Cyanobacteria photosynthesised, which meant that they released oxygen. This was the key to the evolution of eukaryote cells that aerobically respired. From their evolution, the O2 levels in the atmosphere was able to increase; this is why we eventually evolved.
The evolution of aerobic organisms depended on a metabolic product of cyanobacteria because they used them as a energy source and supply to maintain their health.
The word "evolution" means "change". The Theory of Evolution is concerned with change among living things, animals and plants. Such change does not affect climate in any significant way. Earth is also evolving. The tectonic plates are moving; volcanic action is changing the face of the Earth, creating new islands, changing the topography. These changes---the evolution of Earth---do affect climate.
The book, On The Origin Of Species, " suggested " that organisms evolve through the process of natural selection. The nonrandom survival and reproductive success of randomly varying organisms
Design!
cyanobacteria contains a green pigment chlorophyll
Cyanobacteria added oxygen to the atmosphere through the process of photosynthesis, fundamentally changing the composition of Earth's atmosphere and enabling the evolution of aerobic organisms.
The evolution of aerobic organisms depended on a metabolic product of cyanobacteria because they used them as a energy source and supply to maintain their health.
Cyanobacteria are believed to be the common ancestor of all photosynthetic plastids found in eukaryotes. Through a process called endosymbiosis, cyanobacteria were engulfed by an ancestral eukaryotic cell, giving rise to plastids like chloroplasts. This event played a crucial role in the evolution of photosynthesis in eukaryotes.
One of the pigments in Cyanobacteria is Zeaxanthin.
Prokaryotes -> Cyanobacteria -> Eukaryotes -> Multicellular organisms Prokaryotes -> Multicellular organisms -> Eukaryotes -> Cyanobacteria Cyanobacteria -> Prokaryotes -> Eukaryotes -> Multicellular organisms The correct sequence is option 1: Prokaryotes -> Cyanobacteria -> Eukaryotes -> Multicellular organisms. These groups represent a general order of the evolution of life on Earth, starting with simple prokaryotic organisms and culminating in more complex multicellular organisms.
Oxygen. Cyanobacteria were one of the earliest organisms to produce oxygen as a by-product of photosynthesis. This oxygenation of Earth's atmosphere had a profound impact on the further evolution of life, leading to the diversification of aerobic organisms.
photosynthesis
Thylakoid membranes of chloroplasts resemble those of cyanobacteria because chloroplasts are believed to have evolved from endosymbiotic cyanobacteria. During evolution, the cyanobacteria that were engulfed by a host cell eventually became mutually beneficial, leading to the development of chloroplasts. The structural similarity between the thylakoid membranes of chloroplasts and cyanobacteria is a remnant of this evolutionary relationship.
Because they were the first steps to life on earth
what affect tectonics have on evolution of new spiecies
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The speciation process contributes to evolution by creating new species with unique traits and adaptations. This increases the overall biodiversity of a specific ecosystem, leading to a wider variety of organisms and potentially new ecological niches. Over time, these new species may further evolve through natural selection and genetic drift, driving the overall process of evolution.