Photosynthesis systems are electronic scientific instruments designed for non-destructive measurement of photosynthetic rates in the field.
A photosynthetic system was used by to measure photosynthetic rate per unit of leaf mass.
Over expression of the stress response gene SNAC1 led to reduced water loss, but no significant change in photosynthetic rate.
The net growth rate equals the gross photosynthetic rate minus loss terms.
Phytoplankton should produce the only autochthonous inputs here, but photosynthetic rates will be limited due to turbidity and mixing.
A derivation of the Michaelis-Menten curve, it shows the generally positive correlation between light intensity and photosynthetic rate.
Regardless of nomenclature, the photosynthetic rate in question can be described in terms of carbon (C) fixed per mass per time.
The response curve depicts photoinhibition as a decrease in photosynthetic rate at light intensities stronger than those necessary for achievement of Pmax.
In the absence of other plants, nitrogen then builds up in the soil, allowing the maintenance of large leaf areas and high photosynthetic rates.
Physiologically, photosynthetic rates in husks are consistently measured to be around 20-fold lower in leaf blades [ 33].