Camouflage and Clutch Survival in Plovers and Terns

Animals achieve camouflage through a variety of mechanisms, of which background matching and disruptive coloration are likely the most common. Although many studies have investigated camouflage mechanisms using artificial stimuli and in lab experiments, less work has addressed camouflage in the wild...

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Veröffentlicht in:	Scientific reports 2016-09, Vol.6 (1), p.32059-32059, Article 32059
Hauptverfasser:	Stoddard, Mary Caswell, Kupán, Krisztina, Eyster, Harold N., Rojas-Abreu, Wendoly, Cruz-López, Medardo, Serrano-Meneses, Martín Alejandro, Küpper, Clemens
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Schlagworte:	631/158/856 631/181 631/601/18 Algorithms Animals Behavior Biological Mimicry Birds Butterflies & moths Camouflage Charadriiformes - physiology Color Coloration Eggs Evolutionary biology Habitats Humanities and Social Sciences Image Processing, Computer-Assisted multidisciplinary Nesting Predation Science Science (multidisciplinary) Species Specificity Survival Survival Analysis Zoology
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description	Animals achieve camouflage through a variety of mechanisms, of which background matching and disruptive coloration are likely the most common. Although many studies have investigated camouflage mechanisms using artificial stimuli and in lab experiments, less work has addressed camouflage in the wild. Here we examine egg camouflage in clutches laid by ground-nesting Snowy Plovers Charadrius nivosus and Least Terns Sternula antillarum breeding in mixed aggregations at Bahía de Ceuta, Sinaloa, Mexico. We obtained digital images of clutches laid by both species. We then calibrated the images and used custom computer software and edge detection algorithms to quantify measures related to three potential camouflage mechanisms: pattern complexity matching, disruptive effects and background color matching. Based on our image analyses, Snowy Plover clutches, in general, appeared to be more camouflaged than Least Tern clutches. Snowy Plover clutches also survived better than Least Tern clutches. Unexpectedly, variation in clutch survival was not explained by any measure of egg camouflage in either species. We conclude that measures of egg camouflage are poor predictors of clutch survival in this population. The behavior of the incubating parents may also affect clutch predation. Determining the significance of egg camouflage requires further testing using visual models and behavioral experiments.
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Although many studies have investigated camouflage mechanisms using artificial stimuli and in lab experiments, less work has addressed camouflage in the wild. Here we examine egg camouflage in clutches laid by ground-nesting Snowy Plovers Charadrius nivosus and Least Terns Sternula antillarum breeding in mixed aggregations at Bahía de Ceuta, Sinaloa, Mexico. We obtained digital images of clutches laid by both species. We then calibrated the images and used custom computer software and edge detection algorithms to quantify measures related to three potential camouflage mechanisms: pattern complexity matching, disruptive effects and background color matching. Based on our image analyses, Snowy Plover clutches, in general, appeared to be more camouflaged than Least Tern clutches. Snowy Plover clutches also survived better than Least Tern clutches. Unexpectedly, variation in clutch survival was not explained by any measure of egg camouflage in either species. 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Although many studies have investigated camouflage mechanisms using artificial stimuli and in lab experiments, less work has addressed camouflage in the wild. Here we examine egg camouflage in clutches laid by ground-nesting Snowy Plovers Charadrius nivosus and Least Terns Sternula antillarum breeding in mixed aggregations at Bahía de Ceuta, Sinaloa, Mexico. We obtained digital images of clutches laid by both species. We then calibrated the images and used custom computer software and edge detection algorithms to quantify measures related to three potential camouflage mechanisms: pattern complexity matching, disruptive effects and background color matching. Based on our image analyses, Snowy Plover clutches, in general, appeared to be more camouflaged than Least Tern clutches. Snowy Plover clutches also survived better than Least Tern clutches. Unexpectedly, variation in clutch survival was not explained by any measure of egg camouflage in either species. 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subjects	631/158/856 631/181 631/601/18 Algorithms Animals Behavior Biological Mimicry Birds Butterflies & moths Camouflage Charadriiformes - physiology Color Coloration Eggs Evolutionary biology Habitats Humanities and Social Sciences Image Processing, Computer-Assisted multidisciplinary Nesting Predation Science Science (multidisciplinary) Species Specificity Survival Survival Analysis Zoology
title	Camouflage and Clutch Survival in Plovers and Terns
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