Journal
AGRICULTURAL AND FOREST METEOROLOGY
Volume 327, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.agrformet.2022.109201
Keywords
Fine root longevity; Carbohydrates; Subtropical forests; Survival analysis; Temperature increase; Tree plantations
Categories
Funding
- National Natural Science Foundation of China
- National Key Research and Development Program of China
- [31830014]
- [31930071]
- [2021YFD220040303]
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This study found that warming shortens the lifespan of fine roots, while decreased soil moisture prolongs lifespan. In warm soil, fine roots become thinner and deeper, with increased emergence in winter and decreased emergence in summer. Additionally, carbon supply also affects fine root lifespan. The findings highlight the importance of considering temperature and its co-varying factors in predicting root lifespan under climate change.
The mechanisms by which warming affects fine root lifespan remain unclear. In a large-scale soil warming experiment in a Chinese fir plantation, fine root dynamics were monitored for four years using minirhizotrons, and the effects of increasing temperature and co-varying factors on fine root lifespan, such as soil moisture, fine root phenology and architecture, were analysed. Fine root non-structural carbohydrate concentrations and respiration rates were measured to test if fine root lifespan is affected by carbon (C) supply. Warming shortened the overall fine root lifespan by 27.6% (warming vs. control: 197.0 +/- 3.5 d vs. 272.0 +/- 4.5 d). Cox regression models suggest that increased soil temperature directly and negatively affects root lifespan, whereas decreased soil moisture prolongs root lifespan. Fine roots grew thinner and deeper in warm soil and showed higher emergence in winter but lower emergence in summer; all factors affected the fine root lifespan in an integrated manner. Glucose addition stimulated fine root respiration only in warm soil, indicating a depletion of readily available carbohydrates under warming. Overall, our findings suggest that warming could accelerate the input of C by roots into soil due to shortened fine root lifespans, highlighting the important consideration of simulta-neously increasing temperature and its co-varying factors to predict root lifespan under climate change.
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