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Greater hydraulic safety contributes to higher growth resilience to drought across seven pine species in a semi-arid environment

木质部 环境科学 导水率 干旱 光合作用 气孔导度 耐旱性 光合能力 蒸腾作用 增长率 树木年代学 气候变化 生物 生态学 植物 土壤水分 数学 古生物学 几何学
作者
Chunyang Duan,Ming-Yong Li,Lidong Fang,Yu Cao,De‐Dong Wu,Hui Liu,Qing Ye,Guang‐You Hao
出处
期刊:Tree Physiology [Oxford University Press]
卷期号:42 (4): 727-739 被引量:31
标识
DOI:10.1093/treephys/tpab137
摘要

Quantifying inter-specific variations of tree resilience to drought and revealing the underlying mechanisms are of great importance to the understanding of forest functionality, particularly in water-limited regions. So far, comprehensive studies incorporating investigations in inter-specific variations of long-term growth patterns of trees and the underlying physiological mechanisms are very limited. Here, in a semi-arid site of northern China, tree radial growth rate, inter-annual tree-ring growth responses to climate variability, as well as physiological characteristics pertinent to xylem hydraulics, carbon assimilation and drought tolerance were analyzed in seven pine species growing in a common environment. Considerable inter-specific variations in radial growth rate, growth response to drought and physiological characteristics were observed among the studied species. Differently, the studied species exhibited similar degrees of resistance to drought-induced branch xylem embolism, with water potential corresponding to 50% loss hydraulic conductivity ranging from -2.31 to -2.96 MPa. We found that higher branch hydraulic efficiency is related to greater leaf photosynthetic capacity, smaller hydraulic safety margin and lower woody density (P < 0.05, linear regressions), but not related to higher tree radial growth rate (P > 0.05). Rather, species with higher hydraulic conductivity and photosynthetic capacity were more sensitive to drought stress and tended to show weaker growth resistance to extreme drought events as quantified by tree-ring analyses, which is at least partially due to a trade-off between hydraulic efficiency and safety across species. This study thus demonstrates the importance of drought resilience rather than instantaneous water and carbon flux capacity in determining tree growth in water-limited environments.
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