Data from: No slowdown of growing season extension with warming in a permafrost-affected meadow on the Tibetan Plateau

The Tibetan Plateau holds the world's largest alpine permafrost and is undergoing an acceleration of warming. Phenological shifts over alpine permafrost in a warmer world have been little studied and are greatly underrepresented in current syntheses. Here, we conducted seasonal and gradient tem...

Full description

Bibliographic Details
Main Authors: Yan, Zhengjie, Wang, Tao, Ding, Jinzhi, Wang, Xiaoyi, Fu, Yongshuo, Li, Juan, Xu, Jinfeng, Xu, Chaoyi, Jiang, Lili, Wang, Shiping, He, Jinsheng, Piao, Shilong
Format: Other/Unknown Material
Language:unknown
Published: Zenodo 2024
Subjects:
Tibetan Plateau
Permafrost
spring phenophases
autumn phenophases
growing season
reproductive season
Temperature sensitivity
gradient warmin
permafrost
Online Access:https://doi.org/10.5061/dryad.0000000bm
Description
Summary:The Tibetan Plateau holds the world's largest alpine permafrost and is undergoing an acceleration of warming. Phenological shifts over alpine permafrost in a warmer world have been little studied and are greatly underrepresented in current syntheses. Here, we conducted seasonal and gradient temperature-controlled experiments in a permafrost-affected meadow to evaluate how warming drives shifts in spring and autumn phenology, and associated growing-season length at both community and species levels. Our results showed that there is no sign of slowdown in spring advance with warming under a higher year-around warming treatment, aligning with a future medium warming scenario. This finding can be attributed to the possibility that winter warming is insufficient to reduce chilling accumulation, which would not delay spring phenology and then lead to a non-slowdown in spring phenological advancement. Although spring advance led to an advance in autumn senescence according to spring-only warming experiments, the advance could not offset the delay due to concurrent warming. As a result, year-around warming significantly delayed autumn senescence, although there was a deceleration in delay with warming under high temperature treatment than under the low one. Taken together, there is no slowdown in an extension of growing season length with warming under a higher year-around warming treatment, with an increase of length by 9 and 21 days at the end of this century under a CO 2 stabilization and medium warming scenarios, respectively. Our results suggest that a continued growing season extension at least under the medium warming scenario would help permafrost-affected meadow ecosystems to mitigate permafrost carbon release on the Tibetan Plateau. Funding provided by: National Natural Science Foundation of China ROR ID: https://ror.org/01h0zpd94 Award Number: 2019QZKK0606 Funding provided by: National Natural Science Foundation of China ROR ID: https://ror.org/01h0zpd94 Award Number: 2022QZKK0101 Funding provided by: Tibet ...

Similar Items