Response strategies of leaf vein traits and stomatal traits of Aegiceras corniculatum to shrimp aquaculture wastewater discharge

IF 1.7 4区 环境科学与生态学 Q3 ECOLOGY Aquatic Ecology Pub Date : 2024-07-09 DOI:10.1007/s10452-024-10122-5
Ying-Ying Qin, Ge-Ge Zhu, Ming-Zhong Liang, Hai-Lei Zheng, Jun-Wei Li
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Abstract

Sediments, waters and vegetation work together and cooperate mutually to maintain normal function of mangrove wetland ecosystem. To gained a comprehensive understanding of the response strategies existed by the leaf traits of Aegiceras corniculatum and to identity the key factors that drive leaf traits variation in the response to shrimp aquaculture wastewater, we sampled leaves of A. corniculatum, sediments and interstitial water from non-discharge area (CK), direct discharge area (DDA) and landfill restoration area (LRA) in Qinzhou Bay in southeast coast of China. We established a correlation between leaf vein traits and stomatal traits and abiotic conditions such as pH, nutrient content in sediment. In comparison to CK and LRA, leaf vein traits (primary vein diameter, secondary vein diameter, tertiary vein diameter, enclosed circular area, vein spacing, and tertiary vein density) exhibited a decrease in DDA. This observation suggests that the persistent discharge of shrimp aquaculture wastewater exerts a detrimental impact on the leaves’ mechanical support, nutrient, and water transport capacity. Furthermore, a marked negative correction emerges between stomatal density and length. In contrast, within LRA, an increase in stomatal density and a corresponding reduction in stomatal length indicate a heightened transpiration function of the leaves, thereby enhancing the efficiency of water and inorganic salt transport. Subsequently, the leaf vein traits in LRA are observed to be higher than in CK, suggesting that the leaf traits of A. corniculatum has undergone pre-adaptation to DDA and possesses high phenotypic plasticity. Through the analysis of leaf vein and stomatal traits in diverse shrimp aquaculture wastewater discharge habitats, this study demonstrates that such pre-adaptation and elevated phenotypic plasticity facilitates the adaptation of A. corniculatum to the challenging shrimp aquaculture wastewater environment.

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Aegiceras corniculatum叶脉性状和气孔性状对对虾养殖废水排放的响应策略
沉积物、水体和植被相互配合,共同维持红树林湿地生态系统的正常功能。为了全面了解红树林Aegiceras corniculatum叶片性状存在的响应策略,并确定驱动叶片性状对对虾养殖废水响应变化的关键因素,我们在中国东南沿海钦州湾的非排放区(CK)、直接排放区(DDA)和填埋修复区(LRA)采集了红树林Aegiceras corniculatum的叶片、沉积物和间隙水样本。我们建立了叶脉性状和气孔性状与非生物条件(如 pH 值、沉积物中的营养物质含量)之间的相关性。与CK和LRA相比,叶脉性状(主脉直径、次脉直径、三级脉直径、封闭圆面积、脉间距和三级脉密度)在DDA中呈下降趋势。这一观察结果表明,对虾养殖废水的持续排放对叶片的机械支撑、养分和水分运输能力产生了不利影响。此外,气孔密度和长度之间出现了明显的负校正。相反,在 LRA 中,气孔密度的增加和气孔长度的相应减少表明叶片的蒸腾作用增强,从而提高了水分和无机盐的运输效率。随后,在 LRA 中观察到的叶脉性状高于 CK,这表明 A. corniculatum 的叶片性状经过了对 DDA 的预适应,具有很高的表型可塑性。本研究通过分析不同对虾养殖废水排放栖息地的叶脉和气孔性状,证明这种预适应和表型可塑性的提高有助于A. corniculatum适应具有挑战性的对虾养殖废水环境。
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来源期刊
Aquatic Ecology
Aquatic Ecology 环境科学-海洋与淡水生物学
CiteScore
3.90
自引率
0.00%
发文量
68
审稿时长
3 months
期刊介绍: Aquatic Ecology publishes timely, peer-reviewed original papers relating to the ecology of fresh, brackish, estuarine and marine environments. Papers on fundamental and applied novel research in both the field and the laboratory, including descriptive or experimental studies, will be included in the journal. Preference will be given to studies that address timely and current topics and are integrative and critical in approach. We discourage papers that describe presence and abundance of aquatic biota in local habitats as well as papers that are pure systematic. The journal provides a forum for the aquatic ecologist - limnologist and oceanologist alike- to discuss ecological issues related to processes and structures at different integration levels from individuals to populations, to communities and entire ecosystems.
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