评估蓝鲨(Prionace glauca)的行为模型预测,仅从Argos数据就可以更深入地了解栖息地的使用情况

Riley Elliott, Jingjing Zhang, Todd Dennis, John Montgomery, Craig Radford
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引用次数: 0

摘要

生境与行为的关系为物种管理提供了重要信息。对于大型、自由漫游的海洋动物,卫星标签提供了高分辨率的运动信息,但由于成本的限制,这些数据集受到限制。从这些数据中提取额外的生物学重要信息将提高利用率和价值。已经开发了几种建模方法来识别跟踪数据中的行为状态。本研究的目的是评估一种基于ARGOS数据的蓝鲨(Prionace glauca)行为状态预测模型。使用的六个SPLASH卫星标签的新颖性质使行为事件能够在蓝鲨潜水数据中被识别,并沿着各自的水面位置轨迹精确地绘制时空图。然后根据观察到的行为事件对沿着六个表面位置轨迹建模的行为状态进行测试,以评估模型的准确性。结果表明,结合K均值聚类分析的行为改变点分析(BCPA)模型在预测觅食行为方面表现良好(正确率为86%)。搜索(52%)和旅行(63%)行为的预测准确性较低,可能与潜水数据中觅食事件的数字优势有关。该模型在预测觅食行为方面的有效性证明了将其应用于9个额外的地表定位(SPOT标签)轨道,大大提高了昂贵和稀有数据的利用率。结果使觅食的关键行为状态能够在整个蓝鲨的家园范围内被绘制出来,从而允许对关键栖息地的驱动因素进行调查。这一验证加强了这种模型的使用,以解释蓝鲨和其他物种的历史和未来数据集,有助于保护管理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluating Behavioural Modelling Predictions in the Blue Shark (Prionace glauca) Enables Greater Insight on Habitat Use from Location only Argos Data
The relationship between habitat and behaviour provides important information for species management. For large, free roaming, marine animals satellite tags provide high resolution information on movement, but such datasets are restricted due to cost. Extracting additional biologically important information from these data would increase utilisation and value. Several modelling approaches have been developed to identify behavioural states in tracking data. The objective of this study was to evaluate a behavioural state prediction model for blue shark (Prionace glauca) ARGOS surface location-only data. The novel nature of the six SPLASH satellite tags used enabled behavioural events to be identified in blue shark dive data and accurately mapped spatio-temporally along respective surface location-only tracks. Behavioural states modelled along the six surface location-only tracks were then tested against observed behavioural events to evaluate the model's accuracy. Results showed that the Behavioural Change Point Analysis (BCPA) model augmented with K means clustering analysis performed well for predicting foraging behaviour (correct 86% of the time). Prediction accuracy was lower for searching (52%) and travelling (63%) behaviour, likely related to the numerical dominance of foraging events in dive data. The model's validation for predicting foraging behaviour justified its application to nine additional surface location-only (SPOT tag) tracks, substantially increasing the utilisation of expensive and rare data. Results enabled the critical behavioural state of foraging, to be mapped throughout the entire home range of blue sharks, allowing drivers of critical habitat to be investigated. This validation strengthens the use of such modelling to interpret historic and future datasets, for blue sharks but also other species, contributing to conservational management.
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