JAMB UTME - Biology - 2024

Answer Details

Blood group AB is considered a universal recipient because individuals with this blood type can receive blood from all other blood groups, including A, B, AB, and O. This is possible due to the presence of both A and B antigens on the surface of their red blood cells and the absence of anti-A and anti-B antibodies in their plasma.

Here’s a simple breakdown:

• Blood group A has A antigens and can only receive A or O blood.
• Blood group B has B antigens and can only receive B or O blood.
• Blood group O has no A or B antigens and can only receive O blood.
• Blood group AB has both A and B antigens and lacks antibodies against either, allowing them to receive any blood type – A, B, AB, or O.

This makes AB blood group the universal recipient as they can accept A, B, AB, and O blood, without experiencing adverse reactions caused by antibody-antigen incompatibility.

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The main excretory products of plants during metabolism are carbon dioxide, excess water, and nitrogenous compounds.

Plants produce carbon dioxide as a metabolic waste product during respiration, while oxygen is a metabolic waste product from photosynthesis. Excretion of gaseous waste in plants takes place through stomatal pores on leaves. Oxygen released during photosynthesis is used for respiration while carbon dioxide released during respiration is used for photosynthesis.

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The regulation of body temperature, thirst, and hunger is primarily managed by the hypothalamus. This is a small but crucial part of the brain located just below the thalamus. It plays a key role in maintaining the body's internal balance, known as homeostasis.

Here is a simple breakdown of its functions:

• Body Temperature: The hypothalamus acts like a thermostat, responding to changes in body temperature by triggering responses such as sweating to cool down or shivering to warm up.
• Thirst: When the body is low on water, the hypothalamus generates the sensation of thirst, prompting us to drink and restore proper hydration levels.
• Hunger: This part of the brain is sensitive to levels of glucose and other nutrients in the blood. It helps to trigger feelings of hunger when the body needs more energy, and signals fullness when enough food has been consumed.

The hypothalamus achieves these regulations by interacting with the endocrine system, releasing hormones that affect various bodily functions. So, if you are thinking of which area of the brain is in charge of these vital processes, the answer is indeed the hypothalamus.

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In a tropical rainforest, the forest layers are characterized by distinct types of vegetation. The **ground layer** hosts plants and organisms that typically thrive in low-light conditions due to the dense canopy above. Such layers often consist of mosses, ferns, and small plants that can grow with limited sunlight.

When considering the plants listed:

• Obeche and Mahogany are large trees that form part of the canopy or emergent layer, not the ground layer.
• Oil Palm is also a fairly large plant that grows in more open areas rather than the dense understorey of a rainforest.
• Liverwort is a type of small, non-vascular plant often found in the **ground layer**. It thrives in moist, shady environments, characteristic of the rainforest’s forest floor.

Thus, the answer is **liverwort**, as it appropriately matches the ecological niche of the **ground layer** in a tropical rainforest.

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Thigmotropism is a directional growth movement which occurs as a mechanosensory response to a touch stimulus. Mechanosensory responses in plants are the ways that plants move or change shape in response to touch, wind, or other mechanical stimuli. 

Phototropism is the ability of plants to grow towards or away from light, which is a vital adaptive process for plants.

Geotropism is the growth of the parts of plants in response to the force of gravity.

Hydrotropism is a plant's growth response in which the direction of growth is determined by a stimulus or gradient in water concentration. It is the growth or turning of plant roots towards or away from moisture.

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The part labelled I in the given equation refers to sunlight.

Here is why:

The equation you've provided represents the chemical process of photosynthesis, which is how plants convert light energy into chemical energy stored in glucose (C₆H₁₂O₆). This process occurs in the chloroplasts of plant cells.

Sunlight is essential in this process because it provides the energy needed for photosynthesis to occur. This process begins when chlorophyll (labelled as III) within the chloroplasts absorbs sunlight, enabling the transformation of carbon dioxide (CO₂) and water (H₂O) into glucose and oxygen (O₂).

In summary, the part labelled I is sunlight because it is the energy source that drives the entire reaction of photosynthesis.

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The central nervous system (CNS) is a crucial part of the overall nervous system in the body, responsible for processing information and controlling most functions of the body and mind. It comprises the brain and the spinal cord.

