Precipitation regime changes alter allometry and plasticity of meristem allocation in annual herbaceous plants in a semiarid sandy grassland, northern China

Author:

Sun Shanshan1234ORCID,Liu Xinping14,Medina‐Roldán Eduardo5,He Yuhui14,Lv Peng134,Xu Yuanzhi12

Affiliation:

1. Naiman Desertification Research Station, Northwest Institute of Eco‐Environment and Resources Chinese Academy of Sciences Lanzhou China

2. University of Chinese Academy of Sciences Beijing China

3. Urat Desert‐Grassland Research Station, Northwest Institute of Eco‐Environment and Resources Chinese Academy of Sciences Lanzhou China

4. Key Laboratory of Stress Physiology and Ecology in Cold and Arid Regions Gansu Province Lanzhou China

5. Department of Health and Environmental Sciences Xi'an Jiaotong‐Liverpool University Suzhou China

Abstract

AbstractThe three principal fates of axillary meristem in flowering plants are growth (G), reproduction (R), and inactivity (I). The allocation relationships between each meristem and plant size in annual herbaceous plants tend to change with altered precipitation (P) patterns in arid and semiarid grasslands. Here, we examined the allometry and plasticity of meristem allocation in three dominant annual herbaceous plants: Setaria viridis, Corispermum macrocarpum, and Bassia dasyphylla in a semiarid sandy grassland in northern China. We determined the range of plant sizes for each of the three species in the following treatments: ambient environment (Amb), P increased by 30% (P[+]) and by 60% (P[++]), P decreased by 30% (P[−]) and by 60% (P[− −]), drought for 46 days from May 1st to June 15th (D1) and from July 1st to August 15th (D2). We found that meristem allocation to branching intensity increased while allocation to apical dominance decreased with increasing plant size under decreased precipitation and seasonal drought. Decreased precipitation and seasonal drought caused the slope of allometry of meristem allocation in the three species to be significantly different from 1. Plasticity of meristem allocation to G, R, and I in S. viridis tended to be significantly greater in August under P(+) and P(++) while in C. macrocarpum tended to be greater in July under P(−), P(− −), D1, and D2. Our findings are important components of an adaptive strategy in annual herbaceous plants throughout the development stage, which will contribute to predict their developmental dynamics in the semiarid sandy grassland under future climate change.

Publisher

Wiley

Subject

Ecology, Evolution, Behavior and Systematics

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