TY - JOUR T1 - No room to roam: King Cobras reduce movement in agriculture JF - bioRxiv DO - 10.1101/2020.03.24.006676 SP - 2020.03.24.006676 AU - Benjamin Michael Marshall AU - Matt Crane AU - InĂªs Silva AU - Colin Thomas Strine AU - Max Dolton Jones AU - Cameron Wesley Hodges AU - Pongthep Suwanwaree AU - Taksin Artchawakom AU - Surachit Waengsothorn AU - Matt Goode Y1 - 2020/01/01 UR - http://biorxiv.org/content/early/2020/03/25/2020.03.24.006676.abstract N2 - Studying animal movement provides insights into how animals react to land-use changes, specifically how animals can change their behaviour in agricultural areas. Recent reviews show a tendency for species to reduce movements in response to increased human landscape modification, but the study of movement has not been extensively explored in reptiles. We examined movements of a large reptilian predator, the King Cobra (Ophiophagus hannah), in Northeast Thailand. We used a consistent regime of radio-telemetry tracking to document movements across protected forest and adjacent agricultural areas. We then adapted GPS-targeting analytic methods to examine the movement using metrics of site reuse and dynamic Brownian Bridge Movement Model derived motion variance. Examination of motion variance demonstrated that King Cobra movements increased in forested areas and tended to decrease in agricultural areas. Our Integrated Step-Selection Functions indicated that when moving in agricultural areas King Cobras restricted their movements, thereby remaining within vegetated semi-natural areas, often located along the banks of irrigation canals. Site reuse metrics of residency time and number of revisits remained unaffected by distance to landscape features. Neither motion variance nor reuse metrics were consistently affected by the presence of threatening landscape features (e.g. roads, human settlements); suggesting that King Cobras will remain in close proximity to threats, provided habitat patches are available. Although King Cobras displayed heterogeneity in their response to agricultural landscapes, the overall trend suggested a reduction in movements when faced with fragmented habitat patches embedded in an otherwise inhospitable land-use matrix. Reductions in movements are consistent with findings for mammals and forest specialist species. ER -