of course yes , you can increase the yield of your any crop if you will use organic farming....it has no pollution and can help your soil be full of nutrients..
improved nutritional contentincreased crop yieldsreduction of pesticide use>>>>>>>>>all of these
AnswerThe three types of genetic engineering are:Applied genetic engineering which includes cloning and transgenesis.Chemical genetic engineering which includes genes mapping, gene interaction, and genes codingAnalytical genetic engineering which includes computer mapping.
i don't know help me please so i can get a good grademaybe you should look in the TEXTBOOK! that's what I did. it should be on page 341 of your text book. read the defention. its really simple, genetic engineering is messing with the DNA to improve it. so the benefits of engineering plants genetically could be making them healthier, or to grow faster and to be more efficient. don't take that answer it might not be right, hope that helped. -Hannah Hi, my answer might be beneficial to this question:"It may take many generations of breeding for a trait to become homozygous and consistently expressed in the population. Genetic engineering is a faster and more reliable method for increasing the frequency of a specific allele in a population."I received this answer from page 341 in my Glencoe Biology textbook.Good luck on your journey to learning!
Add bacteia genes to crop plants can improve plant species :)
Doug Gurian-Sherman has written: 'Failure to yield' -- subject(s): Plant genetic engineering, Agricultural biotechnology, Crops, Genetic engineering, Plant biotechnology, Transgenic plants, Transgenic organisms, Crop yields
of course yes , you can increase the yield of your any crop if you will use organic farming....it has no pollution and can help your soil be full of nutrients..
Pesticides increase crop yield by controlling pests that can damage crops. By reducing pest damage, pesticides help plants grow healthier and produce a higher yield. This leads to more efficient crop production and better overall harvests.
The increase in population due to Urbanization has required an increase in agriculture to feed the growing population. This has led to innovations in farming practices - such as irrigation, crop rotation, and genetic engineering.
Genetic engineering is the process of altering an organism's genetic makeup by introducing specific DNA sequences into its genome. This technique allows scientists to modify traits or characteristics of an organism, such as increasing disease resistance or improving crop yield.
to destroy plant pests and to increase crop yield
Genetic engineering techniques have been applied in numerous fields including agriculture. One of the best-known applications of genetic engineering in agriculture is genetically modified organisms.
Recombinant DNA technology involves combining DNA from different sources to create new genetic material. In genetic engineering, this process allows scientists to insert specific genes into an organism's DNA, altering its characteristics or functions. This can lead to the production of desired traits, such as increased crop yield or disease resistance.
When annual temperatures increase sharply above the ideal crop temperature, it can cause a decrease in a crop's yield. Likewise, other factors like an increase in carbon dioxide levels can cause an increase in the growth of crops.
Lara Wiggert has written: 'Biotechnology, genetic engineering for crop plant improvement' -- subject(s): Bibliography, Crops, Genetic engineering, Plant biotechnology
Soil testing, Crop Genetics, Seed spacing, Irrigation
Genetically Modified Crops.