Abstract
Marking organisms with fluorescent dyes and powders is a common technique used in ecological field studies that monitor movement of organisms to examine life history traits, behaviors, and population dynamics. External fluorescent marking is relatively inexpensive and can be readily employed to quickly mark large numbers of individuals; however, the ability to detect marked organisms in the field at night has been hampered by the limited detection distances provided by portable fluorescent ultraviolet lamps. In recent years, significant advances in LED lamp and laser technology have led to development of powerful, low-cost ultraviolet light sources. In this study, we evaluate the potential of these new technologies to improve detection of fluorescent-marked organisms in the field and to create new possibilities for tracking marked organisms in visually challenging environments such as tree canopies and aquatic habitats. Using handheld lasers, we document a method that provides a fivefold increase in detection distance over previously available technologies. This method allows easy scouting of tree canopies (from the ground), as well as shallow aquatic systems. This novel detection method for fluorescent-marked organisms thus promises to significantly enhance the use of fluorescent marking as a non-destructive technique for tracking organisms in natural environments, facilitating field studies that aim to document otherwise inaccessible aspects of the movement, behavior, and population dynamics of study organisms, including species with significant economic impacts or relevance for ecology and human health.
Highlights
Field studies that track or recapture marked organisms can provide key insights into otherwise inaccessible aspects of life histories and behaviors of study organisms
As a model study organism, we used fluorescent-marked brown marmorated stink bugs (BMSB), Halyomorpha halys Stål, an invasive pest species that is active across field and forest edges [22,23]
Volunteers with the xenon lamp did not detect the five BMSB placed at the top of the canopy, but within 20 minutes they did detect 77± 10% of the 15 BMSB that were placed lower in the canopy
Summary
Field studies that track or recapture marked organisms can provide key insights into otherwise inaccessible aspects of life histories and behaviors of study organisms. Such methods can be used to study movement or local population dynamics of ecologically and economically important organisms, including endangered or invasive species, agricultural pests, and disease vectors. A number of different marking and detection techniques have been developed.
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