Answer: That green look that all plants have is the reflection of green light from chloroplast. Chloroplasts contain green pigments chlorophyll which reflects green light. This reflection makes the plants look appear green where photosynthesis is present.
Answer: Building --> To make larger molecules out of smaller ones. This covers making new cellulose and proteins and "growing".Moving --> To activly transport minerals which are in low concentration in the soil into the plant. The plant has to pump these molecules into the roots as they will on average diffuse out of rather than into the plant. The plants need the minerals to make some proteins.Saving --> Glucose is converted into starch to store in tubers over winter or in seeds for the growing embryo.
Answer: i am honestly not quite sure i am in biology now and i know that pigmets appear the opposite color they reflect so i know for a fact it is not GREENi did an experiment in that for science and plants grow A LOT better in red, blue or violet light compared to green light.
Answer: Most plants growing under trees in the forest could have very darkgreen leaves for a variety of reasons. It could be that thesunlight does not get through enough, and if it did, it might makethe leaves lighter.?æ
Answer: yes. ex: cactus. True plants (as opposed to fungus) have chlorophyll in their leaves. They carry out photosynthesis like any other plant, but other chemicals in the leaves mask the chlorophyll, giving the leaf a non-green hue. There is also a species of parasitic dodder (Cuscuta europaea) which does not photosynthesize, and depends on other plants for nutrition.
Answer: This is correct. The chlorophyll is a pigment that, in addition to making the leaf green, it allows photosynthesis which is the process of using sunlight to convert carbon dioxide to oxygen in addition to making proteins and sugars. All life on earth is reliant on photosynthesis.
Answer: Plants rely on sunlight for photosynthesis (the process by which they make sugars i.e. food). They "trap" the sunlight with aid of a pigment - chlorophyll. This pigment is also responsible for the green colouration in the leaves. In the shade, a plant increases the size and concentration of chlorophyll in its leaves so that it is able to absorb more of the available light. It therefore appears a darker shade of green. Plants in full sunshine have more than enough sunlight for growth- hence they have smaller leaves with a reduced concentration of chlorophyll- their leaves are thus a lighter green.
Green plants include a broad assemblage of photosynthetic organisms that all contain chlorophylls, store their photosynthetic products as starch inside the double-membrane-bounded chloroplasts in which it is produced, and have cell walls made of cellulose.
In this group are several thousand species of what are classically considered green algae, plus several hundred thousand land plants.