Hart David D
Academy of Natural Sciences, 1900 Ben Franklin Parkway, 19103, Philadelphia, PA, USA.
Oecologia. 1992 Aug;91(2):220-228. doi: 10.1007/BF00317787.
Experimental studies were used to examine the mechanisms governing the distribution and abundance of two major patch types in unshaded reaches of Augusta Creek, Michigan (USA). One patch type is dominated by Cladophora glomerata, a macroalga potentially able to monopolize space, whereas the other type is comprised of a low-growing, epilithic microalgal lawn inhabited by several species of sessile grazers (especially the caddisflies Leucotrichia pictipes and Psychomyia flavida). Cladophora patches are absent from mid-channel sites characterized by current velocities ≤ ca. 50 cm s; caging experiments indicate that their absence is due to grazing by crayfish (Orconectes propinquus). Cladophora's presence in sites with velocities >50 cm s apparently results in part because crayfish foraging activity is impaired in high flow regimes. The presence of Cladophora strongly affects various other invertebrates due to its alteration of abiotic and biotic characteristics of the microhabitat. For example, the abundance of sessile grazers (e.g. Leucotrichia and Psychomyia) that inhabit microalgal patches is negatively correlated to the abundance of Cladophora, whereas the abundance of several other invertebrates (e.g. Stenonema mayflies and Taeniopteryx stoneflies) is positively correlated to Cladophora's abundance. Therefore, in some portions of this system, crayfish act as keystone predators because of their ability to regulate the abundance of Cladophora, which in turn has strong positive and negative effects on other components of the community. Cladophora does not always monopolize space at high velocities in the absence of crayfish, however. If sessile grazers arrive at such sites before Cladophora, they can prevent its establishment. Thus, where crayfish are absent, the likelihood that a site will be dominated by either Cladophora patches or sessile grazer - microalgal lawn patches depends on two sets of stochastic processes: (1) those that create bare space (e.g. disturbance and grazer emergence); and (2) those controlling the timing of recruitment by Cladophora or grazers at these bare sites. These priority effects (i.e. the ability of grazers and Cladophora to inhibit each other's establishment) contribute to the marked spatial heterogeneity of these two patch types. Collectively, these results demonstrate how interactions between competition, predation, and physical factors can generate a complex mixture of community patterns.
通过实验研究来考察美国密歇根州奥古斯塔溪无遮蔽河段中两种主要斑块类型的分布和丰度控制机制。一种斑块类型以球状刚毛藻为主,这种大型藻类有潜在能力垄断空间,而另一种类型则是由生长低矮的附着在石头上的微藻草皮组成,有几种固着性食草动物(特别是毛翅目昆虫白丝角石蛾和黄拟角石蛾)栖息其中。在水流速度≤约50厘米/秒的河道中部区域没有球状刚毛藻斑块;笼养实验表明其缺失是由于小龙虾(近邻螯虾)的啃食。球状刚毛藻在水流速度>50厘米/秒的区域出现,部分原因显然是在高水流状态下小龙虾的觅食活动受到了影响。球状刚毛藻的存在因其改变了微生境的非生物和生物特征,从而强烈影响了各种其他无脊椎动物。例如,栖息在微藻斑块中的固着性食草动物(如白丝角石蛾和黄拟角石蛾)的丰度与球状刚毛藻的丰度呈负相关,而其他几种无脊椎动物(如窄痣蜉蝣和带翅石蝇)的丰度与球状刚毛藻的丰度呈正相关。因此,在这个系统的某些部分,小龙虾充当关键捕食者,因为它们有能力调节球状刚毛藻的丰度,而球状刚毛藻反过来又对群落的其他组成部分产生强烈的正负影响。然而,在没有小龙虾的情况下,球状刚毛藻在高水流速度区域并不总是能垄断空间。如果固着性食草动物在球状刚毛藻之前到达这些区域,它们就能阻止球状刚毛藻的定殖。因此,在没有小龙虾的地方,一个区域被球状刚毛藻斑块或固着性食草动物 - 微藻草皮斑块主导的可能性取决于两组随机过程:(1)那些创造裸地空间的过程(如干扰和食草动物出现);(2)那些控制球状刚毛藻或食草动物在这些裸地定殖时间的过程。这些优先效应(即食草动物和球状刚毛藻抑制彼此定殖的能力)导致了这两种斑块类型显著的空间异质性。总体而言,这些结果表明竞争、捕食和物理因素之间的相互作用如何能够产生复杂多样的群落格局。
