植物生态学报

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深圳湾福田红树林自然保护区物种共存特征与物种分布概率研究

郭欢敏, 沈小雪, 李瑞利   

  1. 北京大学深圳研究生院, 518055 中国
  • 收稿日期:2024-09-23 修回日期:2025-03-25 出版日期:2025-02-06 发布日期:2025-02-06

Research of species co-occurrence and distribution probability in Futian Mangrove Nature Reserve of Shenzhen Bay

GUO Huan-Min, SHEN Xiao-Xue, LI Rui-Li   

  1. , Peking University Shenzhen Graduate School 518055, China
  • Received:2024-09-23 Revised:2025-03-25 Online:2025-02-06

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摘要: 深圳湾福田红树林自然保护区是我国唯一一处位于城市腹地的国家级自然保护区。研究受人为干扰较重的城市红树林湿地的潜在物种多样性, 可为红树林生态湿地可持续管理提供路径。该研究对深圳湾福田红树林自然保护区不同区域(核心区/非核心区)进行生态学调查, 采用超几何法评估物种共存特征与物种分布概率, 并基于调查数据分析该区域的植被特征。主要结果有: (1)深圳湾福田红树林自然保护区现分布有9种红树, 秋茄树(Kandelia obovata)是优势种; 核心区中秋茄树重要值较大(平均96.4%), 在非核心区, 秋茄树重要值显著降低, 并出现了无瓣海桑(Sonneratia apetala)与海桑(S. caseolaris)。(2)海桑与无瓣海桑存在强的共存倾向, z分数值为2.82, 而无瓣海桑与秋茄树存在竞争排斥, z分数值为–2.41, z分数值反映了物种实际分布与随机预期的偏离程度。(3)现存物种多样性与群落完整性之间具有显著正相关关系, 群落完整性越高, 则现存物种多样性越丰富。非核心区部分样方的无瓣海桑分布概率较高, 面临扩散风险。核心区秋茄树的分布概率(0.51 ± 0.09)显著高于非核心区(0.41 ± 0.15), 但核心区部分样方(如8号样带的样方)群落完整性较低, 建议适当补种本土红树, 提高物种多样性。

关键词: 红树林, 物种共存, 物种库分布概率, 潜在物种多样性

Abstract: Aims The Shenzhen Bay Mangrove Nature Reserve is the only national nature reserve in China located within an urban area. Studying the potential biodiversity of urban mangrove wetlands, which are significantly impacted by human disturbance, can provide a pathway for the sustainable management of mangrove ecosystems. Methods This study conducted an ecological survey of different areas (core/non-core) in the Shenzhen Bay Mangrove National Nature Reserve. Species co-occurrence and distribution probability was assessed using the hy-pergeometric method, and the vegetation characteristics of the area were analyzed based on the survey data. Important findings (1) A total of nine mangrove species were distributed in the Shenzhen Bay Mangrove Nature Reserve, with Kandelia obovata being the dominant species. In the core area, K. obovata had the highest importance value (IV) (mean = 96.4%), while its importance value in the non-core area was significantly lower (p < 0.05), where Sonneratia apetala and S. caseolaris appeared. (2) In the Shenzhen Bay mangrove ecosystem, S. caseolaris and S. apetala exhibited a strong coexistence tendency, with a z-score value of 2.82. Meanwhile, S. apetala and K. obovata displayed competitive exclusion, with a z-score value of -2.41. Z-score values reflect non-random species co-occurrence patterns. (3) A significant positive correlation was found between the existing species diversity and the community integrity index in the Shenzhen Bay mangroves. The higher the community integrity, the higher the existing species diversity. Some non-core area plots are at risk of S. apetala spreading, and ecosystem management and protection should be strengthened. The distribution probability of K. obovata in the core area (0.51 ± 0.09) is significantly higher than that in the non-core area (0.41 ± 0.15). However, in certain plots of the core area, such as the plots in the mid-tide zones of transects 8, community completeness is relatively low. It is recommended to appro-priately replant native mangroves to enhance species diversity.

Key words: mangrove, species co-occurrence, distribution probability, potential biodiversity

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