Chin J Plant Ecol ›› 2010, Vol. 34 ›› Issue (1): 64-71.DOI: 10.3773/j.issn.1005-264x.2010.01.010

Special Issue: 生态化学计量

• Special feature: Ecological Stoichiometry • Previous Articles     Next Articles

N and P stoichiometry of plant and soil in lower subtropical forest successional series in southern China

LIU Xing-Zhao1,2, ZHOU Guo-Yi1, ZHANG De-Qiang1, LIU Shi-Zhong1, CHU Guo-Wei1, YAN Jun-Hua1,*()   

  1. 1South China Botanical Garden, Chinese Academy of Sciences, Guangzhou 510650, China
    2Graduate University of Chinese Academy of Sciences, Beijing 100049, China
  • Received:2008-10-13 Accepted:2009-02-17 Online:2010-10-13 Published:2010-01-01
  • Contact: YAN Jun-Hua

Abstract:

Aims Nitrogen (N) and phosphorus (P) are two key elements of life and are major limiting nutrients in many ecosystems across the world. The balance of N and P has become the focal point of global change ecology and biogeochemistry, especially as aggravated by atmospheric nitrogen deposition. Although N:P stoichiometry has proved useful in studies of nutrient limitation, biogeochemical cycles, forest succession and degraded land, little is known about it in lower subtropical forest succession. Therefore, our objective is to better understand nutrient controlling factors of plant-soil interaction and reveal interactions of N and P to provide insight and theoretical fundamentals for forest management.

Methods We measured total N and P of organs of dominant species and different soil layers in three forests in Dinghushan Biosphere Reserve, Southern China: pine forest (PF, early successional stage), pine and broad-leaved mixed forest (MF, middle stage) and monsoon evergreen broad-leaved forest (MEBF, advanced stage).

Important findings Soil N content in the 0-10 cm soil layer increased with succession; values in PF, MF and MEBF were 0.440, 0.843 and 1.023 g·kg-1, respectively. The largest value of P content in the same layer was in MF (0.337 g·kg-1); the values in PF and MEBF were 0.190 and 0.283 g·kg-1, respectively. Plant foliage N and P content decreased with succession; the largest values for roots were in MF, and the values in PF equaled those in MEBF. Soil N:P ratio in the 0-10 cm layer significantly increased with succession; 2.3, 2.5 and 3.6, respectively. The N:P ratio of various plant organs also increased with succession, and the value in foliage was close to that in roots; the foliage N:P ratios were 22.7, 25.3 and 29.6, respectively. We discussed the characteristics of N:P ratios in soil and plants of the lower subtropical forest ecosystem, the law of N:P ratios in soil and plants in successional series, and the limiting effect of P on the lower subtropical forest ecosystem.

Key words: forest succession, lower subtropics, N:P ratio, ecosystem, stoichiometry