aquablue
Accessory pigments in plants can be various colors such as red, yellow, or orange. These pigments, like carotenoids and anthocyanins, help plants absorb different wavelengths of light for photosynthesis and also provide protection against excess light and stress.
well, accessory pigments include chlorophyllb. It absorbs energy that chlorophyll a does not absorb. And it also helps enable plants to capture more of the energy in light. ^_^
No, photosynthetic pigments are the main pigments involved in capturing light energy for photosynthesis, such as chlorophyll. Accessory pigments are additional pigments that assist in light absorption and broaden the range of light wavelengths that can be utilized for photosynthesis, such as carotenoids and phycobilins.
Chlorophyll and accessory pigments allow algae to get energy from the sun. This is used for manufacturing of food by the algae.
Nature has spectacular colors due to pigments produced by organisms like plants, animals, and microorganisms. These pigments absorb and reflect light in various ways, creating a dazzling array of colors in the environment. Additionally, structural features, such as iridescence or diffraction, can also contribute to the vibrant colors seen in nature.
Accessory pigments in plants can be various colors such as red, yellow, or orange. These pigments, like carotenoids and anthocyanins, help plants absorb different wavelengths of light for photosynthesis and also provide protection against excess light and stress.
Accessory pigments such as carotenoids are not usually visible because they absorb light in different regions of the spectrum than chlorophyll. This means they do not contribute significantly to the overall color of the plant. Additionally, chlorophyll is present in much higher concentrations, masking the colors of accessory pigments.
Accessory Pigments absorb energy that chlorophyll a does not absorb.
Carotenoid pigments primarily reflect red, orange, and yellow light due to their molecular structure. This is why they often give fruits and vegetables their characteristic bright colors.
Accessory pigments are mostly seen through light. The more the light is shown the more pigments there will be.
People cannot perform photosynthesis, in Autumn when tree leaves change colors that is what photosynthesis is. In Autumn, the chlorophyll pigments break down and reveal the presence of accessory pigments.
Some examples are carotenoids and phychobiliprotein. Chlorophyll is not an accessory pigment. Accessory pigments are pigments which work alongside Chlorophyll a in photosynthesis, such as carotene.
The main difference is the wavelengths of light that they absorb and reflect, this allows plants to make use of more wavelengths of light. Primary pigments also create electrons directly, however I can't seem to find what the accessory pigments do instead...anyways, hope that helps
well, accessory pigments include chlorophyllb. It absorbs energy that chlorophyll a does not absorb. And it also helps enable plants to capture more of the energy in light. ^_^
Accessory pigments absorb light at different wavelengths than does chlorophyll. This process tends to increase the range of depths at which algae can grow. For example, the reddish accessory pigments called phycobilins are especially good at absorbing the blue light found at great depths in the sea, allowing the algae that contain them to live in deep water. Because accessory pigments reflect different wavelengths of light than does chlorophyll, they give algae a wide range of colors.
ice cream
In biochemistry, an allophycocyanine is any of a group of accessory pigments to chlorophyll.