On the Below- and Aboveground Phenology in Deciduous Trees: Observing the Fine-Root Lifespan, Turnover Rate, and Phenology of Fagus sylvatica L., Quercus robur L., and Betula pendula Roth for Two Growing Seasons

0552683 - ÚVGZ 2022 RIV CH eng J - Journal Article
Marien, B. - Ostonen, I. - Penanhoat, A. - Fang, C. - Xuan Nguyen, H. - Ghisi, Tomáš - Sigurosson, P. - Willems, P. - Campioli, M.
On the Below- and Aboveground Phenology in Deciduous Trees: Observing the Fine-Root Lifespan, Turnover Rate, and Phenology of Fagus sylvatica L., Quercus robur L., and Betula pendula Roth for Two Growing Seasons.
Forests. Roč. 12, č. 12 (2021), č. článku 1680. E-ISSN 1999-4907
Institutional support: RVO:86652079
Keywords : norway spruce forest * pedunculate oak * leaf phenology * scots pine * long-term * environmental-control * carbon allocation * hardwood forest * wood formation * silver birch * belowground phenology * European beech * fine-root lifespan * fine-root turnover rate * pedunculate oak * silver birch
OECD category: Forestry
Impact factor: 3.282, year: 2021
Method of publishing: Limited access
https://www.mdpi.com/1999-4907/12/12/1680

We tested the relation between the below- and aboveground tree phenology, determining if beech and oak have a greater fine-root lifespan and a smaller turnover rate than birch and if thinner fine-roots or fine-roots born in spring have a shorter lifespan and greater turnover rate than thicker fine-roots or fine-roots born in another season. The fine-root phenology, bud burst, and leaf senescence in Belgian stands were monitored using minirhizotrons, visual observations, and chlorophyll measurements, respectively. The fine-root phenology and the lifespan and turnover rate were estimated using generalized additive models and Kaplan-Meier analyses, respectively. Unlike the aboveground phenology, the belowground phenology did not show a clear and repeating yearly pattern. The cumulative root surface remained stable for birch but peaked for beech and oak around summer to autumn in 2019 and spring in 2020. The new root count was larger in 2019 than in 2020. The mean lifespan of fine-roots with a diameter below 0.5 mm (308 to 399 days) was shorter than those with a diameter between 0.5 to 1 mm (438 to 502 days), 1 to 2 mm (409 to 446 days), or above 2 mm (418 to 471 days). Fine-roots born in different seasons showed a species-specific lifespan and turnover rate.
Permanent Link: http://hdl.handle.net/11104/0327796