According to the context, phosphorus may enter into the phosphorus cycle by humans that use fertilizers into the groundwater.
It is the circuit that describes the movement of phosphorus within a given ecosystem.
Thanks to terrestrial water currents and the water cycle, part of the phosphates are stored in seas and oceans, fertilizers provide excellent nutrition to the soil, this is washed by rainwater or irrigation, draining into water deposits , rivers or the sea.
Therefore, we can conclude that according to the context, phosphorus may enter into the phosphorus cycle by humans that use fertilizers into the groundwater.
Learn more about phosphorus cycle here: brainly.com/question/15020567
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The most common form of entry of the phosphorus is by human use of the fertilizers which is released into the groundwater.
Most of the fertilizers being used in agriculture contains nitrogen and phosphorus which is carried to the aquatic ecosystem through surface runoff. When the tropical rainforest are cut down by humans and fertilizers are being used in large amounts the nutrients stored in plants or rocks are washed by the heavy rains and they reach groundwater or other water bodies. Therefore, the humans alter the natural phosphorus cycle majorly in several mentioned ways.
Haze-effect cooling is the correct term for blocked sunlight and reduced solar radiation as a result of a volcanic eruption. It leads to temporary climate cooling with lower global temperatures.
Volcanic eruptions release large amounts of ash and gases into the atmosphere. The ejected particles reflect sunlight, leading to temporary climate cooling. Sulfur dioxide converts to sulfate aerosols, contributing to the formation of reflective clouds, impacting global temperatures for months to years.
The correct term for blocked sunlight and reduced solar radiation as a result of a volcanic eruption is haze-effect cooling. When dust and ash particles from a volcanic eruption block out sunlight and reduce solar radiation, Earth experiences haze-effect cooling, which results in temporary climate cooling. This phenomenon is characterized by lower global temperatures and can last for one or more years before dissipating in intensity.
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The correct term for blocked sunlight and reduced solar radiation as a result of volcanic eruption is haze-effect cooling. This phenomenon occurs when materials from volcanic eruptions, such as ash and sulfur dioxide, block sunlight and reduce solar radiation, leading to temporary global cooling.
When dust and ash particles from a volcanic eruption block out sunlight and reduce solar radiation, the phenomenon is referred to as haze-effect cooling. This occurrence temporarily reduces global temperatures, leading to a period of climate cooling. Volcanic eruptions emit various solids and gases, such as sulfur dioxide and ash particles, which stay suspended in the atmosphere for months or even years, causing the sun's radiation to be reflected away from Earth's surface.
Examples of this can be witnessed during the 1783 volcanic eruptions in Iceland, where the release of large volumes of sulfuric oxide led to haze-effect cooling. The effect was so severe that Europe and North America experienced some of the lowest average winter temperatures on record in the subsequent years following the eruptions.
Another example includes the 1991 Pinatubo eruption, where SO₂ aerosols were ejected into the atmosphere, reducing the amount of sunlight reaching Earth's surface enough to lower global temperatures by 0.4 °C. These instances show that volcanic eruptions can serve as natural drivers of short-term climate changes.
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Answer:
- Large temperature and air pressure decrease
- Temperature and air pressure increase
Explanation:
Answer:
Water dirt and sunlight and also soil and rocks
Explanation:
The cells that are always single-celled are prokaryotic cells and include bacteria and archaea. These cells do not have a nucleus and are much simpler than eukaryotic cells, which can form multicellular organisms. However, some eukaryotic organisms like yeast and protozoa, can also remain single-celled during their entire lifecycle.
The kinds of cells that are always single-celled are called prokaryotic cells and include bacteria and archaea. These cells do not have a nucleus and are much simpler than eukaryotic cells, which can form multicellular organisms. Each prokaryotic cell functions independently, and despite their simplicity, they are extraordinarily diverse and adaptable, capable of surviving in an array of environments from Arctic ice to volcanic vents.
It's also worth noting that some eukaryotic organisms like yeast and protozoa while being more complex and having nuclei, can remain as single-celled organisms for their entire lifecycle.
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plants conduct photosynthesis,
plants are multicellular
Answer: plants have roots, stems, or leaves
Algae and plants are similar organisms because both are autotrophic organisms which are able to produce their own food by the process of photosynthesis. The main difference between the two is the level of complexity. Algae are comparatively simple organisms, their structure ranges from single celled to multi-cellular organisms. They do not exhibit true roots, stems and leaves like plants. The plants exhibit complex specialized structure for transport of water, nutrients and to perform reproduction. The smallest to largest plant will exhibit roots, stems and leaves.
O True
O False