内源营养负荷对4种常见沉水植物生长、形态和资源分配策略的影响

INTERNAL NUTRIENT LOAD ON THE GROWTH, MORPHOLOGY, AND RESOURCE ALLOCATION STRATEGIES OF FOUR COMMON SUBMERGED PLANTS

  • 摘要: 为探明内源营养负荷对沉水植物生长、形态和资源分配的影响, 研究通过控制沉积物的营养浓度, 探究4种常见沉水植物苦草(Vallisneria natans)、黑藻(Hydrilla verticillata)、穗状狐尾藻(Myriophyllum spicatum) 和竹叶眼子菜(Potamogeton wrightii) 的多种功能性状对沉积物营养浓度的响应。结果表明: (1)内源营养负荷的增加促进了4种沉水植物的生长, 其中苦草的种群数量和总生物量均高于其他沉水植物。然而, 当沉积物营养含量过高时(C: 73.33 mg/g; N: 4.94 mg/g; P: 0.68 mg/g) 4种沉水植物的种群数量均有所下降。(2)沉水植物形态特征对沉积物营养含量变化的响应趋势并不一致, 所有物种株高均逐渐升高, 根长则无显著变化规律; 苦草和竹叶眼子菜的单株鲜重持续升高, 黑藻和穗状狐尾藻的单株鲜重先升高后降低。(3)内源营养物质含量的变化使4种植物的资源分配发生了显著变化, 随着沉积物营养含量上升4种沉水植物的地上生物量占比显著升高(根冠比显著下降), 光合色素含量显著升高, 但过高的营养含量对光合色素合成产生负效应。总之, 本研究结果表明苦草对沉积物营养负荷变化的适应能力最强, 因此在富营养化水体的生态修复中选择苦草作为先锋种能有效提高沉水植物的修复效率。

     

    Abstract: Internal nutrient is one of the important causes of eutrophication in lakes, exerting notable impact on the physiology and growth of submerged plants. In order to explore the effects of internal nutrient loading on the growth, morphology, and resource allocation of submerged plants, this study managed sediment nutrient concentrations and scrutinized the responses of diverse functional traits within four prevalent submerged plant species: Vallisneria natans, Hydrilla verticillata, Myriophyllum spicatum and Potamogeton wrightii. The results showed that: (1) The increase of internal nutrient loading promoted a stimulating effect on the growth of the four submerged plants, with Vallisneria natans displaying higher population quantity and total biomass compared to the other submerged plants. However, a decline in population numbers across all four species was observed when sediment nutrient content became excessive (C: 73.33 mg/g; N: 4.94 mg/g; P: 0.68 mg/g). (2) The response trend of submerged plant morphological characteristics to changes in sediment nutrient content exhibited variability. The height of all species gradually increased, while there was no significant change in root length. Individual fresh weight of V. natans and P. wrightii continued to increase, while the fresh weight of H. verticillata and M. spicatum first increased and then decreased. (3) Alterations in internal nutrient content significantly influenced the resource allocation of the four plants. As sediment nutrient content increased, the proportion of aboveground biomass within the submerged plants significantly increased, leading to a concurrent decline in the root-to-shoot ratio. Furthermore, the content of photosynthetic pigments exhibited a marked increase with enhanced sediment nutrient content. However, it is important to note that excessive nutrient content negatively impacted the synthesis of photosynthetic pigments. In summary, the results of this study indicate that the adaptability of V. natans to changes in sediment nutrient loading is the strongest, so selecting V. natans as a pioneer species for ecological restoration in eutrophic water bodies can effectively improve the restoration efficiency of submerged macrophytes.

     

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