1. Brain: The brain is the control center of the CNS. It is responsible for interpreting sensory information, coordinating movement, and managing functions such as thoughts, emotions, and memories. The brain oversees all voluntary and involuntary actions.

2. Spinal Cord: The spinal cord acts like a communication highway, transmitting signals between the brain and the rest of the body. It is essential for reflex actions and relays messages to and from the brain.

Together, the brain and spinal cord make up the central nervous system. Without this system, the body would not be able to respond appropriately to stimuli or maintain homeostasis. Thus, the correct components of the central nervous system are the brain and spinal cord.

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The chemical and physical composition of soil is an example of an Edaphic factor.

Let's break this down:

Edaphic factors are the characteristics of the soil that influence the organisms living in it. These include the soil's chemical properties, such as its pH, nutrient content, and mineral composition, as well as its physical properties, like texture, structure, and moisture levels. They directly affect plant growth, as plants rely on soil for nutrients and support.

In contrast, the other factors mentioned are not directly related to soil composition:

• Climatic factors relate to weather conditions such as temperature, humidity, and rainfall.
• Topographic factors concern the landscape features like elevation and slope.
• While chemical factors might sound similar, they are more general and pertain to chemical aspects in various environments, not just soil.

Thus, when we talk about the chemical and physical composition of soil, we are specifically referring to its edaphic factors.

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The part labelled I in the diagram is the oviduct.

To understand why it is the oviduct, let's first understand what an oviduct is. The oviduct, also known as the fallopian tube, is a tube-like structure that connects the ovary to the uterus in female mammals. Its main function is to transport eggs from the ovaries towards the uterus. Fertilization of the egg by sperm typically occurs within the oviduct.

Now, let's look at the structure of the other options:

Placenta: The placenta is an organ that develops in the uterus during pregnancy. It provides oxygen and nutrients to the growing baby and removes waste products from the baby's blood.

Amnion: The amnion is a thin membrane that forms a protective sac filled with amniotic fluid around the developing embryo or fetus.

Uterus: The uterus is a muscular organ where a fertilized egg implants and grows into a fetus during pregnancy.

Based on the description and location given by the diagram, part I is most consistent with the oviduct, as it is likely representing the tube-like structure leading from the ovary to the uterus.

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The **answer** is insectivorous.

Here's why: In the plant kingdom, there are unique plants known as "carnivorous plants" that have the ability to capture and digest insects and other small animals. Despite obtaining nutrients from these creatures, they still perform photosynthesis, which means they are able to convert sunlight into energy just like any typical plant.

A carnivorous plant that specifically feeds on insects is termed insectivorous. These insectivorous plants have special adaptations such as sticky surfaces, pitcher-like traps, or rapid leaf movements that help them catch insects. Examples include the Venus flytrap and the pitcher plant.

So, while they do engage in capturing insects as a source of additional nutrients, they still depend on sunlight for their energy through the process of photosynthesis.

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The part of the brain that receives sensory impulses of smell is the olfactory lobe. When you perceive a scent, information from the nose's sensory cells is sent to the olfactory lobe, and it is here that the brain begins the process of identifying the fragrance. The olfactory bulb is the first region that processes smell sensory data, allowing you to discern various odors. Other parts of the brain, like the cerebrum, help process and associate these smells with memories or emotions, but the olfactory lobe is the initial receiver of these sensory signals related to smell.

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A form of adaptive coloration that helps animals to remain unnoticed is called countershading.

Countershading is a type of camouflage where an animal's coloration is darker on the upper side and lighter on the underside. This coloration helps them to blend into their surroundings better, reducing the chance of being seen by predators or prey.

Here's a simple explanation of how it works:

• Upper Side (Darker): The darker color on the top of the animal helps them to merge with the darker environment when viewed from above, such as the forest floor or the deep ocean when viewed from high above.


• Underside (Lighter): The lighter color on the underside helps them blend in with the lighter background when viewed from below, like the sky or the surface of the water illuminated by the sun.

This dual shading effect reduces the animal's shadow and profile, making them less visible and thereby improving their chances of survival. Other terms like hibernation, aestivation, and migration refer to processes that are not directly related to coloration or camouflage. Therefore, countershading is the correct term for adaptive coloration that aids in concealment.

