Temperature-induced elongation of hypocotyls, petioles, and roots, together with hyponastic leaf responses, constitute key model phenotypes that can be used to assess a plant's capacity for thermomorphogenesis. Phenotypic responses are often quantified at a single time point during seedling development at different temperatures. However, to capture growth dynamics, several time points need to be assessed, and ideally continuous measurements are taken. Here we describe a general experimental setup and technical solutions for recording and measuring seedling phenotypes at single and multiple time points. Furthermore, we present an R-package called "rootdetectR," which allows easy processing of hypocotyl, root or petiole length, and growth rate data and provides different options of data presentation.
Keywords: Growth rate analyses; Phenotyping; RootDetection; RootdetectR; Thermomorphogenesis.
© 2024. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.