Measuring and Quantifying Characteristics of the Post-illumination Burst.

ABSTRACT

Leaf-level gas exchange enables accurate measurements of net CO2 assimilation in the light, as well as CO2 respiration in the dark. Net positive CO2 assimilation in the light indicates that the gain of carbon by photosynthesis offsets the photorespiratory loss of CO2 and respiration of CO2 in the light (RL), while the CO2 respired in the dark is mainly attributed to respiration in the dark (RD). Measuring the CO2 release specifically from photorespiration in the light is challenging since net CO2 assimilation involves three concurrent processes (the velocity of rubisco carboxylation; vc, velocity of rubisco oxygenation; vo, and RL). However, by employing a rapid light-dark transient, it is possible to transiently measure some of the CO2 release from photorespiration without the background of vc-based assimilation in the dark. This method is commonly known as the post-illumination CO2 burst (PIB) and results in a "burst" of CO2 immediately after the transition to the dark. This burst can be quantitatively characterized using several approaches. Here, we describe how to set up a PIB measurement and provide some guidelines on how to analyze and interpret the data obtained using a PIB analysis application developed in R.