Environmental Policy Institute, Memorial University Grenfell Campus, Corner Brook, Newfoundland and Labrador.
Department of Biological Sciences, University of New Brunswick, Saint John, New Brunswick.
PLoS One. 2018 Dec 3;13(12):e0208182. doi: 10.1371/journal.pone.0208182. eCollection 2018.
Freshwater fish populations are rapidly declining globally due to the impacts of rapid climate change and existing non-climatic anthropogenic stressors. In response to these drivers, freshwater fishes are responding by shifting their distribution range, altering the timing of migration and spawning and through demographic processes. By 2050, the mean daily air temperature is predicted to increase by 2 to 3 degrees C in insular Newfoundland and by 3 to 4 degrees C in Labrador. Mean daily precipitation is also projected to increase in all locations, with increased intensity projected for several regions. To mitigate negative consequences of these changes, managers require analytical approaches that describe the vulnerability of fish to climate change. To address this need, the current study adopts the National Marine Fisheries Service vulnerability assessment framework to characterize the vulnerability of freshwater fishes in Newfoundland and Labrador. Twelve vulnerability indicators were developed from an extensive literature review and applied to the assessment. Experts were solicited using an online questionnaire survey and scores for exposure, sensitivity and adaptive capacity were collated and analyzed to derive a final vulnerability score and rank for each species. The analysis showed one species to be of high-very high vulnerability, two species were highly vulnerable while four species were moderately vulnerable to climate change. The result provides insight into the factors that drive vulnerability of freshwater fishes in the region, this information is significant to decision-makers and other stakeholders engaged in managing freshwater fish resources in Newfoundland and Labrador.
由于快速气候变化和现有的非气候人为压力因素的影响,全球淡水鱼类种群正在迅速减少。为应对这些驱动因素,淡水鱼类通过改变其分布范围、改变迁移和产卵的时间以及通过人口过程来做出反应。到 2050 年,预计纽芬兰岛的日平均气温将升高 2 到 3 摄氏度,拉布拉多的日平均气温将升高 3 到 4 摄氏度。预计所有地点的日平均降水量都将增加,预计几个地区的降水量将增加。为减轻这些变化的负面影响,管理人员需要采用描述鱼类对气候变化脆弱性的分析方法。为了满足这一需求,本研究采用了国家海洋渔业局的脆弱性评估框架,来描述纽芬兰和拉布拉多省淡水鱼类的脆弱性。从广泛的文献综述中开发了 12 个脆弱性指标,并将其应用于评估。通过在线问卷调查征求了专家的意见,并整理和分析了暴露、敏感性和适应能力的得分,以得出每个物种的最终脆弱性得分和排名。分析表明,有一种物种的脆弱性极高,两种物种高度脆弱,四种物种对气候变化中度脆弱。研究结果深入了解了驱动该地区淡水鱼类脆弱性的因素,这些信息对参与管理纽芬兰和拉布拉多省淡水鱼类资源的决策者和其他利益相关者具有重要意义。
