In their recently published work, David Jacoby and colleagues combine long-term shark tracking data with that of enforcement patrols to see how behaviour can influence the vulnerability of marine life to illegal fishing in one of the world’s largest marine protected areas. Continue reading How can movement ecology support marine protected areas in preventing illegal fishing?
In their new research, Testing the importance of harvest refuges for phenotypic rescue of trophy‐hunted populations, Poisson and colleagues explain why closing hunting seasons earlier could be vital to the future of bighorn sheep. This illustration by Benoît Leblanc summarises the key implications of their work. Read the full article, Testing the importance of harvest refuges for phenotypic rescue of trophy‐hunted populations in Journal of … Continue reading Let’s not turn big horns into little horns
Using the example of a spatial recreational fishery for lake trout in northern Canada, Wilson et al. present an exciting analysis of how human behaviour and local ecological dynamics interact to shape landscape-level outcomes. Associate Editor, Robert Arlinghaus highlights why this article has been selected as an Editor’s Choice. The field of applied ecology is increasingly moving towards studies that integrate human behaviour and ecological … Continue reading Editor’s Choice 57:02 – Understanding anglers as spatially mobile human predators in freshwater landscapes
Part of our Spotlight, Management of wide-ranging species, Thomas A. Clay explains how advances in remote tracking technology are offering us a glimpse into the mysterious life of the albatross in the hope of developing conservation measures to protect seabirds from bycatch risks. The authors have adapted this post from an article they previously shared with BirdLife International. Albatrosses are iconic voyagers, well known for … Continue reading Identifying fishery risk zones for seabird populations
Gamelon et al. aim to answer this question in their recently published Commentary. The harvest-interaction hypothesis Natural populations in marine to terrestrial ecosystems are experiencing a climate that is rapidly changing. These changes can induce marked fluctuations in population size over years and lead to higher extinction risk. In addition to human-induced changes in climate, many natural populations are affected by harvest, with removal of … Continue reading Does harvest dampen or amplify the effects of climate change on natural populations?