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A seed has all of the essential characteristics of life, including the ability to grow, adapt, and reproduce. The ability to grow is a key feature of all seeds; in order to germinate, the seed absorbs water and begins the process of quick cell division, giving rise to a new plant.
Adaptation is another major characteristic of the seed, and most seed types can adapt to a range of environmental conditions, including temperature and light levels. Finally, seeds are capable of reproduction, as they will produce flowers and fruit and eventually produce more seeds.
In summary, the seed has all the essential characteristics of life: the ability to grow, adapt, and reproduce.
What are the two characteristics of seed that makes it a living thing?
Seeds are living organisms because they contain the basic components necessary for life, including metabolism, the ability to respond to environmental stimuli, and the capacity for self-replication or reproduction.
Metabolism is the process by which an organism breaks down nutrients to produce energy and growth. All living organisms must contain the biochemical tools to obtain and extract energy from their environment.
Most seeds contain endosperm, an energy-rich tissue that is used by the embryo, or newly forming seedling, to acquire energy until the seedling can start to photosynthesize or draw energy from the air and light.
Seeds also contain the ability to respond to environmental stimuli, such as changes in light or moisture. This response is responsible for the growth and survival of a seed and its offspring. For example, many seeds will not germinate unless soil temperatures are within a certain range.
Temperature, light, oxygen, and moisture are all factors that influence the ability of a seed to develop into a mature plant.
Finally, seeds contain genetic information that they need to pass on in order to self-replicate and reproduce. This genetic information is centrally stored in the nucleus and is responsible for the progeny of a plant.
This genetic material contains the instructions necessary for the seedling to survive and develop into a mature plant. The information within the genes determines the physical characteristics of a mature plant, such as its size, shape, color, and flavor.
It also contains instructions on how to respond to environmental stimuli.
These two characteristics of living organisms – metabolism and the ability for genetic replication – make seeds living organisms that are adapted to their environment.
How can you prove that seeds are alive?
Such as observing the metabolic activity, examining changes in physical characteristics, and watching the germination process.
Metabolic activity is a key indicator of life and can be observed by taking a seed and grinding it into a pulp. If the tissue is living and viable, then enzymes within the seed will cause the release of oxygen, which can be measured through the change in the pH and/or the electrical conductivity of the solution.
Physical characteristics can also be observed to determine if a seed is alive. For example, a viable seed should be firm and largely free of blemishes and discoloration. If the seed is pliable and/or has signs of discoloration or disease, then it is likely not viable.
The germination process is another way to prove that seeds are alive, as it involves the seed’s metabolism being stimulated to break dormancy and begin the process of germination. The germination process involves the growth of a radical, the emergence of cotyledons, root growth, and shoot growth, ultimately culminating in a fully mature plant.
This demonstrates the metabolic activity taking place within the seed, which is proof of its living state.
What 2 things do seeds contain?
Seeds contain a small embryonic plant, usually including some stored food, and an outer seed coat that protects the interior from damage and disease. Embryonic plants contain an embryo composed of a few cells, which can grow and develop into a mature plant.
Furthermore, the stored food, also known as the endosperm, provides energy for the developing embryo. The endosperm normally contains proteins, lipids, starches and oils, which are essential for the future growth of the plant.
The outer seed coat provides mechanical protection and helps control water loss and the permeability of gases. The seed coat can also protect the embryo from the environment, animals, and diseases.
Are seeds living or non living?
Seeds are generally considered to be non-living, though they can potentially contain living material. A seed contains an embryonic plant and stored food reserves, which helps the plant germinate or sprout.
The stored food reserves provide energy for germination, as well as launch the young seedling’s growth. However, the seed itself does not actively carry out metabolism, respiration, or depend on a continual supply of nutrients and energy.
For this reason, technically, the seed is considered to be non-living. Once the seed sprouts and the embryonic plant emerges, then it is considered to be living. Additionally, some seeds contain living bacteria or fungi inside, which would then make the seed a living entity.
What are the 3 ways to test seeds?
The three primary ways to test seeds are physical, germination, and genetics tests.
A physical test refers to the external inspection of the seed, such as size, shape, color, weight, and texture. It can also include inspection for pest damage.
Germination tests measure the ability of the seed to produce viable seedlings under specific environmental conditions. This test monitors the percentage of seeds that are viable, to determine the viability of the lot.
Finally, genetics tests measure the genetic makeup of the seed. This involves looking at markers and traits present in the seed to determine the species, variety, and line of the seed. These tests help ensure that the variety of seed is true-to-type and free of disease.
How do you know if a seed is pure live?
One way is to study its appearance and observe whether the seeds are all similar in color, shape, and size. If the seeds vary in these characteristics, it is likely that some are not pure. Additionally, many seed producers provide information on seed purity, germination rates and germination potential, so it is wise to research these details before purchasing a seed.
Additionally, you can use a seed germination test to determine a seed’s purity. This type of test typically involves taking a sample of a batch of seeds, counting them out and placing them in moist and dark conditions to see which ones will germinate.
If there is a significant difference between the number of seeds that were planted and the number that germinated, then the seed batch may not be pure live.
How do you test if seeds will germinate?
Testing if seeds will germinate is a critical part of developing a successful crop. Fortunately, there are a few ways to perform this test.
The most common way to test if seeds will germinate is to do the “float test.” This involves putting the seeds in water and waiting to see if any of them sink or float. If the seed sinks, it is likely viable; if it floats, it is likely to be dead or infertile.
Another method is to test the seeds in the soil. Plant several seeds in a pot and moisten the soil. Give the seeds two to three times their normal recommended amount of water and cover the pot with a clear plastic wrap or lid.
After several days, observe the surface of the soil to see if the seeds have germinated and grown roots.
Finally, the most reliable method of testing if the seeds are viable is to have the seeds tested in a laboratory. This usually involves placing the seed in a germination chamber, a box filled with sterile media such as sawdust or sand, and then allowing the chamber to moisten and ventilate the seeds for a few days.
At the end of this process, you will know for certain whether or not the seeds are viable.
Are seeds considered life?
The answer to this question depends on how one defines “life.” Generally speaking, a seed does not move, breathe, grow, reproduce, or respond to stimuli, which are all characteristics of life according to biologists.
However, many people view life more broadly, arguing that a seed is, indeed, alive since it contains the potential for life and will begin to live if exposed to the right environment and conditions.
From a cellular level, seeds contain the same building blocks of life as other living organisms: cells, DNA, proteins, and other molecules. They also contain the genetic material and nutrients essential for a seedling to grow.
In terms of metabolism, seeds are capable of transforming energy from their environment, albeit at a slower rate than most animals and plants. In short, even though seeds cannot be considered truly “alive” under the same criteria as animals or plants, many people do view them as living entities, since they contain the possibility of life.
Are seeds immortal?
No, seeds are not immortal. They have finite life spans and eventually die out. Seeds typically take one of two paths for their life cycle: generation and regeneration. The generation cycle is typified by annual and biennial plants, where a seed germinates and the plant grows, flowers, and sets new seeds before dying at the end of its life.
Regeneration is characterized by perennial plants that may live for many years, allowing for vegetative reproduction and the formation of new seeds. In either case, the life of a seed is finite and eventually it is no longer viable, making them not immortal.
Do seeds have brains?
No, seeds do not have brains. While individual plants are alive and active, they are still rooted in the ground without a central nervous system or, in turn, a brain. However, all living organisms need some way to control their growth and life processes, so even without a brain, seeds have a way of responding to the environment and growing from a tiny, dormant seed into a full-grown plant.
At the most basic level, a seed has a type of genetic switching mechanism called a gene network — a complex network of interacting proteins — that helps it to detect and respond to different environmental signals.
In other words, this gene network acts as the seed’s “brain”, helping to control the decision making process regarding when to germinate, what type of plant structure to form, and so on.
To understand this process better, researchers often look at the inner cellular components of a seed. In addition to gene networks, they find specialized cells that contain hormone-like molecules called cytokines that are used to control seed germination.
These cytokines essentially help the seed to “know” when the environment is just right for growth and to respond accordingly.
In summary, while a seed may not have a brain in the traditional “gray matter” sense, it is still able to successfully detect and respond to its environment using complex biochemical processes.
Are seeds and eggs living things?
Yes, both seeds and eggs are considered to be living things. A seed contains an embryo plant, which can begin to grow if it is provided with the right conditions. An egg contains an embryo animal, which can develop into a fully-grown organism if the right conditions exist.
Both the egg and the seed contain the necessary materials that are needed for the development of an organism. Additionally, both can be considered alive because they both possess metabolism, the ability to react to stimuli, growth, and the ability to reproduce.
Are the dry seeds dead or living?
The answer to this question depends on the specific type of seed. Generally speaking, dry seeds are dormant and can remain in this state for many years and be able to still germinate or sprout. In this state, the seed is neither dead nor completely alive.
The embryo is in a state of suspended animation and can come alive when it is provided with the right environment and conditions. Many seeds contain a large amount of starch, protein, and other nutrients which allow them to survive long periods of dormancy.
