Estimating CO2 Response in a Mixed Broadleaf Forest using the Dynamic Assimilation Technique

Author:

Hu HuiTing1,Jiang Wei1,Fan Xiuhua1

Affiliation:

1. Beijing Forestry University

Abstract

Abstract

Background Estimating the CO2 response of forest trees is of great significance in plant photosynthesis research. CO2 response measurement is traditionally employed under steady state conditions. With the development of open-path gas exchange systems, the Dynamic Assimilation Technique (DAT), allows measurement under non-steady state conditions. This greatly improves the efficiency and data density of CO2 response measurement. However, the effects of different models in fitting the DAT data have not been extensively verified. Results This research was conducted for three common broadleaf tree species (Ulmus macrocarpa, Fraxinus mandshurica, and Tilia amurensis) in North Eastern China. Among the three species, Fraxinus mandshurica is the most adapted to high CO2 concentration conditions. Four models were compared, the rectangular hyperbola (RH) model, the Michaelis-Menten (MM) model, the modified rectangular hyperbola (MRH) model and a non-rectangular hyperbola (NRH) model. Conclusions Considering the model parsimony and parameter accuracy, the NRH model emerged as the best choice (R2 = 0.9966, RMSE = 0.1862, AIC=-199.86). This study provides a reference for the further application of DAT in the field of photosynthesis.

Publisher

Springer Science and Business Media LLC

Reference31 articles.

1. Gas exchange measurements, what can they tell us about the underlying limitations to photosynthesis? Procedures and sources of error;Long SP;J Exp Bot,2003

2. The rapid A–Ci response: photosynthesis in the phenomic era;Stinziano JR;Plant Cell Environ,2017

3. The Dynamic Assimilation Technique measures photosynthetic CO2 response curves with similar fidelity as steady-state approaches in half the time;Tejera-Nieves M;J Exp Bot,2024

4. Using the rapid A-Ci response (RACiR) in the Li-Cor 6400 to measure developmental gradients of photosynthetic capacity in poplar;Lawrence EH;Plant Cell Environ,2019

5. The rapid A/C i response: a guide to best practices;Stinziano JR;New Phytol,2019

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