Spatial distribution patterns of Sargassum horneri in the coastal waters of the Ma'an Archipelago

Seaweed beds are a nearshore marine ecosystem composed of macroalgae and other marine organisms. In recent years, soil erosion, pollution, and other land-based mechanisms have severely reduced nearshore algal populations, particularly in areas influenced by the outflow of the Yangtze and Qiantang rivers. The Ma'an Archipelago is located in the estuary of the Yangtze and Qiantang rivers in the East China Sea. Although the archipelago is relatively distant from the shore, algal populations there have decreased significantly in recent years. The reasons for this decline are unknown, owing to an absence of data on macroalgal spatial distribution in seaweed beds and of long-term monitoring. Numerous environmental factors, operating at different scales, are likely to contribute to the abundance and distribution of macroalgae in seaweed beds. Therefore, it is important to study the beds across spatial scales to understand the ecological factors influencing the beds' presence and decline. During September 2014 and May 2015, we investigated the distribution of Sargassum horneri in germling and adult stages at 12 sites on three islands (Zhongkui, Lvhua, and Gouqi) around the Ma'an Archipelago. Our results showed that: (1) on a whole-archipelago scale, S. horneri density was highest around Zhongkui Island, and lowest around Lvhua Island. Adult plant lengths showed the opposite trend. The ratio of average densities around the three islands was 1 (Lvhua): 3.8 (Gouqi): 13.8 (Zhongkui) at the germling stage, and changed to 1:1.8:4 at the adult stage. (2) At the individual-site scale, wave exposure may explain why S. horneri density is highest in southeastern sites and lowest in northwestern ones. Around Zhongkui Island, S. horneri grew in turbulent conditions, was significantly affected by wave motion, and suffered a high mortality rate between the seedling and adult stages. (3) Within site scale, S. horneri was distributed over a considerably wider depth range around Zhongkui Island than around Lvhua or Gouqi islands. Adult S. horneri was most abundant at 2-m depth. Wave action apparently controlled the upper limit of S. horneri bathymetric distribution, whereas the lower limit depended on sedimentation and light availability.