Cargando…

Floating nurseries? Scyphozoan jellyfish, their food and their rich symbiotic fauna in a tropical estuary

BACKGROUND: The anthropogenic modification of trophic pathways is seemingly prompting the increase of jellyfish populations at the expense of planktivorous fishes. However, gross generalizations are often made because the most basic aspects of trophic ecology and the diverse interactions of jellyfis...

Descripción completa

Detalles Bibliográficos
Autores principales: Riascos, José M., Aguirre, Willington, Hopfe, Charlotte, Morales, Diego, Navarrete, Ángela, Tavera, José
Formato: Online Artículo Texto
Lenguaje:English
Publicado: PeerJ Inc. 2018
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6014317/
https://www.ncbi.nlm.nih.gov/pubmed/29942701
http://dx.doi.org/10.7717/peerj.5057
_version_ 1783334212747657216
author Riascos, José M.
Aguirre, Willington
Hopfe, Charlotte
Morales, Diego
Navarrete, Ángela
Tavera, José
author_facet Riascos, José M.
Aguirre, Willington
Hopfe, Charlotte
Morales, Diego
Navarrete, Ángela
Tavera, José
author_sort Riascos, José M.
collection PubMed
description BACKGROUND: The anthropogenic modification of trophic pathways is seemingly prompting the increase of jellyfish populations at the expense of planktivorous fishes. However, gross generalizations are often made because the most basic aspects of trophic ecology and the diverse interactions of jellyfish with fishes remain poorly described. Here we inquire on the dynamics of food consumption of the medusoid stage of the scyphozoan jellyfish Stomolophus meleagris and characterize the traits and diversity of its symbiotic community. METHODS: S. meleagris and their associated fauna were sampled in surface waters between November 2015 and April 2017 in Málaga Bay, an estuarine system at the Colombian Pacific. Stomach contents of medusae were examined and changes in prey composition and abundance over time analysed using a multivariate approach. The associated fauna was identified and the relationship between the size of medusae and the size those organisms tested using least-square fitting procedures. RESULTS: The presence of S. meleagris medusa in surface waters was seasonal. The gut contents analysis revealed that algae, copepods and fish early life stages were the more abundant items, and PERMANOVA analysis showed that the diet differed within the seasons (P((perm)) = 0.001) but not between seasons (P((perm)) = 0.134). The majority of the collected medusae (50.4%) were associated with individuals of 11 symbiotic species, 95.3% of them fishes, 3.1% crustaceans and 1.6% molluscs. Therefore, this study reports 10 previously unknown associations. The bell diameter of S. meleagris was positively related to the body sizes of their symbionts. However, a stronger fit was observed when the size relationship between S. meleagris and the fish Hemicaranx zelotes was modelled. DISCUSSION: The occurrence of S. meleagris was highly seasonal, and the observed patterns of mean body size through the seasons suggested the arrival of adult medusae to the estuary from adjacent waters. The diet of S. meleagris in the study area showed differences with previous reports, chiefly because of the abundance of algae that are seemingly ingested but not digested. The low number of zooplanktonic items in gut contents suggest the contribution of alternative food sources not easily identifiable. The observed changes in the composition of food in the guts probably reflect seasonal changes in the availability of prey items. The regular pattern in the distribution of symbionts among medusae (a single symbiont per host) and the positive host-symbiont size relationship reflects antagonistic intraspecific and interspecific behaviour of the symbiont. This strongly suggest that medusa represent an “economically defendable resource” that potentially increases the survival and recruitment of the symbionts to the adult population. We argue that, if this outcome of the symbiotic association can be proven, scyphozoan jellyfish can be regarded as floating nurseries.
format Online
Article
Text
id pubmed-6014317
institution National Center for Biotechnology Information
language English
publishDate 2018
publisher PeerJ Inc.
record_format MEDLINE/PubMed
