Howard Brett R, Barrios-O'Neill Daniel, Alexander Mhairi E, Dick Jaimie T A, Therriault Thomas W, Robinson Tamara B, Côté Isabelle M
Earth to Ocean Research Group, Department of Biological Sciences, Simon Fraser University, Burnaby, British Columbia, Canada.
Institute for Global Food Security, School of Biological Sciences, The Queen's University Belfast, Belfast, Northern Ireland, United Kingdom.
PeerJ. 2018 Sep 28;6:e5634. doi: 10.7717/peerj.5634. eCollection 2018.
Variability in the ecological impacts of invasive species across their geographical ranges may decrease the accuracy of risk assessments. Comparative functional response analysis can be used to estimate invasive consumer-resource dynamics, explain impact variability, and thus potentially inform impact predictions. The European green crab () has been introduced on multiple continents beyond its native range, although its ecological impacts appear to vary among populations and regions. Our aim was to test whether consumer-resource dynamics under standardized conditions are similarly variable across the current geographic distribution of green crab, and to identify correlated morphological features.
Crabs were collected from multiple populations within both native (Northern Ireland) and invasive regions (South Africa and Canada). Their functional responses to local mussels ( spp.) were tested. Attack rates and handling times were compared among green crab populations within each region, and among regions (Pacific Canada, Atlantic Canada, South Africa, and Northern Ireland). The effect of predator and prey morphology on prey consumption was investigated.
Across regions, green crabs consumed prey according to a Type II (hyperbolic) functional response curve. Attack rates (i.e., the rate at which a predator finds and attacks prey), handling times and maximum feeding rates differed among regions. There was a trend toward higher attack rates in invasive than in native populations. Green crabs from Canada had lower handling times and thus higher maximum feeding rates than those from South Africa and Northern Ireland. Canadian and Northern Ireland crabs had significantly larger claws than South African crabs. Claw size was a more important predictor of the proportion of mussels killed than prey shell strength.
The differences in functional response between regions reflect observed impacts of green crabs in the wild. This suggests that an understanding of consumer-resource dynamics (e.g., the measure of predation), derived from simple, standardized experiments, might yield useful predictions of invader impacts across geographical ranges.
入侵物种在其地理分布范围内的生态影响存在差异,这可能会降低风险评估的准确性。比较功能反应分析可用于估计入侵性消费者 - 资源动态,解释影响差异,从而有可能为影响预测提供信息。欧洲绿蟹()已被引入其原生范围之外的多个大陆,尽管其生态影响在不同种群和地区似乎有所不同。我们的目的是测试在标准化条件下的消费者 - 资源动态在绿蟹当前地理分布范围内是否同样存在差异,并识别相关的形态特征。
从原生地区(北爱尔兰)和入侵地区(南非和加拿大)的多个种群收集螃蟹。测试它们对当地贻贝( 属)的功能反应。比较每个地区内绿蟹种群之间以及各地区(加拿大太平洋地区、加拿大大西洋地区、南非和北爱尔兰)之间的攻击率和处理时间。研究了捕食者和猎物形态对猎物消耗的影响。
在各地区,绿蟹根据II型(双曲线)功能反应曲线消耗猎物。攻击率(即捕食者发现并攻击猎物的速率)、处理时间和最大摄食率在各地区之间存在差异。入侵种群的攻击率有高于原生种群的趋势。来自加拿大的绿蟹处理时间较短,因此最大摄食率高于来自南非和北爱尔兰的绿蟹。加拿大和北爱尔兰的螃蟹爪子明显比南非的螃蟹大。爪子大小比猎物壳强度更能预测被杀死贻贝的比例。
各地区功能反应的差异反映了绿蟹在野外观察到的影响。这表明,通过简单的标准化实验得出的对消费者 - 资源动态(例如捕食量度)的理解,可能会对入侵物种在地理范围内的影响产生有用的预测。
