Over the years, new innovations, ideas, and emerging technologies have transformed our society and our daily lives. These new discoveries have not only been developed to help make our lives easier, but to also help us live longer and stronger lives. Living in a world that continues to evolve, creates opportunities for new innovations and breakthroughs to arise within our society. Genetic engineering is just one of many examples of the advancements that young, intelligent minds have developed throughout the years. Genetic engineering is defined as “isolating a desirable gene” and injecting it into a plant or organism to produce “a desired characteristic” (Nutrition & Weight Control for Longevity, 2005). This biological technology has provided many advancement opportunities “for several industrial sectors such as agriculture, food manufacture and pharmaceuticals” (Rastall, 2002). Along with everything else in life, genetic engineering has some upsides and downsides. Today I am going to discuss the positive and negative outcomes that genetic engineering is recognized for in the agricultural industry.
One industry that plays a vital role in our society is the agricultural industry. The agricultural industry is responsible for the growth of all our valuable crops such as cotton, corn, fruits, other vegetables etc. These crops are planted and then gathered to be sold to consumers. These primary resources are important to our daily lives because they are valuable sources of food and clothing, which are highly needed for our survival in life. Over time, it has been discovered that genetic engineering in plants can be an alternative way to “alter a plant’s genetic makeup” (Nutrition & Weight Control for Longevity, 2005). Why would we want to alter a plant’s genetic makeup? Well, the main reason is to “produce a desired characteristic or weed out an undesirable one” of a plant (Nutrition & Weight Control for Longevity, 2005). Approximately “75% of processed foods contain at least some genetically engineered ingredients” (Nutrition & Weight Control for Longevity, 2005). In the United States, soy beans, cotton and corn are among the many crops that are genetically modified to “resist common herbicides” (Nutrition &
“Sixty to seventy percent of all processed foods available on store shelves contain genetically modified ingredients”, according to George Erdosh and Marcia Amidon Lusted in “To GMO or not to GMO? Genetically engineered food has strong advocates and harsh critics.” Genetically modified organisms can be found in most conventional foods processed in the United States, and genetic modification of crops is extremely common on classic Minnesota farms. Crops such as corn and soybeans or even papaya and zucchini are viable for genetic modification. In fact, the definition of (GMO) as reported by Alex K. Rich and Tom Warhol, authors of “Genetically Modified Foods: An Overview,” is, “food in which, at some point during the production process molecules and proteins are chemically altered to give the food more nutrients, a better appearance, and a longer shelf life.” As a matter of fact, a majority of all the foods found at the grocery store are genetically altered. However, many people do not know what genetic modification really is, or that the idea has been around for many years. GMOs are used to control pests and weeds. Therefore, through changing the genetic makeup of the plant, modifications allow for advancements of new technologies that account for the applicability of specific chemicals, as opposed to dated Non-GMO farming techniques.
Genetic modified organisms, or GMOs, are living organisms that, through the genetic engineering process, have been altered to withstand certain chemicals and increase the nutritional value of the product. In fact, the majority of the foods found at the grocery store are genetically altered. Genetic modification is becoming increasingly popular on farms throughout the United States and moving into other parts of the world due to their increasing yield capabilities and pest and weed control. However, this has been, and continues to be, an extremely controversial topic of discussion in the world of agriculture and biotechnology, as well as health food critics, because of potential environmental and health risks.
Genetic engineering is the deliberate modification of the characteristics of an organism by manipulating its genetic material, otherwise known as DNA. Since biochemists Stanley Cohen and Herbert Boyer pioneered genetic engineering in 1973, the process has grown to have numerous applications such as medicine production, for example insulin (Mckinley). However, a main topic of concern is the application of genetic engineering on foods that we eat everyday. By modifying the genetic "blueprint" of crops, it is possible to improve many aspects of agriculture. But with any sort of scientific discovery that allows humans to act as Mother Nature, genetically modifying organisms has been a very controversial topic. Yet our society continues to grow, and the need for the benefits of genetically modified foods continues to grow. Genetically modifying foods should be permitted in our society because it allows larger yields of crops to be produced, produces foods with higher nutritional values, and reduces our global ecological footprint.