spelling pubmed-60143172018-06-25 Floating nurseries? Scyphozoan jellyfish, their food and their rich symbiotic fauna in a tropical estuary Riascos, José M. Aguirre, Willington Hopfe, Charlotte Morales, Diego Navarrete, Ángela Tavera, José PeerJ Biodiversity BACKGROUND: The anthropogenic modification of trophic pathways is seemingly prompting the increase of jellyfish populations at the expense of planktivorous fishes. However, gross generalizations are often made because the most basic aspects of trophic ecology and the diverse interactions of jellyfish with fishes remain poorly described. Here we inquire on the dynamics of food consumption of the medusoid stage of the scyphozoan jellyfish Stomolophus meleagris and characterize the traits and diversity of its symbiotic community. METHODS: S. meleagris and their associated fauna were sampled in surface waters between November 2015 and April 2017 in Málaga Bay, an estuarine system at the Colombian Pacific. Stomach contents of medusae were examined and changes in prey composition and abundance over time analysed using a multivariate approach. The associated fauna was identified and the relationship between the size of medusae and the size those organisms tested using least-square fitting procedures. RESULTS: The presence of S. meleagris medusa in surface waters was seasonal. The gut contents analysis revealed that algae, copepods and fish early life stages were the more abundant items, and PERMANOVA analysis showed that the diet differed within the seasons (P((perm)) = 0.001) but not between seasons (P((perm)) = 0.134). The majority of the collected medusae (50.4%) were associated with individuals of 11 symbiotic species, 95.3% of them fishes, 3.1% crustaceans and 1.6% molluscs. Therefore, this study reports 10 previously unknown associations. The bell diameter of S. meleagris was positively related to the body sizes of their symbionts. However, a stronger fit was observed when the size relationship between S. meleagris and the fish Hemicaranx zelotes was modelled. DISCUSSION: The occurrence of S. meleagris was highly seasonal, and the observed patterns of mean body size through the seasons suggested the arrival of adult medusae to the estuary from adjacent waters. The diet of S. meleagris in the study area showed differences with previous reports, chiefly because of the abundance of algae that are seemingly ingested but not digested. The low number of zooplanktonic items in gut contents suggest the contribution of alternative food sources not easily identifiable. The observed changes in the composition of food in the guts probably reflect seasonal changes in the availability of prey items. The regular pattern in the distribution of symbionts among medusae (a single symbiont per host) and the positive host-symbiont size relationship reflects antagonistic intraspecific and interspecific behaviour of the symbiont. This strongly suggest that medusa represent an “economically defendable resource” that potentially increases the survival and recruitment of the symbionts to the adult population. We argue that, if this outcome of the symbiotic association can be proven, scyphozoan jellyfish can be regarded as floating nurseries. PeerJ Inc. 2018-06-19 /pmc/articles/PMC6014317/ /pubmed/29942701 http://dx.doi.org/10.7717/peerj.5057 Text en ©2018 Riascos et al. http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, reproduction and adaptation in any medium and for any purpose provided that it is properly attributed. For attribution, the original author(s), title, publication source (PeerJ) and either DOI or URL of the article must be cited.
spellingShingle Biodiversity
Riascos, José M.
Aguirre, Willington
Hopfe, Charlotte
Morales, Diego
Navarrete, Ángela
Tavera, José
Floating nurseries? Scyphozoan jellyfish, their food and their rich symbiotic fauna in a tropical estuary
title Floating nurseries? Scyphozoan jellyfish, their food and their rich symbiotic fauna in a tropical estuary
title_full Floating nurseries? Scyphozoan jellyfish, their food and their rich symbiotic fauna in a tropical estuary
title_fullStr Floating nurseries? Scyphozoan jellyfish, their food and their rich symbiotic fauna in a tropical estuary
title_full_unstemmed Floating nurseries? Scyphozoan jellyfish, their food and their rich symbiotic fauna in a tropical estuary
title_short Floating nurseries? Scyphozoan jellyfish, their food and their rich symbiotic fauna in a tropical estuary
title_sort floating nurseries? scyphozoan jellyfish, their food and their rich symbiotic fauna in a tropical estuary
topic Biodiversity
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6014317/
https://www.ncbi.nlm.nih.gov/pubmed/29942701
http://dx.doi.org/10.7717/peerj.5057
work_keys_str_mv AT riascosjosem floatingnurseriesscyphozoanjellyfishtheirfoodandtheirrichsymbioticfaunainatropicalestuary
AT aguirrewillington floatingnurseriesscyphozoanjellyfishtheirfoodandtheirrichsymbioticfaunainatropicalestuary
AT hopfecharlotte floatingnurseriesscyphozoanjellyfishtheirfoodandtheirrichsymbioticfaunainatropicalestuary
AT moralesdiego floatingnurseriesscyphozoanjellyfishtheirfoodandtheirrichsymbioticfaunainatropicalestuary
AT navarreteangela floatingnurseriesscyphozoanjellyfishtheirfoodandtheirrichsymbioticfaunainatropicalestuary
AT taverajose floatingnurseriesscyphozoanjellyfishtheirfoodandtheirrichsymbioticfaunainatropicalestuary