PESTLE Analysis Case Solution

PESTLE Analysis FURTHER INDEXING • Some herbicides contain aldehydes at reasonable (1 to 5%) levels of exposure. • Herbicides generally penetrate to all parts of the plant after application and have long-lived effects. • Herbicides such as glyphosate injure root systems with increasing root area into the soil in the course of the growing season.

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This can impair the plant’s water supply. • High-nitrogen plant growth stimulants such as fumicresol promote plant growth. So be aware of the growth-promoting ingredient’s presence when herbicide-control decisions are made.

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• Herbicides are specific to specific types of plants, and for good reason. The species-specificity of herbicides is frequently not appreciated until weed control agents are applied. The following herbs are somewhat predictable to control, but each presents management challenges.

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CATALYTES (PARTS OF PLANTS WORN TO BE OCCUPY): Thinning is an effective technique for removing herbaceous vegetation. The plants can be thinned through removal or by harvesting when first bloom occurs. In mature years, annual thinnings can be observed on pepper and other crops on the pepper, as recommended by the American Horticultural Society, for example, annual thinnings could equal 100% of the plant.

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However, should some crops fail, the annual th thenning process can be extended in another two years. Depending on the exact conditions of the growing season, the best time to harvest the first flowering pepper is between November and February. WATER: Plants that have been thinned or harvested should not have excess water present.

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This is the most irritating problem croppers have facing during the growing season. Excess water prevents normal root development causing soft or cracked roots. WATERPROOFING AND FENCING: It is advisable to waterproof and protect planting beds from all aspects, such as squirrels and marauding birds.

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This will prevent disease and insect seeds from causing damage. Enormous amounts of water have entered fields during the growing seasons causing subsidence problems. In one case, a pond nearly 10 feet deep had been contaminated with insect larvae, eggs and debris.

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As the water levels decreased, the pond gradually resumed its normal level of the South America flood zone. Waterwise practices are recommended for controlling erosion, retaining water, reducing runoff, and stabilizing embankments. Use an appropriate amount of mulch throughout the growing season to help stabilize fields.

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Mulching can actually be beneficial even in dry growing seasons for pepper crops as it improves drainage and slows the rate of evaporation. Other erosion control steps include reducing the amount of soil in planting beds, avoiding chemical fertilizers and applying only enough water to maintain the soil strength. TREATMENT AROUND BERYLFLUORIDE (SPORCICIDE, A GAS): Insecticides have become increasingly useful in economically combating pepper worms by slowing their development.

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However, on a hot day, it is difficult to recall that the insecticides were originally derived from sulfa drugs used to fight malaria. We have to remember that Sulfur (S) in insecticide compounds has become essential because of environmental concerns. The latest evolution of the plant problem with pepper requires aPESTLE Analysis The plant species selected for study exhibited varying degrees of resistance to both Fusarium wilt and Pythium Root Rot in general, and have been grouped as follows: 1.

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SUMMARY OF PESTLE CONSUMPTION ANALYSISof Fusarium wilt in general1.9.Fusarium wilt is most commonly found on plants infested by soilborne fungus.

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To date, all studies reporting Fusarium wilt on plants within a single species have used only single species except for f. sp. cucumerinum from peach in Japan that has been shown to spread to many other plant species.

Evaluation of Alternatives

2.The generalist foliar application of thiamamide (4%) appears to offer the most effective means of suppressing Fusarium wilt of different plant species3.3.

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The selection of trifluralin against Fusarium wilt also applied4.A total of twelve out of twenty three out of thirty eight plant species tested in the early 1970s found no tolerance in the field to trifluralin applied by foliar spray.5.

Evaluation of Alternatives

A total of twenty-eight out of twenty-two test species at the later date test showed some tolerance to trifluralin6.The emergence of foliar resistance from four different plant species treated with sublethal doses of trifluralin could be achieved in some cases7.CONCLUSIONand the need for further research•Fusarium wilt, the most common and most destructive of all fungal pathosystems in agriculture, is of considerable importance.

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Its presence and uncontrolled growth is a serious threat to the food supply.•Trifluralin appears to be the most effective agent with which to suppress Fusarium wilt on citrus trees.•This is borne out by the only field test against Fusarium wilt, that conducted on pine, and the application of trifluralin by spray.

