western Australia. Most importantly, it is able to accumulate huge quantities of Na+ within its aboveground organs. In addition, Sesuvium portulacastrum has been used in other parts of the world for desalination of salt-affected lands (Patil et al., 2012) and should be studied further in the context of Australia for similar purposes. Phytoremediation In cultivated soils, contamination by heavy metals (i.e. Zn, CU, Cd, Fe, As, etc.) is a serious environmental problem. Throughout evolutionary history, plants have developed various detoxification mechanisms in response to allelochemicals produced by competing organisms. Thus, a biological method of rehabilitating contaminated lands utilize plants to decontaminate affected sites and is termed phytoremediation. Phytoremediation exploits the natural ability of plants to absorb, accumulate, storage and degradation of both organic and / or inorganic compounds. In this regard, halophytes show the most success in terms of adaptations to a variety of abiotic stresses including heavy metal stress. Mechanism of phytoremediation Physical removal and bioconversion of compounds by plants are termed phytoextraction and phytotransformation or phytodegradation respectively. Phytoextraction utilizes the plants ability to take up a range of chemical compounds through the root system, translocate them through the vascular tissues and eventually compartmentalizing these compounds in different organs such as leaves and stems. For a compound to be readily available to a plant, soil conditions e.g. clay content and pH play a crucial role. Incorporation of soil amendments e.g. lime has been shown to increase the availability of lead (Pb) and uranium (U) by more than 100-fold (Chen et al., 1998). Using this approach, successful remediation of agricultural soils contaminated with selenium (Se) in the US had been recorded (Eapen et al., 2006). Similarly, the Australian saltbush (Atriplex nummularia var. De Koch) has been successfully used in rehabilitating mercury-contaminated sites, with studies showing undetectable levels of mercury just 72 hours after plant introduction (Khondaker and Caldwell, 2003). The compartmentation of metals into the aerial organs of the plant allows for easy harvesting and can be processed to reclaim economically important metals or disposed off as hazardous waste in landfills. Phytochelatins (PCs) play a crucial role in phytodegradation and phytotransformation. PC production in plants is stimulated by the presence of heavy metals. PCs are metal-binding peptides and works by mobilizing heavy metal compounds in the cytosol and then sequestering PC metal complexes in the vacuoles of plant cells. Upon absorption of heavy metal compounds, PCs and enzymes such as e.g. oxygenase, peroxidases and reductases etc. are produced in large quantities. Degradation of these heavy metal compounds occurs and the biodegraded constituents are then converted into inert forms stored in the lignin or released as exudates (Watanabe, 1997). In phytotransformation, the absorbed heavy metal compounds are biochemically bonded by PCs and enzymes to cell tissues in inert forms where they are eventually compartmentalized (Watanabe, 1997). In Australia, great success in the use of native Halosarcia pergranulata to revegetate old mining areas has been recorded. Conclusion: Going into the future Sustainable agriculture is continuously threatened by the decreasing availability of freshwater and arable land. Global agriculture is pressured further by the demand for more food by the growing population. In addition, saline agriculture will be of particular importance to Mediterranean countries, including Australia, due to the widespread increase in soil degradation and unfavourable climatic conditions. With these issues, saline agriculture involving the use of halophytes plays a crucial emerging role. Halophytes have demonstrated their importance with is wide range of uses ranging from food production to phytoremediation of stressed environment. By growing and developing agriculture on marginal saline lands, halophytes can help augment the global sources of food, forage, medicine and plant-based chemicals for the growing population. By understanding the stress mechanisms in halophytes, the knowledge can be used in extracting valuable genes for transgenic manipulation in traditional crops.
