Effect of Rhizome Severing on Survival and Growth of Rhizomatous Herb Phragmites communis Is Regulated by Sand Burial Depth
Author:
Zhai Shanshan,Qian Jianqiang,Ma Qun,Liu Zhimin,Ba Chaoqun,Xin Zhiming,Tian Liang,Zong Lu,Liang Wei,Zhu Jinlei
Abstract
Rhizome fragmentation and sand burial are common phenomena in rhizomatous clonal plants. These traits serve as an adaptive strategy for survival in stressful environments. Thus far, some studies have been carried out on the effects of rhizome fragmentation and sand burial, but how the interaction between rhizome fragmentation and sand burial affects the growth and reproduction of rhizomatous clonal plants is unclear. We investigated the effect of the burial depth and rhizome fragment size on the survival and growth of the rhizomatous herb Phragmites communis using 288 clonal fragments (6 burial depths × 8 clonal fragment sizes × 6 replicates) in a field rhizome severing experiment. The ramet survival of the rhizomatous species significantly increased with the sand burial depth and clonal fragment size (p < 0.01), and the effects of the clonal fragment size on ramet survival depended on the sand burial depth. Sand burial enhanced both the vertical and horizontal biomass (p < 0.05), while the clonal fragment size affected the vertical biomass rather than the horizontal biomass. Sand burial facilitated the vertical growth of ramets (p < 0.05) while the number of newly produced ramets firstly increased and then decreased with the increasing clonal fragment size, and the maximal value appeared in four clonal fragments under a heavy sand burial depth. There is an interaction between the burial depth and rhizome fragment size in the growth of rhizome herbaceous plants. The population growth increases in the increase of sand burial depth, and reaches the maximum under severe sand burial and moderate rhizome fragmentation.
Funder
National Natural Science Foundation of China
Subject
Plant Science,Ecology,Ecology, Evolution, Behavior and Systematics
Reference45 articles.
1. Evolution of clonal growth forms in angiosperms;New Phytol.,2020
2. de Kroon, H., and van Groenendael, J. (1997). The Ecology and Evolution of Clonal Plants, Backhuys Publishers.
3. A meta-analysis of effects of physiological integration in clonal plants under homogeneous vs. Heterogeneous environments;Funct. Ecol.,2021
4. de Kroon, H., and van Groenendael, J. (1997). The Ecology and Evolution of Clonal Plants, Backhuys Publishers.
5. Role of Clonal Integration among Different Environmental Conditions (A Review);Nat. Sci.,2016
Cited by
2 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献