Rovero Francesco, Mtui Arafat, Kitegile Amani, Jacob Philipo, Araldi Alessandro, Tenan Simone
Tropical Biodiversity Section, MUSE-Museo delle Scienze, Corso del Lavoro e della Scienza 3, Trento, Italy; Udzungwa Ecological Monitoring Centre, Udzungwa Mountains National Park, Mang'ula, Tanzania.
Udzungwa Ecological Monitoring Centre, Udzungwa Mountains National Park, Mang'ula, Tanzania; College of African Wildlife Management, Mweka, Tanzania.
PLoS One. 2015 Feb 25;10(2):e0118330. doi: 10.1371/journal.pone.0118330. eCollection 2015.
Growing threats to primates in tropical forests make robust and long-term population abundance assessments increasingly important for conservation. Concomitantly, monitoring becomes particularly relevant in countries with primate habitat. Yet monitoring schemes in these countries often suffer from logistic constraints and/or poor rigor in data collection, and a lack of consideration of sources of bias in analysis. To address the need for feasible monitoring schemes and flexible analytical tools for robust trend estimates, we analyzed data collected by local technicians on abundance of three species of arboreal monkey in the Udzungwa Mountains of Tanzania (two Colobus species and one Cercopithecus), an area of international importance for primate endemism and conservation. We counted primate social groups along eight line transects in two forest blocks in the area, one protected and one unprotected, over a span of 11 years. We applied a recently proposed open metapopulation model to estimate abundance trends while controlling for confounding effects of observer, site, and season. Primate populations were stable in the protected forest, while the colobines, including the endemic Udzungwa red colobus, declined severely in the unprotected forest. Targeted hunting pressure at this second site is the most plausible explanation for the trend observed. The unexplained variability in detection probability among transects was greater than the variability due to observers, indicating consistency in data collection among observers. There were no significant differences in both primate abundance and detectability between wet and dry seasons, supporting the choice of sampling during the dry season only based on minimizing practical constraints. Results show that simple monitoring routines implemented by trained local technicians can effectively detect changes in primate populations in tropical countries. The hierarchical Bayesian model formulation adopted provides a flexible tool to determine temporal trends with full account for any imbalance in the data set and for imperfect detection.
热带森林中灵长类动物面临的威胁日益增加,这使得进行强有力的长期种群数量评估对于保护工作变得越发重要。与此同时,在有灵长类动物栖息地的国家,监测工作也变得尤为重要。然而,这些国家的监测方案常常受到后勤限制和/或数据收集缺乏严谨性的影响,并且在分析过程中没有考虑偏差来源。为了满足对可行的监测方案和灵活的分析工具以进行可靠趋势估计的需求,我们分析了当地技术人员收集的关于坦桑尼亚乌德宗瓦山脉三种树栖猴(两种疣猴属物种和一种猕猴属物种)数量的数据,该地区对于灵长类特有物种和保护具有国际重要性。我们在该地区的两个森林区块(一个受保护,一个未受保护)沿着八条样线在11年的时间跨度内对灵长类社会群体进行了计数。我们应用了最近提出的开放集合种群模型来估计数量趋势,同时控制观察者、地点和季节的混杂效应。受保护森林中的灵长类种群数量稳定,而包括特有物种乌德宗瓦红疣猴在内的疣猴属物种在未受保护森林中数量急剧下降。第二个地点存在的针对性狩猎压力是观察到这种趋势的最合理的解释。样线间未解释的检测概率变异性大于观察者造成的变异性,这表明观察者之间的数据收集具有一致性。雨季和旱季在灵长类数量和可检测性方面均无显著差异,这支持仅在旱季进行采样的选择,因为这样能将实际限制最小化。结果表明,由经过培训的当地技术人员实施的简单监测程序能够有效地检测热带国家灵长类种群的变化。所采用的分层贝叶斯模型公式提供了一个灵活的工具,能够在充分考虑数据集的任何不平衡以及不完美检测的情况下确定时间趋势。
