Quaglietta Lorenzo, Porto Miguel
1CIBIO/InBio, Centro de Investigação em Biodiversidade e Recursos Genéticos, Laboratório Associado, Universidade do Porto, Campus Agrário de Vairão, 4485-661 Vairão, Portugal.
2CIBIO/InBio, Centro de Investigação em Biodiversidade e Recursos Genéticos, Laboratório Associado, Instituto Superior de Agronomia, Universidade de Lisboa, Tapada da Ajuda, 1349-017 Lisbon, Portugal.
Mov Ecol. 2019 Apr 2;7:11. doi: 10.1186/s40462-019-0154-8. eCollection 2019.
Lack of suitable analytical software and computational power constrains the comprehension of animal movement. In particular, we are aware of no tools allowing simulating spatially-explicit multistate Markovian movements constrained to linear features or conditioned by landscape heterogeneity, which hinders movement ecology research in linear/dendritic (e.g. river networks) and heterogeneous landscapes.SiMRiv is a novel, fast and intuitive R package we designed to fill such gap. It does so by allowing continuous-space mechanistic spatially-explicit simulation of multistate Markovian individual movements incorporating landscape bias on local behavior.
We present SiMRiv and its main functionalities, illustrate its simulation capabilities and easy-of-use, and discuss its limitations and potential improvements. We further provide examples of use and a preliminary evaluation, using real and simulated data, of a parameter approximation experimental method. SiMRiv allowed us to generate increasingly complex movements of three theoretical species (aquatic, semiaquatic and terrestrial), showing the effects of input parameters and water-dependence on emerging movement patterns, and to parameterize a high-frequency simulation model from real, low-frequency movement (telemetry) data. Typical running times for conducting 1000 simulations with 10,000 steps each, of two-state movement trajectories in a river network, were of ca. 3 min in an Intel Core i7 CPU X990 @ 3.47 GHz.
SiMRiv allows simulation of movements constrained to linear habitats or conditioned by landscape heterogeneity, therefore enhancing the application of movement ecology to linear/dendritic and heterogeneous landscapes. Importantly, the software is flexible enough to be used in linear, heterogeneous, as well as homogeneous landscapes. Using the same software, algorithm and approach, one can therefore use SiMRiv to study the movement of different organisms in a variety of landscapes, facilitating comparative research.SiMRiv balances ease and speed with high realism of the movement models obtainable, constituting a fast, powerful, yet intuitive tool, which should contribute exploring several movement-related questions. Its applications depart from the generation of mechanistic null movement models, up to population level (e.g. landscape connectivity) analyses, holding potential for all fields requiring the simulation of random trajectories.
缺乏合适的分析软件和计算能力限制了对动物运动的理解。特别是,我们知道没有工具能够模拟受线性特征约束或受景观异质性影响的空间明确的多状态马尔可夫运动,这阻碍了在线性/树枝状(如河网)和异质景观中的运动生态学研究。SiMRiv是我们设计的一个新颖、快速且直观的R包,旨在填补这一空白。它通过允许对多状态马尔可夫个体运动进行连续空间机制的空间明确模拟来实现这一点,该模拟纳入了景观对局部行为的偏差。
我们展示了SiMRiv及其主要功能,说明了其模拟能力和易用性,并讨论了其局限性和潜在改进。我们还提供了使用示例以及对一种参数近似实验方法的初步评估,使用真实和模拟数据。SiMRiv使我们能够生成三种理论物种(水生、半水生和陆生)日益复杂的运动,展示输入参数和水依赖性对新兴运动模式的影响,并根据真实的低频运动(遥测)数据对高频模拟模型进行参数化。在英特尔酷睿i7 CPU X990 @ 3.47 GHz上,对河网中两状态运动轨迹进行每次10000步的1000次模拟的典型运行时间约为3分钟。
SiMRiv允许模拟受线性栖息地约束或受景观异质性影响的运动,从而增强了运动生态学在 线性/树枝状和异质景观中的应用。重要的是,该软件足够灵活,可用于线性、异质以及同质景观。因此,使用相同的软件、算法和方法,人们可以使用SiMRiv研究不同生物体在各种景观中的运动,便于进行比较研究。SiMRiv在易用性和速度与可获得的运动模型的高逼真度之间取得了平衡,构成了一个快速、强大且直观的工具,应该有助于探索几个与运动相关的问题。其应用范围从生成机制性零运动模型到种群水平(如景观连通性)分析,对所有需要模拟随机轨迹的领域都具有潜力。
