Climatic anomaly affects the immune competence of California sea lions.

Marina Banuet-Martínez,Olga P García,Adriana Flores-Morán,Mariela Camacho,Karina Acevedo-Whitehouse,Fernando R Elorriaga-Verplancken,Wendy Espinosa-De Aquino,Ashlesh K Murthy

doi:10.1371/journal.pone.0179359

Marina Banuet-Martínez, Olga P García + Show 6 more

Open Access

https://doi.org/10.1371/journal.pone.0179359

Copy DOI

Abstract

The past decades have been characterized by a growing number of climatic anomalies. As these anomalies tend to occur suddenly and unexpectedly, it is often difficult to procure empirical evidence of their effects on natural populations. We analysed how the recent sea surface temperature (SST) anomaly in the northeastern Pacific Ocean affects body condition, nutritional status, and immune competence of California sea lion pups. We found that pup body condition and blood glucose levels of the pups were lower during high SST events, although other biomarkers of malnutrition remained unchanged, suggesting that pups were experiencing early stages of starvation. Glucose-dependent immune responses were affected by the SST anomaly; specifically, pups born during high SST events had lower serum concentrations of IgG and IgA, and were unable to respond to an immune challenge. This means that not only were pups that were born during the SST anomaly less able to synthesize protective antibodies; they were also limited in their ability to respond rapidly to nonspecific immune challenges. Our study provides empirical evidence that atypical climatic conditions can limit energetic reserves and compromise physiological responses that are essential for the survival of a marine top predator.

Highlights

During the boreal winter of 2013 a sudden increase in sea surface temperature (SST) was detected in the Gulf of Alaska [1,2]
Mean glucose levels were 15% lower in pups born under atypical SST conditions (F2.70 = 4.35, p = 0.013; Fig 2a)
Body condition was significantly lower for pups born during the years of high SST conditions than during 2012 (F2.79 = 20.37, p = 7.35x10-08; Fig 2b), and those born in 2015 had a lower body condition than those born in 2014 (Tukey HSD, p = 0.02)

Summary

Introduction

During the boreal winter of 2013 a sudden increase in sea surface temperature (SST) was detected in the Gulf of Alaska [1,2]. This anomaly, referred to as ‘The Blob’, extended gradually southwards. The SST anomaly was further impacted by an El Niño event, confirmed in June 2015 [3]. These events led to an unprecedented 2 to 5 ̊C increase above the historical average in the SST [2]. The SST anomaly was on average 1 ̊C higher in 2015 than in 2014 for the central part of Baja California, where the San Benito Archipelago is located, and in some months exceeded

Methods

Results

Discussion

Conclusion