“Sixty to seventy percent of all processed foods available on store shelves contain genetically modified ingredients”, according to George Erdosh and Marcia Amidon Lusted in “To GMO or not to GMO? Genetically engineered food has strong advocates and harsh critics.” Genetically modified organisms can be found in most conventional food processed in the United States., and gGenetic modification of crops is extremely common on classic Minnesotan farm plants, such as, corn and soybeans. They can also be found in papaya and zucchini, even animals such as cows and pig. In fact, the definition of (GMO) as reported by Alex K. Rich and Tom Warhol, authors of “Genetically Modified Foods: An Overview,””, is, “food in which, at some point during the production process molecules and proteins are chemically altered to give the food more nutrients, a better appearance, and a longer shelf life.” As a matter of fact, a majority of all the foods found at the grocery store are genetically altered. However, many people do not know what a genetic modification really is, or that the idea has been around for many years. GMOs are used to control pests and weeds. As the opposite of Non-GMO farming, this is accomplished by changing the genetic makeup of the plant, by using new technologies and techniques that allow for the use of specific chemicals.
Genetic Engineering has a multiplicity of uses in agriculture. It can be utilized to increase crop output, resistance to pest and diseases, and enhanced growing conditions. Sagoff states “Genetic engineers can help peasant societies by engineering plants and animals to stand up to the challenges of local conditions, such as blights that affect yams and other traditional crops” (14). The article “Biotechnology and Agriculture: The Common Wisdom and Its Critics.” by Sagoff. Discusses how genetic manipulation of crops would be of major benefit in developing countries, primarily because said countries can 't grow enough food to suffice the populous. Genetic manipulation of plants can make food easier to grow in these countries.
Genetically modified crops are an incredibly important issue that everyone should be aware of since it is something we are exposed to at a daily basis. Genetically modified crops also known as GM crops or Biotech crops has been one of the most heated debates of issues within our society. The debate about the safety, concerns and disadvantages of GM crops have raged since the mid 1990 's but this is due to the lack of knowledge of the general public. Many people are unaware of what the GM crops actually are and what they offer. Genetically modified crops are plants that are used in the agriculture and have been modified to initiate a new trait to plants that does not happen naturally in the species. These plants are modified using genetic engineering techniques to enhance desired traits. GM crops are made when genes of commercial interest are transferred from one organism to another.() There are many methods used for the production of GM crops but the two primary used for plant insertion are gene guns and agrobacterium tumefaciens. There are also three types of modifications which are transgenic, cisgenic, and subgenic plants. However, there are a number of issues that surround this controversial topic such as environmental, health, and economic concerns. Even though there are some worrying facts about GM crops people don 't realize the advantages or the ways it has helped humans as well as animals. There are many reasons why GM crops are proven
Humanity’s advancements over the course of history have been due to major technological milestones. Of these milestones, arguably the most important has been the advent of agriculture. Agriculture has allowed humans to store food in surplus which frees them from slaving in fields and allows focus on more scholarly and artistic pursuits. As time has progressed, agriculture itself reach important advances, from selective breeding to artificial fertilizer. However, one of the most recent advances in modern times has been met with suspicion and distrust. Genetically modified organisms, commonly referred to as GMOs, have begun to be used in commercial agricultural and their widespread use in food for humans and livestock is on the rise. Many
Biotechnology provides farmers with tools that can make production cheaper and more manageable. For example, some biotechnology crops can be engineered to tolerate specific herbicides, which make weed control simpler and more efficient. Other crops have been engineered to be resistant to specific plant diseases and insect pests, which can make pest control more reliable and effective, and/or can decrease the use of synthetic pesticides. These crop production options can help countries keep pace with demands for food while reducing production costs. The USDA also mentions the fact that they are still trying to discover new methods to help the U.S. Often people worry about the negative rumors of what happens to crops when Genetically engineered plants are being grown. Genetically engineered plants are also being developed for a purpose known as phytoremediation in which the plants detoxify pollutants in the soil or absorb and accumulate polluting substances out of the soil so that the plants may be harvested and disposed of safely. In either case the result is improved soil quality at a polluted site. Biotechnology may also be used to conserve natural resources, enable animals to more effectively use nutrients present in feed, decrease nutrient runoff into rivers and bays, and help meet the increasing world food and land demands. Researchers are at work to produce hardier crops that will flourish in even the harshest environments and
While manipulating the genetic structure of plants and animals has led to an increase in obesity, pollution, and long-term health problems in humans, it has benefited the human population overall in that it has decreased the cost of food, improved the efficiency of civilization, and has solved the problem of hunger in areas of the world where agricultural genetic modification has been implemented. At this moment in time, it can be contended that Mill would have agreed that the costs of genetic engineering have outweighed the benefits to society. Genetic engineering has produced the most overall utility for civilization, even though it may have produced less utility for some individuals who suffer from some of its adverse effects. Accordingly, these adverse effects will likely decrease over time as scientific discoveries continue.
