The amount of light affects primary production by influencing the rate at which photosynthesis occurs in plants and algae. More light typically leads to higher rates of photosynthesis and therefore increased primary production in ecosystems. However, excessive light can also be detrimental by causing damage to photosynthetic machinery.
Candles have been a primary light source historically due to their portability, ease of use, and accessibility of materials for their production. Additionally, candles provide a warm and natural-looking light that can create a cozy atmosphere in a variety of settings.
Magenta, cyan, and yellow are not considered primary colors of light. These colors are known as secondary colors when it comes to light, as they can be created by combining primary colors of light.
Primary colours of light are red, blue and green and when combined in the correct intensity they produce white light. The secondary colours of light are magenta, yellow and cyan which result from combinations at the correct frequencies of primary colours.
Adjusting the iris diaphragm level while observing the field of view can change the amount of light entering the microscope. Opening the diaphragm lets in more light, while closing it reduces the amount of light. This can affect the brightness and contrast of the image being viewed.
Yes, stars are primary sources of light. They produce light and heat through nuclear fusion in their cores, which results in the emission of energy in the form of light and other electromagnetic radiation.
Factors that affect the rate and amount of primary production include the availability of sunlight for photosynthesis, nutrient availability (especially nitrogen and phosphorus), water temperature, and the presence of herbivores or other factors that can limit plant growth. These factors interact to influence the overall productivity of an ecosystem.
no
Yes, the amount of light directly affects the concentration of chlorophyll in a plant. Chlorophyll production increases in response to light exposure as it is essential for photosynthesis, the process by which plants convert light energy into chemical energy. Without an adequate amount of light, chlorophyll synthesis can be limited, impacting the plant's ability to produce energy.
by using light bottle and dark bottle method 1) Net primary production (NPP)= light -intial 2) Respiration=intial -dark 3)Gross Primary Production(GPP)=light -dark initial -oygen level in the experiment water body initially light -oxygen level in the light bottle after 1 day dark-oxygen level in the dark bottle after 1 day
Light gives necessary energy for the plants to produce sugar from carbon bi oxide and water. More the intensity of the light, more the sugar production is there. But there is higher side limit to the amount of maximum sugar that can be produced, in given time, by the given amount of green pigment.
Gross primary production consists of the amount of light energy that is converted to chemical energy by photosynthesis per unit of time. This chemical energy is going to two places-- respiration and growth of new biomass. Net primary production omits the energy used in respiration... just the energy going to new plant growth. Mathematically: (R = respiration) NPP = GPR - R
It depends on light. it is changing with light.
yep, it grows better in the dark
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Factors that affect the electrical production of a photovoltaic cell include sunlight intensity, angle of sunlight hitting the cell, temperature, shading, and the quality of the materials used in the cell. These factors can influence the amount of electrical energy produced by the solar cell.
-amount of water -amount of sunlight -amount of O2/CO2 in the air -light intensity
The rate of O2 production would decrease because the rate of ADP and NADP+ production by the Calvin cycle would decrease.