Secondary succession is faster than primary succession because soil is already there and the soil usually contains many seeds.
Secondary succession occurs after a disturbance that leaves behind soil and some plant species. It typically occurs faster than primary succession because there is already existing soil. As succession progresses, more complex plant and animal communities establish themselves.
Secondary succesion is the succession that occurs after the initial succession has been disrupted, and some plants and animals still exist. It is usually faster than primary succession.
The formation of a new community within an existing community is typically known as "infill development" or "infilling." This process involves developing vacant or underused parcels of land within an established area, rather than expanding into greenfield or undeveloped areas. Infill development can help maximize land use efficiency and revitalize existing communities.
The primary structure is a one or two dimensional structure, whereas the secondary structure is a three dimensional structure in which different parts of the protein molecule bend and twist due to the formation of hydrogen bonds between atoms. This makes the secondary structure shorter than the primary structure.
Primary growth is the lengthening of the stem and roots. All plant growth occurs by cell division and cell elongation. Cell division occurs primarily in regions of undifferentiated cells known as meristems. Cell division in the apical meristems and subsequent elongation and maturation of the new cells produces primary growth." on the other hand, secondary growth is the result of the activity of the vascular cambium. The latter is a meristem that divides to produce secondary xylem cells on the inside of the meristem (the adaxial side) and secondary phloem cells on the outside (the abaxial side). This growth increases the girth of the plant root or stem, rather than its length, hence the phrase "secondary thickening". As long as the vascular cambium continues to produce new cells, the stem or root will continue to grow in diameter. In woody plants, this process produces wood.
Secondary succession is faster than primary succession because soil is already there and the soil usually contains many seeds. no whatever this is wrong just saying
I takes longer for primary succession than secondary succession to go back to its original state
Secondary succession happens more frequently than primary succession because the disruption to the environment is usually less severe in secondary succession, making it easier for organisms to recolonize the area. Additionally, the soil in secondary succession is usually already present, allowing for quicker establishment of plant life. This results in a faster and more common occurrence of secondary succession compared to primary succession.
Secondary succession is faster than primary succession because soil is already there and the soil usually contains many seeds.
yes
Secondary succession occurs faster than primary succession because the soil already has a base of nutrients, microorganisms, and seeds left behind by the previous ecosystem. This allows for a quicker establishment of vegetation and a more rapid progression through the stages of succession.
Primary succession typically takes longer than secondary succession. This is because primary succession occurs in lifeless areas where soil has not yet formed, such as after a volcanic eruption or glacial retreat, requiring a longer time for soil development and ecosystem establishment. In contrast, secondary succession happens in areas where a disturbance has cleared an existing ecosystem but left the soil intact, allowing for faster recovery and regrowth.
Secondary succession occurs after a disturbance that leaves behind soil and some plant species. It typically occurs faster than primary succession because there is already existing soil. As succession progresses, more complex plant and animal communities establish themselves.
Primary succession typically takes longer than secondary succession because it involves the gradual development of ecosystems on bare rock or soil where no organisms were previously present. Secondary succession occurs on already established ecosystems after a disturbance, allowing for a quicker regeneration of plant and animal communities.
Secondary succesion is the succession that occurs after the initial succession has been disrupted, and some plants and animals still exist. It is usually faster than primary succession.
Primary succession is less common and takes longer because it starts from bare rock or soil with no existing organisms, whereas secondary succession begins on soil that already has some organisms and nutrients present. Primary succession relies on the gradual process of soil formation and colonization by pioneer species, which can take hundreds to thousands of years to complete. In contrast, secondary succession occurs faster as the existing seed bank and soil provide a foundation for new plant growth.
No. The secondary storage is typically slowerthan primary storage. But the secondary storage has higher capacity than primary storage.