BIOLOGY HIGH SCHOOL

A symbiotic relationship in which one species benefits and the other is harmed but not immediately killed is known as?

Answers

Answer 1
Answer:

Answer:

Parasitism.

Explanation:

A biological interaction explains the different relationship between the organism and their interaction in the environment. The different biological interaction are mutualism, ammensalism and parasitism.

Parasitism may be defined as the type of symbiotic relationship in which the organisms are associated with each other. The one species gets benefit from the other organism while the other organism is harmed but they are ot killed directly or immediately. This is a type of negative interaction.

Thus, the answer is parasitism.
Answer 2
Answer: It's called parasitism.

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A person with blood group A produces antibodies againstb. A person with blood group B produces antibodies against
a. A person with blood group AB produces no antibodies. How can you explain this?

Answers


This is simply a protective mechanism of the body. A person with blood group A will produced antibodies against  blood group B because  group B cells are considered foreign bodies to the person and will not be tolerated and vice versa. Group B people have antibodies against group A and will not tolerate group A cells. This is why group A person can only be transfused with group A blood or group O blood. Both A and B   have no antibodies against blood group O. Indeed no blood group has antibodies against Blood group and this  is why people with blood group O are called universal donors.

Group AB people do not have antibodies against any blood group because both these groups are part and parcel of their body and production of antibodies against either A or B would end up in self destruction of the body. Group AB  people are known as universal recipients because they can receive blood from any of the other groups.

The three types of seismic waves produced by an earthquake are primary, secondary, and A. surface.
B. sedimentary.
C. elastic.
D. atmospheric.

Answers

The three types of seismic waves produced by an earthquake are primary, secondary, and A.surface waves.

♡♡Hope I helped!!! :)♡♡

What kind of bones do birds have?
A. hollow
B. narrow
C. thin
D. cartilage

Answers

Hollow, that's why birds can fly. There is nothing in the bone to weigh them down.

Scientists group organisms into kingdoms by looking at specific characteristics. Which is a characteristic of a carrot plant? no cell walls heterotrophic unicellular eukaryotic

Answers

Scientists group organisms into kingdoms by looking at specific characteristics. The characteristic of the carrot plant is eukaryotic. Organisms with eukaryotic cells are whose cells contain a nucleus and other organelles enclosed within membranes.

Explanation:

Eukaryotes are organisms whose cells have a nucleus surrounded by membranes, unlike prokaryotes. Eukaryotic cells are larger than prokaryotic cells and have a “true” nucleus, membrane-bound organelles, and rod-shaped chromosomes. The nucleus houses the cell's DNA and regulates the structure of proteins and ribosomes.

The carrot plant is characterized to be a eukaryotic organism belonging to the Kingdom Plantae.

What are eukaryotic organisms?

Eukaryotic organisms are organisms that have cell nuclei and membrane-bound organelles, which are classified into four different kingdoms (Protista, Animalia, Plantae and Fungi).

  • Eukaryotic organisms are composed of one (unicellular) or more cells (multicellular organisms).

  • Plants are eukaryotic multicellular organisms belonging to the kingdom Plantae.

In conclusion, the carrot plant is characterized to be a eukaryotic organism belonging to the Kingdom Plantae.

Learn more about eukaryotes here:

brainly.com/question/13969093

Sweat glands are located in the skin's _____.

epidermis
dermis
fatty layer

Answers

Sweat glands are located in the dermis.

Answer:

the answer is the dermis layer

Explanation:

Name two circumstances which can result in genetic drift having a significant impact on a population. Explain each.

Answers

Genetic drift can have a significant impact on a population under various circumstances. Here are two common scenarios and their explanations:

1. **Founder Effect:** The founder effect occurs when a small group of individuals from a larger population migrates or colonizes a new, isolated area. These founding individuals have a limited genetic diversity compared to the original population. As a result, the genetic makeup of the new population is determined by the alleles carried by the founding individuals. Any rare alleles present in the founders may become more common in the new population, while other alleles may be lost. Over generations, this can lead to a significant change in allele frequencies within the population.

2. **Population Bottleneck:** A population bottleneck occurs when a significant portion of a population is suddenly and drastically reduced in size, often due to a natural disaster, disease outbreak, or human intervention. The surviving individuals have a limited genetic diversity, as they represent only a fraction of the original population. As a result, genetic drift can have a pronounced effect on this smaller population. Alleles that were once rare may become fixed (meaning all individuals in the population carry the same allele), and genetic diversity is greatly reduced. This can increase the risk of genetic disorders and reduce the population's ability to adapt to environmental changes.

In both scenarios, genetic drift is driven by chance events rather than natural selection. Over time, the effects of genetic drift can lead to a loss of genetic diversity and potentially impact the population's long-term survival and ability to adapt to changing conditions.
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