It is also important to remember that during their dormant state the cells are not dividing. Therefore, some argue that dry seeds are not truly alive while others argue they still contain life.
What are seed cells?
Seed cells, also known as spermatogonia, are the undifferentiated stem cells responsible for the growth and development of male reproductive organs. They are the earliest stage of stem cells found only in males and located in the testes, which provide the foundation for sperm production.
These cells divide and differentiate into primary spermatocytes and eventually mature sperm cells. They are made up of haploid cells with 23 chromosomes and are the only cells that can create gametes (sperm cells) through meiosis.
The process begins with spermatogonia which divide by mitosis in order to produce spermatogonias and primary spermatocytes. Through meiosis, each primary spermatocyte divides into two secondary spermatocytes.
Subsequently, each secondary spermatocyte divides into two spermatids which goes through a process of maturation and finally becomes a sperm. Seed cells are a type of stem cell and are regulated by genes and hormones.
They help in maintaining a healthy balance in the male reproductive system while enabling the production and growth of sperms to facilitate fertilization.
Does every living thing come from a seed?
No, not every living thing comes from a seed. Seeds are a form of reproduction for some living organisms, but not all. Some living things, such as bacteria and fungi, reproduce asexually, meaning they can produce offspring without a seed.
Other living things reproduce through parthenogenesis, which is a form of asexual reproduction in which genetically identical offspring are produced without the need for a seed. Additionally, some animals such as amphibians, reptiles, fish, and mammals reproduce sexually, where reproductive cells uniting to form a new organism.
In this case, there is no seed that is exchanged; instead, a complex, interplay between male and female reproductive organs and gametes leading to the formation of a new organism.
FAQs
What is the life of a seed? ›
Seed Life Cycle: Germination
As water is absorbed by the seed, it begins to expand or swell, eventually cracking or splitting the seed coat. Once germination occurs, the new plant will gradually begin to emerge. The root, which anchors the plant to the soil, grows downward.
Yes, seeds are very much alive! At least the seeds that we use to grow food are alive. Seeds can die if they're not properly cared for, if they get too hot or cold or wet. But under the right conditions, they're just dormant.
What characteristics are specific to seed plants? ›Seed plants produce pollen and live on land. Another characteristic shared by seed plants is the presence of vascular tissue. Because they produce both male and female spores, all seed plants are heterosporous. Seed-producing plants require the retention of megasporangium.
What are the 3 characteristics of a seed? ›A seed has three important parts: an embryo, stored food, and a seed coat. stops growing when it is quite small. When the embryo begins to grow again, it uses the food stored in the seed until it can make its food. In some plants, food is stored inside one or two seed leaves called cotyledons (kaht uh LEED unz).
What is seed and its characteristics? ›Seed refers to the fertilized, matured ovule that contains an embryonic plant, stored material and a protective coat or coats. A seed is a mature ovule that comprises an embryo or a miniature undeveloped plant and food reserves, all enclosed within a protective seed coat.
Is seed a living thing or nonliving thing? ›A seed doesn't do anything (seemingly), but a young plant changes and grows. So, a seed must be non-living. A leaf that has fallen off a tree is dead, which also means not alive.
Why is seed important in life? ›Seeds are of immense biological and economic importance. They contain high protein, starch and oil reserves that help in the early stages of growth and development in a plant. These reserves are what make many cereals and legumes major food sources for a large proportion of the world's inhabitants.
What does the seed represent? ›The man represents God and the seed is His message. Just as a planted seed starts to grow, the word of God starts to deepen and grow within a person.
Do seeds have living cells? ›A seed is living. Although seeds are dormant (resting) their cells are still alive and performing typical cellular functions.
Does plant life begins in a seed? ›Plants start their lives as tiny seeds. Seeds contain a plant with leaves, stem and roots. The first step a seed takes on its path is germination. Germination is when the plant within the seed begins to grow with the help of water, soil and sun.
How do we know seeds are alive? ›
One method to check for seed viability is the water test. Take the seeds and place them in a container of water. Let the seeds sit for 15 minutes. If the seeds sink, they are still viable; if they float, discard, because they probably will not sprout.
What are two characteristics of seed plant? ›Seed plants share two important characteristics. They have vascular tissue, and they use pollen and seeds to repro- duce. In addition, all seed plants have body plans that include roots, stems, and leaves.
How do you classify a seed? ›A classification of seeds can be based on size and position of the embryo and on the proportion of embryo to storage tissue; the possession of either one or two cotyledons is considered crucial in recognizing two main groups of flowering plants, the monocotyledons and the eudicotyledons.
