![]() The GigaPan system ( ) consists of hardware to capture multiple images on a grid through controlled positioning, software to stitch the images and create very-high-resolution panoramas, and a website to facilitate viewing, searching, exploring, and annotating, and to encourage discussion. Ongoing advances in technologies for capturing and viewing very-high-resolution images have greatly expanded the capacity to study a broad range of biotic and abiotic ecosystem processes across spatial scales ( Sargent et al., 2010a Brown et al., 2012). ![]() A variety of manual and robotic mounts are commercially available. Panoramic tripod mounts can assist with taking sequences of images that can be stitched to produce composite images. The information contained in traditional single-frame photographs is a compromise between image detail and the amount of area covered. ![]() Conclusions: A technique for observing time sequences of both individual plant and ecosystem response at a range of spatial scales is available for use in the laboratory and in the field.Images were collected every 2 h over a 3-mo period to capture the response of vegetation to monsoon season rainfall ( ). A modified, solar-powered system was deployed at a remote field site in southern Arizona. ![]() ![]() The resultant time-lapse sequence ( ) captures growth detail such as circumnutation. Methods and Results: A robotic camera mount and software were used to capture images of the growth and movement in Brassica rapa every 15 s in the laboratory.We report a new method for creating time-lapse sequences of very-high-resolution photographs to produce zoomable images that facilitate observation across a range of spatial and temporal scales. Premise of the study: Traditional photography is a compromise between image detail and area covered. ![]()
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