Dhandapani, S.; McNeil, T.; Lu, B.; Booth, O.; Corbett, L.; Lunn, J.; Nightingale, A.; Niu, X.; Roose, T.; John, J.; Lin, H.; Adekanmbi, A. A.; Shaw, L. J.

Acute and Chronic Oak Decline (AOD & COD) widely impact oak woodlands across Europe. AOD is known to cause rapid decline in tree health in a short span of 3-5 years. However, the interactions between such oak decline and soil biogeochemical dynamics are not fully understood. We selected three oak trees for each of the three treatments for biogeochemical monitoring: 1. No symptoms (Healthy), 2. AOD & 3. COD symptoms, in Writtle woodlands, Essex, UK. The selected trees were used for quarterly root zone soil sampling (cores to depth of 40 cm), and monthly surface soil (0-10 cm), leaf litter and GHG emissions sampling over a year (2022-23). Soil samples were characterised for their physico-chemical properties, total nutrient content & availability. Leaf litter samples were sorted into branches, leaves, seeds and flowers, weighed and their chemistry characterised. Soil microbial communities were characterised using phospholipid fatty acid analyses. Almost all the measured properties showed significant changes with season and depth, indicating a strong temporal and depth effect on forest soil biogeochemical dynamics. Notably macro-nutrient contents of leaf litter were greater in the summer period, which resulted in increased soil nutrient availability in autumn. This pattern was particularly exaggerated in AOD trees, which had greater nutrient content in litterfall in summer and greater nutrient availability in root zone soil in autumn than those of COD and Healthy trees. We found that AOD root zone soil have altered microbial communities, decreased CO2 emissions and increased macronutrient availability. Taken together, our study shows poor physiological nutrient management by diseased AOD trees revealed by greater nutrient concentration in AOD leaf litter indicating the lack of nutrient resorption and re-allocation before leaf senescence, and less active root zone soil under AOD trees, shown by reduced soil CO2 emissions and increased nutrient availability in oak root influenced zones. Hence, we conclude that the biogeochemical dynamics of AOD root zone soils are significantly different to that of healthy and COD trees, however controlled experiments are needed alongside these field observations to disentangle the causes from effects in understanding the relationship between soil health and oak decline.\n\nHighlightsO_LIWe monitored forest soil biogeochemical dynamics under oak trees of different health status\nC_LIO_LIAcute Oak Decline (AOD) trees had greater macronutrient availability in root zone soils\nC_LIO_LIAOD trees had greater nutrient content in litter added to the root zone soil\nC_LIO_LIAOD root zone soils had altered microbial community structure & reduced CO2 emissions\nC_LIO_LIWe conclude that AOD trees have poor physiological nutrient management and less active rhizosphere compared to healthy trees.\nC_LI