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Bile is a greenish alkaline liquid that plays a crucial role in the digestion of fats. It is produced by the liver and contains bile acids, which are essential for emulsifying fats, making them easier for enzymes to break down. Once bile is produced by the liver, it is not immediately released into the digestive tract. Instead, it is stored and concentrated in the **gall bladder**. The gall bladder is a small, pouch-like organ located just beneath the liver. It stores bile until it is needed, typically after eating, when it is then released into the small intestine to aid in digestion.

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When dealing with genetics, the genotypic ratio of offspring, particularly in the F1 generation, typically refers to the relative number of different genotypic combinations resulting from a genetic cross. To determine this ratio, it helps to construct a Punnett square, which is a grid that considers all possible combinations of parental genes.

In this specific scenario, although the diagram is not provided here, the genotypic ratio will depend on the types of alleles involved in the F1 generation. Most commonly in simple monohybrid crosses, if you're crossing two heterozygous organisms (e.g., Aa x Aa), the expected genotypic ratio is:

• 1 AA (homozygous dominant)
• 2 Aa (heterozygous)
• 1 aa (homozygous recessive)

Therefore, the genotypic ratio of the offspring produced in the F1 generation is 1:2:1.

The reasoning is straightforward: Each parent can contribute either one of two alleles. When combined in the F1 generation, they complete a set that falls into the three categories mentioned. Thus, when considering the options provided, the correct genotypic ratio for such a monohybrid cross is indeed 1:2:1.

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The type of cell division that involves the growth, development, repair, and replacement of worn-out tissues is mitosis.

Mitosis is a process by which a single cell divides to produce two identical daughter cells. This process is crucial for several reasons:

• Growth: As an organism develops, it needs more cells to increase in size. Mitosis ensures that new cells are genetically identical to the original cell, allowing tissues to expand properly.
• Development: During an organism's lifecycle, cells must differentiate and divide to form different tissues and organs. Mitosis provides the mechanism for such divisions while maintaining genetic consistency across cells.
• Repair: If tissues are damaged, mitosis allows for the production of new cells to replace the damaged or dead ones, helping tissues to heal.
• Replacement of Worn-Out Cells: Cells naturally wear out over time. Mitosis allows for their continuous renewal, ensuring that tissues function properly and maintain their integrity.

The process involves several phases, including prophase, metaphase, anaphase, and telophase, each contributing to the accurate duplication and distribution of chromosomes to the daughter cells.

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Courtship behavior in animals is a complex set of actions and rituals that animals perform to attract a mate and ensure reproduction. Among the given options, the behavior most directly related to courtship is display.

Why is display a courtship behavior?
A display involves a series of movements, sounds, visual appearances, or other activities performed by animals to attract a mate. These displays are meant to show off the animal's strength, health, genetic quality, and overall suitability as a mate. For example, peacocks spread their colorful feathers to attract peahens, while many bird species might sing or dance.

The purpose of such displays is to communicate information and signals to potential mates, enhancing the chances of successful mating. These displays often indicate the physical and genetic fitness of the individual performing them, allowing potential mates to choose who to pair up with best. Therefore, display is directly associated with attracting mates and is considered a courtship behavior.

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The flower is the reproductive organ of a plant. It is a plant organ, which is defined as a group of tissues that work together to perform a specific function. 

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Gaseous exchange is a biological process through which different gases are transferred in opposite directions across a specialized respiratory surface. When it comes to simple organisms, this exchange can occur directly through the plasma membrane. The organism where gaseous exchange takes place through the plasma membrane is the paramecium.

Here is a simple explanation:

• Hydra: This is a simple aquatic organism; gaseous exchange can occur through its entire body surface because of its simple body structure.
• Paramecium: As a single-celled organism, paramecium relies on its plasma membrane for gaseous exchange. Oxygen from the surrounding water diffuses across the membrane into the cell, and carbon dioxide diffuses out. The plasma membrane is thin and semi-permeable, allowing this process to happen effectively.
• Flatworm: Flatworms have a larger surface area compared to their volume, and they also rely on diffusion through their body surface for gaseous exchange.
• Earthworm: This is a more complex organism. Earthworms have a moist skin through which gaseous exchange takes place. They possess a dense network of capillaries under the skin that facilitates this exchange.

