Height-diameter allometric relationships for seedlings and trees across China

Height-diameter allometric (H-D) relationships play an important role in the light capture and stability of a tree, and it is poorly understood whether the relationships changes with growth stages or functional groups along a large scale environmental gradients. We present a comparative study of H-D relationships of 6810 seedlings and 19,707 trees from about 1000 species in 9 different sites across China. We showed that allometric exponents for seedlings and trees differ between different sites and do not represent a single, constant theoretical value (e.g. 2/3, 1/2 or 1). Seedlings had greater exponents than trees in most sites. The exponents varied between canopy and understory trees in 5 sites, while were indistinguishable from each other in the remaining 4 sites. Canopy-tree seedlings had smaller exponents than understory-tree seedlings in 3 sites but had indistinguishable exponents in the other 6 sites. Gymnosperm trees had exponents greater than or indistinguishable from angiosperm trees. Elevation alone, or together with mean temperature of the warmest month explained variation of tree allometries for canopy-tree and understory-tree seedlings. The exponents of canopy trees decreased with mean annual precipitation. Our results do not support the predictions from metabolic scaling theory or biomechanical models that height-diameter allometries are invariant. Our study provides insight into how ontogeny, adult stature, phyletic affiliations and environmental limitations affect height-diameter allometric relationships at biogeographical scales.