Balancing individual growth and stand carbon dynamics: 
optimizing age‑dependent density management for Larix 
principis‑rupprechtii plantations in semi‑humid to semiarid 
regions

doi:10.1007/s11676-026-02020-3

JOURNAL OF FORESTRY RESEARCH ›› 2026, Vol. 37 ›› Issue (1): 1-.DOI: 10.1007/s11676-026-02020-3

• Original Paper •

Balancing individual growth and stand carbon dynamics: optimizing age‑dependent density management for Larix principis‑rupprechtii plantations in semi‑humid to semiarid regions

Yuewei Wu¹, Tim Rademacher², Hongyan Liu³, Ruben Manzanedo⁴, Boyi Liang⁵, Shitao Yu⁶, Zhifeng Guo⁶, Mingchao Du¹, Xianliang Zhang^1,7,8

¹College of Forestry, Hebei Agricultural University, 071001 Baoding, People’s Republic of China

²Proctor Maple Research Center, University of Vermont, Burlington, Vermont 05405, USA

³College of Urban and Environmental Sciences, Peking University, Beijing 100871, People’s Republic of China

⁴Forest Ecology Lab, Institute of Plant Sciences, University of Bern, 213013 Bern, Alternbergrain, Switzerland

⁵College of Forestry, Precision Forestry Key Laboratory of Beijing, Beijing Forestry University, Beijing 100083, People’s Republic of China

⁶Saihanba Mechanical Forest Farm, Hebei, Chengde 068456, People’s Republic of China

⁷Long-Term Silviculture Base in Saihanba, Hebei, Chengde 068456, People’s Republic of China

⁸Urban Forest Health Technology Innovation Center, Baoding 071001, People’s Republic of China

Received:2025-03-26 Accepted:2025-10-04 Online:2026-02-21 Published:2026-01-01
Supported by:
This work was funded by Natural Science Foundation of China (U24A20353), Science and Technology Project of Hebei (226Z6801G),and Talent introduction program in Hebei Agricultural University (YJ201918).

Abstract

Abstract: Planted forests serve as critical carbon sinks in climate mitigation strategies, yet balancing individual growth with stand-level carbon storage through age-specific density regulation remains a key knowledge gap. By integrating dendrochronological analysis (1003 increment cores from 532 trees) with longitudinal stand development data (50 permanent plots), we quantify moisture-mediated thresholds governing carbon dynamics in Larix principis-rupprechtii plantations. Our results showed that tree biomass dominated ecosystem carbon storage, accounting for over 95% of aboveground pools, with stand development exhibiting distinct phases: a linear carbon accumulation phase persisting until 70,000 tree-years/ha, followed by a carbon saturation plateau. Optimal balance between tree growth and carbon storage occurred at 27,000 tree-years/ha under baseline conditions, increasing to 34,000 tree-years/ha during normal/wet years but showing 20–35% reductions under drought stress. Moisture availability mediated these thresholds, with drought intensity exacerbating growth-carbon tradeoffs and significantly lowering operational targets. Our findings establish age-stratified density management curves that reconcile tree-level productivity with stand-level carbon storage across moisture gradients, providing actionable guidelines for adaptive silviculture in climate-sensitive plantations. These quantitative relationships enable forest managers to optimize stand density thresholds based on both stand age and projected climate conditions, offering a framework to maximize ecological and economic benefits in water-limited environments.

Key words: Larix principis-rupprechtii, Plantation, Growth, Carbon storage, Stand age, Stand density, Drought

Yuewei Wu, Tim Rademacher, Hongyan Liu, Ruben Manzanedo, Boyi Liang, Shitao Yu, Zhifeng Guo, Mingchao Du, Xianliang Zhang. Balancing individual growth and stand carbon dynamics: optimizing age‑dependent density management for Larix principis‑rupprechtii plantations in semi‑humid to semiarid regions[J]. JOURNAL OF FORESTRY RESEARCH, 2026, 37(1): 1-.

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Balancing individual growth and stand carbon dynamics: optimizing age‑dependent density management for Larix principis‑rupprechtii plantations in semi‑humid to semiarid regions

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