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Darwinism- The Natural Selection for “Adaptations and Origin of New Species”

 

Principle 1: Changes (variations) in organisms are “Selected” by Nature continuously, either “to live” or “to remove” and make “new fittest species” on the earth for successful survival.

 Principle 2: “Darwinism” is “gradualism” (new species formed gradually, but not suddenly).

 

@ Natural selection promotes the fittest organisms ” to live” and establishes new species on the earth(e.g.all the diversified organisms living on the earth, today).

@Natutral Selection stresses the unfitted organisms “to remove” and delete the species from the earth- extinction (e.g. Dinosaurs of the Mesozoic era).

Introduction:

Every organism living on the Earth occupies a suitable habitat called “Ecosystem” and is desirous to continue its race and reproduce a possible number of offspring during its lifetime, named  “Overproduction”. Yet, organisms in every generation are influenced, impacted and regulated by the dynamic “Physico-Chemical and Biological environments” (simply called NATURE) and maintain the “equilibrium state (carrying capacity)”. The environment of limited resources such as availability of food to take, space to live etc., provokes the “Struggle for existence” with the “Competition” and struggle with unstable climatic and edaphic (soil and its minerals and water) environmental conditions. Winners are achievers who struggle with some necessary changes in their bodies and become eligible to survive with fitness in their lives. Thus, according to the changes that take place in the environment, organisms also try hard to change, modify or adapt to live in that particular ecosystem successfully. These changes may be obviously stimulated, triggered and directed by the evolutionary drivers of nature such as mutations, Sexual selection or selective mating, Genetic Drift, Gene flow (Immigration or Emigration), Genetic Recombinations (of meiotic division), and more. According to Charles Darwin whatever changes appear in the organisms are called “Variations”. Variations are variable capacities of organisms to live in the existing environment. These variations may be more or less beneficial or sometimes harmful, even may be neutral. Exactly, now “Natural Selection”, the leader of evolutionary drivers enter and determines the future of the variations by the selection process, the organisms either “to live fruitfully” or “to be eliminated” from nature. The selection and adaptation processes are continuous by the “Inheritance of acquired Characters” by every generation leaving the offspring with variations. These variations may not be visible to the naked eye in one or a few generations, but the gradual accumulation (gradualism) of the aggregated changes establish the large cumulative changes called new big adaptation (s) and form the new species called “Speciation”. Darwin researched extensively on finch birds that migrated from South America to the Galapagos Islands of different climatic conditions and evolved as different species, which were explored as “adaptive Radiation” (figure 1.1).

Characteristics of population and the process of  Natural Selection:

I. Overproduction: How many seeds are being produced by a tamarind tree in a year? How many eggs are laid by a butterfly before ending its life? How many zygotes are being released by a fish in its lifetime? Seeds are in thousands, the eggs laid by butterflies may be in hundreds in a year and the zygotes released from a fish may be in lacks, throughout life! This elevated level of reproductive desire and capacity of organisms is referred to as “Overproduction”. Do all offspring take birth in the next generation survive? If all the seeds of all the tamarind trees on this globe are germinated and live, within a few years, our planet is filled with only tamarind trees! Similarly, if all the eggs of all the butterflies are hatched and produce larvae, our earth is occupied by only butterfly species! Consequently, all the water bodies are filled with only fish populations! Why is this elevated level of reproduction found in organisms? If all could survive, does their environment provide infinite food and shelter to these organisms? Impossible to do this! Every ecosystem has limited resources to facilitate the organisms. Limitless growth leads to the mass extinction of a species! However, this overproduction is automatically regulated in nature.

II. Struggle for existence:  What are the struggles of populations to adapt and live in nature?

As per the carrying capacity of a particular ecosystem, the population sizes of a species are regulated by competition. Individuals in the population may face three types of competitors.

1. Struggle within the species – Intraspecific competition: Competition among the members of a population or species for food, shelter and mating.

2. Struggle with other species – Interspecific competition: Competition among the members of the different populations or species for food (cattle fights with goats and sheep populations, as their food is grass), shelter (ants, termites and snakes in another competition, as all try to live in mounds). No mating competition, as genetic variations occur between the species (Figure 1.2).

3. Struggle with the environment – Physico-chemical environment: Physical factors such as availability of temperature, light, humidity, gravity etc., and Chemical factors such as availability of minerals, acidity, and alkalinity etc., are dynamic and change over a period of time. according to the changes in the physicochemical world, organisms adapt to adjust or habituate alternate sources to fulfil their needs.

