Photoperiod drives cessation of wood formation in northern conifers

Abstract: Aims Shifts in xylem phenology directly determine the forest capacity for carbon sequestration. However, a systematic understanding of the spatial patterns and the underpinning drivers in determining the cessation of wood formation (Ccw) is lacking at a pan‐continental scale. Here, we addressed this knowledge gap by compiling a new dataset of multiple xylem phenology timings for northern conifers. Locations Sixty‐two study sites, Northern Hemisphere (25–55° N). Time period 2003–2018 (16 years). Taxa Thirty‐thr… Show more

“…Previous studies have reported that temperature and photoperiod were the most important determinants in regulating autumn phenology in the northern middle to high latitudes (Garner and Allard 1922, Heide 2008, Fu et al 2020, Mu et al 2023. Increasing air temperature generally has positive effects on autumn phenology in temperate and cold regions (Jeong et al 2011, Wang et al 2016, Vitasse et al 2021, Geng et al 2022.…”

Autumn phenology consistently delays in subtropical forests in China based on a new process-based model integrating temperature, photoperiod and precipitation

“…Previous studies have reported that temperature and photoperiod were the most important determinants in regulating autumn phenology in the northern middle to high latitudes (Garner and Allard 1922, Heide 2008, Fu et al 2020, Mu et al 2023. Increasing air temperature generally has positive effects on autumn phenology in temperate and cold regions (Jeong et al 2011, Wang et al 2016, Vitasse et al 2021, Geng et al 2022.…”

Autumn phenology consistently delays in subtropical forests in China based on a new process-based model integrating temperature, photoperiod and precipitation

Growth rate determines the superior xylem growth of Siberian spruce over Siberian larch in the southern Altai Mountains, Northwest China

Site specific growth performance of Cedrus deodara forests in Western Nepal Himalaya