海菖蒲形态和生理特征及其关键环境影响因素

doi:10.13292/j.1000-4890.202601.037

生态学杂志 ›› 2026, Vol. 45 ›› Issue (1): 129-141.doi: 10.13292/j.1000-4890.202601.037

海菖蒲形态和生理特征及其关键环境影响因素

韩秋影^*,罗宇峰,白昕竹,谢艳芳,史云峰,赵牧秋

（海南热带海洋学院崖州湾创新研究院/热带海洋生物资源利用与保护教育部重点实验室/海南省近岸海洋生态环境过程与碳汇重点实验室，海南三亚 572022）

出版日期:2026-01-10 发布日期:2026-01-08

The morphological and physiological characteristics of Enhalus acoroides and key environmental influencing factors.

HAN Qiuying^*, LUO Yufeng, BAI Xinzhu, XIE Yanfang, SHI Yunfeng, ZHAO Muqiu

(Yazhou Bay Innovation Institute/Key Laboratory of Tropical Marine Biological Resources Utilization and Protection, Ministry of Education/Hainan Provincial Key Laboratory of Coastal Marine Ecological Environment Processes and Carbon Sink, Hainan Tropical Ocean University, Sanya 572022, Hainan， China).

Online:2026-01-10 Published:2026-01-08

摘要/Abstract

摘要： 海菖蒲是海南陵水新村湾和黎安港的海草优势种，近年来衰退趋势明显。2021—2022年，对新村湾和黎安港海菖蒲海草床进行了6次采样调查，研究了海菖蒲形态和生理特征，分析了环境因素对海菖蒲相关指标的影响。结果表明，新村湾海草床海水温度、pH、铵氮、DIN、磷酸盐以及海菖蒲叶长、地下组织C/N比值均显著高于黎安港，而海水盐度、硝酸盐、海菖蒲叶宽、地下组织N含量均显著低于黎安港。新村湾海菖蒲主要受到海水盐度、海水pH及沉积物粒径的影响，其叶长与海水盐度、海水pH和沉积物粒径呈显著正相关，地上、地下和总生物量均与沉积物粒径和海水盐度呈显著正相关。而黎安港海菖蒲则受海水盐度、海水pH、硝酸盐浓度、磷酸盐浓度和沉积物有机碳影响较大，其地上、地下和总生物量与沉积物有机碳、海水铵氮浓度呈显著负相关，与海水pH、硝酸盐浓度呈显著正相关。与历史数据相比，海草组织氮含量显著升高（>2.45%），未来应严格控制养殖污水向新村湾和黎安港海草床排放，设立专项资金进行海草床健康状况长期监测，加强受损海草床衰退机制研究。本研究为理解海水温度、盐度以及氮磷营养盐对海菖蒲的协同影响提供科学依据。

关键词: 海菖蒲, 形态指标, 生理指标, 营养盐, 环境参数

Abstract: Enhalus acoroides is the dominant seagrass species in Xincun Bay and Li’an Harbor, Lingshui, Hainan, but has shown an obvious declining trend in recent years. From 2021 to 2022, we conducted investigations on the E. acoroides seagrass beds for six times in Xincun Bay and Li’an Harbor. We measured the morphological and physiological variables of E. acoroides, and analyzed the effects of environmental factors on those variables. The results showed that seawater temperature, pH, ammonium, DIN, phosphate, seagrass leaf length, belowground issue C/N ratio were significantly higher in Xincun Bay than in Li’an Port, while seawater salinity, nitrate concentration, leaf width and N content of belowground tissues were significantly lower in Xincun Bay than in Li’an Port. E. acoroides in Xincun Bay was mainly affected by seawater salinity, pH, and sediment grain size. Leaf length was positively correlated with seawater salinity, pH, and sediment grain size. Aboveground, belowground, and total biomass were positively correlated with sediment grain size and seawater salinity. In Li’an Port, E. acoroides was greatly affected by seawater salinity, pH, nitrate, phosphate, and sediment organic carbon. The aboveground, belowground, and total biomass were significantly negatively correlated with the sediment organic carbon and seawater ammonium, and positively correlated with seawater pH and nitrate. Compared with historical data, the nitrogen content in seagrass tissues significantly increased (>2.45%). In the future, the discharge of aquaculture sewage into the seagrass beds in Xincun Bay and Li’an Port should be strictly controlled. Special funds should be set up for long-term monitoring of the health status of seagrass beds, and research on the degradation mechanism of damaged seagrass beds should be strengthened. This study can provide a scientific basis for understanding the synergistic effects of seawater temperature, salinity, and nutrients on E. acoroides.

Key words: Enhalus acoroides, morphological indicator, physiological indicator, nutrient, environmental parameter

韩秋影, 罗宇峰, 白昕竹, 谢艳芳, 史云峰, 赵牧秋. 海菖蒲形态和生理特征及其关键环境影响因素[J]. 生态学杂志, 2026, 45(1): 129-141.

HAN Qiuying, LUO Yufeng, BAI Xinzhu, XIE Yanfang, SHI Yunfeng, ZHAO Muqiu. The morphological and physiological characteristics of Enhalus acoroides and key environmental influencing factors.[J]. Chinese Journal of Ecology, 2026, 45(1): 129-141.

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海菖蒲形态和生理特征及其关键环境影响因素

The morphological and physiological characteristics of Enhalus acoroides and key environmental influencing factors.

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