The Digestive Diverticula in the Carnivorous Nudibranch, Melibe leonina, Do Not Contain Photosynthetic Symbionts

Author:

Watson W H1,Bourque K M F12,Sullivan J R13,Miller M1,Buell A14,Kallins M G5,Curtis N E56,Pierce S K78,Blackman E910,Urato S9,Newcomb J M9ORCID

Affiliation:

1. Department of Biological Sciences, University of New Hampshire, Durham, NH 03824, USA

2. Department of Pediatrics, Johns Hopkins Hospital, Baltimore, MD 21287, USA

3. Department of Human Development and Family Studies, University of New Hampshire, Durham, NH 03824, USA

4. Department of Psychiatry, Dartmouth College Geisel School of Medicine, Hanover, NH 03755, USA

5. Department of Biology, Rollins College, Winter Park, FL 32789, USA

6. Department of Biology, Ave Maria University, Ave Maria, FL 34142, USA

7. Department of Integrative Biology, University of South Florida, Tampa, FL 33620, USA

8. Department of Biology, University of Maryland, College Park, MD 20742, USA

9. Department of Biology and Health Science, New England College, Henniker, NH 03242, USA

10. College of Osteopathic Medicine, Lake Erie College of Osteopathic Medicine, Bradenton, FL 34211, USA

Abstract

Synopsis A number of nudibranchs, including Melibe engeli and Melibe pilosa, harbor symbiotic photosynthetic zooxanthellae. Melibe leonina spends most of its adult life on seagrass or kelp, capturing planktonic organisms in the water column with a large, tentacle-lined oral hood that brings food to its mouth. M. leonina also has an extensive network of digestive diverticula, located just beneath its translucent integument, that are typically filled with pigmented material likely derived from ingested food. Therefore, the focus of this project was to test the hypothesis that M. leonina accumulates symbiotic photosynthetic dinoflagellates in these diverticula. First, we conducted experiments to determine if M. leonina exhibits a preference for light, which would allow chloroplasts that it might be harboring to carry out photosynthesis. We found that most M. leonina preferred shaded areas and spent less time in direct sunlight. Second, we examined the small green circular structures in cells lining the digestive diverticula. Like chlorophyll, they exhibited autofluorescence when illuminated at 480 nm, and they were also about the same size as chloroplasts and symbiotic zooxanthellae. However, subsequent electron microscopy found no evidence of chloroplasts in the digestive diverticula of M. leonina; the structures exhibiting autofluorescence at 480 nm were most likely heterolysosomes, consistent with normal molluscan digestion. Third, we did not find evidence of altered oxygen consumption or production in M. leonina housed in different light conditions, suggesting the lack of any significant photosynthetic activity in sunlight. Fourth, we examined the contents of the diverticula, using HPLC, thin layer chromatography, and spectroscopy. The results of these studies indicate that the diverticula did not contain any chlorophyll, but rather harbored other pigments, such as astaxanthin, which likely came from crustaceans in their diet. Together, all of these data suggest that M. leonina does sequester pigments from its diet, but not for the purpose of symbiosis with photosynthetic zooxanthellae. Considering the translucent skin of M. leonina, the pigmented diverticula may instead provide camouflage.

Funder

National Institutes of Health

Publisher

Oxford University Press (OUP)

Subject

Plant Science,Animal Science and Zoology,Ecology, Evolution, Behavior and Systematics

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