In conclusion, paramecium utilizes its plasma membrane for gaseous exchange due to its single-celled structure, allowing direct diffusion of gases.

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In humans and many other organisms, there are two types of cells: **somatic cells** and **gametes**. **Somatic cells** are typical body cells and are **diploid**, meaning they contain two sets of chromosomes—one set from each parent. **Gametes** are reproductive cells (sperm and egg) and are **haploid**, meaning they contain only one set of chromosomes.

In this context, if a **somatic cell** has **8 chromosomes**, it means it is carrying two complete sets of 4 chromosomes each. In order to form a **gamete**, this diploid number must be reduced to a **haploid number** through the process of **meiosis**.

Therefore, the **number of chromosomes** in a **gamete** would be **half** the number of chromosomes in a **somatic cell**. This is because gametes need to have just one set of chromosomes to ensure that when two gametes meet during fertilization, they create a diploid organism.

Thus, if the **somatic cell** has **8 chromosomes**, each **gamete** will have **4 chromosomes**.

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Since I do not have access to the diagram mentioned, I will explain all the functions listed and how they relate to specific organs. You can then match the explanation with the organ shown in the diagram.

• Production of Heat: This function is typically related to muscles, primarily skeletal muscles. During physical activity, muscles contract and produce heat as a byproduct of metabolism. The liver is another organ involved in heat production through metabolic reactions.
• Osmoregulation: This function is primarily associated with the kidneys. The kidneys help maintain the balance of water and electrolytes in the body by filtering blood and forming urine, thus regulating the body's internal environment.
• Vasoconstriction: This process is often related to blood vessels, particularly the arterial system. It involves the narrowing of blood vessels, which increases blood pressure and reduces blood flow to certain areas. The nervous system, specifically the autonomic nervous system, plays a key role in regulating vasoconstriction.
• Production of Hormones: Many organs are involved in hormone production, including the hypothalamus, pituitary gland, thyroid gland, adrenal glands, pancreas, and reproductive organs. Each of these organs produces specific hormones that regulate various physiological functions in the body.

Identify the organ in the diagram and match it with the corresponding function explained above.

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The large intestine of humans is home to a diverse community of beneficial bacteria. These bacteria primarily synthesize vitamins, particularly vitamin K and some of the B vitamins, such as B12. They do not typically produce minerals or glucose.

Here's a simple breakdown:

• Vitamins: These are organic compounds that are essential in small quantities for human health. The bacteria in the large intestine help produce certain vitamins that our bodies cannot synthesize efficiently on their own. For example, vitamin K is essential for blood clotting and bone health, and some B vitamins play crucial roles in metabolism and energy production.
• Glucose: While it is a major source of energy for the body, it is not synthesized by intestinal bacteria. Glucose is typically obtained from the digestion of carbohydrates in the diet.
• Amino Acids: These are the building blocks of proteins. Although some bacteria can modify specific amino acids, the primary synthesis and provision of amino acids come from dietary proteins and metabolic pathways within human cells, not directly from bacteria in the large intestine.
• Minerals: These are inorganic elements like calcium and iron that are absorbed from the diet. Bacteria in the intestine can assist in the absorption process but do not synthesize minerals themselves.

Thus, the correct and simplest answer is that the bacteria in the large intestine primarily synthesize vitamins.

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After fertilization in plants, the zygote develops into an embryo. This process is a critical stage in the life cycle of a plant. Let me explain it in simple steps:

• When a pollen grain fertilizes an ovule, the male gamete (sperm) unites with the female gamete (egg cell) within the ovule, leading to the formation of a zygote.
• The zygote is the first cell of the new plant, and it will initially undergo a series of mitotic cell divisions. As it divides and grows, it transforms into a small, multicellular structure known as the embryo.
• The embryo is essentially the young plant encased within the protective environment of the seed, and it will later develop into the mature plant.

Therefore, after fertilization, the focus on growth centers around the development of the embryo, which is a crucial step in the successful reproduction and life cycle continuation of plants.