themselves, their children, and others. He argues both sides of the issue and lays out the pros
The risk of genetic engineering to the human health differs greatly from the conventional selective breeding method, because in contrast to humans and animals, the process of genetically engineering foods contains exclusive chemical enzymes and selective genes from a specific organism. According to, Genetically Engineered Food, by Ronnie Cummins, the original cell is cut, molded and given a copy of a resistance gene; then artificially penetrates the plant cell, instantly becoming immune to combating insects and chemical pesticides. The corporations of genetically engineered seed companies “are pushing for herbicide-resistance genetically engineered seeds”(Cummins, 25), which eliminates threats to the plant. The brilliant idea has lead manufactures
The issue of producing and consuming genetically altered foods is controversial. Changing the natural content of plants and animals has negative impacts. For instance, genetically altering the DNA of plants or animals have a possibility to create allergens into a food, which results in allergic reactions. Environmentally, genetically modified crops have disadvantages. Plants can be modified to be pesticides and herbicide tolerant. Hence, when plants are sprayed with chemicals, those chemicals contaminate the surroundings. Besides, the chemicals are toxic to some pollinators, this results in the reduction of pollinators, which contributes to the decrease in genetic diversity in crops. The reduction in genetic diversity of plants disrupts the
“70 percent of our corn farmland and 93 percent of soy farmland are planted with crops genetically engineered to resist pests and herbicides and increase crop yields. 60% of all the processed foods in the United States are genetically modified; a shocking statistic has the concern of many Americans. However, most people are uninformed about the beneficial impact that genetically modified food has on their diet. GM is the use of molecular biology technology to modify the inherited structure of organisms. Genetically engineered crops increase nutrients, drought tolerance, provide more food for growing populations, and resists diseases and pesticides. Genetically engineered foods are crucial to the improvement of economy, agriculture, society, and health choices. The creation of GM foods was one of the most significant breakthroughs in food industry. Genetically modifying foods is a key component that is harmless for the enrichment of our foods.
Genetic engineering is the process whereby new DNA is added or existing DNA is altered in an organism 's genome. This may involve changing one base pair (A-T or C-G) or deleting entire sections of DNA or adding additional copies of a gene. This results in creating new traits that were not previously present in the organism’s genome. This is done to selectively breed desired traits or to create plants with increased resistance to pesticides and increased tolerance to herbicides. For example insulin is a protein that regulates sugar content in our blood and is produced normally in the pancreas. Genetic engineering is used to produce a form of insulin that is similar to yeast and bacterial cells. This genetically engineered insulin is called
In medicine, genetic engineering techniques have been used in manufacturing drugs, vaccines, and genetically engineered viruses that lack infection, and instead give the host in which the virus enters an immunity sequence, via the vector virus. This form of genetic engineering has allowed for the production of many vaccines, as well as hormones, such as human insulin. Through genetic engineering, animal models have also been created, allowing scientists to study, better understand, and eventually cure, conditions such as heart disease, obesity, cancer, Parkinson disease etc. (Grace Communications Foundation, 2017).