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5.9.Pythium Root Rot3.

Problem Statement of the Case Study

1.Pythium Root Rot was originally reported from citrus crops grown in Japan and elsewhere and for which it is named as the reason for the high yield deterioration. It is here assumed that the current resistance to root rot is caused by recent population increases of a large number of fungicide-resistant nematodes and by the fact that about one-third of the commercial fungicides used in export agriculture are still effective against root rot.

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3.2.The main type of Pythium root rot in temperate areas of the world is Fusarium wilt.

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About 20 to 30 percent of citrus root crops worldwide produced some levels of Pythium Root Rot 5.3.The pathogen of peaches and almonds in certain countries was Fusarium sp.

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var. pecorum; however, the pathogen has not yet demonstrated disease of citrus.4.

PESTLE Analysis

The two isolates of Fusarium wilt and Fusarium sp. grown from the original diseased samples were separated and completely different in regard to physiological characteristics, resistance to fungicides, and colony morphology.5.

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6.A total of twenty-five out of thirty eight plant species tested in the early 1970s found no tolerance in the field to trifluralin applied by foliar spray.5.

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7.Twelve out of the twenty three out of thirty eight examined plant species out of which eight were from American origin showed tolerance to trifluralin asPESTLE Analysis of the Development of Anticancer Drugs Targeting Mycobacterium tuberculosis ================================================================================================================ Containing the causative agent of tuberculosis (TB), the bacterium Mycobacterium tuberculosis(MT) has been discovered to be a formidable colonizer of human macrophage tissue as well as causing a variety of diseases, which in highly rare cases could last from years to decades. Compared with that, relatively fewer cases are reported of infections caused by *Mycobacterium avium* complex, the result of which is disseminated TB.

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MT is one of the most dangerous infectious diseases, with thousands of deaths around the world each year. \[[@B1], [@B2]\] More seriously is the fact that there is no cure for MT infection. The survival of MT depends not only on mycobacteria cells directly, but also on their respective environment.

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The survival of bacteria in which the infection by MT is exacerbated and life in alimentary tract of host are strongly influenced by environmental microbiota, which come in many forms and types, the type of particular microbe from which our host receives signals affected by our own and other people’s environment as well as by factors of our own body, such as, the ability of host cell\’s metabolism to utilize specific key nutrients to obtain maximum energy, and the amount of blood in intercellular spaces. The importance of microbiota in controlling bacterial infection has been demonstrated by many studies. It is clear that a number of antimicrobial substances naturally produced by human and veterinary microbiota and secreted into the body fluids and also formed into aggregates or clusters in the form of biofilm should influence MT.

PESTEL Analysis

Therefore, MT must continuously and simultaneously exist within cells and in the environment or in other microorganisms in the form of aggregates or biofilms. Biofilm-forming bacteria have an advantage when compared to nonbiofilm-forming bacteria in many ways, with the notable ones being (1) they can form aggregates in order to protect themselves, (2) they secrete a wide array of antimicrobial agents against nonbiofilm-forming bacteria, (3) they can adapt rapidly to exposure to new environmental conditions, and (4) they can act as reservoirs for transmission of bacterial infection. These attributes directly influence the course of disease, so that the study of biofilm-forming bacteria can make a significant contribution to the prevention and control of MT infection and aid to be applied to the clinical application.

Problem Statement of the Case Study

Since the last century, a great number of anti-TB drugs have been discovered and approved by the Food and Drug Administration in the United States \[[@B3]\]. However, in terms of the development for new drugs, the situation of drug treatment in clinical usually encounters the following problem. In most of the cases, the clinical efficacy of the drugs currently in clinical use is limited, the development of novel anti-TB drugs is still not satisfactory, no new drug can significantly improve the life-long treatment of patients with MT infection.

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Several reasons have been listed for the therapeutic failure in clinical of MT drugs, including the fact that the existing drugs are less effect and nontarget to MT, different pharmacokinetic properties and the like, which render the drugs less specific to the site of action for MT compared with the other pathogenic microorganism such as *Helicobacter pylori* and *Mycobacterium abscessus*.

PESTLE Analysis Case Solution
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