Friday, September 20, 2019
The Report Of Hots Simulation Tourism Essay
The Report Of Hots Simulation Tourism Essay The main purpose of this report was to create a marketing strategy to increase the profit of the hotel. The hotel faced some difficulties with their operation and management. In order to improve those problems, the marketing plan needed to be identified and some market strategies should be formulated. The report comprised the marketing strategic plan for five years, which had been created after SWOT analysis. According to the strategies, the marketing plan had be designed an action plan which would specify activities implemented to accomplish the goals of organization. Through identifying and analyzing marketing strategic plan, the hotel could overcome their difficulties more smoothly. 2.0 Introduction 2.1 Company Background The traditional hotel was built in the 1950s and located on the seafront in a town, close to other hotels and a short distance from the main shopping centre and the nearest airport. There were good road, rail and bus links to major cities and other resorts. The hotel had 250 guest rooms with large, comfortable and vary in decorative style and standard. The hotel also provided several leisure facilities, 24 hours front desk, car parking. However, the business experienced its reduction stage by its inappropriate marketing strategy. Moreover, the business was greatly affected by competitive environment and high turnover rate of employee. 2.2 Competition Information There were three direct competitions existing in this area and competing for the same market. The Table 2-1 showed the information below. Table 2-1: General hotel information Hotel Star Rating Rooms Service Our Hotel None 250 A full service restaurant Pub bar with snack service A small swimming pool Car parking The Palace Hotel 4 Star 150 Ã⬠la carte Restaurant and Coffee Shop Two bars Health Club Conference and Business Bureau Car Parking to rear The Park Hotel 3 Star 200 Restaurant Bar Small Health Club Conference Facilities and Business Services Ample Car Parking The Mariner 2 Star 70 Restaurant Bar Two Conference Rooms Car Parking Source: HOTS background document Table 2-2: Price information The Palace Hotel The Park Hotel The Mariner Weekday Room Price à £125.00 à £89.00 à £69.50 Weekend Room Price à £90.00 à £42.50 à £65.00 Lunch Price à £33.00 à £25.00 à £19.75 Dinner Price à £59.75 à £43.50 à £36.75 Tours Price à £67.50/person à £46.25/person à £41.50/person Source: HOTS market research These properties provided similar facilities and service. Furthermore, they also focused on business needs providing conference facilities, and incorporate more leisure facilities than our hotel provided. 2.3 Aims and Objectives Aim: The aim of this report was to reduce the level of staff turnover and increase the revenue of hotel. Objectives To identify current approaches to reduce staff turnover. To determine marketing strategy to increase hotel operating margins To make conclusions and recommendations for further operation. 3.0 Strategic Planning Process Olsen (2007) mentioned that in order to create company strategic plan, it was necessary to go through the strategic planning process, including several important steps and activities. Although each company had different situation and challenge, strategic planning mode was appropriate to deal with complex work including forecasting and scheduling (Wheelen and Hunger, 2006). According to the book of Marketing Management, it provided a strategic planning process which consists of several steps such as SWOT analysis, goal and strategy, programme formulation and feedback and control, respectively (Kotler and Keller, 2009). A simplified view of the strategic planning process was shown by the following figure: Figure 2-1: Strategic planning process within a business unit Source: Adapted from Kotler and Keller (2009) 3.1 SWOT Analysis According to the strategic planning process, in order to analyze the hotel environment, SWOT analysis should be adopted in this report. Glaister and Falshaw (1999) mentioned that SWOT analysis has been ranked as the most frequently used approach for analyzing the environment. The value of SWOT analysis has been promoted because of its effectiveness in identifying the main problems concerning the organization and the simplicity of its execution (Hill and Westbrook, 1997). The main purpose of implementing a SWOT analysis was usually to offer a strategic direction for organization practices (Pickton and Wright, 1998). Moreover, Dyson (2004) claimed that the ability of SWOT analysis to integrate internal and external environments of an organization allows competitive strategy formulation more easily. Other benefits of SWOT analysis include its ability to organize information, enhance a managers understanding of the business and factors affecting its performance, and improve strategic pla ns for the business (Pickton and Wright, 1998). The following analysis demonstrated the internal strengths and weaknesses of the hotel and the opportunities and threats facing the organization in the external environment. Table 3-1: SWOT analysis Strength Weakness A short distance from the main shopping centre. The rooms are large, comfortable and vary in decorative style and standard. Near airport. Good road, rail and bus links to major cities and other