TY - JOUR T1 - Introducing digital cameras to monitor plant phenology in the tropics: applications for conservation JO - Perspectives in Ecology and Conservation T2 - AU - Alberton,Bruna AU - Torres,Ricardo da S. AU - Cancian,Leonardo F. AU - Borges,Bruno D. AU - Almeida,Jurandy AU - Mariano,Greice C. AU - Santos,Jefersson dos AU - Morellato,Leonor Patricia Cerdeira SN - 25300644 M3 - 10.1016/j.pecon.2017.06.004 DO - 10.1016/j.pecon.2017.06.004 UR - https://perspectecolconserv.com/en-introducing-digital-cameras-monitor-plant-articulo-S2530064417300019 AB - The application of digital cameras to monitor the environment is becoming global and changing the way of phenological data collection. The technique of repeated digital photographs to monitor plant phenology (phenocams) has increased due to its low-cost investment, reduced size, easy set up installation, and the possibility of handling high-resolution near-remote data. Considering the widespread use of phenocams worldwide, our main goals here are: (i) to provide a step-by-step guide for phenocam set up in the tropics, reinforce its appliance as an efficient tool for monitoring tropical phenology and foster networking, (ii) to discuss phenocam applications for biological conservation, management, and ecological restoration. We provide the concepts and properties for image analysis which allow representing the phenological status of the vegetation. The association of a long-term imagery data with local sensors (e.g., meteorological stations and surface-atmosphere flux towers) allows a wide range of studies, especially linking phenological patterns to climatic drivers; and the impact of climate changes on plant responses. We show phenocams applications for conservation as to document disturbances and changes on vegetation structure, such as deforestation, fire events, and flooding and the vegetation recovery. Networks of phenocams are growing globally and represent an important tool for conservation and restoration, as it provides hourly to daily information of monitored systems spread over several sites, ecosystems, and climatic zones. Moreover, websites enriched by vegetation dynamic imagery data can promote science knowledge by engaging citizen science participation. ER -