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Ecology and evolution
May, 2024;14 (5): e11344.

Using external morphology as a proxy for stomach size in .

Laura S Fletcher, April M H Blakeslee, Laura C Crane, Michele F Repetto, Benjamin J Toscano, Blaine D Griffen
Author Information
  1. Laura S Fletcher: Department of Biology Brigham Young University Provo Utah USA. ORCID
  2. April M H Blakeslee: Department of Biology East Carolina University Greenville North Carolina USA.
  3. Laura C Crane: Wells National Estuarine Research Reserve Wells Maine USA.
  4. Michele F Repetto: Department of Biology Temple University Philadelphia Pennsylvania USA.
  5. Benjamin J Toscano: Department of Biology Trinity College Hartford Connecticut USA.
  6. Blaine D Griffen: Department of Biology Brigham Young University Provo Utah USA. ORCID
PMID: 38698925 DOI: 10.1002/ece3.11344

Abstract

Stomach morphology can provide insights into an organism's diet. Gut size or length is typically inversely related to diet quality in most taxa, and has been used to assess diet quality in a variety of systems. However, it requires animal sacrifice and time-consuming dissections. Measures of external morphology associated with diet may be a simpler, more cost-effective solution. At the species level, external measures of the progastric region of the carapace in brachyuran crabs can predict stomach size and diet quality, with some suggestion that this approach may also work to examine individual diet preferences and specialization at the individual level; if so, the size of the progastric region could be used to predict trends in diet quality and consumption for individuals, which would streamline diet studies in crabs. Here, we tested whether external progastric region size predicts internal stomach size across latitude and time of year for individuals of the invasive Asian shore crab . We found that the width of the progastric region increased at a faster rate with body size than stomach width. In addition, the width of the progastric region followed different trends across sites and over time compared to stomach width. Our results therefore suggest that the progastric region may not be used as a proxy for stomach size variation across individuals.

Keywords

Hemigrapsus sanguineus diet quality gut morphology individual variation progastric carapace region

Associated Data

Dryad | 10.5061/dryad.6m905qg5h

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Journal Article

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