The Use of Chemical Cues by Sargassum Shrimps Latreutes fucorum and Leander tenuicornis in Establishing and Maintaining a Symbiosis with the Host Sargassum Algae

A mutualistic symbiosis exists between the alga Sargassum spp. and two shrimp species, Latreutes fucorum and Leander tenuicornis. However, little is known about how these shrimp locate and establish their host alga. Both visual and chemical cues are potentially available. A previous study has looked...

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Bibliographic Details
Published inDiversity (Basel) Vol. 13; no. 7; p. 305
Main Authors Frahm, Jaime L., Brooks, William Randy
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.07.2021
Subjects
Algae
Animal behavior
chemical cues
Chemical stimuli
Chemicals
Chemoreception
Cues
Dilution
Exploratory behavior
Latreutes fucorum
Leander tenuicornis
Organisms
Preferences
Sargassum
Sargassum shrimps
Searching
Sensitivity
Shellfish
Shrimps
Species
Symbiosis
Visual stimuli
Weather
Sargasso Sea
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Summary:A mutualistic symbiosis exists between the alga Sargassum spp. and two shrimp species, Latreutes fucorum and Leander tenuicornis. However, little is known about how these shrimp locate and establish their host alga. Both visual and chemical cues are potentially available. A previous study has looked at both cue variables with results that are mixed. Specifically, these same shrimp species used chemical cues only when visible cues were available simultaneously. Visual cues would be presumably restricted at night, but chemical cues are potentially available continuously. This current research elaborates on the previous study to fully understand Sargassum shrimp chemoreception. Increases in sample sizes and both a 4-chambered and Y-maze apparatus were used to test whether the shrimp could detect Sargassum cues, dimethylsulfoniopropionate (DMSP) (a chemical excreted by some marine algae), and conspecific cues. Neither shrimp species showed a strong directional response to any of the chemical cues, but the Sargassum and DMSP cues did cause more shrimp to exhibit searching behavior. Additionally, several differences in responses between male and female shrimp were found for each cue. A lowered dilution of DMSP was also tested to determine sensitivity of L. fucorum shrimp to the chemical cue; although searching behavior was triggered, conclusions about quantifying the sensitivity could not be made. Overall, these results show the shrimp can detect chemical cues—in the absence of visual cues—that could affect initiating and maintaining this shrimp/algal symbiosis.
ISSN:1424-2818
1424-2818
DOI:10.3390/d13070305