Abstract
In order to study the applicability of different light response models to the photoresponse curves of four species of Chamaenerion, four species of Chamaenerion collected from Serzilla were used as test materials. Four common photosynthetic models were used to fit the photosynthetic response curve of the leaves. The results show that: 1) The effect of different photosynthetic response models on photosynthetic response curve of the genus chromasia was different. The fitted value of the correction model of right angled hyperbola was closest to the measured value, the R2 was 0.998, and RE was 0.216. 2) In terms of fitting the photosynthetic parameters, the initial quantum efficiency, light compensation point and dark respiration rate were suitable for fitting with non-right angle hyperbolic model. In terms of fitting the photosynthetic parameters, the initial quantum efficiency, light compensation point and dark respiration rate were suitable for fitting with non-right angle hyperbolic model. 3) The photosynthetic characteristics of C. angustifolium subsp. circumvagum reflect the negative response to high altitude radiation. Under strong radiation, the photosynthetic rate, apparent quantum efficiency, and light saturation point are low. On the other hand, C. conspersum has a positive response to high altitude radiation. C. angustifolium and C. latifolium has a higher light compensation point and higher light saturation point, but it is also positive for high altitude radiation. The response is only a choice of light intensity at different elevations, which also explains the distribution of C. angustifolium and C. latifolium in the salmonella with a single elevation, habitat, and slope.
Highlights
The plant chamaenerion is a medicinal ornamental plant for ecological restoration [1] [2] [3], has very high application value and has gradually become the hot spot in research on modern botanical drug [4] [5] [6] [7]
3) The photosynthetic characteristics of C. angustifolium subsp. circumvagum reflect the negative response to high altitude radiation
C. conspersum has a positive response to high altitude radiation
Summary
The plant chamaenerion is a medicinal ornamental plant for ecological restoration [1] [2] [3], has very high application value and has gradually become the hot spot in research on modern botanical drug [4] [5] [6] [7]. The rectangular hyperssions model, nonrectangular hyperssions model and exponential function model can be used to fit an asymptote without an extreme, which cannot resolve the plant saturation intensity and maximum net photosynthetic rate by using the model equations [8] and can not reflect the light suppression phenomena after the plant reaches the saturation intensity [9]. The nonrectangular hyperssions includes the curve’s curvature θ and approximates to the measured value in case of data fitting [10]. The corrected rectangular hyperssions model includes the coefficient β and γ, so it fits the light saturation point and light compensation point and computes the solution of the maximum net photosynthetic rate, and roughly ensures that the fitted values and computed values approximate to the measured values highly
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