水文波动下密草的生态和光合特性

IF 1.3 4区环境科学与生态学 Q3 ECOLOGY

Journal of Freshwater Ecology Pub Date : 2023-10-15 DOI:10.1080/02705060.2023.2271502

Dongjie Zhang, Xuepeng Liu, Shiya Gao, Cheng Liu, Yuan Xin, Tongxin Wang, Mingye Zhang, Shouzheng Tong

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引用次数: 0

摘要

水文波动是影响湿地植物生长和光合过程的关键非生物胁迫。然而，草苔的植物特性和光合作用对水文波动的响应机制尚不清楚。对比研究了初始水深(WD)、水位幅值(WA)和持续时间交互影响下施米草(C. schmidtii)植株大小参数、生物量参数和光合作用参数。研究了任意两个因子对施密草植株特性的耦合关系。总体而言，WD和WA处理及其持续时间显著影响了施米草的植株大小、生物量和光合作用。例外的是WA对生物量和NPQ的影响。此外，WD和WA的交互作用显著影响了施米草的生物量和光合作用。随着时间的推移，施米草的植株大小、生物量和光合参数均呈现先增大后减小的趋势。初始水深为0 cm时，除qL和NPQ外，植株大小、生物量和光合参数均较大。与WD相同，当水位幅值为0 cm时，株高、叶绿素含量、Fv/Fm和ΔFv/Fm′值最大。叶绿素含量与植株大小参数、Fv/Fm、ΔFv/Fm′、qL均呈显著正相关，除qL外，ΔFv/Fm′与其他植物因子均呈显著正相关。较低的水位和较小的水位变化更有利于施米草的生长和光合作用。施米草的植株大小、生物量积累和光合作用共同应对水文波动。这一发现提高了人们对施密特密蝽对水文波动的响应的认识。因此，它们为恢复、管理和保护毛毡湿地提供了宝贵的信息。

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Ecological and photosynthetic characteristics of Carex schmidtii with respect to hydrological fluctuations

Hydrological fluctuations are key abiotic stresses that influence plant growth and photosynthetic processes of wetland plants. However, the response mechanism of the plant characteristics and photosynthesis of Carex schmidtii, with respect to hydrological fluctuations, are still unclear. Comparative studies of plant size parameters, biomass parameters, and photosynthesis parameters of C. schmidtii under the interactive influence of initial water depth (WD), water-level amplitude (WA), and duration time, were performed. The coupling relationship between any two factors of the plant characteristics of C. schmidtii was also examined. Generally, the results showed that the WD and WA treatments, and the duration time, significantly affected plant size, biomass, and photosynthesis of C. schmidtii. The exception was the effect by the WA on the biomass and the NPQ. Furthermore, the biomass and photosynthesis of C. schmidtii were significantly affected by the interactive effects by WD and WA. The plant size, biomass, and photosynthesis parameters of C. schmidtii first increased and then decreased over time. Larger values of plant size, biomass, and photosynthesis parameters (except for qL and NPQ) were found for the treatment with an initial water depth of 0 cm. As was the situation with WD, the largest values of plant height, chlorophyll content, Fv/Fm, and ΔFv/Fm’ were obtained for a water-level amplitude of 0 cm. Furthermore, the chlorophyll content was positively related to the plant size parameters, Fv/Fm, ΔFv/Fm’, and qL. Except for qL, ΔFv/Fm’ had a significant relationship with all plant factors. Lower water levels and smaller water level changes are more conducive to the growth and photosynthese of C. schmidtii. Plant size, biomass accumulation and photosynthesis of C. schmidtii collectively coped with hydrological fluctuations. The findings have improved understanding of the response of C. schmidtii to hydrological fluctuations. They have thereby provided invaluable information for the restoration, management and conservation of tussock wetlands.

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来源期刊

Journal of Freshwater Ecology 生物-湖沼学

CiteScore

2.20

自引率

7.70%

发文量

审稿时长

3 months

期刊介绍： The Journal of Freshwater Ecology, published since 1981, is an open access peer-reviewed journal for the field of aquatic ecology of freshwater systems that is aimed at an international audience of researchers and professionals. Its coverage reflects the wide diversity of ecological subdisciplines and topics, including but not limited to physiological, population, community, and ecosystem ecology as well as biogeochemistry and ecohydrology of all types of freshwater systems including lentic, lotic, hyporheic and wetland systems. Studies that improve our understanding of anthropogenic impacts and changes to freshwater systems are also appropriate.