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Aestivation is a state of dormancy or reduced activity that animals enter to survive in hot, dry conditions or when food or water is scarce. 

Drought is a primary trigger for aestivation in animals, as it leads to water scarcity and increased temperatures.

While strong winds can be uncomfortable for animals, they don't typically trigger aestivation.

Rain is often associated with cooler temperatures and increased water availability.

Cold temperatures are more likely to trigger hibernation not aestivation.

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Loamy soil is characterized by a distinct combination of features that make it particularly favorable for plant growth. It contains a balanced mixture of three types of soil particles: sand, silt, and clay. This combination gives loamy soil its unique properties.

High Humus: Loamy soil is known for having a high content of organic matter, often referred to as humus. Humus is important because it improves soil fertility, provides vital nutrients for plants, and helps retain moisture.

Moderate Porosity: Loamy soil has a structure that provides moderate porosity. This means it can hold water effectively while also allowing excess water to drain away, ensuring that plants have both the water and air they need. It balances water retention and aeration very well.

Because of these characteristics, loamy soil is considered one of the best soils for agriculture and gardening. Therefore, the description that best characterizes loamy soil is high humus and moderate porosity.

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Ecological succession is a natural process by which ecosystems change and develop over time. This process can be initiated by several factors, resulting in the gradual replacement of one community by another until a stable ecosystem, known as a climax community, is achieved.

One such factor that can lead to ecological succession is a newly formed habitat. When an area is newly formed, such as from a volcanic eruption creating new land, or when a glacier retreats exposing bare rock, there is no pre-existing community. Over time, pioneer species such as lichens and mosses begin to colonize the area. As they die and decompose, they contribute organic matter to the soil, making it more hospitable for future plant species. This leads to the gradual development of a more complex community.

A habitat with abundant food might not directly cause ecological succession, but it can support the growth and reproduction of organisms, contributing to the stability and complexity of existing ecosystems. However, changes in food availability can lead to shifts in populations and species interactions, indirectly influencing successional changes.

Another important factor is a habitat with space and light. When a disturbance such as a fire clears an area, removing trees and other vegetation, it creates open space and increases light availability. This situation allows new species to colonize the area, starting a process known as secondary succession. Initially, fast-growing species that require a lot of light dominate the area, but eventually, as the ecosystem matures, it becomes more diverse and balanced.

Lastly, a population of plants on fertile land provides a suitable environment for ecological succession. Fertile soils support a wide variety of plant species, which contribute to the formation of a complex and stable ecosystem over time. As plants grow and die, they enrich the soil, promoting the growth of secondary species until a mature community is established.

In summary, ecological succession can result from newly formed habitats, disturbances that create space and light, and fertile lands. These changes create conditions that allow different species to colonize and thrive, leading to the evolution of ecosystems over time.

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Paramecium is a single-celled organism that belongs to the group of protists known as ciliates. The primary method of reproduction in paramecium is through binary fission. Let's break down what that means:

Binary Fission: This is a type of asexual reproduction, which means it does not involve the fusion of gametes (sperm and egg). Instead, it is a simple division process in which the organism creates a copy of itself. Here is how it works in paramecium:

• The paramecium first duplicates its genetic material, which is contained within its nucleus. During this process, the genetic information is doubled to ensure that each new cell has the same DNA as the parent cell.
• Once the DNA is replicated, the paramecium's cell elongates, making it ready to split.
• Next, the cell divides into two almost equal halves. Each new cell, or daughter cell, receives a copy of the original genetic material.
• Finally, these daughter cells grow to the size of the original parent cell and the process can begin again.

This process of binary fission allows paramecia to reproduce quickly and efficiently, leading to exponential population growth under favorable conditions. Unlike other methods like budding, spore formation, or fragmentation, binary fission is a straightforward division of the cell into two identical parts.

Conclusion: Paramecium reproduces mainly by binary fission, a type of asexual reproduction that results in two genetically identical offspring from a single parent organism.

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To determine the genotypic ratio of the offspring when the F1 generation allows for self-pollination, first understand the process of Mendelian genetics. In a typical monohybrid cross, let's assume two homozygous parents, one dominant (AA) and one recessive (aa). When these two are crossed, the F1 generation will all have the genotype Aa, which is heterozygous.

