Abstract
Water level conditions are the key factors that affect the growth and distribution of wetland plants. Using Carex cinerascens (C. cinerascens) as the study species, we employ indoor simulations and field surveys. Our results show that C. cinerascens can adapt to rhythmic changes in the water level through different adaptation strategies. Compared to that of the control group, plant growth was better with a 0–0.4 cm/d water level rate, and plant growth was in the 42–56 cm range to that a 1.0–1.4 cm/d water level rate. Furthermore, it was observed that 0–0.4 cm/d was the most suitable growth rate, with 0.6–1.0 cm/d and 0–32 cm being the ideal plant tolerance ranges, and increasing to 1.0–1.4 cm/d and 32–56 cm exceeds the plant tolerance threshold. In the middle and late period of the experiment (25–45 d), the ecological characteristics of the plants changed significantly. For example, the root-to-shoot ratio of the plant in the stable water level reached 26.1. In our field observations, plant biomass can be influenced by a variety of environmental factors. The frequency of the species was the largest at an elevation of 15 m, and the growth status of the dominant and companion species of C. cinerascens was weakened with an increase in soil moisture content. The suitable water content for C. cinerascens growth was 27.6–57.3%, the distribution elevation was 12.54–16.59 m, and the optimum elevation was 13.56–15.54 m. The study is expected to provide a reference for wetland ecology research and wetland protection and restoration, a theoretical reference for the coordination of water resource development and utilization of Poyang Lake and ecological protection of important lakes and wetlands, and an important scientific basis for wetland hydrologic regulation, ecological restoration and biodiversity conservation.
Highlights
Water level conditions are the key factors that affect the growth and distribution of wetland plants
Previous studies have shown that the response of the ecological characteristics of wetland plants to hydrological factors typically conforms to a Gaussian d istribution[39]
We examined the response of the growth process of C. cinerascens under water level fluctuations (WLFs) and different field hydrological conditions to clarify the ecological adaptation mechanism and population characteristics in response to rhythmic hydrological changes in the Poyang Lake wetlands
Summary
Water level conditions are the key factors that affect the growth and distribution of wetland plants. The WLFs of lake ecosystems have significant temporal distribution characteristics and can be divided into two kinds of water level change modes: annual and interannual[12], and these two variabilities can be greatly influenced by regional climatic conditions and human activities[13,14]. The distribution of wetland plants is affected by various environmental factors, such as topography, soil, water, and biology, and shows a certain distinct zonality[24] This distribution shows significant temporal fluctuations in response to the hydrological regime by both direct and indirect effects[25,26]. Improving the knowledge base of the ecological adaptability and population characteristics of aquatic plants to changes in hydrological conditions is of great value for developing better predictions of the dynamics of aquatic communities and for the management of aquatic ecosystems in the context of climate change
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