resorts. Good conditions on refurbishment of rooms. Enclosed garden with a small swimming pool. Old building. No Leisure Facilities, Business Services, Conference Facilities or Meeting Rooms. Not have a star rating or AA Diamond rating. Serious staff turnover problem. Opportunity Threat The local authority decided to offer economic relocation package to small and medium size firms. The resort had become a popular location for conferences. Different kinds of popular festivals and well established tourist events were often held in the town. Convenient transportations. Too many hotels entered this market. Source: HOTS background document 3.2 The Goal of Hotel After environment analysis, the hotels goals were set up. Short-Term Goals To reduce staff turnover rate. To increase customer satisfaction. To achieve lower overall costs than rivals. To increase public awareness by advertising. To change the advertising strategies according to the environment changes. Long-Term Goals To achieve a bigger market share. To achieve lower costs relative to competitors. To achieve a stronger reputation with customers than rivals. To increase hotel operating margins. To improve the quality of hotel facilities by doing refurbishments. To improve the quality of staff services by providing training programs. Intended Strategy Selection Because of competitive environment in this area, the hotel should consider strategies for gaining a competitive advantage. This section was going to list several strategies for the hotel to achieve its aim and goals. 4.1 Competitive Advantage Due to the high expenditure of hotel, it should apply Porters generic strategy theory. Porter argued that core capabilities and intangible asset resources could formulate exhilarating competitive advantage for companies (Poter, 1980). Hofer and Schendel (1978) suggested that at the business level, the most vital component of strategy was competitive advantage, which was deà ¬Ã ned as the unique positions an organization develops vis-a-vis its competitors through its pattern of resource deployment and decisions of scope. Porter introduced three types of generic strategy for creating a defensible position and outperforming competitors in a given industry, included overall cost leadership, dià ¬Ã¢â ¬erentiation, and focus. After SWOT analysis and competition information, the hotel should eà ¬Ã¢â ¬ectively utilize overall cost leadership to create defensible positions against other competitor forces. A cost-leadership strategy could offer the hotel above-average returns because it enables firms to lower prices to match or beat their rivals and still earn profits (Philips, Chang and Buzzell, 1983). Moreover, from the perspective of customers, a cost-based marketing strategy was effective because lower price offerings appeal to customers in competitive environment (Li and Li, 2008). Through the influence on a hotels competitive advantage, it could allow hotel to reach its goals (Amit, 2006). 4.2 Promotion But, how do customers choose the hotel? It was not enough for the hotel to have good products sold at attractive prices. To generate sales and profits, the advantages of products had to be communicated to customers (Sunday and Bayode, 2011). In marketing, this was commonly known as promotion. Utilizing all possible tools for promoting the product and service was known as its promotion mix. Proper implement of promotional mix could increase the market share and improve organisation growth in the face of strong competition. (Sunday and Bayode, 2011) also claimed that the promotion mixes had a stage at which it would be most effective and advertising as well as publicity were usually suitable for all stages. Considering customer requirement in different quarter, advertising and publicity were usually adopted. Through market research, the information regarding seasonal demand and advertising effectiveness were obtained. The advertising campaign was changed which was based on these two pi eces of information. When there were high requirements on a particular item, the campaign would be focused on this particular item in order to draw more public awareness since there were several choices existed in the market. For instance, conference business, meal and liquor would be the hotel main advertisements during from Quarter 1 to Quarter 1 since it was one of the peak periods for business traveler (Figure 4-1). Figure 4-1: The hotel advertising decisions Source: Adapted from HOTS simulation 4.3 Internal Marketing High employee turnover was one of the most serious phenomena in the hotel. Arnett, Laverie and McLane (2002) pointed out that successful internal marketing strategy could lead to important payoffs for an organization. The value of internal marketing stem included low employee turnover rates, an increase in service quality, and high levels of employee satisfaction. The reduction in employee turnover could decrease the cost of recruiting and training and increase their level of job satisfaction. Furthermore, it also could increase employee satisfaction and motivate staffs to be more engaged and, as a result, they were more likely to take actions that result in improved customer satisfaction and hotel profitability. 