| Abstract |
Instruments attached to animals ('biologgers') have facilitated extensive discoveries about the patterns, causes, and consequences of animal behavior. Here, we present examples of how biologging can deepen our fundamental understanding of ecosystems and our applied understanding of global change impacts by enabling tests of ecological theory. Applying the iterative process of science to biologging has enabled a diverse set of insights, including social and experiential learning in long-distance migrants, state-dependent risk aversion in foraging predators, and resource abundance driving movement across taxa. Now, biologging is poised to tackle questions and refine ecological theories at increasing levels of complexity by integrating measurements from numerous individuals, merging datasets from multiple species and their environments, and spanning disciplines, including physiology, behavior and demography. |
| Authors |
Roxanne S. Beltran  , A. Marm Kilpatrick , Simona Picardi , Briana Abrahms , Gabriel M. Barrile  , William K. Oestreich , Justine A. Smith , Max F. Czapanskiy , Arina B. Favilla , Ryan R Reisinger , Jessica M. Kendall-Bar , Allison R. Payne , Matthew S. Savoca , Danial G. Palance , Samantha Andrzejaczek , Daphne M Shen , Taiki Adachi , Daniel P. Costa , Natalie A. Storm , Conner M. Hale , Patrick W. Robinson
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