Shifts in Plant Phenology Significantly Affect the Carbon Allocation in Different Plant Organs

ABSTRACT Earlier start of the growing season (SGS) and delayed end of the growing season (EGS) affect plant carbon uptake. However, the effects of phenological changes on carbon allocation to different plant organs remain unclear. Here, we examined the effects and potential mechanisms of phenological changes on carbon allocation to different organs over the northern hemisphere (> 30° N). We found the earlier SGS facilitated allocating carbon to roots in warm areas, and delayed EGS benefited allocating carbon to roots in dry areas. Moreover, the effects of SGS and EGS on carbon accumulation in different organs significantly enhanced over time. Path analyses indicated that phenological changes contributed to root–stem ratio mainly by regulating the growing season length. Our findings further highlight that phenological changes alter plants' investment strategies in carbon allocation for above‐ and below‐ground parts, and considering this role is critical for accurately estimating the carbon budget in terrestrial ecosystems. Here, we examined the effects and potential mechanisms of phenological changes on carbon allocation to different organs over the northern hemisphere (> 30° N). The earlier start of the growing season (SGS) and delayed end of the growing season (EGS) facilitated allocating carbon to roots in warm and dry areas, respectively. Our findings further highlight that phenological changes alter investment strategies in carbon allocation for above‐ and below‐ ground parts of plants, and considering this role is critical for accurately estimating the carbon budget in terrestrial ecosystems.