If we allow the F1 generation (Aa) to self-pollinate, crossing Aa with Aa, the potential genotypes of the offspring can be determined using a Punnett square:

From this Punnett square, you can see the possible combinations:

• 1 AA
• 2 Aa
• 1 aa

Thus, the genotypic ratio of the offspring is 1 : 2 : 1, which represents one homozygous dominant (AA), two heterozygous (Aa), and one homozygous recessive (aa).

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The rhizoid of liverwort is unicellular and unbranched.

Here's a simple explanation: Liverworts are a type of non-vascular plant that have structures called rhizoids. These rhizoids look like tiny hairs and they help the plant attach to surfaces like rocks or soil. Even though they help with attachment, they do not have the complexity of true roots.

In liverworts, these rhizoids are formed as single cells, which means they are unicellular. Think of them as being like a single long cell that looks like a hair. This single-celled structure is unbranched, meaning it doesn't split or divide into more parts or sections.

In summary, liverwort rhizoids are unicellular and unbranched, helping them secure the plant to various surfaces without forming complex root structures.

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The major building block of an organism is Carbon. Let me explain why:

1. Backbone of Organic Compounds: Carbon is the fundamental component in organic compounds, which form the basis of all living organisms. This includes carbohydrates, proteins, lipids, and nucleic acids (DNA and RNA). These molecules are crucial for the structure and function of cells.

2. Versatile Bonding: Carbon atoms can form four covalent bonds with other atoms. This allows carbon to form a diverse array of molecules, ranging from simple methane (CH₄) to complex macromolecules like proteins and nucleic acids.

3. Stability: Carbon-based molecules are stable and can exist in various forms. This stability is critical for building compounds that are integral to life.

4. Flexibility in Forming Structures: Carbon chains can form rings, long chains, and branched formations, providing structural diversity that supports the complex needs of living organisms.

While elements like nitrogen, oxygen, and hydrogen are also essential, carbon's unique ability to bond in multiple and versatile ways is why it is considered the backbone of life. Hence, we often refer to life as "carbon-based."

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The **Northern Guinea Savanna** is an ecological zone in Nigeria characterized by a mixture of grasslands and scattered trees. This vegetation belt lies between the Sudan Savanna in the north and the Southern Guinea Savanna in the south. The vegetation in this region is adapted to longer wet seasons compared to the Sudan Savanna and shorter ones compared to the Southern Guinea Savanna.

Among the states listed, **Kwara State** is where the **Northern Guinea Savanna** is located. Kwara is positioned in the north-central part of Nigeria, which aligns with the geographical location of the Northern Guinea Savanna. It features the characteristic landscape of mixed grasslands and trees, supporting both agriculture and livestock rearing.

In contrast, **Borno and Kano** are located further north, closer to or within the Sudan Savanna zone, which is more arid. **Oyo state**, on the other hand, is located in the southwestern part of Nigeria and is part of the forested regions or the Southern Guinea Savanna, which receives more rainfall and supports more dense vegetation compared to the Northern Guinea Savanna.

Thus, the correct answer is **Kwara State** as it lies within the **Northern Guinea Savanna** ecological zone.

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In the context of releasing oxygen to the atmosphere, only one of the processes you've listed does this: photosynthesis. Let me explain it in a simple way.

Photosynthesis is a process carried out by plants, some bacteria, and algae. These organisms use sunlight, carbon dioxide, and water to create their food, which is a form of sugar. As a byproduct, they release oxygen into the atmosphere. During this process, chlorophyll, the green pigment in plant cells, captures light energy, and helps convert it into chemical energy.

None of the other processes release oxygen:

- Respiration is a process in which living organisms, including plants and animals, take in oxygen and use it to convert glucose into energy, producing carbon dioxide and water as byproducts.

- Combustion involves burning substances, typically in the presence of oxygen, usually resulting in the production of carbon dioxide, water, and energy (heat and light). It does not release oxygen; rather, it consumes oxygen.

- Decomposition is the breakdown of dead organic matter by microorganisms. During this process, organic matter is converted back into carbon dioxide, methane, and other compounds, but it does not release oxygen.