Due to the above three ways of competition and struggle, only a few organisms, those who are strong enough (fittest) and won the fight could live and are treated as “fittest Organisms”.

III. Variations and Survival of the Fittest: What are different variations and how are they selected by the “Natural Selection”?

Variations in the organisms are developed due to competition and struggle with the environment. These variations may be either beneficial, or harmful, and may be neutral sometimes. Organisms with beneficial variations fit in that competitive and changed environment to lead a successful life, called the “survival of the fittest”.

IV. Natural Selection by gradualism: Who is eligible to live in Nature? How do organisms get this eligibility?

Nature (environment) or a particular ecosystem can select the specific fittest organisms to live and those who have unsuitable and unfavourable variations are selected and eliminated from the environment. This is a continuous process and organisms undergo gradual changes, instead of sudden origin.

V. Inheritance of Acquired Characters: Could the achieved characters be transferred?

This is actually proposed by “Lamarck”, and accepted by Darwin. The fittest organisms with better variations can transfer their characteristics to the next generations, which go through the above processes, the overproduction, struggle for existence and produce variations in every generation.

VI. Speciation- The Origin of Species”: How do new species are formed on the earth?

In every generation, due to the struggle for existence, variations are produced in populations. These variations aggregate generation by generation for many years and the cumulative small changes once become a big change(s) and “Origin” as a new species and “isolated” from the pre-existing populations.

VII. Adaptive Radiation- Darwin Finches, the Divergent and Convergent Evolution 

Adaptive radiation demonstrates how species can diversify and fill various ecological niches when “faced with new opportunities” in their environment. It provides valuable insights into the mechanisms of evolution and speciation. Adaptive radiation is a process of “rapid” diversification of species from “a pre-existing common ancestor” into a variety of ecological niches or adaptive zones. It typically occurs when a population or a small group of organisms encounters new, diverse, and unoccupied habitats, leading to the evolution of multiple species, each adapted to exploit a specific ecological opportunity.

Characteristics of Adaptive Radiation:

1. Diverse Habitats: Adaptive radiation often occurs in environments with a wide range of ecological niches or resources that are unexploited or underutilized by existing species. These niches may include different food sources, habitats, or ways of life.
2. Rapid Speciation: During adaptive radiation, multiple species evolve relatively quickly from a common ancestor. This rapid speciation is driven by natural selection favouring traits that enhance an organism’s ability to exploit specific ecological opportunities.
3. Divergent or unparallel Evolution: As new species evolve within the adaptive radiation tend to radiate and diverge in multiple directions as different from each other in terms of habits, morphology, behaviour, and ecological roles although their origin is common. This divergence allows them to coexist without directly competing for the same resources, the type of food, habitat, climate etc.
4. Convergent or Parallel Evolution: Different lineages within adaptive radiation may independently evolve similar adaptations in response to similar environmental challenges such as the same food, habitat and climates. This can result in convergent evolution, where “unrelated species” develop similar traits or characteristics.

Examples of Adaptive Radiation:

1. Darwin’s Finches: One of the most famous examples of adaptive radiation is the diversification of finch species on the Galápagos Islands, which inspired Charles Darwin’s theory of evolution. These finches adapted to various ecological niches on different islands, with beak shapes and sizes that matched their primary food sources, such as seeds, insects, or nectar.
2. Hawaiian Honeycreepers: The Hawaiian Islands have been a hotspot for adaptive radiation in bird species. Honeycreepers, a diverse group of birds, evolved into various forms, each adapted to different habitats and food sources, including nectar-feeding, seed-eating, and insect-eating species.
3. African Cichlid Fish: The African Great Lakes, such as Lake Victoria and Lake Malawi, are home to numerous species of cichlid fish that have undergone adaptive radiation. These fish have evolved a wide range of body shapes, colour patterns, and feeding strategies, driven by the availability of various niches and food sources within the lakes.
4. Anolis Lizards in the Caribbean: Anolis lizards in the Caribbean have experienced adaptive radiation on different islands. They have evolved distinct body sizes, limb lengths, and behaviours to exploit specific microhabitats, such as tree branches, twigs, or leaf litter.
5. Mammals in the African Savanna: The African savanna is inhabited by a diverse array of herbivores, including antelopes, zebras, and giraffes. Each of these groups has evolved adaptations related to their feeding habits, locomotion, and social structures, resulting in a wide range of species.

 

# The Industrial Melanism – Example of the Natural Selection.

This example illustrates how changes in the environment can lead to shifts in the prevalence of certain traits within a population over a period of time by “Natural Selection.