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Climatic habitat regulates the radial growth sensitivity of two conifers in response to climate change

Ruhong Xue, Liang Jiao, Peng Zhang, Xuge Wang, Qian Li, Xin Yuan, Zhengdong Guo, Le Zhang, Yarong Qin

2024Forest Ecosystems19 citationsDOIOpen Access PDF

Abstract

The survival and mortality of conifer trees in response to climate change, particularly drought stress, have received considerable attention. However, it is crucial to explore the growth dynamics of the same conifer species in response to climate change in different climatic habitats. In this study, we aimed to quantify variations in the radial growth processes of conifer species, analyze their resilience during drought periods under different climatic habitats, and assess the impact of climate adaptation on conifer growth. We focused on two conifer species, Picea crassifolia (spruce) and Pinus tabuliformis (pine), which are distributed in both a humid habitat and a dry habitat in the northeastern Tibetan Plateau. Growth and resilience dynamics were identified across both climatic habitats and the contributions of temperature and moisture to the growth of the two species were simulated under drought stress using the VS-oscilloscope model. Spruce growth exhibited significant variability between climatic habitats. Specifically, the spruce growth rate declined in response to drought in the dry habitat (−0.91 ​cm 2 per decade, p ​< ​0.01). In contrast, pine growth remained relatively stable (humid habitat: −0.03 ​cm 2 per decade; dry habitat: 0.25 ​cm 2 per decade, p ​> ​0.01), although it still responded to stress during the growing season ( p ​< ​0.05). Furthermore, spruce displayed reduced resistance during stress in dry habitats (−30.11%), while pine exhibited an enhanced recovery of growth rates to ensure survival (+39.62%). The climate adaptation strategies of the species were linked to the contribution of temperature and moisture to their growth rates. Moisture is critical for the growth recovery of both conifers in dry habitats when temperature-associated growth displays a ‘bimodal’ pattern during the growing season. These findings have significant ecological implications for understanding conifer forest processes in the context of global climate change. • Growth process variability of conifer species in different climatic habitats. • Spruce is more vulnerable to growth divergence between humid and dry sites. • Pine has stable responses to drought but higher growth recovery after stress. • Climatic adaptation of species is reflected in water-heat utilization strategies. • Wider survival range of conifers will be driven by climatic adaptation in future.

Topics & Concepts

Climate changeHabitatEcosystemEcologySensitivity (control systems)Environmental scienceGeographyBiologyEngineeringElectronic engineeringPlant Water Relations and Carbon DynamicsTree-ring climate responsesTree Root and Stability Studies
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