So, the process that releases oxygen into the atmosphere is photosynthesis.

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The type of circulatory system found in arthropods and some molluscs is called an open circulatory system.

In an open circulatory system, the blood does not always travel inside blood vessels. Instead, the heart pumps the blood into open cavities or spaces in the body, and hence the organs are directly in contact with the blood. Unlike a closed system, where blood circulates only within blood vessels, the open system allows the blood to flow freely around tissues before being re-collected and circulated again. This kind of system is common in invertebrates like arthropods (insects, spiders) and some molluscs (like snails and clams).

This approach to circulation is generally less efficient than a closed circulatory system because there is less control over the direction and speed of the blood flow. However, it works well for the metabolic needs of these animals. They do not require the high energy needs of more complex organisms, so this system is well-suited to their lifestyles and environments.

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An example of an organism that exhibits counter-shading to escape from predators is a fish. Counter-shading is a type of camouflage where an animal has a darker coloration on its upper side and a lighter coloration on its underside.

This adaptation helps fish in two main ways:

1. When viewed from above, the darker top side blends with the dark depths of the water, making it less visible to predators looking down.
2. When viewed from below, the lighter underside blends with the lighter surface of the water, making it less visible to predators looking upwards.

This dual blending effect helps fish to reduce the risk of being detected by predators, enhancing its chances of survival. This strategy is particularly beneficial in open water habitats where there are few places to hide.

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To understand overcrowding, we need to consider factors that increase or decrease a population within a certain area.

High natality refers to a high birth rate. When more individuals are born in an area than those leaving it, the population will naturally increase, potentially leading to overcrowding as the area becomes inhabited by more individuals than it can comfortably support. This is because more births without corresponding departures or deaths means more people vying for the same resources.

Emigration is the process of individuals moving out of a given area to live elsewhere. This movement decreases the population of an area, which would typically help prevent overcrowding rather than cause it. Hence, emigration does not lead to overcrowding.

Competition involves individuals or species competing for limited resources such as food, water, or territory. While it does not directly cause overcrowding, high population density due to overcrowding can intensify competition since more individuals fight for the same scarce resources. Thus, competition is more of a consequence rather than a direct cause of overcrowding.

High mortality means a high death rate. This reduces the number of individuals in a population, which works against overcrowding. With more individuals dying, the population decreases or stabilizes, alleviating pressures that lead to overcrowding.

In summary, among the listed factors, high natality is the most significant contributor to overcrowding as it directly increases population size when not matched by increased emigration or mortality.

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The cell organelle responsible for the synthesis of protein is the ribosome.

To put it simply, ribosomes are like tiny factories within the cell. They read the genetic instructions carried by messenger RNA (mRNA) and use these instructions to assemble amino acids into proteins, which are essential molecules for various cell functions.

Here's how it works in a straightforward manner:

• The cell's DNA contains the "blueprint" for proteins. This information is copied into mRNA in a process called transcription.
• The mRNA travels to the ribosome. The ribosome reads the sequence of the mRNA. This process is called translation.
• As it reads the mRNA sequence, the ribosome assembles amino acids in a specific order, creating a protein chain, which eventually folds into a functional protein.

In summary, the ribosome is an essential organelle for protein synthesis, which is crucial for the cell's structure, function, and regulation of the body's tissues and organs.

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The evidence of evolution that employs the use of radio-isotope dating is fossil records.

Let me explain this further. Fossils are the preserved remains or traces of organisms that lived in the past. Scientists use fossils to understand the history of life on Earth and how species have changed over time. But to make meaningful conclusions, they need to know the age of these fossils.

This is where radio-isotope dating comes into play. Radio-isotope dating, also known as radiometric dating, is a technique used to determine the age of rocks and fossils. It measures the decay of radioactive isotopes in materials.

Here's a simple way to understand it: you can think of radioactive isotopes as tiny clocks contained within rocks and fossils. These isotopes decay at a constant rate over time. By measuring the amount of remaining isotopes and knowing their half-life (the time it takes for half of the isotopes to decay), scientists can calculate how long the isotopes have been decaying. This gives them the age of the fossil or rock, helping to place it in the context of Earth's history.

