Growth data of outlying plantations allows benchmarking the tolerance to climate extremes and drought stress in the European larch

Jesús Julio Camarero; Antonio Gazol; Cristina Valeriano; Marta Vergarechea; Nicolás Cattaneo

doi:10.3389/fpls.2024.1404347

Growth data of outlying plantations allows benchmarking the tolerance to climate extremes and drought stress in the European larch

Front Plant Sci. 2024 May 31:15:1404347. doi: 10.3389/fpls.2024.1404347. eCollection 2024.

Authors

Jesús Julio Camarero¹, Antonio Gazol¹, Cristina Valeriano^{1

2}, Marta Vergarechea³, Nicolás Cattaneo³

Affiliations

¹ Instituto Pirenaico de Ecología (IPE-CSIC), Zaragoza, Spain.
² Laboratory of Tree-Ring Research, University of Arizona, Tucson, AZ, United States.
³ Department of Forest Management, Division of Forest and Forest Resources, NIBIO (Norwegian Institute for Bioeconomy Research), Ås, Norway.

Abstract

Introduction: Plantations located outside the species distribution area represent natural experiments to assess tree tolerance to climate variability. Climate change amplifies warming-related drought stress but also leads to more climate extremes.

Methods: We studied plantations of the European larch (Larix decidua), a conifer native to central and eastern Europe, in northern Spain. We used climate, drought and tree-ring data from four larch plantations including wet (Valgañón, site V; Santurde, site S), intermediate (Ribavellosa, site R) and dry (Santa Marina, site M) sites. We aimed to benchmark the larch tolerance to climate and drought stress by analysing the relationships between radial growth increment (hereafter growth), climate data (temperature, precipitation, radiation) and a drought index.

Results: Basal area increment (BAI) was the lowest in the driest site M (5.2 cm2 yr-1; period 1988-2022), followed by site R (7.5 cm2 yr-1), with the youngest and oldest and trees being planted in M (35 years) and R (150 years) sites. BAI peaked in the wettest sites (V; 10.4 cm2 yr-1; S, 10.8 cm2 yr-1). We detected a sharp BAI reduction (30% of the regional mean) in 2001 when springto-summer conditions were very dry. In the wettest V and S sites, larch growth positively responded to current March and June-July radiation, but negatively to March precipitation. In the R site, high April precipitation enhanced growth. In the driest M site, warm conditions in the late prior winter and current spring improved growth, but warm-sunny conditions in July and dry-sunny conditions in August reduced it. Larch growth positively responded to spring-summer wet conditions considering short (1-6 months) and long (9-24 months) time scales in dry (site M) and wet-intermediate (sites S and R) sites, respectively.

Discussion: Larch growth is vulnerable to drought stress in dry slow-growing plantations, but also to extreme spring wet-cloudy events followed by dry-hot conditions in wet fast-growing plantations.

Keywords: Larix decidua; afforestation; climate variability; drought; extreme wet events.

Grants and funding

The author(s) declare financial support was received for the research, authorship, and/or publication of this article. This study was funded by project TED2021-129770B-C21 (Spanish Ministry of Science and Innovation). AG is supported by the “Ramón y Cajal” Program of the Spanish MICINN under Grant RyC2020-030647-I, and by CSIC under grant PIE-20223AT003. This research was funded by the Spanish Science and Innovation Ministry (projects PID2021-123675OB-C43 and TED2021-129770B-C21).