Seasonal Flux of Nonstructural Carbohydrate in Five Species of Submerged Macrophytes in a Precambrian Shield Lake. Part 1: Effect of Light and Water Depth

Water level is one of the most important factors affecting the growth of submerged macrophytes in aquatic ecosystems. The rosette plant Vallisneria natans and the erect plant Hydrilla verticillata are two common submerged macrophytes in lakes of the middle and lower reaches of the Yangtze River, China. How water level fluctuations affect their growth and competition is still unknown. In this study, three water depths (50 cm, 150 cm, and 250 cm) were established to explore the responses in growth and competitive patterns of the two plant species to water depth under mixed planting conditions. The results show that, compared with shallow water conditions (50 cm), the growth of both submerged macrophytes was severely suppressed in deep water depth (250 cm), while only V. natans was inhibited under intermediate water depth (150 cm). Moreover, the ratio of biomass of V. natans to H. verticillata gradually increased with increasing water depth, indicating that deep water enhanced the competitive advantage of V. natans over H.verticillata. Morphological adaptation of the two submerged macrophytes to water depth was different. With increasing water depth, H. verticillata increased its height, at the cost of reduced plant numbers to adapt to poor light conditions. A similar strategy was also observed in V. natans, when water depth increased from 50 cm to 150 cm. However, both the plant height and number were reduced at deep water depth (250 cm). Our study suggests that water level reduction in lake restoration efforts could increase the total biomass of submerged macrophytes, but the domination of key plants, such as V. natans, may decrease.

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La séismicité provoquée au réservoir LG-2

Canadian Journal of Earth Sciences ◽

10.1139/e81-064 ◽

1981 ◽

Vol 18 (4) ◽

pp. 693-698 ◽

Cited By ~ 6

Author(s):

G. G. R. Buchbinder ◽

F. M. Anglin ◽

Roger McNicoll

Keyword(s):

Pore Pressure ◽

Water Depth ◽

Active Zone ◽

River Valley ◽

Maximum Depth ◽

Active Area ◽

Precambrian Shield ◽

Hydroelectric Reservoir

The construction of a rock and earth-filled dam in the La Grande River valley, Quebec has created a hydroelectric reservoir with a maximum depth of 145 m and a volume of 61.7 × 109 m3. No seismicity in this Precambrian Shield region above magnitude 0.1 was observed in the reservoir zone in the 27 months preceding the filling. Microearthquakes of magnitude less than 1 started under the reservoir when a water depth of 90 m was reached after 30 days and this activity continued for about 3 months. A second series of microearthquakes began in the same active zone when the rate of filling increased twofold. The seismically active area is confined to a zone 4 km × 7 km and no deeper than 5 km. The microearthquakes are considered to be the result of minor reactivation of old faults under the reservoir in response to the increased pore pressure.

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The influence of flow rates and water depth gradients on the growth process of submerged macrophytes and the biomass composition of the phytoplankton assemblage in eutrophic water: an analysis based on submerged macrophytes photosynthesis parameters

Environmental Science and Pollution Research ◽

10.1007/s11356-020-09404-w ◽

2020 ◽

Vol 27 (25) ◽

pp. 31477-31488

Author(s):

Duo Xu ◽

Yan Xia ◽

Zhaoxin Li ◽

Yonggang Gu ◽

Chunhua Lou ◽

...

Keyword(s):

Water Depth ◽

Growth Process ◽

Submerged Macrophytes ◽

Biomass Composition ◽

Phytoplankton Assemblage ◽

Flow Rates ◽

Eutrophic Water ◽

Depth Gradients

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Effects of water depth on growth of submerged macrophytes Vallisneria natans and Myriophyllum spicatum

Journal of Lake Sciences ◽

10.18307/2019.0404 ◽

2019 ◽

Vol 31 (4) ◽

pp. 1045-1054

Author(s):

LI Qisheng ◽

◽

HUANG Qiang ◽

LI Yongji ◽

HAN Yanqing ◽

...

Keyword(s):

Water Depth ◽

Submerged Macrophytes ◽

Myriophyllum Spicatum ◽

Vallisneria Natans

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Leaf carbon, nitrogen and phosphorus stoichiometric characteristics and photosynthetic pigments composition of four submerged macrophytes in response to various water depth in Lake Erhai, China

Journal of Lake Sciences ◽

10.18307/2018.0522 ◽

2018 ◽

Vol 30 (5) ◽

pp. 1413-1419 ◽

Cited By ~ 1

Author(s):

HE Liang ◽

◽

CHEN Xiaoxi ◽

LI Wei ◽

ZHU Tianshun ◽

...

Keyword(s):

Water Depth ◽

Photosynthetic Pigments ◽

Submerged Macrophytes ◽

Nitrogen And Phosphorus ◽

Lake Erhai

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Effects of Water Level Fluctuations on the Growth Characteristics and Community Succession of Submerged Macrophytes: A Case Study of Yilong Lake, China

Water ◽

10.3390/w13202900 ◽

2021 ◽

Vol 13 (20) ◽

pp. 2900

Author(s):

Fengbin Zhao ◽

Xin Fang ◽

Zeyu Zhao ◽

Xiaoli Chai

Keyword(s):

Community Structure ◽

Water Level ◽

Water Depth ◽

Seed Bank ◽

Submerged Macrophytes ◽

Growth Characteristics ◽

Community Succession ◽

Submerged Plant ◽

Submerged Plants ◽

Emergent Plants

Water level fluctuation (WLF) has a significant effect on aquatic macrophytes, but few experimental studies have examined the effect of WLF on submerged community succession, especially from a large-scale perspective. In this study, field monitoring of WLF and submerged macrophytes was conducted in Yilong Lake (SE China) over two years, and the impacts of WLF on the growth characteristics and the community structure of submerged macrophytes were determined. The results show that the biomass of submerged macrophytes decreased significantly after the water level increased and submerged macrophytes could cope with the adverse environment by adjusting their growth posture, for example, increasing plant length and reducing branch number. However, different submerged plants have different regulatory abilities, which leads to a change in the community structure. Myriophyllum spicatum, Stuckenia pectinata, and Najas marina had better adaptation abilities to WLF than Najas minor and Utricularia vulgaris. Changes in water depth, dissolved oxygen, and transparency significantly contribute to the effect of WLF on submerged plant communities. Therefore, when determining the range of WLF, the above three critical factors and submerged plant species should be considered. WLF changed the spatial distribution of the aquatic plant community. When water levels rose, the density of the submerged macrophyte community in the original growth region reduced as the emergent plants migrated to shallower water, and the seed bank germination was aided by transparent water produced among emergent plants. This can be used as a pioneering measure to restore submerged plants in eutrophic lakes with low transparency. In addition, a suitable water depth created by WLF was conducive to activating the seed bank and improving the diversity of aquatic plants. Finally, a distribution map of aquatic plants in Yilong Lake is drawn.

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