Organisms Depend upon Photosynthesis
Essay title: Organisms Depend upon Photosynthesis
Organisms Depend Upon Photosynthesis
A. Organisms Depend Upon Photosynthesis
Photosynthetic organisms (algae, plants and a few other organisms) serve as ultimate source of food for most life.
Photosynthesis transforms solar energy into chemical bond energy of carbohydrates.
Most food chains start with photosynthesizers.
Solar Radiation
Key Discoveries of Photosynthetic Process
Structure of Chloroplasts
Function of Chloroplasts
A. Solar Radiation
Solar radiation is described in terms of its energy content and its wavelength.
Photons are discrete packets of radiant energy that travel in waves.
The electromagnetic spectrum is the range of types of solar radiation based on wavelength.
Gamma rays have shortest wavelength.
Radio waves have longest wavelength.
Energy content of photons is inversely proportional to wavelength of particular type of radiation.
Short-wavelength ultraviolet radiation has photons of a higher energy content.
Long-wavelength infrared light has photons of lower energy content.
High-energy photons (e.g., those of ultraviolet radiation) are dangerous to cells because they can break down organic molecules by breaking chemical bonds.
Low-energy photons (e.g., those of infrared radiation) do not damage cells because they do not break chemical bonds but merely increase vibrational energy.
White light is made up of many different wavelengths; a prism separates them into a spectrum.
Only 42% of solar radiation that hits earth’s atmosphere reaches surface; most is visible light.
Higher energy wavelengths are screened out by ozone layer in upper atmosphere.
Lower energy wavelengths are screened out by water vapor and CO2.
Consequently, both the organic molecules within organisms are processes, such as vision and photosynthesis, are adapted to radiation that is most prevalent in the environment.
Earth’s Energy-Balance sheet
42% of solar energy hitting atmosphere reaches earth surface; rest is reflected or heats atmosphere
Only 2% of 42% is eventually used by plants; rest becomes heat.
Of this plant-intercepted energy, only 0.1 to 1.6% is incorporated into plant tissue.
Of plant tissue, only 20% is eaten by herbivores; most of rest decays or is lost as heat.
Of herbivore tissues, only 30% is eaten by carnivores.
Photosynthetic pigments use primarily the visible light portion of the electromagnetic spectrum.
Two major photosynthetic pigments are chlorophyll a and chlorophyll b.
Both chlorophylls absorb violet, blue, and red wavelengths best.
Very little green light is absorbed; most is reflected back; this is why leaves appear green.
Carotenoids are yellow-orange pigments which absorb light in violet, blue, and green regions.
When chlorophyll in leaves breaks down in fall, the yellow-orange pigments show through.
Absorption and action spectrum
A spectrophotometer measures the amount of light that passes through a sample of pigments.
As different wavelengths are passed through, some are absorbed.
Graph of percent of light absorbed at each wavelength is absorption spectrum.
Action spectrum
Photosynthesis produces oxygen; production of oxygen is used to measure rate of photosynthesis.
Oxygen production and, therefore, photosynthetic activity is measured for plants under each specific wavelength; plotted on a graph, this produces an action spectrum.
Action