Abstract
Scaling leaf-level optical signals to the canopy level is essential for airborne and satellite-based forest monitoring. In evergreen trees, biophysical and optical traits may change as foliage ages. This study aims to evaluate the effect of age in Norway spruce needle on biophysical trait-prediction based on laboratory leaf-level spectra. Mature Norway spruce trees were sampled at forest stands in ten headwater catchments with different soil properties. Foliage biophysical traits (pigments, phenolics, lignin, cellulose, leaf mass per area, water, and nitrogen content) were assessed for three needle-age classes. Complementary samples for needle reflectance and transmittance were measured using an integrating sphere. Partial least square regression (PLSR) models were constructed for predicting needle biophysical traits from reflectance—separating needle age classes and assessing all age classes together. The ten study sites differed in soil properties rather than in needle biophysical traits. Optical properties consistently varied among age classes; however, variation related to the soil conditions was less pronounced. The predictive power of PLSR models was needle-age dependent for all studied traits. The following traits were predicted with moderate accuracy: needle pigments, phenolics, leaf mass per area and water content. PLSR models always performed better if all needle age classes were included (rather than individual age classes separately). This also applied to needle-age independent traits (water and lignin). Thus, we recommend including not only current but also older needle traits as a ground truth for evergreen conifers with long needle lifespan.
Highlights
The physiological status of Norway spruce forests in Central Europe is currently affected by several abiotic and biotic stress factors
This study provided deeper insight into the variability of needle biophysical traits and optical properties of the most common productive tree species in Central Europe—Norway spruce
We confirmed the age-dependence of most studied needle biophysical traits: pigments, leaf mass per area, water and phenolics content
Summary
The physiological status of Norway spruce forests in Central Europe is currently affected by several abiotic and biotic stress factors. Natural abiotic disturbances including drought, temperature extremes, and windstorms can be followed by biotic ones: bark beetle attacks [5,6,7] or fungal infections [8] being the most common and currently most devastating agents in Norway spruce productive forests in Central Europe (e.g., summarized in [9]). The GEOMON network provides a rich variety of data sources related to ecosystem functioning, focusing mainly on soil–stream water chemistry [16,19,20], but recently supporting the development of remote sensing solutions for forest recovery and biomass mapping [21,22]. This study further expands the breadth of GEOMON datasets by analyzing variability in Norway spruce optical properties and traits related to soil properties of different headwater catchments
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