Intraguild predation may reinforce a species-environment gradient
- 作者:Calum MacNeila ; Jaimie T.A. Dickb ; j.dick@qub.ac.uk
- 关键词:Species replacements ; Environmental gradients ; Intraguild predation ; Salinity tolerance ; Amphipod
- 刊名:Acta OEcologica
- 出版年:2012
- 期刊代码:1_1146609x
- 类别:abs
- 出版时间:May, 2012
- 卷:41
- 期:Complete
- 页码:90-94
- 文件大小:403 K
摘要
Species-environment gradients are ubiquitous in nature, with studies often partially explaining the replacement of species along such gradients by autecological factors such as differential physiological tolerances. However, lacking direct evidence, the majority of studies only infer some form of inter-specific interaction, often competition, as reinforcing these gradients. There is usually the further implication that environmental factors mediate asymmetries in the interaction. Recognising the lack of explicit experimental considerations of how key inter-specific interactions are modified by the environment, we chose a study system where we were able to bring the species in question into the laboratory and conduct experiments to test hypotheses about gradient-induced asymmetries in an inter-specific interaction. To this end, we tested the hypothesis that a species-salinity gradient may be reinforced by changes in the asymmetry of intraguild predation between two species of amphipod crustaceans with wide salinity tolerances. River and estuary surveys showed that Gammarus duebeni and Gammarus zaddachi have overlapping distributions, with both surviving and reproducing in salinities ranging from freshwater to fully marine. However, the former species is relatively more abundant in low salinities and the latter in higher salinities. In the laboratory, survival of both species was high in all salinities and cannibalism occurred at low frequencies. However, intraguild predation by males on moulted females was asymmetric in favour of G.聽duebeni at low salinities, this asymmetry completely reversing to favour G.聽zaddachi at higher salinities. Thus, we provide evidence that this species-environment gradient occurs due to overlapping physiological tolerances and salinity-driven shifts in the asymmetry of a key inter-specific interaction, intraguild predation.