# Influence of temperature on developmental and biochemical traits of the red squat lobster Grimothea monodon (H. Milne Edwards, 1837) during early ontogeny

**Authors:** Marco Quispe-Machaca, Luis Olavarría, Gabriela Torres, Ángel Urzúa

PMC · DOI: 10.7717/peerj.20278 · 2025-10-22

## TL;DR

This study examines how temperature affects the early development of red squat lobster larvae and finds that they can adapt to temperature changes without significant negative effects.

## Contribution

The study reveals intraspecific variability in developmental traits and high physiological plasticity in G. monodon larvae under different temperatures.

## Key findings

- Development time and larval size varied with temperature, but mortality remained unchanged.
- No significant differences were found in biomass or biochemical composition at advanced larval stages.
- G. monodon larvae show high physiological-energetic plasticity to cope with temperature variations in their environment.

## Abstract

Temperature is one of the most important environmental factors that influence on the successful development and survival of decapod larvae. Our model species, the red squat lobster Grimothea monodon, has a wide biogeographic distribution in the Humboldt Current Ecosystem (HCE) and support important fishing activities. Recently, it has been described that juvenile and adult individuals of G. monodon (i.e., benthic phase of their ontogeny), present intraspecific variations in size, lifestyle, and nutritional condition, which could be modulated by the environmental conditions like temperature associated with depth. However, it is still unknown whether these intraspecific variations also occur during early ontogeny (i.e., planktonic larval phase). To investigate, we evaluated the effect of contrasting temperatures (i.e., cold: 12 °C vs. warm: 20 °C) on the developmental and biochemical parameters of larvae of the red squat lobster G. monodon under laboratory conditions. Our results show that differences were observed only in the development time and larval size of the larvae developed at the two experimental culture temperatures. No significant variations were recorded in mortality during the larval phase (i.e., from zoea I to megalopa), nor were significant variations detected in the biomass (dry weight) or the biochemical-elemental constituents (carbon, hydrogen, nitrogen) of an advanced larval stage (zoea V) at the two evaluated temperatures. Our findings suggest that during early ontogeny G. monodon presents intraspecific variability in its developmental traits along with a high physiological-energetic plasticity that allows it to survive and successfully cope with the temporal and spatial variations in seawater temperature that frequently occur in the HCE.

## Linked entities

- **Chemicals:** carbon (PubChem CID 5462310), hydrogen (PubChem CID 783), nitrogen (PubChem CID 947)
- **Species:** Grimothea monodon (taxon 252938)

## Full-text entities

- **Chemicals:** nitrogen (MESH:D009584), hydrogen (MESH:D006859), carbon (MESH:D002244)
- **Species:** Gulella monodon (species) [taxon 940753]

## Figures

14 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12553365/full.md

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Source: https://tomesphere.com/paper/PMC12553365