Organism culturing system and organism culturing method

The invention claimed is: 1. An organism culture system comprising: a liquid storage vessel for storing a light-absorbing solution that absorbs more light in a second wavelength range than light in a first wavelength range, wherein the second wavelength range is at a shorter wavelength side than the first wavelength range, a culture vessel for storing a culture solution containing a photosynthetic organism to be cultured and disposed in the liquid storage vessel, a first light quantity measuring unit for measuring the quantity of light that the culture vessel receives separately for different wavelength ranges, a second light quantity measuring unit for measuring the quantity of external light surrounding the liquid storage vessel, and a liquid depth controlling unit for controlling the liquid depth from the surface of the light-absorbing solution to the culture vessel in the liquid storage vessel based on the measurement result of the first light quantity measuring unit, wherein light intensity is decreased, while the proportion of light in the first wavelength range and the second wavelength range is maintained, by controlling the liquid depth. 2. The organism culture system according to claim 1 , wherein the liquid depth controlling unit controls the liquid depth by controlling the buoyancy exerted on the culture vessel in the light-absorbing solution. 3. The organism culture system according to claim 2 , wherein the liquid depth controlling unit controls the buoyancy by controlling the volume of a gas in the culture vessel. 4. The organism culture system according to claim 3 , wherein the gas in the culture vessel controlled by the liquid depth controlling unit contains carbon dioxide. 5. The organism culture system according to claim 2 , wherein the culture vessel has a buoyant body capable of storing a gas, and the liquid depth controlling unit controls the buoyancy by controlling the volume of the gas in the buoyant body. 6. The organism culture system according to claim 1 , wherein the culture vessel is fixed in a set position in the liquid storage vessel, and the liquid depth controlling unit controls the liquid depth by adjusting the amount of the light-absorbing solution in the liquid storage vessel. 7. The organism culture system according to claim 1 , wherein the liquid depth controlling unit determines whether or not to control the liquid depth based on the quantity of external light. 8. The organism culture system according to claim 1 , further comprising an external temperature measuring unit for measuring the external temperature of the liquid storage vessel, wherein the liquid depth controlling unit determines whether or not to control the liquid depth based on the external temperature. 9. The organism culture system according to claim 1 , wherein the light-absorbing solution stored in the liquid storage vessel is a liquid in which a pigment that absorbs more light in the second wavelength range than light in the first wavelength range is dissolved. 10. The organism culture system according to claim 1 , wherein the liquid depth controlling unit stores correlations between the liquid depth and the quantities of light in the first and second wavelength ranges in advance and controls the liquid depth based on the correlations. 11. The organism culture system according to claim 1 , further comprising a receiving unit for receiving information from an artificial satellite, wherein the liquid depth controlling unit controls the liquid depth based on information on the weather which the receiving unit receives from the artificial satellite. 12. A method for culturing an organism, comprising: storing a light-absorbing solution that absorbs more light in a second wavelength range than light in a first wavelength range in a liquid storage vessel, wherein the second wavelength range is at a shorter wavelength side than the first wavelength range, storing a culture solution containing a photosynthetic organism to be cultured in a culture vessel, disposing the culture vessel in the liquid storage vessel, measuring the quantity of light that the culture vessel receives separately for different wavelength ranges using a first measuring unit, measuring the quantity of external light surrounding the liquid storage vessel using a second light quantity measuring unit, and controlling the liquid depth from the surface of the light-absorbing solution to the culture vessel in the liquid storage vessel based on the quantity of external light surrounding the liquid storage vessel and on the quantity of light measured for different wavelength ranges on the surface of the culture vessel, wherein light intensity is decreased while the proportion of light in the first wavelength range and the second wavelength range is maintained, by controlling the liquid depth.