Ecological stoichiometry of leaf-litter-fine roots in mixed plantations in mountainous area of Southern Ningxia, China

Ying Yong Sheng Tai Xue Bao. 2023 Nov;34(11):2889-2897. doi: 10.13287/j.1001-9332.202311.009.

Abstract

The southern mountainous areas in Ningxia are representative regions of the Loess Plateau, with extremely fragile ecological environment. Large area of pure plantations established during the project of Grain for Green has suffered from poor nutrient availability and biodiversity loss, while planting mixed plantations is commonly consi-dered as an effective way to improve the ecological benefits. We selected Robinia pseudoacacia + Picea asperata mixed plantation, R. pseudoacacia + Armeniaca sibirica mixed plantation, A. sibirica pure plantation and R. pseudoa-cacia pure plantation located ina Ningnan mountainous area as test objects. Based on the theory and method of ecological stoichiometry, we measured the C, N and P contents of leaves, litter and fine roots to understand nutrient cycling characteristics of different plantations. The results showed that there was significant difference in foliar stoichiometry of each tree species within the four plantations. P. asperata leaves had the highest C content in the R. pseudoacacia + P. asperata mixed plantation, and R. pseudoacacia leaves had the highest N and P contents in the R. pseudoacacia + A. sibirica mixed plantation. N content of R. pseudoacacia and A. sibirica leaves was significantly higher in mixed plantation compared with that in pure plantation. There was no significant difference in litter biomass, litter C, N, P contents and stoichiometric ratios between the pure and mixed plantations of R. pseudoacacia. Litter biomass in A. sibirica pure plantation was significantly higher than that in R. pseudoacacia + A. sibirica mixed plantation, while litter C content was significantly lower than that in the mixed plantation. Fine root biomass decreased with increasing soil depth in the four plantations, with total fine root biomass being the highest in the R. pseudoacacia + A. sibirica mixed plantation. N content and N:P of fine roots in the R. pseudoacacia + A. sibirica mixed plantation were higher than those in R. pseudoacacia and A. sibirica pure plantations. There was significant negative correlation between N content in leaves and fine roots of R. pseudoacacia + A. sibirica mixed plantation. There were significant negative correlations between the N content of leaves and litter, as well as between the P content of leaves and fine roots in the R. pseudoacacia + P. asperata mixed plantation. P content between litter and fine roots in A. sibirica pure plantation was significantly negatively correlated. Nutrient status of mixed plantations was better than pure plantations in the Ningnan mountainous area, with the mixed plantation of R. pseudoacacia and A. sibirica being the best. Mixed planting reduced nutrient limitation on plant growth to a certain extent.

宁夏南部山区是黄土高原的典型代表区域,其生态环境极其脆弱。退耕还林还草工程营造的大面积纯林出现可利用养分不足、生物多样性下降等问题,而营造混交林被认为是提高人工林生态效益的有效途径。本研究以宁南山区刺槐+云杉混交林、刺槐+山杏混交林、刺槐纯林、山杏纯林为对象,基于植物生态化学计量学理论与方法,通过测定植物叶片、凋落物和细根的C、N、P含量,揭示不同人工林的养分循环特征。结果表明: 4种林型中各树种的叶片生态化学计量特征具有显著差异,刺槐+云杉混交林中云杉叶片C含量最高,刺槐+山杏混交林中刺槐叶片N、P含量最高,混交林中刺槐和山杏叶片N含量显著高于各自纯林。刺槐纯林与其混交林之间的凋落物量以及凋落物C、N、P含量及化学计量比均无显著差异;山杏纯林凋落物量显著高于混交林,而凋落物C含量显著低于混交林。4种林型的细根生物量均随土层深度增加而下降,其中,刺槐+山杏混交林的总细根生物量最高,刺槐+山杏混交林的细根N含量和N∶P值高于刺槐纯林和山杏纯林。刺槐+山杏混交林叶片与细根间N含量呈显著负相关;刺槐+云杉混交林叶片与凋落物间N含量呈显著负相关,叶片与细根间P含量呈显著正相关;山杏纯林凋落物与细根间P含量呈显著负相关。宁南山区混交林养分模式优于纯林,刺槐+山杏的混交造林模式最佳,混交造林在一定程度上降低了元素对植物生长的限制作用。.

Keywords: ecological stoichiometry; mixed plantation; mountainous area of southern Ningxia; nutrient content..

MeSH terms

  • Biodiversity
  • Carbon* / analysis
  • China
  • Ecosystem
  • Nitrogen* / analysis
  • Plant Leaves / chemistry
  • Soil

Substances

  • Nitrogen
  • Carbon
  • Soil