I organized the work along three major research lines:
1. Generating the longest field record of nutrient flows and nutrient use efficiency in Scots pine forests in SW Europe.
Soil carbon flows, soil micrometeorology, soil nutrient status and biological activity were measured in spring and autumn in 2016 and 2017 in two research forests in the SW Spanish Pyrenees (a continental-subalpine forest and a Mediterranean-montane forest). A trend in decreasing soil organic matter and its associated carbon, nitrogen and phosphorus content was found, indicating the depletion of the organic matter input from the original thinning activities in 1999, and consequently an increase in nutrient limitation over the years. In addition, litterfall mass and nutrient content were monitored in autumn 2016 and 2017 and data added to previous records to reach an 18-year full record of litterfall. The last work done to extend field data records were tree inventories which were carried out in winter 2017-2018. Such activity allowed us to estimate standing tree biomass and combined with the results from the activities indicated above, the estimation of the change in nutrient use efficiency over an 18-year period. My results showed that there is higher efficiency in the use of nutrients at the high elevation forests than at the low elevation site. Thinning treatments over the years did not have a significant effect on nutrient use efficiency, but a trend of trees to increase their efficiency over time was found.
2. Quantifying the CO2 fertilization effect with a detailed battery of forest growth simulations for Scots pine forests in SW Europe under different climate scenarios.
The FORECAST Climate model was calibrated for the research sites during winter 2017 using field data collected during my research work and archived data from UPNA´s Ecology and Environment research team. In addition, the empirical relationships between different growing factors recorded in the forest during this fellowship and previous research done at the host institution were also included in the model. A factorial battery of simulations carried out with the FORECAST Climate ecological software to isolate the individual influence of three limiting factors on tree growth: nutrient availability (represented by N available in soil), climate (water availability and growing season length) and carbon (atmospheric CO2 concentration). The simulations were designed to switch off alternatively each limiting factors, and then running the simulations with all of them on or off simultaneously.
3. Developing the most detailed annual profiles of phosphorus, potassium, calcium and magnesium content in Scots pine wood for SW European forests.
Wood samples were collected from dominant trees at both sites in May 2017. Such samples were divided into a set for X-ray scanning during my secondment at CETEMAS and another set for traditional chemical analysis. Wood sample preparation and chemical analysis were carried out during summer 2017, generating a record of annual nutrient content in wood for the period 1997-2017. My work at CETEMAS generated the longest and most detailed annual records of P, K, Ca, and Mg content in Scots pine wood from SW European forests, covering the period 1980-2017.