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Blooms caused by some species belonging to the dinoflagellate genus Alexandrium are known to cause large-scale mortality of fish. Thus, the dynamics of these species is important and of concern to scientists, officials, and people in the aquaculture industry. To understand the dynamics of such species, their growth and mortality due to predation need to be assessed. The newly described dinoflagellate Alexandrium pohangense is known to grow slowly, with a maximum autotrophic growth rate of 0.1 d−1. Thus, it may not form bloom patches if its mortality due to predation is high. Therefore, to explore the mortality of A. pohangense due to predation, feeding on this species by the common heterotrophic dinoflagellates Gyrodinium dominans, Gyrodinium moestrupii, Luciella masanensis, Noctiluca scintillans, Oxyrrhis marina, Oblea rotunda, Polykrikos kofoidii, and Pfiesteria piscicida, as well as by the ciliate Tiarina fusus, was examined. None of these potential predators was able to feed on A. pohangense. In contrast, these potential predators were killed and their bodies were dissolved when incubated with A. pohangense cells or cell-free culture filtrates. The survival of G. moestrupii, O. marina, P. kofoidii, and T. fusus on incubation with 10 cells ml−1 of A. pohangense was 20–60%, while that at the equivalent culture filtrates was 20–70%. With increasing A. pohangense cell-concentration (up to 1000 cells ml−1 or equivalent culture filtrates), the survival rate of G. moestrupii, O. marina, P. kofoidii, and T. fusus rapidly decreased. The lethal concentration (LC50) for G. moestrupii, O. marina, P. kofoidii, and T. fusus at the elapsed time of 24 h with A. pohangense cells (cultures of 11.4, 13.3, 1.6, and 3.3 cells ml−1, respectively) was lower than that with A. pohangense filtrates (culture filtrates of 35.5, 30.6, 5.5, and 5.0 cells ml−1, respectively). Furthermore, most of the ciliates and heterotrophic dinoflagellates in the water collected from the coast of Tongyoung, Korea, were killed when incubated with cultures of 1000 A. pohangense cells ml−1 and equivalent culture filtrates. The relatively slow growing A. pohangense may form blooms by reducing mortality due to predation through killing potential protist predators.  相似文献   
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小种群是在自然因素或人为活动影响下,形成具有生存风险的隔离或异质种群,认识其形成原因并制定保护对策是开展救护行动的基础。野生大熊猫(Ailuropoda melanoleuca)具有许多相互隔离的小种群,各小种群的生存状况决定该物种的整体保护成效。本文以甘肃多儿保护区大熊猫种群为例,在对保护区内大熊猫进行种群分布、空间利用、干扰状况调查的基础上,开展栖息地适宜性评价,分析了保护区大熊猫有效利用空间及其时空格局与环境容纳量。结果显示:(1)保护区适宜栖息地面积5 789.2 hm2,次适宜栖息地面积18 165.6 hm2,共占保护区总面积43.9%。优质栖息地主要分布在工布龙区域,该区域森林和生态系统保持原生状态,也是保护区大熊猫的主要分布区;(2)工布龙区域总面积9 949.7 hm2,其中适宜和次适宜栖息地共5 129.4 hm2,牧场是大熊猫栖息地的主要干扰因子,放牧干扰下工布龙区域适宜和次适宜栖息地面积共减少12.9%,破碎化水平加剧;(3)牧场与大熊猫栖息地镶嵌分布,导致适宜栖息地隔离,放...  相似文献   
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