4.4 Employee Training Employee training also could improve this problem and provide other benefits. The positive relationship among employee training, job satisfaction and intention to stay had been established (Conrade and Woods, 1994; Heskett et al., 1994; Roehl and Swerdlow, 1999). Training had been linked to improve self-esteem, reduce turnover, better product and service consistency, higher satisfaction of customer, reduce cost of business, and greater job satisfaction (Roehl and Swerdlow, 1999). Through employee training, the hotel could not only build customer satisfaction and loyalty, but increase the impact on profitability and growth, which was created by satisfied, loyal, and productive employees (Chiang, Back and Canter, 2005). 4.5 Balance Scorecard Successful performance resulted from goals achievement and strategy implementation (Wu and Hung, 2008). However, the main weaknesses of strategic management practice were usually associated with the stage of implementation. Actually, Mintzberg (1994) asserted that more than half of the strategies formulated by organizations were never actually implemented. Therefore, successful strategy implementation was not only dependent on effective strategy, but also management as well as control systems. Without control systems it was argued strategy implementation would not be implemented successfully. It had been suggested that the framework of performance management such as the Balanced Scorecard could, by forming the basis of strategic control systems and offering an important link between strategy and action, assist companies to accomplish effective strategic implementation. The Balanced Scorecard took into consideration the vision and strategies of company, focusing on both à ¬Ã nancial and non-à ¬Ã nancial performance. It monitored short-term à ¬Ã nancial performance while also highlighting the benefit of long-term à ¬Ã nancial metrics and competitiveness (Kaplan and Norton, 1992, 1996, 2001).This strategic control system ensured that the hotel effort put into preparing lengthy and detailed strategic plans was completely translated into action (Bungay and Goold, 1991). The scorecard measured firm performance across four balanced perspectives: financial, customers, internal business processes, and learning and growth (Atkinson, 2006). Figure 4-2: The Balanced Scorecard four main perspectives Source: Adapted from Atkinson (2006) The Balanced Scorecard could offer specific targets so that the hotel could know what to do (Corboy and OCorrbui, 1999); could motivate down the line leadership (Beer and Eisenstat, 2000; Alexander, 1985) and could clarify strategic intent into clear managerial actions (Reed and Buckley, 1988). If the Balanced Scorecard was executed completely itself, it could implement management in an evaluation of the strategic strategy and thus avoid planning errors and prevent oversight. 5.0 Performance Measures 5.1 Financial Performance First of all, training cost was one of the important elements for the hotel bankrupt. A wrong decision was made as mentioned. High training cost had been spent in Year 2 because employees always complained such as The training here is worse than the last place I worked. After increasing this cost, it did not take a turn for the better. Employees still unsatisfied and turnover rate were still high, so several weeks later, the hotel decided to increase the training spending per person, and this action leaded high expenditure. The full training spend was shown in Appendix 1. Second, advertising cost was a major expenditure in the hotel. A large amount of money was put into sales and marketing for the purpose of advertising. In low seasons, a cost control was conducted strictly. A cheaper advertising media was preferred rather than posting advertisement in Sunday Newspaper. For example, Local Weekly Newspaper for liquor advertisements was selected as promotion medium during five years. D uring peak season, more money was allocated in order to increase business traveler awareness. The most effective and efficient medium with higher costs would be chosen, such as Business Press for weekday and weekend room. Final, in the first week of Year5, a negative net income was occurred. The hotel was almost broken and running out of cash since conference facilities were conducted. A great amount of money was put into this facility (Appendix 2). This issue indicated cost control was not well in the hotel. According to the balance sheets of 5 years, a total current liability fluctuated significantly, but the total asset and the owners equity of the hotel decreased steadily from year1 to year5. The table of those items was shown down below: Table 5-1: Annual balance sheet Year 1 Year 2 Year 3 Year 4 Year 5 Total asset à £3,611,471 à £3,125,194 à £2,568,502 à £1,883,081 à £1,011,426 Total current liabilities à £85,464 à £106,929 à £84,000 à £104,693 à £64,390 Total owners equity à £3,526,007 à £3,018,265 à £2,484,502 à £1,778,388 à £947,036 Source: Adapted from HOTS simulation report The Table 5-2 and Figure 5-1 showed that the revenue was declining from year 1 to year 5. It was because after the hotel spent lots of money in the hotel rooms, facilities and promotion tools, customers still unsatisfied the service and usually ignored it. It was hard for the hotel to build up customer loyalty and receive more revenue. Table 5-2: Annual total revenue Year 1 Year 2 Year 3 Year 4 Year 5 Total Revenue à £1,839,580 à £1,238,893 à £1,097,280 à £949,309 à £910,448 Source: Adapted from HOTS simulation report Figure 5-1: Annual revenue and profit Source: Adapted from HOTS simulation report For net income, due to the increase in cost of sales, marketing, net income was decreased from year 1 to year 5. Moreover, the hotel had built many facilities to fulfill the market demands, a great amount of maintenance fees occurred. It caused a decrease in the hotel net income. It also conveyed that the hotel did not perform as well as previous, the profitability was decreasing. Table 5-3: Annual net income Year 1 Year 2 Year 3 Year 4 Year 5 Net Income à £341,988 à £-507,742 à £-487,182 à £-706,114 à £-831,352 Source: Adapted from HOTS simulation report In the past 2 years, total room revenue was increased by à £189,910 from year 1 to year 2. It indicated that the hotel could attract more customers successfully. However, between year 3 and year 5 the revenue was decreased (Table 5-4). It conveyed that there were several problems existed such as customer had walked past it but they had never noticed it. Table 5-4: Annual room revenue Year 1 Year 2 Year 3 Year 4 Year 5 Total Rooms Revenue à £463,547 à £653,457 à £595,299 à £543,476 à £523,456 Source: Adapted from HOTS simulation report FB department was the second largest revenue generator. It contributed almost 50% of total revenue of the hotel from year 1 to year 5. The table demonstrated a big increase from year 1 to year 2 as cost leadership strategy was adopted in year 1. However, in the following 3 year, no new strategies were applied and FB department revenue was decreased continually as the same as room department revenue (Table 5-5). Table 5-5: Annual food and beverage revenue Year 1 Year 2 Year 3 Year 4 Year 5 Total Food and Beverage Revenue à £349,009 à £542,118 à £459,638 à £365,980 à £348,745 Source: Adapted from HOTS simulation report As the Table 5-6 showed, occupancy rate was increased steadily from year 1 to year 5. The occupancy rate was only increased by 11% from year 1 to year 2. Besides, average room rate was decreased slowly from year 1 to year 5 since environment became more competitive. In order to compete with our competitors and increase occupancy rate, declining room rate was a must. Moreover, REVPAR had also increased slowly from à £15.9 to à £17.9, and the main reason was the effect of the competitive environment. What the hotel could do was to adjust the average room rate in order to control the hotel business. Table 5-6: Annual occupancy rate, average room rate and REVPAR Year 1 Year 2 Year 3 Year 4 Year 5 Occupancy rate 27.1% 38.2% 37.0% 34.5% 32.7% Average Room Rate à £58.76 à £58.74 à £55.31 à £54.16 à £54.82 REVPAR à £15.9 à £22.4 à £20.4 à £18.7 à £17.9 Source: Adapted from HOTS simulation report 5.2 None-Financial Performance Training was an important section in the hotel operation. Decisions were made according to different periods and market needs to allocate the numbers of staff in each department. And the range between the increase or decrease number of employee was à ±3. To the payroll of the employee, except the department heads were Brand 2 payments, the others were set as Brand 1. And this strategy was used from the first year to the fifth year. However, in week 62, all Brand 1 payments were changed in to Brand 2 in order to increase the employee satisfaction and reduce staff turnover. Training affected the employee quality in terms of the input of the training cost. Overall the five years operation time, training cost kept increasing each year. The hotel wanted to provide excellent service to their customer by increasing the staff quality. Better qualities of staff and service leaded to have positive feedbacks from hotel customers such like Service could not be improved much. Therefore, more pos itive feedbacks leaded to greater market awareness and share (Appendix 3). The hotel had serious staff turnover problems in several years and received not good comments from the customers such as You never see the same member of staff twice. However, after the hotel implemented the internal marketing and training, the staff turnover rate decreased significantly from 123.8% to 54.2% (Table 5-7). Table 5-7: Annual staff turnover rate Year 1 Year 2 Year 3 Year 4 Year 5 Staff Turnover 123.8% 65.0% 76.5% 118.2% 54.2% Source: Adapted from HOTS simulation report 6.0 Conclusion and Recommendations After spending 5 years to run the hotel, it was realized that there were many unpredictable incidents coming up, the management-team lacked flexible response to the upcoming challenges. Although the hotel finally bankrupted, the statistics demonstrated that the strategies had ever helped the hotel performance well in Year 2 and earned profit. The hotel market share also increased during a five-year period. Moreover, the management team solved the problem of employee turnover by increasing the training expense and salary. For future action, it suggested that due to the town had become a popular location for conferences, conference room should be built at first rather than the last year. This strategy could attract more businessmen and increased hotel competitiveness in this area. Furthermore, building conference room also had another advantage for the hotel, which provided extra facilities for customers to increase their satisfaction.
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