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Hi everyone, I'm pretty confused with something regarding the rate of photosynthesis.
From my understanding, the rate of photosynthesis can either increase, decrease or stay constant if they're variables such as light intensity, temperature, etc affecting it.
There is also an optimum point where the rate will stop increasing and plateau if only one factor is affecting it such as light intensity.
So my question for everyone is, what happens to the photosynthetic rate over time if all other variables are held constant? I.e. the only thing changing is the amount of time. So for example measuring the amount of oxygen released at 5mins then measuring it again at 20mins.
I'm doing a biology lab and can't seem to grasp this concept. Would the rate just stay constant? Or does it actually decrease? I've been researching and can't seem to find any information on the photosynthetic rate over time
Links to any references such as peer reviewed journals would be appreciated thanks.
Assume you're looking at a simple model where photo synthetic rate is ONLY dependent on light intensity. If light intensity doesn't change, how can you explain a change in photosynthetic rate?? Obviously, you cannot and therefore in this model, it is time invariant i.e. the photosynthetic rate does not change over time.
Expand the model to multiple input parameters--if none of the inputs change, your output doesn't change as well (same argument as above).
HOWEVER, a model is not the same as what is actually happening(unless you have a really complete model, in that case your model will probably be too complicated to work with). For example, the simple model I just described assumes the photosynthetic machinery does not change over time. Obviously that's not true. Chloroplasts can get damaged and growth occurs to name a few.
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If all the relevant environmental parameters are held constant and assuming the environment is healthy for the plant, a plant moved from a somewhat different environment into that constant environment would be expected to adjust itself to the new environment and settle into a stable condition of steady-state photosynthesis. The change in the rate of photosynthesis over time would resemble a curve approaching an asymptote.
Plants optimize for light conditions by adjusting their biosynthetic investment into several systems. For instance, in low light conditions most (all, Jack?) plants will invest more new synthesis into light harvesting apparatus (photosystems, thylakoids, electron carriers) and less into carbon fixation apparatus (Calvin cycle enzymes). In higher light conditions there is not so much need to harvest a large fraction of the photon flux; instead, plants need to handle the high output of reduced NADPH from their photosystems so most plants will invest most new biosynthesis into their carbon fixation apparatus.
The tradeoff between light harvesting apparatus and carbon fixation apparatus is reflected in the changing photosynthesis versus irradiance curves (P vs. I) as plants adapt to new light conditions: in low light, plants adapt toward curves with steeper initial slopes and lower saturated photosynthetic rates while in high light, plants adapt toward curves with shallower initial slopes but high saturated photosynthetic rates (though photoinhibition in high light flux may prevent the plants from achieving those higher carbon fixation rates).
There are some big simplifications in this discussion and the sort of model I present is somewhat controversial. Modeling of P vs I response is a long-running and ongoing area of research.
yes very true...
opne very important thing to keep in mind is the time you have to give the plant to adjust. for everything to come into equilibrium.
everything seems to be covered...
just to add on...
1. the plants initial state also makes a difference if its a dying plant then the rate wont remain constant.
2. amount of water present... is another thing... aint very sure about it though... if the amoung of water is kept negligible... the photosynthesis will take place in spurts... rates may vary. water of metabolism will be used during that time...
for the 2. aint too sure.
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