Farming and plant protection are segments of agriculture and forestry an independent area.
Agriculture involves all issues related to the production of food for humans and animals. Farming is the segment of agriculture that cultivates and farms fields to produce renewable raw materials. In addition to the targeted cultivation of crops, farming also involves maintenance and plant protection. Farming requires taking into account a wide variety of factors, such as managing fields with some degree of crop rotation. That means no field is cultivated with the same crop two years in a row. As a result, a variety of minerals are used, giving the soil time to regenerate. Plant protection is necessary in the farming industry in order to keep crops from withering and to protect them from pests and vermin. Shortly after the harvest, the soil is prepared for the next season. Farming, including plant protection, is often mentioned in the same breath as forestry, although this is inaccurate since forestry is an independent field.
The term "plant protection" was used within the farming industry as early as 1890. Plant protection is described as all measures aimed at preventing the damage and diminishment of agricultural crop output. The German requirements relating to plant protection for the farming industry are outlined in the plant protection law . Plant protection may be carried out only by those with the proper training and those who adhere to the basic principles of integrated plant protection and protection of the ground water. Plant protection is one of the core elements of farming because it ensures a high-quality yield and healthy human nutrition. A special form of plant protection entails measures to combat birds that cause crop damage. Species that pose a threat to farming include blackbirds and starlings. This type of plant protection utilizes optical or acoustic measures to drive the birds off. The farming industry receives assistance with plant protection issues through special information sources and also via financial help. Without plant protection, the farming industry would be less productive.Demarcation line between forestry and farming
Both forestry and farming involve the cultivation of renewable raw materials. The difference is that forestry is not focused on the financial aspect. Instead, the primary aim is the preservation and protection of the forests. Trees are thinned out when they are too close to other trees, when they die or if room for new plants must be made. Although forestry certainly has one eye on profits, the well-being of the forest is always the main objective. The importance of forestry and wood products is universally underestimated. Thanks to the forestry industry, we enjoy wood furniture, books and firewood. Forestry is a vital part of our lives, even if we don't actively participate. Forestry involves methodical work to keep forests alive. In Germany, there are three different forms of ownership: government, community and private. Despite the different forms, they all have to be managed with the principles of forestry in mind. Each German Bundesland (state) has enacted a state forestry law. The chief foresters are responsible for monitoring the implementation of the law. With the most forest acreage in Germany, Bavaria boasts the country's largest forestry operations.
The farming and plant protection industries contribute to a high quality of life and low product prices by maintaining the highest possible crop yield per field. While forestry places a high value on sustainability like farming and plant protection, the primary aim is still ensuring the health of the forests.
This special field deals with the primary production of human and animal foodstuffs as well as renewable raw materials. Also addressed are issues related to habitats for flora and fauna, recreation or landscape and common use.
Among other subjects, reports are available on topics such as crop and plant management, ecological farming, horticulture, viticulture, forest management and agriculture.
Kiel physics team observed extremely fast electronic changes in real time in a special material class
In physics, they are currently the subject of intensive research; in electronics, they could enable completely new functions. So-called topological materials...
Solar cells based on perovskite compounds could soon make electricity generation from sunlight even more efficient and cheaper. The laboratory efficiency of these perovskite solar cells already exceeds that of the well-known silicon solar cells. An international team led by Stefan Weber from the Max Planck Institute for Polymer Research (MPI-P) in Mainz has found microscopic structures in perovskite crystals that can guide the charge transport in the solar cell. Clever alignment of these "electron highways" could make perovskite solar cells even more powerful.
Solar cells convert sunlight into electricity. During this process, the electrons of the material inside the cell absorb the energy of the light....
Empa researchers have succeeded in applying aerogels to microelectronics: Aerogels based on cellulose nanofibers can effectively shield electromagnetic radiation over a wide frequency range – and they are unrivalled in terms of weight.
Electric motors and electronic devices generate electromagnetic fields that sometimes have to be shielded in order not to affect neighboring electronic...
A promising operating mode for the plasma of a future power plant has been developed at the ASDEX Upgrade fusion device at Max Planck Institute for Plasma...
Live event – July 1, 2020 - 11:00 to 11:45 (CET)
"Automation in Aerospace Industry @ Fraunhofer IFAM"
The Fraunhofer Institute for Manufacturing Technology and Advanced Materials IFAM l Stade is presenting its forward-looking R&D portfolio for the first time at...
07.07.2020 | Event News
02.07.2020 | Event News
19.05.2020 | Event News
08.07.2020 | Health and Medicine
08.07.2020 | Medical Engineering
08.07.2020 | Physics and Astronomy