Effects of low salinity on adult behavior and larval performance in the intertidal gastropod Crepipatella peruviana (Calyptraeidae)

Shallow-water coastal areas suffer frequent reductions in salinity due to heavy rains, potentially stressing the organisms found there, particularly the early stages of development (including pelagic larvae). Individual adults and newly hatched larvae of the gastropod Crepipatella peruviana were exp...

Full description

Saved in:
Bibliographic Details
Published in:PloS one 2014-07, Vol.9 (7), p.e103820
Main Authors: Montory, Jaime A, Pechenik, Jan A, Diederich, Casey M, Chaparro, Oscar R
Format: Article
Language:English
Subjects:
Acipenser sinensis
Adaptation, Physiological
Adults
Analysis
Animal behavior
Animal Distribution
Animals
Aquariums
Biology and Life Sciences
Calyptraeidae
Coastal ecosystems
Coastal waters
Coastal zone
Crepidula
Crepipatella
Developmental stages
Embryos
Environmental conditions
Exposure
Fitness
Gastropoda
Gastropoda - physiology
Hatching
Heavy rainfall
Laboratories
Larva - physiology
Larvae
Mortality
Oxygen
Oxygen consumption
Physical fitness
Physiology
Pleuronectes platessa
Rain
Salinity
Salinity effects
Seawater - chemistry
Stress, Physiological
Substrates
Surface area
Swimming
Velocity
Vertical distribution
Water column
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Shallow-water coastal areas suffer frequent reductions in salinity due to heavy rains, potentially stressing the organisms found there, particularly the early stages of development (including pelagic larvae). Individual adults and newly hatched larvae of the gastropod Crepipatella peruviana were exposed to different levels of salinity stress (32(control), 25, 20 or 15), to quantify the immediate effects of exposure to low salinities on adult and larval behavior and on the physiological performance of the larvae. For adults we recorded the threshold salinity that initiates brood chamber isolation. For larvae, we measured the impact of reduced salinity on velar surface area, velum activity, swimming velocity, clearance rate (CR), oxygen consumption (OCR), and mortality (LC50); we also documented the impact of salinity discontinuities on the vertical distribution of veliger larvae in the water column. The results indicate that adults will completely isolate themselves from the external environment by clamping firmly against the substrate at salinities ≤24. Moreover, the newly hatched larvae showed increased mortality at lower salinities, while survivors showed decreased velum activity, decreased exposed velum surface area, and decreased mean swimming velocity. The clearance rates and oxygen consumption rates of stressed larvae were significantly lower than those of control individuals. Finally, salinity discontinuities affected the vertical distribution of larvae in the water column. Although adults can protect their embryos from low salinity stress until hatching, salinities
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0103820