Abiotic Components

Abiotic Components

Abiotic components or abiotic factors are nonliving factors that impact an ecosystem. These factors are part of the ecosystem and influence the associated living things but they are not living. The term abiotic is a mix of two words, these are a- which means without and bio which means life.

What are the Types of Abiotic Components?

There are five different types of abiotic components. These are:

  • Temperature: A rise in temperature can change the development in an animal, can cause changes in metabolic activity and much more. All organisms can tolerate a certain range of temperature and how extreme temperatures lead to stressful conditions.

  • Water: Water covers more than 70% of the earth’s surface in one form or the other. Compared to that, living organisms require a small amount of water to live. Water is critical to survival.

  • Atmosphere: The atmosphere has important components like oxygen and carbon dioxide, which animals and plants breathe to live and combine them to produce carbohydrate, other organic materials, parts of DNS and proteins.

  • Chemical Elements: Chemical elements play a major role within the environment to influence the type of organisms which can grow or thrive in an area. The chemical composition, including pH level, has a huge impact on the plants of an area. For example, plants like azaleas thrive in acidic soils. Some elements, like zinc and copper, are important micronutrients for the development of many organisms. 

  • Wind: The wind direction and speed in an area affects its temperature and humidity. Very high wind speeds, often in mountainous areas can be the reason behind stunted plant growth. Wind also carries seeds and aids in pollination.

Abiotic Components Examples 

  • Wind

  • Humidity

  • Salinity

  • Rain

  • Temperature

  • Latitude 

  • Elevation

  • Radiation

  • Pollution

[Image will be Uploaded Soon]

Based on Abiotic Factors, there are Several Types of Ecosystems:  

We will discuss about the abiotic factors of these ecosystems in the following:

  • Desert Abiotic Factors: Due to low rainfall, deserts develop ecosystems which are very distinguishable from another environment. IT covers 20% of the earth’s surface and that includes Antarctica. Extreme temperature swings are often observed in deserts as open-air and water vapour stabilises the temperature.

  • Tropical Rainforest Abiotic Factors: Tropical rain forests see the most rainfall on earth. Most rainforests have more than 100 inches of rain every year. It has warm and wet climates and the rainforests create a dense, lush and complex ecosystem.

  • Tundra Abiotic Factors: The tundra region receives less light and heat from the sun. A deep layer of soil called the subsoil is observed. And it can remain frozen for many years.  Only grasses and small plants grow in this region.

  • Ocean Abiotic Factors: The abiotic factors which play a part in the oceans environment are salinity, heat, pollution, and many more. It is a truly unique environment. Because of its depth, the different zones receive a different amount of sunlight and heat.  This creates a different ecosystem in each layer and it has its unique share of animals. The different ocean ecosystems are coral reef ecosystems, shoreline ecosystems, deep ocean ecosystems etc.

Other Ranges of Ecosystems are:

  • Temperate Forests: Abiotic factors include, temperature, humidity etc

  • Freshwater Ecosystems: The biotic factors are: light penetration, temperature and pH of water. Examples are lakes, springs 

  • Grasslands: As the name says, this type of ecosystem is dominated by grass. The major abiotic factor is rainfall

  • Taiga Ecosystems: It is the coldest region of the arctic. There is a presence of evergreen trees and you can notice mosses and mushrooms. 

Responses to Abiotic Factors

Living organisms respond to abiotic components in various ways. This list of abiotic factors include:

  • Regulators: All organisms are able to maintain a constant internal environment called homeostasis. The organisms which are able to do this regulate homeostasis by physiological and behavioural means and it ensures constant body temperature and osmotic concentration. Humans maintain body temperature at 98.4 degrees Fahrenheit. They maintain homeostasis by sweating in the summer and shivering in the winter.

  • Conformers: These are organisms which cannot regulate internal body conditions, and their body condition changes as per the environment. 

  • Migrate: For these organisms, when the weather in their habitat transforms into a stressful condition, they move to a habitat which has less stressful conditions. For example, Siberian birds fly from that region to Keoladeo National Park in Bharatpur, Rajasthan.

  • Suspend: Many organisms have different body mechanisms to survive in a stressful environment. There are many examples of this type of response. These are:

  1. Sporulation: Organisms produce thick-walled spores which help the organism to survive unfavourable conditions. When the conditions return to normal, the spore germinates. This type of response can be seen in certain types of bacteria, fungi and lower plants.

  2. Dormancy: To survive periods of stress, seeds of higher plants reduce their metabolic activity and go into a state of dormancy. Under favourable conditions, the dormant seed germinates to grow to a new plant.

  3. Hibernation and aestivation: If organisms are unable to migrate, they avoid stressful conditions by escaping in time to a place where the organisms sleep in winter. It is called hibernation. If the organism or animal sleeps in summer, it is called aestivation. Example- bears sleep during winter and snails sleep during summer.

  • Diapause: It is a natural process which is observed in a certain animal. It causes the delay of development in these animals due to alterations in metabolic activity. Diapause is common in parasites, crabs, shellfish, snail insects and certain groups of zooplanktons.

FAQ (Frequently Asked Questions)

Q: Why are Smaller Animals not Seen that much in Polar Regions?

A: Small animals which are generally conformers did not evolve to become regulators because thermoregulation is energetically expensive and for many animals, heat gain or heat loss is a function of the surface body area. Small animals have a larger body surface area than their volume. They tend to lose body heat very fast in cold temperatures. Then they have to utilise much energy to generate body heat through metabolism that is why very small animals are not or rarely found in Polar Regions.