uranium
B.
coal
C.
oil
D.
natural gas
Magma can become soil through a sequence of events involving volcanic activity, weathering, pioneer plant colonization, organic matter accumulation, and the gradual development of soil over time.
The sequence of events that can lead to magma becoming soil involves a process known as weathering and soil formation. Here is a simplified sequence of events:
1. Volcanic Activity: Magma rises to the surface through volcanic eruptions, depositing lava and volcanic ash on the land.
2. Primary Succession: Over time, weathering, erosion, and natural forces break down the volcanic rock and ash, creating a barren landscape.
3. Pioneer Plants: Hardy pioneer plants, such as lichens and mosses, begin to colonize the barren terrain. Their growth helps break down the rock further, contributing organic matter to the developing soil.
4. Soil Formation: As the pioneer plants die and decompose, their organic matter mixes with mineral particles, creating a thin layer of soil called "young soil" or "topsoil."
5. Succession Continues: Over time, larger and more complex plant species, including shrubs and trees, colonize the area. Their roots penetrate deeper, breaking up the rock and contributing more organic matter to the soil.
6. Soil Development: Through the ongoing cycle of plant growth, decay, and organic matter accumulation, the soil gradually becomes richer and deeper. The breakdown of minerals from the volcanic rock contributes to the fertility of the soil.
7. Mature Soil: After a long period of succession and soil development, the area is transformed into a mature soil ecosystem capable of supporting diverse plant and animal life.
It's important to note that the process of soil formation is complex and can take hundreds or thousands of years depending on various factors such as climate, topography, and the types of organisms present.
Learn more on magma here;
#SPJ6
I don't quite understand what you're asking here. A Planet's axis and its name have nothing to do with each other from my understanding.
B: biome
C: habitat
The term used to describe all the biotic and abiotic factors in a particular area is an ecosystem. An ecosystem includes the interacting organisms and their environment while a biome is a larger community of plants and animals. The natural residence or setting of an organism is known as a habitat.
The term used to describe all the biotic and abiotic factors in a particular area is typically termed an ecosystem.
Option A: An ecosystem refers to the biological community of interacting organisms and their physical environment. This includes both biotic elements (living things like plants and animals) and abiotic elements (non-living things like air, water, soil, and light).
Option B: A biome is a larger concept than an ecosystem. It represents a large community of plants and animals that occupy a distinct region (like tundra or rainforest). Biomes include many ecosystems within them.
Option C: A habitat refers to the natural home or environment of an organism. It is the place where a particular species lives and grows. It is a smaller component of an ecosystem.
#SPJ6
Answer:
A: Ecosystem
Explanation:
Abiotic and biotic factors are the nonliving and living parts of an ecosystem.
in most metals
in organic compounds
in inorganic compounds
We can expect to find carbon in all living organisms and in all organiccompounds. So the correct options are A and C.
Carbon is an element found on the earth. It is an extremely abundant element with unique properties. Carbon is present in the environment in pure or almost pure forms.
Diamonds and graphite are some of the pure forms of carbon. Carbon also forms compounds with other elements for the formation of molecules.
These carbon-based molecules are the basic building blocks of all living organisms including humans, animals, plants microorganisms etc.
These also present many components of the environment. They are called organic molecules. Greenhousegases like carbon dioxide and methane are examples of carbon-based molecules.
They are also present in high percentages of fossilfuels. They are mainly made up of hydrocarbons which are molecules composed of hydrogen and carbon.
Therefore the correct options are A and C.
Read more about carbon, here
#SPJ2
Answer: A and C
in all living organisms
in organic compounds
Explanation: