School of Biological Sciences, The University of Hong Kong, Kadoorie Biological Sciences Building, Pokfulam Road, Hong Kong SAR, China.
Swire Institute of Marine Science, The University of Hong Kong, Cape D'Aguilar Road, Shek O, Hong Kong SAR, China.
Glob Chang Biol. 2016 Nov;22(11):3550-3565. doi: 10.1111/gcb.13432. Epub 2016 Aug 9.
Although the impacts of nutrient pollution on coral reefs are well known, surprisingly, no statistical relationships have ever been established between water quality parameters, coral biodiversity and coral cover. Hong Kong provides a unique opportunity to assess this relationship. Here, coastal waters have been monitored monthly since 1986, at 76 stations, providing a highly spatially resolved water quality dataset including 68 903 data points. Moreover, a robust coral species richness (S) dataset is available from more than 100 surveyed locations, composed of 3453 individual colonies' observations, as well as a coral cover (CC) dataset including 85 sites. This wealth of data provides a unique opportunity to test the hypothesis that water quality, and in particular nutrients, drives coral biodiversity. The influence of water quality on S and CC was analyzed using GIS and multiple regression modeling. Eutrophication (as chlorophyll-a concentration; CHLA) was negatively correlated with S and CC, whereas physicochemical parameters (DO and salinity) had no significant effect. The modeling further illustrated that particulate suspended matter, dissolved inorganic nitrogen (DIN) and dissolved inorganic phosphorus (DIP) had a negative effect on S and on CC; however, the effect of nutrients was 1.5-fold to twofold greater. The highest S and CC occurred where CHLA <2 μg L , DIN < 2 μm and DIP < 0.1 μm. Where these values were exceeded, S and CC were significantly lower and no live corals were observed where CHLA > 15 μg L , DIN > 9 μm and DIP > 0.33 μm. This study demonstrates the importance of nutrients over other water quality parameters in coral biodiversity loss and highlights the key role of eutrophication in shaping coastal coral reef ecosystems. This work also provides ecological thresholds that may be useful for water quality guidelines and nutrient mitigation policies.
尽管营养物污染对珊瑚礁的影响众所周知,但令人惊讶的是,水质参数、珊瑚生物多样性和珊瑚覆盖率之间从未建立过统计学关系。香港提供了评估这种关系的独特机会。在这里,自 1986 年以来,每月对 76 个监测站的沿海水域进行监测,提供了一个高度空间分辨率的水质数据集,包括 68,303 个数据点。此外,还可从 100 多个调查地点获得可靠的珊瑚物种丰富度 (S) 数据集,该数据集由 3453 个单独珊瑚礁的观测结果组成,以及包括 85 个地点的珊瑚覆盖率 (CC) 数据集。这些丰富的数据提供了一个独特的机会,可以检验这样一个假设,即水质,特别是营养物质,驱动着珊瑚生物多样性。使用 GIS 和多元回归模型分析了水质对 S 和 CC 的影响。富营养化(以叶绿素 a 浓度;CHLA 表示)与 S 和 CC 呈负相关,而理化参数(DO 和盐度)没有显著影响。该模型进一步说明了颗粒悬浮物、溶解无机氮 (DIN) 和溶解无机磷 (DIP) 对 S 和 CC 具有负效应;然而,营养物的影响是其 1.5 至 2 倍。当 CHLA<2μg/L、DIN<2μm 和 DIP<0.1μm 时,S 和 CC 最高。当这些值超过时,S 和 CC 显著降低,并且当 CHLA>15μg/L、DIN>9μm 和 DIP>0.33μm 时,没有观察到活体珊瑚。本研究表明,在珊瑚生物多样性丧失方面,营养物质比其他水质参数更为重要,并强调了富营养化在塑造沿海珊瑚礁生态系统方面的关键作用。这项工作还提供了生态阈值,这些阈值可能对水质指南和营养物质缓解政策有用。