What are 3 things a seed needs to grow? ›Seeds need the proper temperature, moisture, air, and light conditions to germinate.
Why are seeds so powerful? ›Seeds contain all the starting materials necessary to develop into complex plants. Because of this, they are extremely nutritious. Seeds are great sources of fiber. They also contain healthy monounsaturated fats, polyunsaturated fats and many important vitamins, minerals and antioxidants.
What survival advantage does a seed have? ›A tough and protective seed coat is the survival advantage that has enabled seed plants to be the most successful group of kingdom Plantae. The seed coat covers and envelops the embryo inside. It protects the embryo and also prevents moisture loss, which would dry the embryo out and lower its ability to survive.
What is seed and importance of seed? ›Seeds are the primary basis for human sustenance. They are the repository of the genetic potential of crop species and their varieties resulting from the continuous improvement and selection over time.
Why the word of God is like a seed? ›The seed is the Word of God (verse 14), and the ground is our hearts (verse 15). Our hearts were created by God to bring forth fruit when His Word is planted in them. Just as a seed has to remain in the ground over time to germinate, so the Word of God has to abide in us.
How is the Bible like a seed? ›Description. Alma said the word of God (scripture) is like a seed that must be planted and nourished (fed). Connect the seeds to see what they will become when planted. Now connect the dots around Jesus and the scriptures to see where we should plant His teachings.
What does the Bible say about a seed? ›He told them another parable: "The kingdom of heaven is like a mustard seed, which a man took and planted in his field. Though it is the smallest of all your seeds, yet when it grows, it is the largest of garden plants and becomes a tree, so that the birds of the air come and perch in its branches."
Do seeds have brains? ›
A new study, published in The Proceedings of the National Academies of Science, suggests that plant seeds use tiny “brains” to help them decide whether it's the right time to break dormancy. As Ghose reports, the “brains” aren't physically similar to human or other vertebrate grey matter.
What are the characteristics of life? ›Big Ideas: All living things have certain traits in common: Cellular organization, the ability to reproduce, growth & development, energy use, homeostasis, response to their environment, and the ability to adapt.
Is a seed an organ? ›External plant structures such as leaves, stems, roots, flowers, fruits and seeds are known as plant organs. Each organ is an organized group of tissues that works together to perform a specific function.
What is the life cycle of a seed called? ›Plantlife cycles consist of five stages: seed, seed germination, seedling, adult plant, and pollination and fertilization.
How can seeds be a part of the end of the life cycle? ›If the flowers are pollinated—usually by insects—they produce more seeds. The plant reaches the end of its life cycle and dies. The seeds created by the plant are germinated and the cycle starts all over again.
Where are seeds in the life cycle? ›Life Cycle. The plant starts life as a seed, which germinates and grows into a plant. The mature plant produces flowers, which are fertilised and produce seeds in a fruit or seedpod. The plant eventually dies, leaving seeds which germinate to produce new plants.
How long is a seed alive? ›Seeds may be microbiotic (a lifespan of less than 3 years), mesobiotic (3 to 15 years), or macrobiotic (more than 15 years).
What is a seed that is alive but inactive? ›A dormant seed is one which is alive, but does not germinate when provided with ample water, good aeration and a suitable temperature (i.e. the normal requirements for plant growth).
What happens to a seed when it dies? ›What happens when a seed dies? As it dies, it transforms into roots that go deep, and stems that soon make their way out of the dirt into the air in order to grow and blossom. If you dig up a plant after it has blossomed you won't find the seed – only the product of the dead seed.
What are the 5 characteristics of plant? ›The seven characteristics of plants are nutrition, respiration, movement, excretion, growth, reproduction, and Sensitivity.
What 5 things does a seed need to grow? ›
In flowering plants a fruit often surrounds the seeds. Seeds need the right conditions to germinate, or grow into a new plant. They need air, water, the right temperature, good soil conditions, and the right amount of light.
What are 5 examples of seeds? ›- Flaxseeds. Share on Pinterest. ...
- Chia Seeds. Chia seeds are very similar to flaxseeds because they are also good sources of fiber and omega-3 fats, along with a number of other nutrients. ...
- Hemp Seeds. ...
- Sesame Seeds. ...
- Pumpkin Seeds. ...
- Sunflower Seeds.
The process of seed germination includes the following five changes or steps: imbibition, respiration, effect of light on seed germination, mobilization of reserves during seed germination, and role of growth regulators and development of the embryo axis into a seedling.