J Plant Ecol ›› 2022, Vol. 15 ›› Issue (6): 1227-1240 .DOI: 10.1093/jpe/rtac051

• Research Articles • Previous Articles     Next Articles

Reduction in leaf size at higher altitudes across 39 broad-leaved herbaceous species on the northeastern Qinghai-Tibetan Plateau

Xinran Ke, Huixing Kang and Yanhong Tang   

  1. 1 Department of Ecology, College of Urban and Environmental Sciences, Peking University, Beijing 100871, China

    * Corresponding author. E-mail: tangyh@pku.edu.cn
  • Received:2022-03-06 Revised:2022-03-22 Accepted:2022-03-27 Published:2022-12-01

Abstract:

Leaf size varies conspicuously within and among species under different environments. However, it is unclear how leaf size would change with elevation, whether there is a general elevational pattern, and what determines the altitudinal variation of leaf size. We thus aimed to address these questions by focusing on the broad-leaved herbaceous species at high altitudes on the northeastern Qinghai-Tibetan Plateau. We measured the leaf size, leaf length, leaf width and leaf mass per area for 39 broad-leaved herbaceous species inhabited in the open areas along two mountain slopes from 3200 to 4400 m at the Lenglongling and the Daban Mountain, the northeastern Qinghai-Tibetan Plateau. We analyzed the altitudinal patterns in leaf size in relation to leaf inclination and leaf surface features, and applied a leaf energy balance model to discuss the underlying mechanisms. Leaf size decreased significantly at higher altitudes. The altitudinal reduction of leaf size was mainly attributed to the reduction of leaf length, and differed in different species, and in leaves with different inclination and leaf surface features. A leaf energy balance model with local environmental measurements demonstrates that leaf temperature tracks air temperature more closely in small than in large leaves, and that the leaf-size impact is stronger at higher latitudes. Based on the observational findings, we propose that the distribution upper-limit for broad-leaved herbaceous species would be at an elevation of about 5400 m on the northeastern Qinghai-Tibetan Plateau.

Key words: elevation,  leaf area,  leaf energy balance,  leaf length,  leaf mass per area

摘要:

青藏高原东北部39种阔叶草本植物叶大小随海拔增加而减少

种间或种内的叶大小随环境变化存在很大的差异,但这些差异如何随海拔变化一直都在争论。我们在青藏高原东北缘的冷龙岭和达坂山,沿海拔3200–4400 m的山坡上选取生长在开阔环境下的39种阔叶草本植物,观测了叶大小、叶长、叶宽和比叶重。研究结果表明,随海拔增加叶片显著减小,而且叶片面积的减小主要受叶片长度的影响,即随海拔增加叶长度减小明显。此外,叶片面积与海拔之间的关系随物种、叶倾角和叶表面特征而不同。利用局地环境观测数据驱动的能量平衡模型分析发现:叶温能更密切地追随气温变化,叶大小变化对叶温的影响在高海拔更为强烈。同时,基于上述能量平衡的计算结果,我们认为青藏高原东北部阔叶草本植物的海拔分布上限大约为5400 m。

关键词: 海拔,  叶面积,  叶能量平衡,  叶长,  比叶重