Measuring and modelling leaf diffusive conductance in juvenile silver birch, Betula pendula

Leaf diffusive conductance for water (g_l) and twig xylem pressure (_xt) was measured in juvenile silver birch, Betula pendula, under field conditions in southern Sweden. Data from one site were used to parameterise two different multiplicative models for g_l (dependent data), and measurements from another site were used to validate these models (independent data). In addition, experiments were performed in controlled environments to validate the g_l response functions used in the models. The driving variables in the D-model were photosynthetic photon flux density, air temperature and water vapour pressure deficit of the air (D_a), while the DH-model also included the accumulated hours after sunrise each day with D_a above a certain threshold (H). Both models satisfactorily predicted the variation in g_l in dependent as well as in independent data, and the g_l response functions used were supported by the experiments in controlled environments. The DH-model was more successful in predicting g_l than the D-model by accounting for the observation that g_l was lower at higher H under similar weather conditions. There was a considerable variation in maximum g_l during the season, as well as between the two sites. On relatively warm and dry days _xt rapidly declined during the morning and then stabilized around a constant value until the late afternoon, with the stomatal regulation effectively preventing _xt from decreasing below this value. We suggest that these models could be used to simulate the g_l in juvenile birch if maximum g_l is locally estimated and if the response functions are not extrapolated beyond the climate range for this study.