In conclusion, fossil records are the evidence of evolution that utilize radio-isotope dating to provide a time frame and chronological context for evolutionary events.

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The carbon cycle is a natural process through which carbon is exchanged between different components of the Earth, including the atmosphere, oceans, soil, and living organisms. The process in the carbon cycle related to your question is combustion.

Combustion is the process of burning organic material such as fossil fuels (coal, oil, and natural gas) or biomass (like wood). When these materials are burned, they react with oxygen to produce energy, releasing carbon dioxide (CO₂) and water vapor as by-products. This carbon dioxide is then released into the atmosphere, where it can be absorbed by plants through photosynthesis, thereby continuing the carbon cycle.

To clarify why the other processes are not part of the carbon cycle:

• Evaporation is the process where water from lakes, rivers, and oceans changes from a liquid to a gas or vapor. This is part of the water cycle, not the carbon cycle.


• Nitrification is a process in the nitrogen cycle, where ammonia is converted into nitrites and then nitrates, involving the transformation of nitrogen compounds. It does not involve carbon directly.


• Transpiration is the process through which water is absorbed by plant roots and then released as water vapor from plant leaves. This is also part of the water cycle.

In summary, combustion is the process in the list above that plays a direct role in the carbon cycle by releasing carbon dioxide into the atmosphere.

Answer Details

The endocrine gland located in the part labelled 'I' is the pituitary gland.

The pituitary gland is a small, pea-sized gland located at the base of the brain, just below the hypothalamus, which connects to it. It is often referred to as the "master gland" because it plays a crucial role in regulating a wide variety of bodily functions by secreting hormones that control other glands in the endocrine system, such as the thyroid, adrenal glands, and reproductive organs.

Key Points:

• The pituitary gland is located at the base of the brain, making it likely to be represented by a part labelled in the diagram near the bottom of the brain structure.
• It works closely with the hypothalamus to oversee many functions including growth, metabolism, and reproductive processes.

Answer Details

The part of the inner ear that is responsible for hearing is the cochlea.

The cochlea is a spiral-shaped, fluid-filled structure that looks a little like a snail shell. Its primary function is to convert sound waves from the air into electrical signals that can be interpreted by the brain as sound. Here's how it works:

• Sound waves enter the ear canal and cause vibrations in the ear drum.
• These vibrations are transmitted through the tiny bones in the middle ear and reach the cochlea in the inner ear.
• Inside the cochlea, the vibrations cause the fluid to move, which in turn moves tiny hair cells located on a structure known as the basilar membrane.
• The movement of these hair cells produces electrical signals.
• The electrical signals are then sent to the brain via the auditory nerve, where they are interpreted as sound.

Thus, the cochlea plays an essential role in the process of hearing by transforming sound vibrations into nerve impulses that the brain can understand.

Answer Details

The circulatory system is a network of blood vessels, the heart, and blood that moves throughout the body. The circulatory system's main function is to transport nutrients, oxygen, and hormones to the body's cells, and remove waste products. 

The reproductive system is a collection of organs in both males and females that work together to produce offspring, primarily consisting of the gonads (ovaries in females, testes in males) which create sex cells (eggs and sperm), and accessory organs that transport and nurture these cells to facilitate fertilization and potential pregnancy.

The nervous system is a complex network of nerves and nerve cells (neurons) that control bodily functions by sending signals between the brain and the rest of the body, allowing us to move, think, feel, and regulate internal processes; it consists of two main parts: the central nervous system (brain and spinal cord) and the peripheral nervous system

The urinary system helps the body maintain balance by removing waste products like urea, extra salt, and extra water. Urea is a waste product created when the body breaks down protein from foods like meat, poultry, and some vegetables. Its function is to remove waste from the body through urine bladder, urethra, kidneys and ureters.

Parts of the urinary system 

• Kidneys: Two bean-shaped organs located in the middle back, under the ribs. They filter blood to remove waste and extra water.
• Ureters: Two tubes that carry urine from the kidneys to the bladder.
• Bladder: A hollow organ in the pelvis that stores urine. When the bladder is full, it signals the body to urinate.
• Urethra: A small tube that carries urine from the bladder out of the body.