نبذة مختصرة : In warming climates, soil water content (SWC) may act as an important factor in determining belowground carbon dynamics in boreal forests. Here, we estimated the respiration and nonstructural carbohydrate (NSC) concentrations of tree roots in a mature Scots pine (Pinus sylvestris L.) stand in southern Finland during two growing seasons with contrasting weather conditions. Root respiration was estimated with four different methods: 1) incubating excised roots, 2) partitioning forest floor respirations with root exclusion, or 3) based on temperature response functions and 4) modelling with the whole-tree carbon model 'CASSIA'. In addition, we conducted a drought experiment in a greenhouse to determine the effect of reduced soil-water availability on respiration by incubating soil and roots of Scots pine saplings. We observed that the respiration of incubated roots of Scots pine saplings and soil decreased with drying after excluding the effect of temperature on respiration (RRES), soil being more sensitive to drought than roots. Similarly, RRES of incubated roots in the field was significantly decreased by lowered SWC, whereas respiration of the entire root system estimated with other methods was clearly higher in dryer and warmer than moister and cooler year. Nevertheless, incubated roots excavated from the topsoil are most affected by drying soil, which might not reflect the response of the entire root system. RRES of incubated roots was negatively associated with root fructose and glucose concentrations. At the same time, root fructose, glucose and sucrose concentrations were negatively associated with SWC due to their role in osmoregulation. Thereby it seems that RRES does not directly follow the changes in NSCs despite the apparent correlation. Our study highlights the responsive nature of root carbon dynamics in varying weather events that should be taken into account in estimating and modelling the impacts of warming climate. ; Peer reviewed
Relation: Kone Foundation (#201710497, #202006632) , the University of Helsinki Funds, Finnish Centre of Excellence Programme by the Academy of Finland (grant no. 307331), Academy of Finland (grant no. 295319), European Research Council (ERC) (grant no. 755865), and Knut and Alice Wallenberg Foundation (#2015.0047) are acknowledged for financial support. We thank Henri Jokinen and Anna Tuovinen for help in construction of the root exclusion plots at SMEAR II, Anna Tuovinen with the manual CO 2 flux and soil-moisture measurements and Sini Salko for illustration, help with the greenhouse measurements and CO 2 flux calculations.; Ryhti , K , Schiestl-Aalto , P , Tang , Y , Rinne-Garmston , K T , Ding , Y , Pumpanen , J , Biasi , C , Saurer , M , Bäck , J & Kulmala , L 2022 , ' Effects of variable temperature and moisture conditions on respiration and nonstructural carbohydrate dynamics of tree roots ' , Agricultural and Forest Meteorology , vol. 323 , 109040 . https://doi.org/10.1016/j.agrformet.2022.109040; ORCID: /0000-0002-6107-667X/work/116873190; ORCID: /0000-0003-1775-8240/work/116874052; ORCID: /0000-0002-9006-5689/work/116876688; http://hdl.handle.net/10138/346723; 008d5f47-11e6-4370-9d76-a3c8fd0b5089; 85132441760; 000815951700004
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