Mineral salts (nutrients/ elements) are required by the plant in order for the ongoing metabolic processes within the cell of the plant.
Elements are normally divided into two groups (macro and micro); macro are used in large amounts and are basically the building blocks of the plant, micro are used in far less quantities, but are still important to the overall health and growth of the plant.
Macro include: Nitrogen, Potassium, Phosphorus
Micro include: Sulfur, Magnesium and Iron
Sulfur enters the bodies of animals through the consumption of plants or other animals that contain sulfur compounds. These compounds are broken down during digestion and the sulfur is absorbed into the animal's bloodstream.
Both plants in a sunny meadow and sulfur bacteria in a deep sea vent are primary producers, converting energy (sunlight for plants, chemical energy for sulfur bacteria) into organic matter through photosynthesis. They form the base of their respective food chains, supporting the ecosystem's overall productivity.
Plants cannot make protein from pure carbohydrate, because proteins contain nitrogen and sometimes sulphur. They get the nitrogen which they need from the nitrates in the soil. They get the sulphur from sulphates in the soil.
Cassia/Senna plants are the plants they seek first, to lay eggs. Their caterpillars eat the leaves and blooms of these plants. For flower nectar, they often choose plants with red and/or purple blooms.
Yes, nitrogen is an essential nutrient needed by plants to make proteins. Plants absorb nitrogen from the soil in the form of nitrates or ammonium ions, which are then used in the process of protein synthesis. Without nitrogen, plants would not be able to produce the proteins necessary for their growth and development.
You can effectively use sulfur in your vegetable garden by applying it in the form of elemental sulfur or sulfur-containing fertilizers. Sulfur helps lower soil pH, which can improve nutrient availability for plants and discourage certain pests and diseases. It is important to test your soil pH before applying sulfur to ensure it is needed. Follow recommended application rates and timing to avoid overuse, which can harm plants.
Some examples of medicinal plants that contain sulfur are garlic, onions, and horseradish. These plants are known for their anti-inflammatory, antimicrobial, and immune-boosting properties due to their sulfur compounds.
The sulfur cycle is important for nutrient cycling in ecosystems, as sulfur is a key element needed for the growth of plants and other organisms. This cycle involves the cycling of sulfur between the atmosphere, lithosphere, and biosphere through processes like weathering, decomposition, and the sulfur cycle involving marine organisms. Sulfur is also involved in the formation of important compounds like proteins and vitamins.
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Plants are less susceptible to ozone and sulfur dioxide. It is because they have a filtering mechanism.
Yes, sulfur can be extracted from certain plants that accumulate the element in their tissues. One example is garlic, which contains sulfur compounds that can be extracted through various methods such as steam distillation or fermentation.
Yes, you can spray your lawn with sulfur to lower the pH level of the soil. However, it's crucial to follow application instructions carefully to avoid harming your grass or other plants. Consider conducting a soil test to determine the appropriate amount of sulfur needed to achieve your desired pH level.
Plants like soybeans, tobacco, and several tree species such as pines and spruces are sensitive to sulfur dioxide pollution. When exposed to high levels of sulfur dioxide, these plants can experience leaf damage, reduced photosynthesis, and growth inhibition.
it is rich soil for the plants' roots
sulfur
Sulfur is primarily obtained from underground deposits such as sulfur mines or from natural gas and oil processing plants where sulfur is a byproduct of refining. There are also industrial processes that extract sulfur from minerals like pyrite or gypsum.
Sulfur dioxide is released from the burning of fossil fuels.