photosynthesis
fotosintesis
definition
noun
Stomata are involved in two of the most important plant processes, photosynthesis and transpiration.
the process by which green plants and some other organisms use sunlight to synthesize foods from carbon dioxide and water. Photosynthesis in plants generally involves the green pigment chlorophyll and generates oxygen as a byproduct.
example
It has long been known that magnesium availability to plants imposes limits on 'photosynthesis' .
Possible use of serine derived directly from 'photosynthesis' was ignored in this analysis.
It is created, as we have seen, during 'photosynthesis' , when organisms strip oxygen from water molecules.
To avoid the production of oxygen via 'photosynthesis' , plants were kept in the dark.
Normally the proportion of the two isotopes of carbon is simply controlled by the rate of 'photosynthesis' in plant tissues.
Their job is to absorb the rays from the sun to begin the process known as 'photosynthesis' .
Carbohydrates accumulate in plants during the autumn as rates of 'photosynthesis' begin to exceed growth.
These populations do not have the ability to utilize exogenous bicarbonate for the process of 'photosynthesis' .
Evidence is increasing of a new player in carbon metabolite regulation of 'photosynthesis' .
This is an integrative trait, reflecting both light and dark reactions of 'photosynthesis' .
When maize encounters water deficits, there is a decline in 'photosynthesis' per plant.
Stomata are involved in two of the most important plant processes, 'photosynthesis' and transpiration.
Anthocyanins are water soluble pigments but are not involved in 'photosynthesis' .
These results are consistent with the previous report that water stress inhibits 'photosynthesis' .
Many forms are capable of 'photosynthesis' and hence resemble plants in the way that they obtain energy.
In addition, rates of light-limited 'photosynthesis' and oxygen yield are decreased in the mutants.
Drought reduces productivity by inhibiting plant growth and 'photosynthesis' .
Carbohydrate depletion and reduced 'photosynthesis' are the main effects of submergence on plant tissues.
As injury progresses, heavily damaged leaves lose their green colour and 'photosynthesis' is much reduced.
Light is necessary for 'photosynthesis' in plants, but the supply of light in natural environments is not constant.
Cellulases, the enzymes that degrade cellulose, are central to the biological recycling of 'photosynthetically' fixed carbon in the biosphere.
In plants, excess light has the potential to damage the 'photosynthetic' apparatus.
All the above materials block the transmission of most wavelengths in the UV range below 370-380 nm without interfering with the transmission of 'photosynthetically' active radiation.
Plant responses also seem to depend on whether high or low fluxes of 'photosynthetically' active radiation are given concurrently with the UV-B radiation.
In 'photosynthetic' organisms light is an essential factor for growth and development.
Two key metabolic factors in 'photosynthetic' cells have been shown to regulate photosynthesis.
In 'photosynthetically' active cells, serine metabolism may be associated directly with photosynthesis, but such an association was ignored in the present analysis of lignin biosynthesis.
The flavonoids are transparent to 'photosynthetically' active radiation, exhibit high molar absorptivities in the UV and are restricted to the epidermis in dicotyledonous plants, including soybean.
Sorgoleone is a potent inhibitor of both 'photosynthetic' and mitochondrial electron transport.
Measurements of 'photosynthetic' metabolism would provide an insight into the mechanism through which this operated.
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