Long-term effects of 7-year warming experiment in the field on leaf hydraulic and economic traits of subtropical tree species

Ting Wu, David T. Tissue, Xu Li, Shizhong Liu, Guowei Chu, Guoyi Zhou, Yuelin Li, Mianhai Zheng, Ze Meng, Juxiu Liu

Research output: Contribution to journalArticlepeer-review

25 Citations (Scopus)

Abstract

Rising temperature associated with climate change may have substantial impacts on forest tree functions. We conducted a 7-year warming experiment in subtropical China by translocating important native forest tree species (Machilas breviflora, Syzygium rehderianum, Schima superba and Itea chinensis) from cooler high-elevation sites (600 m) to 1–2°C warmer low-elevation sites (300 and 30 m) to investigate warming effects on leaf hydraulic and economic traits. Here, we report data from the last 3 years (Years 5–7) of the experiment. Warming increased leaf hydraulic conductance of S. superba to meet the higher evaporative demand. M. breviflora (300 m), S. rehderianum, S. superba and I. chinensis (300 and 30 m) exhibited higher area-based and mass-based maximum photosynthetic rates (Aa and Am, respectively) related to increasing stomatal conductance (gs) and stomatal density in the wet season, which led to rapid growth; however, we observed decreased growth of M. breviflora at 30 m due to lower stomatal density and decreased Aa in the wet season. Warming increased photosynthetic nitrogen-use efficiency and photosynthetic phosphorus-use efficiency, but reduced leaf dry mass per unit area due to lower leaf thickness, suggesting that these tree species allocated more resources into upregulating photosynthesis rather than into structural investment. Our findings highlight that there was trait variation in the capacity of trees to acclimate to warmer temperatures such that I. chinensis may benefit from warming, but S. superba may be negatively influenced by warming in future climates.
Original languageEnglish
Pages (from-to)7144-7157
Number of pages14
JournalGlobal Change Biology
Volume26
Issue number12
DOIs
Publication statusPublished - 2020

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