Appendix A. Details on the biophysical model, and on the methodology to estimate absorbance values, measure stomatal conductance, and record microclimate temperatures, and figures showing mean microclimate temperature excess for each life stage under the same environmental conditions at air temperature 25 °C, model simulation of stomatal conductance as function of radiation level at the leaf surface for each life stage, and predicted microclimate temperature during warming for each life stage.
Sylvain Pincebourde
Jérôme Casas
10.6084/m9.figshare.3561813.v1
https://wiley.figshare.com/articles/dataset/Appendix_A_Details_on_the_biophysical_model_and_on_the_methodology_to_estimate_absorbance_values_measure_stomatal_conductance_and_record_microclimate_temperatures_and_figures_showing_mean_microclimate_temperature_excess_for_each_life_stage_under_the_same_/3561813
Details on the biophysical model, and on the methodology to estimate absorbance values, measure stomatal conductance, and record microclimate temperatures, and figures showing mean microclimate temperature excess for each life stage under the same environmental conditions at air temperature 25 °C, model simulation of stomatal conductance as function of radiation level at the leaf surface for each life stage, and predicted microclimate temperature during warming for each life stage.
2016-08-10 08:51:06
insect ontogeny
upper thermal limit
ectotherms
warming tolerance
biophysical ecology
microclimate
global warming
heat tolerance
life cycle
Phyllonorycter blancardella
herbivores
leaf temperature
Environmental Science
Ecology