Mogi M, Yong H S
Division of Parasitology, Department of Microbiology, Saga Medical School, Nabeshima, 849, Saga, Japan.
Department of Zoology, University of Malaya, 59100, Kuala Lumpur, Malaysia.
Oecologia. 1992 May;90(2):172-184. doi: 10.1007/BF00317174.
The structure and organization of aquatic arthropod communities in Nepenthes ampullaria pitchers were studied at two sites (M in Malacca and K in Kuching) in Malaysia. The communities consisted mainly of aquatic dipteran larvae. Community M was dominated by a filter feeder, Tripteroides tenax, which reached a high density despite a strongly aggregated distribution. Community K had five trophic groups: carrion feeders, filter feeders, detritus feeders, nipping predators and hooking predators, each including multiple species. The summed density of filter feeders in Community K remained much below the level attained by filter feeders in Community M. Niche differentiation within each trophic group with regard to pitcher age and feeding behaviour was not sufficient to allow species coexistence through niche separation alone. Aggregated distributions directly reduced interspecific encounters. Nevertheless, species belonging to the same trophic group commonly shared the same pitcher, because of high occurrence probabilities of dominant species and positive associations between some taxa (due mainly to similar occupancies by pitcher age). Predator coexistence in Community K may have been facilitated by self-limitation of the large predators through intraspecific cannibalism strengthened by aggregation. Prey coexistence, on the other hand, may have relied more on population suppression by predation, especially the selective removal of old instar Tripteroides.
在马来西亚的两个地点(马六甲的M地和古晋的K地)研究了猪笼草捕虫笼中水生节肢动物群落的结构和组织。这些群落主要由水生双翅目幼虫组成。M群落以滤食性动物细尾摇蚊为主,尽管其分布高度聚集,但仍达到了高密度。K群落有五个营养级组:腐食性动物、滤食性动物、碎屑食性动物、夹食性捕食者和钩食性捕食者,每个组都包括多个物种。K群落中滤食性动物的总密度仍远低于M群落中滤食性动物达到的水平。每个营养级组内关于捕虫笼年龄和取食行为的生态位分化不足以仅通过生态位分离实现物种共存。聚集分布直接减少了种间相遇。然而,由于优势种出现概率高以及一些分类群之间的正相关关系(主要是由于捕虫笼年龄的相似占据情况),属于同一营养级组的物种通常共享同一个捕虫笼。K群落中捕食者的共存可能是由于大型捕食者通过聚集强化的种内自相残杀实现自我限制而得以促进。另一方面,猎物的共存可能更多地依赖于捕食导致的种群抑制,特别是对老龄细尾摇蚊的选择性清除。
