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- Title
EFFECT OF WATER LEVEL AND SUBMERGENCE TIME ON LEAF GROWTH, STOICHIOMETRY AND HOMEOSTASIS OF CAREX BREVICUSPIS.
- Authors
HU, C.; XU, C. H.; HU, G.; ZHANG, Z. H.; LI, F.; XIE, Y. H.
- Abstract
Water level and submergence time are important factors influencing plant growth and plant C:N:P characteristics in freshwater wetlands. Here, we performed a controlled experiment using water levels and submergence times with the aim of investigating the changes in plant growth and stoichiometric characteristics, as well as the strength of N, P, and N:P homeostasis in Carex brevicuspis, China. Results showed that biomass, density, height, and total carbon (TC) decreased significantly with increasing water level; however, total nitrogen (TN) and total phosphorus (TP) increased significantly. The highest TN and TP were at 40 cm water level, while the highest C:N, C:P, and N:P ratios were at 0 cm water level. Furthermore, significant stoichiometric homeostasis of C. brevicuspis was found for N (HN) and P (HP) except for N:P (HN:P). HN and HP decreased with increasing submergence time, and HN was consistently greater than HP, indicating that C. brevicuspis had a weak ability to maintain its internal P balance under long-term submergence. Therefore, the impact of water level and submergence time on plant growth and stoichiometric characteristics in this study are applicable to the conservation and management of the wetlands dominated with C. brevicuspis.
- Subjects
CHINA; WATER levels; HEWLETT-Packard Development Co. LP; WETLAND management; CAREX; WETLAND conservation; STOICHIOMETRY; LEAF growth; HOMEOSTASIS; TYPHA latifolia
- Publication
Applied Ecology & Environmental Research, 2023, Vol 21, Issue 1, p623
- ISSN
1589-1623
- Publication type
Article
- DOI
10.15666/aeer/2101_623635