because there are too many cells up its fart
Sexual if you're talking about the human population.
The only major similarity is that you get a type of offspring. During asexual reproduction, an organism essentially self mates. This doesnt necessarily produce identical offspring, but close. Actually, with asexual reproduction, mutations are more likely to be phenotypically present in the next generation. So technically, you get offspring that does share genes from dad and mom, but in asexual reproduction, dad and mom are the same people.
The characteristic of a population that would most likely indicate the lowest potential for evolutionary change in that population would be asexual reproduction. This is because the offspring are identical to the parent.
In asexual reproduction each individual in the offspring has the same genes as the parent. In sexual reproduction the genes of two individuals are combined to create a more diverse set of genes in each individual. This gives more diversity in the offspring. As the individuals with good genes, as in genes that are helpful in their specific environment, are more likely to survive, this means that the species will evolve and develop positive attributes.
Normal (Sexual) Reproduction takes Two participants, a Male and a Female. A Female to Carry the eggs, and a Male to fertilise them.Asexual Requires only one individual, most likely a Female, Who both caries and fertilises the eggs.
Some disadvantages of asexual reproduction are- Offspring are genetic clones. A negative mutation can make a sexually produced organisms susceptible to disease and can destroy large numbers of offspring.- Some methods of asexual reproduction produce offspring that are close together and compete for food and space.- Unfavorable conditions such as extreme temperatures can wipe out entire colonies.its not efficientif the parent is ill or has a disease then the offspring will have it as wellgenerally leads to overcrowdingIn Asexual reproduction, an exact copy is made of the parent. So, there is no inherited variability and everyone is a "clone." So, if the environment changes and people need to adapt, there will be no available mutations to let evolution take its course, and the species will most likely die out.There are no variations in offspring except those caused by mutations, so, if the environment changes, there might be little chance of any offspring surviving.
Asexual reproduction is most likely to result in a rapid growth in population, as it does not require mating and can produce many offspring quickly. This can lead to exponential population growth under favorable conditions.
Asexual reproduction and few mutations
Most of the time yes, though it can also reproduce sexually
The only major similarity is that you get a type of offspring. During asexual reproduction, an organism essentially self mates. This doesnt necessarily produce identical offspring, but close. Actually, with asexual reproduction, mutations are more likely to be phenotypically present in the next generation. So technically, you get offspring that does share genes from dad and mom, but in asexual reproduction, dad and mom are the same people.
The only major similarity is that you get a type of offspring. During asexual reproduction, an organism essentially self mates. This doesnt necessarily produce identical offspring, but close. Actually, with asexual reproduction, mutations are more likely to be phenotypically present in the next generation. So technically, you get offspring that does share genes from dad and mom, but in asexual reproduction, dad and mom are the same people.
Always during asexual reproduction, the offspring will be genetically identical to the parent. In plants, there are different types of asexual reproduction;budding, vegetative propogation, fragmentation, binary fission, and spores. Just say is a disease or an environmental change came into a field with plants that were identical, the genetically identical plants would mostly likely not survive due to no genetic diversity. Asexual reproduction can happen during mitosis, not meiosis.
Asexual Reproduction Asexual reproduction is ONE parent giving rise to offspring with identical genome(s) as the parent Common Types of Asexual Reproduction: Fission (Mitosis in somatic cells) Budding (In Yeast, Hydra) Vegetative Propagation (aka Vegetative Reproduction) (Clonal colonies in trees) Fragmentation (In Fungi) BUT IF THE OFFSPRING HAVE THE SAME GENOME AS EACH OTHER BUT NOT THE SAME AS THE PARENT, then the offspring most likely started as one, but split, for example identical twins
The characteristic of a population that would most likely indicate the lowest potential for evolutionary change in that population would be asexual reproduction. This is because the offspring are identical to the parent.
Asexual reproduction does not involve sex cells or gametes (produced through meiosis). Rather, it is reproduction by mitosis allowing a new, genetically identical individual to be produced. Both methods of reproduction have advantages and disadvantages. Sexual reproduction allows genetic variation and allows the development of a population that is specifically adapted to its surroundings (and is therefore more likely to survive). However, when a very desirable combination of traits is found, sexual reproduction risks losing them in the randomness of the process. Asexual reproduction does not allow genetic variation, but guarantees reproduction (no dependence on others). It rapidly increases numbers of an organism and keeps its desired combination of traits. Many plants reproduce use a combination of sexual and asexual reproduction to get the benefits of both methods..
Which graph shows the most likely growth of a squirrel population living in a forest?
Things that kill the organism, such as, immature lungs at birth.
Most plants (this includes mosses and ferns as well as seed plants) can reproduce asexually naturally and even more can reproduce asexually if induced with growth hormones. There are multiple ways for plants to reproduce asexually, some use stem and root modifications such as stolons and runners other may produce genetically identical seeds (agamospermy). There are no reliable counts or proportions of plants reproducing with a mixture of sexual and asexual means but it's thought that most perennial plants can engage in asexual reproduction.