Use of genetically modified crops helps us to minimize the use of fertilizers and chemicals so that their harmful effects on environment can be reduced.For example- Bt cotton is produced by a bacterium called Bacillus thuringiensis (Bt for short). Bt toxin gene has been cloned from the bacteria and been expressed in plants to produced resistance to insects without the need for insecticides; in effect created a bio-pesticide. Examples are Bt cotton, Bt rice, tomato, potato, soybean.corn etc.
Biotechnology in agriculture can help reduce the need for chemical pesticides and fertilizers by creating crops that are naturally more resistant to pests and diseases. This can help prevent pollution of soil and water sources. Additionally, biotechnology can also lead to the development of crops that require less water, helping to conserve this scarce resource.
Since some biotech plants are pest resistant by design, they do not require the use of many pesticides or herbicides. When less herbicides are used, the soil is not damaged as much, and there is also less erosion.
In biotechnology, biological processes are used to manufacture products intended to improve the quality of life for humans. Some of the potential benefits of biotechnology are that there are lower production costs for the farmer, increased food production, and with the need for pesticides and fertilizers being reduced, biotechnology would be good for the environment. The potential risks of biotechnology include food safety risks, pests developing resistance to pest-resistant crops and/or changes in the nutritional composition in foods.
In biotechnology, the future is promising in areas such as personalized medicine, gene therapy, agricultural biotechnology, and biofuels. Advancements in technology and increased demand for sustainable solutions are driving growth opportunities in the field. Pursuing a career in biotechnology can lead to diverse roles in research, development, manufacturing, and regulatory affairs.
Since some biotech plants are pest resistant by design, they do not require the use of many pesticides or herbicides. When less herbicides are used, the soil is not damaged as much, and there is also less erosion.
Biotechnology in agriculture can help reduce the need for chemical pesticides and fertilizers by creating crops that are naturally more resistant to pests and diseases. This can help prevent pollution of soil and water sources. Additionally, biotechnology can also lead to the development of crops that require less water, helping to conserve this scarce resource.
Since some biotech plants are pest resistant by design, they do not require the use of many pesticides or herbicides. When less herbicides are used, the soil is not damaged as much, and there is also less erosion.
How the hell would i know? :| BTW i don't even understand some of the words :| :P
yes, they cause stress which could lead to strokes. Exams are a undercover weapon used by the goverment to decrease population. This could lead to a rise in drug use to cope with stress.
An increase in temperature, causing the gas particles to move faster and spread out more, resulting in decreased density. Additionally, a decrease in the number of gas particles in the balloon could also lead to a decrease in density.
If heat is transferred away from a gas, its temperature will decrease, causing the gas to contract or decrease in volume. This could lead to a decrease in pressure as well, possibly causing condensation or a phase change if the temperature drops low enough.
In biotechnology, biological processes are used to manufacture products intended to improve the quality of life for humans. Some of the potential benefits of biotechnology are that there are lower production costs for the farmer, increased food production, and with the need for pesticides and fertilizers being reduced, biotechnology would be good for the environment. The potential risks of biotechnology include food safety risks, pests developing resistance to pest-resistant crops and/or changes in the nutritional composition in foods.
Persistent pesticides are chemicals that remain in the environment and can accumulate over time in soil, water, and organisms. These pesticides do not easily degrade, which can lead to long-lasting environmental and health impacts. Examples include organochlorine pesticides like DDT and chlordane.
Cardiovascular fitness can lead to a decrease in resting heart rate.
Overuse of chemical fertilizers and pesticides, monocropping, excessive tilling, and improper irrigation practices can lead to soil degradation and infertility. These practices can lead to loss of essential nutrients, disruption of soil structure, and a decrease in beneficial soil microorganisms, making it difficult for plants to thrive.
Its annual profits decrease.
Demand decreases and supply remains the same would lead to a decrease in the price of a good.